Method for isolating a polynucleotide of interest from the genome of a mycobacterium using a bac-based DNA library: application to the detection of mycobacteria

I. BACKGROUND OF THE INVENTION

The present invention pertains to a method for isolating a polynucleotide of interest that is present in the genome of a mycobacterium strain and/or is expressed by said mycobacterium strain and that is absent or altered in the genome of a different mycobacterium strain and/or is not expressed in said different mycobacterium strain, said method comprising the use of at least one clone belonging to a genomic DNA library of a given mycobaterium strain, said DNA library being cloned in a bacterial artificial chromosome (BAC). The invention concerns also polynucleotides identified by the above method, as well as detection methods for mycobacteria, particularly

Mycobacterium tuberculosis

, and kits using said polynucleotides as primers or probes. Finally, the invention deals with BAC-based mycobacterium DNA libraries used in the method according to the invention and particularly BAC-based

Mycobacterium tuberculosis

and

Mycobacterium bovis

BCG DNA libraries.

Radical measures are required to prevent the grim predictions of the World Health Organisation for the evolution of the global tuberculosis epidemic in the next century becoming a tragic reality. The powerfill combination of genomics and bioinformatics is providing a wealth of information about the etiologic agent,

Mycobacterium tuberculosis

, that will facilitate the conception and development of new therapies. The start point for genome sequencing was the integrated map of the 4.4 Mb circular chromosome of the widely-used, virulent reference strain,

M. tuberculosis

H37Rv and appropriate cosmids were subjected to systematic shotgun sequence analysis at the Sanger Centre.

Cosmid clones (Balasubramanian et al., 1996; Pavelka et al., 1996) have played a crucial role in the

M. tuberculosis

H37Rv genome sequencing project. However, problems such as under-representation of certain regions of the chromosome, unstable inserts and the relatively small insert size complicated the production of a comprehensive set of canonical cosmids representing the entire genome.

II. SUMMARY OF THE INVENTION

In order to avoid the numerous technical constraints encountered in the state of the art, as decribed hereabove, when using genomic mycobacterial DNA libraries constructed in cosmid clones, the inventors have attempted to realize genomic mycobacterial DNA libraries in an alternative type of vectors, namely Bacterial Artificial Chromosome (BAC) vectors.

The success of this approach depended on whether the resulting BAC clones could maintain large mycobacterial DNA inserts. There are various reports describing the successful construction of a BAC library for eucaryotic organisms (Cai et al., 1995; Kim et al., 1996; Misumi et al., 1997; Woo et al., 1994; Zimmer et al., 1997) where inserts up to 725 kb (Zimmer et al., 1997) were cloned and stably maintained in the

E. coli

host strain.

Here, it is shown that, surprisingly, the BAC system can also be used for mycobacterial DNA, as 70% of the clones contained inserts in the size of 25 to 104 kb.

This is the first time that bacterial, and specifically mycobacterial, DNA is cloned in such BAC vectors.

In an attempt to obtain complete coverage of the genome with a minimal overlapping set of clones, a Bacterial Artificial Chromosome (BAC) library of

M. tuberculosis

was constructed, using the vector pBeloBAC11 (Kim et al., 1996) which combines a simple phenotypic screen for recombinant clones with the stable propagation of large inserts (Shizuya et al., 1992). The BAC cloning system is based on the

E. coli

F-factor, whose replication is strictly controlled and thus ensures stable maintenance of large constructs (Willets et al., 1987). BACs have been widely used for cloning of DNA from various eucaryotic species (Cai et al., 1995; Kim et al., 1996; Misumi et al., 1997; Woo et al., 1994; Zimmer et al., 1997). In contrast, to our knowledge this report describes the first attempt to use the BAC system for cloning bacterial DNA.

A central advantage of the BAC cloning system over cosmid vectors used in prior art is that the F-plasmid is present in only one or a maximum of two copies per cell, reducing the potential for recombination between DNA fragments and, more importantly, avoiding the lethal overexpression of cloned bacterial genes. However, the presence of the BAC as just a single copy means that plasmid DNA has to be extracted from a large volume of culture to obtain sufficient DNA for sequencing and it is described here in the examples a simplified protocol to achieve this.

Further, the stability and fidelity of maintenance of the clones in the BAC library represent ideal characteristics for the identification of genomic differences possibly responsible for phenotypic variations in different mycobacterial species.

As it will be shown herein, BACs can be allied with conventional hybridization techniques for refined analyses of genomes and transcriptional activity from different mycobacterial species.

Having established a reliable procedure to screen for genomic polymorphisms, it is now possible to conduct these comparisons on a more systematic basis than in prior art using representative BACs throughout the chromosome and genomic DNA from a variety of mycobacterial species.

As another approach to display genomic polymorphisms, the inventors have also started to use selected H37Rv BACs for “molecular combing” experiments in combination with fluorescent in situ hybridization (Bensimon et al., 1994; Michalet et al., 1997). With such techniques the one skilled in the art is enabled to explore the genome of mycobacteria in general and of

M. tuberclosis

in particular for further polymorphic regions.

The availability of BAC-based genomic mycobacterial DNA libraries constructed by the inventors have allowed them to design methods and means both useful to identify genomic regions of interest of pathogenic mycobacteria, such as

Mycobacterium tuberculosis

, that have no counterpart in the corresponding non-pathogenic strains, such as

Mycobacterium bovis

BCG, and useful to detect the presence of polynucleotides belonging to a specific mycobacterium strain in a biological sample.

By a biological sample according to the present invention, it is notably intended a biological fluid, such as plasma, blood, urine or saliva, or a tissue, such as a biopsy.

Thus, a first object of the invention consists of a method for isolating a polynucleotide of interest that is present in the genome of a mycobacterium strain and/or is expressed by said mycobacterium strain and that is absent or altered in the genome of a different mycobacterium strain and/or is not expressed in said different mycobacterium strain, said method comprising the use of at least one clone belonging to a genomic DNA library of a given mycobaterium strain, said DNA library being cloned in a bacterial artificial chromosome (BAC).

The invention is also directed to a polynucleotide of interest that has been isolated according to the above method and in partoular a polynucleotide containing one or several Open Reading Frames (ORFs), for example ORFs encoding either a polypeptide involved in the pathogenicity of a mycobacterium strain or ORFs encoding Polymorphic Glycine Rich Sequences (PGRS).

Such polynucleotides of interest may serve as probes or primers in order to detect the presence of a specific myobacterium strain in a biological sample or to detect the expression of specific genes in a particular mycobacterial strain of interest.

The BAC-based genomic mycobacterial DNA libraries generated by the present inventors are also part of the invention, as well as each of the recombinant BAC clones and the DNA insert contained in each of said recombinant BAC clones.

The invention also pertains to methods and kits for detecting a specific mycobacterium in a biological sample using either at least one recombinant BAC clone or at least one polynucleotide according to the invention, as well as to methods and kits to detect the expression of one or several specific genes of a given mycobacterial strain present in a biological sample.

III. BRIEF DESCRIPTION OF THE FIGURES

In order to better understand the present invention, reference will be made to the appended figures which depicted specific embodiments to which the present invention is in no case limited in scope with.

FIGS.

1

A and

1

B: PCR-screening for unique BAC clones with specific primers for 2 selected genomic regions of the H37Rv chromosome, using 21 pools representating 2016 BACs (Panel A) and sets of 20 subpools from selected positive pools (Panel B).

FIG.

2

: Pulsed-field gel electrophoresis gel of DraI-cleaved BAC clones used for estimating the insert sizes of BACs.

FIGS.

3

A-

3

D: Minimal overlapping BAC map of

M. tuberclosis

H37Rv superimposed on the integrated physical and genetic map established by Philipp et al. (18). Y- and I-numbers show pYUB328 (2) and pYUB412 (16) cosmids which were shotgun sequenced during the H37Rv genome sequencing project. Y-cosmids marked with * were shown in the integrated physical and genetic map (18). Rv numbers show the position of representative BAC clones relative to sequenced Y- and I-clones. Squared Rv numbers show BACs which were shotgun sequenced at the Sanger Centre.

FIGS.

4

A and

4

B: Ethidium bromide stained gel (Panel A) and corresponding Southern blot (PanelB) of EcoRI and PvuII digested Rv58 DNA hybridized with

32

P labeled genomic DNA preparations from

M. tuberclosis

H37Rv,

M. bovis

ATCC 19210 and

M. bovis

BCG Pasteur.

FIG.

5

: Organisation of the ORFs in the 12.7 kb genomic region present in

M. tuberculosis

H37Rv but not present in

M. bovis

ATCC 19210 and

M. bovis

BCG Pasteur. Arrows show the direction of transcription of the putative genes. Positions of EcoRI and PvuII restriction sites are shown. Vertical dashes represent stop codons. The 11 ORFs correspond to the ORFs MTCY277.28 to MTCY277.38/accession number Z79701-EMBL Nucleotide Sequence Data Library. The junction sequences flanking the polymorphic region are shown.

FIG.

6

: Variation in the C-terminal part of a PE-PGRS open reading frame in

M. tuberculosis

strain H37Rv relative to

M. bovis

BCG strain Pasteur.

The numbers on the right side of the Figure denote the position of the end nucleotides, taking as the reference the

M. tuberclosis

genome.

FIG.

7

: Polynucleotide sequence next to the HindIII cloning site in the BAC vector pBeloBAC11 (Kim et al., 1996) used to clone the inserts of the BAC-based myobacterial genomic DNA library according to the invention.

NotI: location of the NotI restriction sites.

Primer T7-BAC1: nucleotide region recognized by the T7-BAC1 primer shown in Table 1.

T7 promoter: location of the T7 promoter region on the pBeloBac11 vector.

Primer T7-Belo2: nucleotide region recognized by the T7-Belo2 pimer shown in Table 1.

Hind III: the HindIII cloning site used to clone the genomic inserts in the pBeloBAC11 vector.

SP6-Mid primer: nucleotide region recognized by the SP6 Mid primer shown in Table 1.

SP6-BAC1 primer: nucleotide region recognized by the SP6 BAC1 primer shown in Table 1.

SP6 promoter: location of the SP6 promoter region on the pBeloBac11 vector.

IV. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

As already mentioned hereinbefore, the present invention is directed to a method for isolating a polynucleotide of interest that is present in the genome of a mycobacterium strain and/or is expressed by said mycobacterium strain and that is absent or altered in the genome of a different mycobacterium strain and/or is not expressed in said different mycobacterium strain, said method comprising the use of at least one clone belonging to a genomic DNA library of a given mycobaterium strain, said DNA library being cloned in a bacterial artificial chromosome (BAC).

For this purpose, the inventors have constructed several BAC-based mycobacterial genomic DNA libraries that may be used in order to perform the above described method.

Because it is the first time that mycobacterial genomic DNA has been successfully cloned in BAC type vectors, and because these DNA libraries are then novel and nonobvious, an object of the present invention consists in a myobacterial genomic DNA library cloned in such a BAC type vector.

As an illustrative example, a BAC-based DNA library of

Mycobacterium tuberculosis

has been realized. Forty-seven cosmids chosen from the integrated map of the 4.4 Mb circular chromosome (Philipp et al., 1996a) were shotgun-sequenced during the initial phase of the H37Rv genome sequence project. The sequences of these clones were used as landmarks in the construction of a minimally overlapping BAC map. Comparison of the sequence data from the termini of 420 BAC clones allowed us to establish a minimal overlapping BAC map and to fill in the existing gaps between the sequence of cosmids. As well as using the BAC library for genomic mapping and sequencing, we also tested the system in comparative genomic experiments in order to uncover differences between two closely related mycobacterial species. As shown in a previous study (Philipp et al., 1996b),

M. tuberclosis, M. bovis

and

M. bovis

BCG, specifically BCG Pasteur strain, exhibit a high level of global genomic conservation, but certain polymorphic regions were also detected. Therefore, it was of great interest to find a reliable, easy and rapid way to exactly localize polymorphic regions in mycobacterial genomes using selected BAC clones. This approach was validated by determining the exact size and location of the polymorphisms in the genomic region of Dral fragment Z4 (Philipp et al., 1996b), taking advantage of the availability of an appropriate BAC clone covering the polymorphic region and the H37Rv genome sequence data. This region is located approximately 1.7 Mb from the origin of replication.

The Bacterial Artificial Chromosome (BAC) cloning system is capable of stably propagating large, complex DNA inserts in

Escherichia coli

. As part of the

Mycobacterium tuberculosis

H37Rv genome sequencing project, a BAC library was constructed in the pBeloBAC11 vector and used for genome mapping, confirmation of sequence assembly, and sequencing. The library contains about 5000 BAC clones, with inserts ranging in size from 25 to 104 kb, representing theoretically a 70 fold coverage of the

M. tuberclosis

genome (4.4 Mb). A total of 840 sequences from the T7 and SP6 termini of 420 BACs were determined and compared to those of a partial genomic database. These sequences showed excellent correlation between the estimated sizes and positions of the BAC clones and the sizes and positions of previously sequenced cosmids and the resulting contigs. Many BAC clones represent linking clones between sequenced cosmids, allowing full coverage of the H37Rv chromosome, and they are now being shotgun-sequenced in the framework of the H37Rv sequencing project. Also, no chimeric, deleted or rearranged BAC clones were detected, which was of major importance for the correct mapping and assembly of the H37Rv sequence. The minimal overlapping set contains 68 unique BAC clones and spans the whole H37Rv chromosome with the exception of a single gap of ˜150 kb. As a post-genomic application, the canonical BAC set was used in a comparative study to reveal chromosomal polymorphisms between

M. tuberclosis, M. bovis

and

M. bovis

BCG Pasteur, and a novel 12.7 kb segment present in

M. tuberclosis

but absent from

M. bovis

and

M. bovis

BCG was characterized. This region contains a set of genes whose products show low similarity to proteins involved in polysaccharide biosynthesis. The H37Rv BAC library therefore provides the one skilled in the art with a powerfill tool both for the generation and confirmation of sequence data as well as for comparative genomics and a plurality of post-genomic applications.

The above described BAC-based

Mycobacterium tuberculosis

genomic DNA library is part of the present invention and has been deposited in the Collection Nationale de Cultures de Microorganismes (CNCM) on Nov. 19, 1997 under the accession number I-1945.

Another BAC-based DNA library has been constructed with the genomic DNA of

Mycobacterium bovis

BCG, Pasteur strain, and said DNA library has been deposited in the Collection Nationale de Cultures de Microorganismes (CNCM) on Jun. 30, 1998 under the accession number I-2049.

Thus, as a specific embodiment of the above described method for isolating a polynucleotide of interest said method makes use of at least one BAC-based DNA library that has beeen constructed from the genomic DNA of

Mycobacterium tuberculosis

, more specifically of the H37Rv strain and particularly of the DNA library deposited in the accession number I-1945.

In another specific embodiment of the above described method for isolating a polynucleotide of interest said method makes use of at least one BAC-based DNA library has beeen constructed from the genomic DNA of

Mycobacterium bovis

BCG, more specifically of the Pasteur strain and particularly of the DNA library deposited in the accession number I-2049.

In more details, the method according to the invention for isolating a polynucleotide of interest may comprise the following steps:

a) Isolating at least one polynucleotide contained in a clone of a BAC-based DNA library of mycobacterial origin;

b) Isolating:

at least one genomic or cDNA polynucleotide from a mycobacterium, said mycobacterium belonging to a strain different from the strain used to construct the BAC-based DNA library of step a); or alternatively

at least one polynucleotide contained in a clone of a BAC-based DNA library prepared from the genome of a mycobacterium that is different from the mycobacterium used to construct the BAC-based DNA library of step a);

c) Hybridizing the at least one polynucleotide of step a) to the at least one polynucleotide of step b);

d) Selecting the at least one polynucleotide of step a) that has not formed a hybrid complex with the at least one polynucleotide of step b);

e) Characterizing the selected polynucleotide.

Following the above procedure, the at least one polynucleotide of step a) may be prepared as follows:

1) Digesting at least one recombinant BAC clone by an appropriate resctriction endonuclease in order to isolate the polynucleotide insert of interest from the vector genetic material;

2) Optionally amplifying the resulting polynucleotide insert;

3) Optionally digesting the polynucleotide insert of step 1) or step 2) with at least one restriction endonuclease.

The above method of the invention allows the one skilled in the art to perform comparative genomics between different strains or species of mycobacteria cells, for example between pathogenic strains or species and their non pathogenic strains or species counterparts, as it is the illustrative case for the genomic comparison between

Mycobacterium tuberculosis

and

Mycobacterium bovis

BCG that is described herein in the examples.

Restriction digests of a given clone of a BAC library according to the invention may be blotted to membranes, and then probed with radiolabeled DNA form another strain or another species of mycobacteria, allowing the one skilled in the art to identify, characterize and isolate a polynucleotide of interest that may be involved in important metabolical and/or physiological pathways of the mycobacterium under testing, such as a polynucleotide functionally involved in the pathogenicity of said given mycobacteria for its host organism.

More specifically, the inventors have shown in Example 6 that when restriction digests of a given clone of the BAC library identified by the CNCM accession number I-1945 are blotted to membranes and then probed with radiolabeled total genomic DNA from, for example,

Mycobacterium bovis

BCG Pasteur, it is observed that restriction fragments that fail to hybridize with the

M. bovis

BCG Pasteur DNA are absent from its genome, hence identifying polymorphic regions between

M. bovis

BCG Pasteur and

M. tuberclosis

H37Rv.

Thus, a further object of the present invention consists in a polynucleotide of interest that has been isolated according to the method described herein before.

In Example 6, a polynucleotide of approximately 12.7 kilobases has been isolated that is present in the genome of

M. tuberclosis

but is absent of the genome of

M. bovis

BCG. This polynucleotide of interest contains 11 ORFs that may be involved in polysaccharide biosynthesis. In particular, two of said ORFs are of particular interest, namely ORF6 (MTCY277.33; Rv1511) that encodes a protein that shares significant homology with bacterial GDP-D-mannose dehydratases, whereas the protein encoded by ORF7 (MTCY277.34; Rv1512) shares significant homology with a nucleotide sugar epimnerase. As polysaccharide is a major constituent of the mycobacterial cell wall, these deleted genes may cause the cell wall of

M. bovis

BCG to differ from that of

M. tuberclosis

, a fact that may have important consequences for both the immune response to

M. bovis

BCG and virulence. Detection of such a polysaccharide is of diagnostic interest and possibly useful in the design of tuberculosis vaccines.

Consequently, the polynucleotide of interest obtained following the method according to the invention may contain at least one ORF, said ORF preferably encoding all or part of a polypeptide involved in an important metabolical and/or physiological pathway of the mycobacteria under testing, and more specifically all or part of a polypeptide that is involved in the pathogenicity of the mycobacteria under testing, such as for example

Mycobacterium tuberculosis

, and more generally mycobacteria belonging to the

Mycobacterium tuberculosis

complex.

The

Mycobacterium tuberculosis

complex has its usual meaning, i.e. the complex of mycobacteria causing tuberculosis which are

Mycobacterium tuberculosis, Mycobacterium bovis, Mycobacterium africanum, Mycobacterium microti

and the vaccine strain

Mycobacterium bovis

BCG.

An illustrative polynucleotide of interest according to the present invention comprises all or part of the polynucleotide of approximately 12.7 kilobases that is present in the genome of

M. tuberclosis

but is absent from the genome of

M. bovis

BCG disclosed hereinbefore. This polynucleotide is contained in clone Rv58 of the BAC DNA library I-1945.

Generally, the invention also pertains to a purified polynucleotide comprising the DNA insert contained in a recombinant BAC vector belonging to a BAC-based mycobacterial genomic DNA library, such as for example the I-1945 BAC DNA library.

Advantageously, such a polynucleotide has been identified according to the method of the invention.

Such a polynucleotide of interest may be used as a probe or a primer useful for specifically detecting a given mycobacterium of interest, such as

Mycobacterium tuberculosis

or

Mycobacterium bovis

BCG.

More specifically, the invention then deals with a purified polynucleotide usefill as probe or a primer comprising all or part of the nucleotide sequence SEQ ID N

o

1:

ACCTGCGCTT GCAGAGATCA AATAGGGCGC ATGGGTCAGC ATAGTACAGG TCGTCGCGCA

60

TCTTTGATGC ATCGGAATAA GATGTCAGGC AATTAAAAGA GAAGCCACGG CGACTCGCGG

120

CATTCAGCAT GTCGAGCGTC GCTTCGATGT GAGCGCACCA TTCCGTGTCC AACGATTTCA

180

GACGAACATT GAATATTCCA CTCGCGACGC TATAGTCCGC CTCCCGATCT ATGCGCGCCG

240

CGCAGATGAA GTCTGCGTTC GCCCGACCTT CGAAACGTAG TGCGGCCGCG CGCACCATTT

300

CGGGGGAGAC GTCGATGCCG GTGTAATCAG TTTTGAAGCC ACGCGCATCT AGGTAGTCCA

360

GTAGAGCCCC ATAGCCACAG CCTAGATCGT TGATCGAAAA TGGGTCCGCC GCATTGACAA

420

TGCGCACCAG CTGGTCAAAG CGCAACGCCT GCCCGGCTTC GCCGTTCCAA TCGACGCCGC

480

GCGGGTGCCG TGTGCTTCGA GTTTCGATGC GTAGTAACGG GCCACGTCAG CGAGCATGGT

540

CGTTGCGTCT TCCGCCATGA AGCTGCCTCA CGATTTGTGT GTGTGGGCGT CGGTGCGTGG

600

GTCCGAGACT ATACCTTCAA CAGTTGCATG CCGAGGCTGC GGCGGGCAAT GACCCAAAAA

660

CCCGCCGGCA CGGTTCGCCG AGCAAGGAAG CGTGGAGACG ATAGATAATT TCACTGGCGA

720

CAGTACCTCA AATAGTCCGG AGCCTCGGCT CCGACGTTAA AGAGCAGATC CAGAATCGAC

760

ACGGCGGGCT CGAACCCTCC CCACAATTGC TTATAATCGC GGTAGCCGTC ATAATCGAAC

840

CAAGTTACCC GGATGCTAAG TTCGTCGAAC ACGCGCTCAT CGACATACGA ACGGGCTGAG

900

GGGCCAGAGA CATATTCGGT CGCTGCGGCC TGTTGGCAGA GGTTGGCCAG TCTCTCGGTC

960

TTGCCGTCGG CTAATTCGTA GTCCCACGAA TTTGCCAGTC GCGTGCTGAT ACCGAGATAA

1020

CTGCAAATCG CATTCAATAG ACGCCTGTTG AGTAAGGAAA GATTCGTGTG CTGTTCTTCG

1080

AGGTAAATCG GCGCGAGCCA GTCAGCGATC TCCGCAAAAT GAGCGGCCGC GCTGTAGTTG

1140

AATTCTAGTG CCCGCCAGTG CGCTTTCGCC CAATCGGTGC CGTCGATCAG CGTCTCACGT

1200

ATCTTTTGAT GGAAACGTCC CTTCACCTGG ACGGGAACAG TTATCCACTG TAACCCCTGG

1260

CTCGTTTTGA TCCGATTTCT GTTTCGCCAA TCACGCTTGG TATATTGCAT GTCATCATAG

1320

ATGATGAATT CATCGACGAA TGCAATCAGG TCAAAATATC CTCGCCAAGG TATGTAATTT

1380

GATTGAACAA TCGCGACTTT CTTCAACGCG GTGTCTCCAA TTTAGAATAA CAAATACGTC

1440

GCGCCCGCGA CAGCTCCGCT GGAGCGAGTT CAAGCGATTC TGCGACATAT TCAATATGGT

1500

GCTCGGGAAG GCCAGGATGG GCCGCGACCC GGGGCGTCCG GTGCGCGATG AACGTCGCAT

1560

CGTCTCCTGT GAGATAATTG CATCCGATCA TATAGGGCTG GCTGCGGCTA GGTTGCTGGC

1620

AAAAAGATAT CGCGGCCGAT CCGTTTCTGG TTTTGTCTTG ATGATCAAAT CCGCTTCCGT

16B0

TCACGAGATC GATTCCTGGT CTTCCCCCAG CGTCGCGATG TCGATAGGTG TCGCGCTTTG

1740

TTCGTACCCG CACTACGCGG CGGCGAGAAC CTCGCCACCG AATCGGGATT GGGGGGAGGA

1800

TACCACTCGG TCGAGGCCCG TCACCGGCCT TCTAGCGGGT TGACCATCAG TGTTTGCAGG

1860

GCCCTATCCC GGTATGGCGC ACCACGGGAT CGGCAGCGTT CCGGTTGCTG GCGTGGTACC

1920

TCGTTGTGGC GCCGTGGTCC ATGTCGATTG AGTGCGTGGA TCAGTGTAAA CCGTTGCGCG

1980

CCATGTTCTG TAGGCACTGG TTCGGGTTGT GGTTAGGCTG CACGGTTGGC AGGTTACCAA

2040

CCACTGAGCC CCTGGGCGGA TGTGAGCTCG GACTCCGCCT ATGGGGTGTA ATTTTGGCAG

2100

ATTGGGCCGG GTCCCCGTGG TGAGGACTCC TCAACCGGAT TGGGTAAGCA TGAGGTGGTG

2160

CTGGCAGCGG TGTCCTGGTC GCTCTCCCGA GTAGGCCCGT TGTGACTGTC ATGTGGGCGA

2220

GCGGGTTTGC GCGCGTAGGA GACGATGATT ACTACGCACG TGACCAACCA CAAGAACGGT

2280

GCCCATGTCA CCGTGGTGAA AACGAGTGGC GTGGTACCGA CTACCCCTTT GGCTCCCAGC

2340

TGTCCATAGA GCGGCACGTA GAACGGCTGG CCCGGGACCG CGACGTTGAC GATGCTCAGC

2400

GCCACGGCCA AACTCACGCA GACGCCGACC GCGCGGCGGC GGTCTCCATG GGCTGCGAGT

2460

TGGTCGAATA TCCCAGCACC AGGAGGCCCG TTGGGGTCTC GGGCTACCAG TGCAGCGATT

2520

GGCAAGACGA AAACGAGATA GTAGAAGGCG ACGTCCGCGG GGGAGAAGGT GGCGGTGGCG

2580

AGCAACACAA TCCCCACCAT GACAGGCGGG ATACGGCGTC CGAGCGCCAG CACGGCGACC

2640

ACGACTATGA CTAGGACAGC AAACCCGATC TGCGTTCGCG GACCAGTGAG GAAACCCTCT

2700

GGGATCTTGC CCGATTGATA GTTCTTGATG CTATCGGGGA TCAGCAGGAG TGCCTTGCCA

2760

AAGGACACGT TCCGCGGGTC TCGAAGCCCT CCGAACGAAC TATTGAACTT GATGATGCCG

2820

TGGATCGACT GTGCGATCGT CCCCGGGAAG CCTCGTGGCC ACAACAGAAA GGCTGCGATA

2880

TTGGACACCA CCACGCCGGT GATCCCGATA CCAGCCCACC GCCATTGTCG AGCCGCCAAC

2940

AACACCACGC CGAGAACGAC GAACTGCGGC TTTACCAGGA CGGCCAAGAT CACCGTGATG

3000

GTGGCGAGGC CCCACCGCTG TCGGGACAAC GCCACGAAGT AAGCCAGCGC GATCGGTACC

3060

ACGAACCCTG TCGAGTTGCC TCGATCGATG ACCCCCCACG CCGGGATGGC CGCGGCGCCC

3120

AGTGTCACGA AGATGACCAC TCGCTCCAGA CCACGTGCCC CCCGGGCCGC CCAGATGGCG

3180

GGAGATATGA CCGCCATCGT TAGGGCGACC AGGTAACAGA TCAGCCCCAA GCGCGGCGCA

3240

CCCAGCCAAT GGCTGGGTAG TCCGAAAATC GCATACGGTA TGCGGGCGGG GGCCCATGCA

3300

GCAACCGCGG TCGGCTGGTA ATCGGCGGGT AGCGAGATCA GGTAGTCCGC GGGATTGGGT

3360

TGAATCCCGG CGGCGGCGAC CATGGCGTAG TCGCTGAAGC AGTGCCGACC GATATTCATG

3420

CCCCAATCAA GCCAACAGTC CCCAGGGACT ACCAAAAGAG TGGAAAAGAC GTCGACCGCG

3480

TACCACTGAC TGAGGGCGTA CGCCGTCGCC GCCGAAATCA CCGACGCCAG CAGGATGGTG

3540

CCGAGCATGA GGGTGCGCTC GGATTGGGAG CCGATCGCCC AGAGCCGCTC CCGGCTCGCG

3600

GTCACGGCAC CGCGCAACAC CTCCGGGGGT CGCTTCATCT GGATTCTCCT CGGTTCTGCG

3660

CGAAACGGTA GCAGAGCGCC ATGGTTGCCA ACGCGGTCGC CGGGCAGTCT AGACCGGATC

3720

TTCCTCGTGG CAACCGACAA CAGGACGTCG TTGCCGAAAG GGCGCTGGGC ACCGACATCT

3780

AGGATGAACC CACAGCCACG CCCCGACGTT ATGCCATGGC GAAGAGCGAC CGGCAGGAGC

3840

GGGAACCCAG TGAAGCGAGC GCTCATCACC GGAATCACAG GACCGGACGG CTCGTATCTC

3900

GCTAAGCTCC CGCTGAAGGG ATATGTGGCC GCTGGTAGCC CGGCCGAGGT CTATTTCTGC

3960

TGGGCGACAC GGAATTATCG CGAATTGTAT GGGTTGCTCG CGGTCAACAG CATCTGGTTC

4020

AATCACGAAT CACCGCGTCA CGGCGAGACA TTCATGACTC GTAATCCTGC ACCATATCGC

4080

GGTCGGCAAC GAGGCGCTGA TCGATGCGCA GACGCTGATG CGCCGGCCCA CCCGGATAGG

4140

TATCAGTATT GGGGCGTTCC GGCCAGCGTA CGAGGCGTGA TCGACCGCGC AATGGGTGTT

4200

TGCGTTGAGT AATAATCTGA ACCGTGTGAA CGCATGCATG GATGGATTCC TTGCCCGTAT

4260

CCGCTCACAT GTTGATGCGC ACGCGCCAGA ATTGCGTTCA CTGTTCGATA CGATGGCGGC

4320

CGAGGCCCGA TTTGCACGCG ACTGGCTGTC CGAGGACCTC GCGCGGTTGC CTGTCGGTGC

4380

AGCATTGCTG GAAGTGGGCG GGGGGGTACT TCTGCTCAGC TGTCAACTGG CGGCGGAGGG

4440

ATTTGACATC ACCGCCATCG AGCCGACGGG TGAAGGTTTT GGCAAGTTCA GACAGCTTGG

4500

CGACATCGTG CTGGAATTGG CTGCAGCACG ACCCACCATC GCGCCATGCA AGGCGGAAGA

4560

CTTTATTTCC GAGAAGCGGT TCGACTTCGC CTTCTCGCTG AATGTGATGG AGCACATCGA

4620

CCTTCCGGAT GAGGCAGTCA GGCGGGTATC GGAAGTGCTG AAACCGGGGG CCAGTTACCA

4680

CTTCCTGTGC CCGAATTACG TATTCCCGTA CGAACCGCAT TTCAATATCC CAACATTCTT

4740

CACCAAAGAG CTGACATGCC GGGTGATGCG ACATCGCATC GAGGGCAATA CGGGCATGGA

4800

TGACCCGAAG GGAGTCTGGC GTTCGCTCAA CTGGATTACG GTTCCCAAGG TGAAACGCTT

4860

TGCGGCGAAG GATGCGACGC TGACCTTGCG CTTCCACCGT GCAATGTTGG TATGGATGCT

4920

GGAACGCGCG CWGACGGATA AGGAATTCGC TGGTCGCCGG GCACAATGGA TGGTCGCTGC

4980

TATTCGCTCG GCGGTGAAAT TGCGTGTGCA TCATCTGGCA GGCTATGTTC CCGCTACGCT

5040

GCAGCCCATC ATGGATGTGC GGCTAACGAA GAGGTAATGA CATGGCGCAA GCGACATCGG

5100

GCATTCGCGC GGCACTTTCG CAACCTGCTG TGTATGAGGC GTATCAGCGG ATTGCGGGCG

5160

CTAAAAGCGG GCTTGCGTGG ATCACAACCG ACCCCATCCA GTCGTTGCCA GGCATGCGTA

5220

CTCTCGACCT CGGTTGCTGG CCAGCGGTGA TACACAGCTC CCCGCCAGTG GACGTGACAT

5280

GTACGAGAGA CGGCATGAGC GCGGAATGTG CGACCGTGCC GTCGAGATGA CCGACGTCGG

5340

CGCTACGGCA GCCCCCACCG GACCTATCGC GCGGGGCAGC GTCGCTCGGG TCGGCGCGGC

5400

GACCGCGTTG GCCGTTGCCT GCGTCTACAC GGTCATCTAT CTGGCGGCCC GCGACCTACC

5460

CCCGGCTTGT TTTTCGATAT TCGCGGTGTT TTGGGGGGCG CTCGGCATTG CCACCGGCGC

5520

CACCCACGGC CTCCTGCAAG AAACGACCCG CGAGGTCCGC TGGGTGCGCT CCACCCAAAT

5580

AGTTGCGGGC CATCGTACCC ATCCGCTGCG GGTGGCCGGG ATGATTGGCA CCGTCGCGGC

5640

CGTCGTAATT GCGGGTAGCT CACCGCTGTG GAGCCGACAG CTATTCGTCG AGGGGCGCTG

5700

GCTGTCCGTG GGGCTACTCA GCGTTGGGGT GGCCGGGTTC TGCGCGCAGG CGACCCTGCT

5760

GGGCGCGCTG GCCGGCGTCG ACCGGTGGAC ACAGTACGGG TCACTGATGG TGACCGACGC

5820

GGTCATCCGG TTGGCGGTCG CCGCGGCAGC GGTTGTGATC GGATGGGGTC TGGCCGGGTA

5880

CTTGTGGGCC GCCACCGCGG GAGCGGTGGC GTGGCTGCTC ATGCTGATGG CCTCGCCCAC

5940

CGCGCGCAGC GCGGCCAGCC TGCTGACGCC CGGGGGAATC GCCACGTTCG TGCGCGGTGC

6000

CGCTCATTCG ATAACCGCCG CGGGTGCCAG CGCGATTCTG GTAATGGGTT TCCCAGTGTT

6060

GCTCAAAGTG ACCTCCGACC AGTTAGGGGC AAAGGGCGGA GCGGTCATCC TGGCTGTGAC

6120

CTTGACGCGT GCGCCGCTTC TGGTCCCACT GAGCGCGATG CAAGGCAACC TGATCGCGCA

6180

TTTCGTCGAC CGGCGCACCC AACGGCTTCG GGCGCTGATC GCACCGGCGC TGGTCGTCGG

6240

CGGCATCGGT GCGGTCGGGA TGTTGGCCGC AGGGCTTACC GGTCCCTGGT TGCTGCGTGT

6300

TGGATTCGGC CCCGACTACC AAACTGGCGG GGCGTTGCTG GCCTGGTTGA CGGCAGCGGC

6360

GGTAGCTATC GCCATGCTGA CGCTGACCGG CGCCGCCGCG GTCGCGGCCG CACTGCACCG

6420

GGCGTATTTG CTGGGCTGGG TCAGCGCGAC GGTGGCGTCG ACGCTGTTGC TGCTGCTGCC

6480

GATGCCGCTG GAGACGCGCA CCGTGATCGC GCTGTTGTTC GGTCCAACGG TGGGAATCGC

6540

CATCCATGTG GCCGCGTTGG CGCGGCGACC CGACTGATTT GTGCCCCAGG TCGACAAATC

6600

ACGCCGTCTC GTCAGTGAGC ACTCCGTCCT CGGGTCCGAT CCTTCCAGGA GACGTTGCAA

6660

CCTGATTTGG CTCAAATTGG TGCGCACCGA GGGTCGGGCA CATCGTAGGG TCGCAACAGT

6720

CACATGTGTC ACTGCACCGG GCGACACCCG ATGTCCCGGC TCTCAGCGAC AGCTGTCTGA

6780

CCTGTGGTTT TGTTCCCAAG TTGGTCGTGG CTGTGCGGGA TTGGAGGTGG CGTGGGGGTC

6840

GCGTCGTATG GATTCTCCTC CTCGGTTCCG CGCGAAACGG CCGCAGGCGC AATGGTCACC

6900

AACTTGGCCG CGGTGGAGTC TAGCCTCACA TTTTCCTGGT CGCCCCCGAC AACCAGGAGG

6960

TCGCTGCAGA ACGGGCGTTC CCTACCCACA TCTACTATGA AGCGACAGCG GCGCCCCGCT

7020

GTGATGGCTG AGCATGACCG ACAGAGGCGG GAAGACAGTG AAGCGAGCGC TCATCACCGG

7080

AATCACCGGC CAGGACGGCT CGTATCTCGC CGAACTGCTG CTGGCCAAGG GGTATGAGGT

7140

TCACGGGCTC ATCCGGCGCG CTTCGACGTT CAACACCTCG CGGATCGATC ACCTCTACGT

7200

CGACCCGCAC CAACCGGGCG CGCGGCTGTT TCTGCACTAT GGTGACCTGA TCGACGGAAC

7260

CCGGTTGGTG ACCCTGCTGA GCACCATCGA ACCCGACGAG GTGTACAACC TGGCGGCGCA

7320

GTCACACGTG CGGGTGAGCT TCGACGAACC CGTGCACACC GGTGACACCA CCGGCATGGG

7380

ATCCATGCGA CTGCTGGAAG CCGTTCGGCT CTCTCGGGTG CACTGCCGCT TCTATCAGGC

7440

GTCCTCGTCG GAGATGTTCG GCGCCTCGCC GCCACCGCAG AACGAGCTGA CGCCGTTCTA

7500

CCCGCGGTCA CCGTATGGCG CCGCCAAGGT CTATTCGTAC TGGGCGACCC GCAATTATCG

7560

CGAAGCGTAC GGATTGTTCG CCGTTAACGG CATCTTGTTC AATCACGAAT CACCGCGGCG

7620

CGGTGAGACG TTCGTGACCC GAAAGATCAC CAGGGCCGTG GCACGCATCA AGGCCGGTAT

7680

CCAGTCCGAG GTCTATATGG GCAATCTGGA TGCGGTCCGC GACTGGGGGT ACGCGCCCGA

7740

ATACGTCGAA GGCATGTGGC GGATGCTGCA GACCGACGAG CCCGACGACT TCGTTTTGGC

7800

GACCGGGCGC GGTTTCACCG TGCGTGAGTT CGCGCGGGCC GCGTTCGAGC ATGCCGGTTT

7860

GGACTGGCAG CAGTACGTGA AATTCGACCA ACGCTATCTG CGGCCCACCG AGGTGGATTC

7920

GCTGATCGGC GACGCGACCA AGGCTGCCGA ATTGCTGGGC TGGAGGGCTT CGGTGCACAC

7980

TGACGAGTTG GCTCGGATCA TGGTCGACGC GGACATGGCG GCGCTGGAGT GCGAAGGCAA

8040

GCCGTGGATC GACAAGCCGA TGATCGCCGG CCGGACATGA ACGCGCACAC CTCGGTCGGC

8100

CCGCTTGACC GCGCGGCCCG GGTCTACATC GCCGGGCATC GCGGCCTGGT CGGGTCCGCG

8160

CTGCTACGCA CGTTTGCGGG CGCGGGGTTC ACCAACCTGC TGGTGCGGTC ACGCGCCGAG

8220

CTTGATCTGA CGGATCGGGC CGCGACGTTC GACTTCGTTC TCGAGTCGAG GCCGCAGGTC

8280

GTCATCGACG CGGCGGCCCG GGTCGGCGGC ATCCTGGCCA ACGACACCTA CCCGGCCGAT

8340

TTCCTGTCGG AAAACCTCCA GATCCAGGTC AACCTGCTGG ATGCCGCCGT GGCGGCGCGG

8400

GTGCCGCGGC TGCTGTTCCT GGGCTCGTCG TGCATCTACC CGAAACTCGC CCCGCAGCCG

8460

ATCCCGGAGA GCGCGCTGCT CACCGGTCCG TTGGAGCCGA CCAACGACGC GTACGCGATC

8520

GCCAAAATCG CCGGCATCCT TGCGGTCCAG GCGGTGCGCC GCCAACATGG CCTGCCGTGG

8S80

ATCTCGGCGA TGCCCACCAA CCTGTACGGG CCAGGCGACA ACTTTTCGCC GTCCGGCTCG

8640

CATCTGCTGC CGGCACTCAT CCGCCGCTAT GACGAGGCCA AAGCCAGTGG CGCGCCCAAC

8700

GTGACCAACT GGGGCACCGG CACGCCCCGA CGGGAGTTGC TGCACGTCGA CGACCTGGCG

8760

AGCGCATGCC TGTATCTGCT GGAACATTTC GACGGGCCGA CCCATGTCAA CGTGGGAACC

8820

GGCATCGACC ACACCATCGG CGAGATCGCC GAGATGGTCG CCTCGGCGGT AGGCTATAGC

8880

GGCGAAACCC GCTGGGATCC AAGCAAACCG GACGGAACAC CACGCAAACT GCTGGATGTT

8940

TCGGTGCTAC GGGAGGCGGG ATGGCGGCCT TCGATCGCGC TGCGCGACGG CATCGAGGCG

9000

ACGGTGGCGT GGTATCGCGA GCACGCGGGA ACGGTTCGGC AATGAGGCTG GCCCGTCGCG

9060

CTCGGAACAT CTTGCGTCGC AACGGCATCG AGGTGTCGCG CTACTTTGCC GAACTGGACT

9120

GGGAACGCAA TTTCTTGCGC CAACTGCAAT CGCATCGGGT CAGTGCCGTG CTCGATGTCG

9180

GGGCCAATTC GGGGCAGTAC GCCAGGGGTC TGCGCGGCGC GGGCTTCGCG GGCCGCATCG

9240

TCTCGTTCGA GCCGCTGCCC GGGCCCTTTG CCGTCTTGCA GCGCAGCGCC TCCACGGACC

9300

CGTTGTGGGA ATGCCGGCGC TGTGCGCTGG GCGATGTCGA TGGAACCATC TCGATCAACG

9360

TCGCCGGCAA CGAGGGCGCC AGCAGTTCCG TCTTGCCGAT GTTGAAACGA CATCAGGACG

9420

CCTTTCCACC AGCCAACTAC GTGGGCGCCC AACGGGTGCC GATACATCGA CTCGATTCCG

9480

TGGCTGCAGA CGTTCTGCGG CCCAACGATA TTGCGTTCTT GAAGATCGAC GTTCAAGGAT

9S40

TCGAGAAGCA GGTGATCGCG GGTGGCGATT CAACGGTGCA CGACCGATGC GTCGGCATGC

9600

AGCTCGAGCT GTCTTTCCAG CCGTTGTACG AGGGTGGCAT GCTCATCCGC GAGGCGCTCG

9660

ATCTCGTGGA TTCGTTGGGC TTTACGCTCT CGGGATTGCA ACCCGGTTTC ACCGACCCCC

9720

GCAACGGTCG AATGCTGCAG GCCGATGGCA TCTTCTTCCG GGGCAGCGAT TGACGCGCCG

9780

GCGCGTCAAT CTATTTCGAC ATTCGCGTGA AGACGTTTTC CCAGAATCGA CTGTTGTAGG

9840

CGTAGAACTC CCGGCCGCGT AGGTAGGCAT GTGATATTCG CCTTCCCCCG AACGGGTAGC

9900

GGCGATGAAG GTCGCCCATG CGGCGCAGAT CACCGAAGAC CGCGCTTGGT TCCCGGTGCG

9960

AGCCGACGCC CGTGGTGTCG AACTCGCACA GCACACACCG AATCGTGACC GGCTCGCATA

10020

CCAGCGCGGC CCGCAATATG AATTCCTGGT CGGCGGCGAT CCCGAAATCA AGGTCGTAGC

10080

CACCGATCTT GGCCACCAGC GATGATCCGA AGAACGATGC TTGATGCGGA ACAACCTGCT

10140

TGCCGGCCAG GAATTTGCGC AGGCTGAAAG GTATCGGGCC GCGCACCCGA TCGAGCCCGA

10200

CGAGACGATC CATCCCGAAG CCCCACAATT CGGACACCGG TCCCTTGCCG GATAGCGCCT

10260

CCACGGCCTG GGCTACCACG TCGGGCCCGG AAAAACGATC GGCGGAGTGC AAGAACCACA

10320

ACAGATCACC CGATGCGTGC GCGATGCCCT GGTTCATCGC GTCGTACCGC CCGCCGTCGG

10380

GCTCGGACTG CCAATACGCG AAGCCTGGTT CACACCCGGA CAGGTATGCC ACCACGTCGT

10440

CGCCGCTGCC ACCGTCGATT ACGATGTGCT CGATGCGTCC CCGGTAGCGT TGCGCCCGCA

10500

CACTTTTCAC CGTGCGCTGC AACCCGTCGA GGTCGTTGAA CGAGATCGTT ATCACCGAGA

10560

CGGTCGGAGC AGACGTCACC GAGTTCCCCT AGGTTGCTGG CGGCGATTGT GGATCACCGG

10620

GTCTTGATAC CGATGAAGGT GCCTCGAAGA TTCGCCGCAT AGGAACCTCC GAGCAACGAC

106B0

TCGGCGATGC TTGGTTCCAA GTTGTCGTAC TCCTCCATCA CCAGGTCGAC GCCGACGTCT

10740

TTGATGGCCT GAAGTAGGTG CTCGCGTTGA ATCCAGAATG ACCGGCGATT GTCCCAGGAC

10800

GCCCATTTTG CGGTGTCGCG CTGGCCAAAC GAGCGGTCGT CGGAAAACTC GGTAAACCAC

10860

CTACCGGGAA GTCCCTCATG TTCGGTGGGC GCCGAGAGCA TGAACTTCAC CGGCGCCGGC

10920

CGCCGCAGCA ACCGATCGGT CAATTGTCGT GCCGTCGTGG GCAACCGGAG CCATTTATCG

10980

CTCCGGTTGA TGATCGAGAA GTGCGTCTGG AGAATCAGCA GCTTGTTCGT TACCGACGAG

11040

AGGGTTTCCA GGTATTGCTT CGGATTCTCC AGGTGGTAGA AGAGGCCGCA GCAGAAGACG

11100

GTATCGAAGA GCCCGTGGTT GGCGATGTTG AGGGCGTTGT CGTGGACGAA CCGGAGATTC

11160

GGCAGGTTGG TCTTCGATTT GATGTAGTTG CAGGCCGCCA TGTTCAGCTC GCGAACCTCG

11220

ATCCCGAGGA CCTGAAATCC CATGCGCGCG AACCCGACCG CGTACCCGCC TTCCAAGCAG

11280

CCGACATCGG CCAGGCGTAG GTGGCTCTTG TCCCCGGGAA AGACGGTTTC CAGAATCCCG

11340

CGCGCCGAGA TGAACCAGGA CGATTCGTCT AACGTGCGCG AGGACTCCGG TATCGTCAAG

11400

GTTCCGTCGT CGAGGCGAAC GTTGTGGGCG GTGAATTGTA CCGCGCCGGC CGAATGTTCC

11460

TGTGCCATCA CTTGGTTAGC CCCTTCGGCT GGTCCTGGGT TTGTCGACAT GGTCAGGCTC

11520

GACAGCCGCG TCGGAGCCGG GAGGGCCACA CATCCACGAG CCCCCTGCGG CTCGGCGTCG

11580

CGGCGGCGAG CTTGCGCCAC TGGGTCTTGA GCCGCCGCGC GGGTGTCGCC CCGCGGTGCT

11640

GCAGCGCCAG CATGGCGATC CGGGGATGGC GCGCGATGGT TTCCTGCAGC GCGGCGCGCC

11700

CCTCCGGGCC TGGAACGTTG GCGATCTGGC GAAGGATCCA GTCGGCCATG ACGGCGATGA

11760

GCTCCTCGCG CGCGGGGTCT CCCGGGAACA GGTCGAGCAT CGCGTCAAAC GTCGCCGCAT

11820

GCCCCGGACC CTGCGTCAAC CAGAACTTTG GCGGGTCCAC CACCTGGTTG TGCCACATGC

11880

CTTGGGCGTG GCGGCGATAC ACGGCCATGG TGTCGGGCAA CATGGCGATG TCGCCATGCA

11940

CCGCGTGCCG GACGTGCAGA TACCAGTCCA GGGGCATGAC GTCGGCAGGA ATGTCGTCGT

12000

AGCGCTCGAG GCGACGGTAC ACGGCCGAGT TGGTCTGGAT GAAGTTCATC AAGATCAACG

12060

CATCCAGGCT CAAGTTGCCC CGCACCCGAA CCGGGGGGAA CTTCGAGTCC TTGGCATGGC

12120

CGTCCTCCCA TATCACTCGG ACGGGATGGA AGCACACCGT CGTCTTGGGG TGCCGGTCGA

12180

GGAATGCGAC CTGTTTGCTT AGCTTCAGCG GATCGATCCA GTAGTCGTCC GCCTCGCACA

12240

ACGCGACGTA CTCGCCGCGA GCGGCCGACA GGGCGCCGGT CAGGTTCCCA TTGAGGCCGA

12300

GGTTTTCGGT CCTGAAGATC GGCCGGAACA CGTGCGGGTA CCGCTCGGCG TACTCACGGA

12360

TGATCGCCGG GGTGGCATCG GTCGACGCGT CGTCGGCGAC GATGATCTCC ACCGGGAAGT

12420

CGGTTTGCTG GTCGAGAAAG CTGTCGAAGG CCTGACGGGC GTAGCCCGCC TGGTTGTGAG

12480

TGGTCGAGAC GATGCTCACC TTGGGGCAAA GCTGGGGACT CACCGTCGGC CCTTTTCCTG

12540

CGCGGCCGCA AGGGTATTGC GATGGCGAAC GTGAATCGCC TGTGCCCGCC GGCCGTCGGC

12600

CGTCGTGGCC TGGTGGTCGG CGGACGTACG GCACACGCTG GCGAAGTATA GCGAGGGTGC

12660

ACTGACGTTG GGCTCGAACC GCGTGGCGCG CGGTGTGGGC GCACCGTCTC GAGTCGGTGC

12720

TGGTTGGCTC GC

12732

The location, on the

Mycobacterium tuberculosis

chromosome, of the above polynucleotide of sequence SEQ ID N

o

1 has now been ascribed to begin, at its 5′ end at nucleotide at position nt 1696015 and to end, at its 3′ end, at nucleotide at position nt 1708746.

For diagnostic purposes, this 12.7 kb deletion should allow a rapid PCR screening of tubercle isolates to identify whether they are bovine or human strains. The primers listed in Table 1 are flanking the deleted region and give a 722 bp amplicon in

M. bovis

or

M. bovis

BCG strains, but a fragment of 13,453 bp in

M. tuberclosis

that is practically impossible to amplify under the same PCR conditions. More importantly, assuming that some of the gene products from this region represent proteins with antigenic properties, it could be possible to develop a test that can reliably distinguish between the immune response induced by vaccination with

M. bovis

BCG vaccine strains and infection with

M. tuberclosis

or that the products (e.g. polysaccharides) are specific immunogens.

The invention also provides for a purified polynucleotide usefill as a probe or as a primer, said polynucleotide being chosen in the following group of polynucleotides:

a) a polynucleotide comprising at least 8 consecutive nucleotides of the sequence SEQ ID N

0

1.

b) a polynucleotide whose sequence is fully complementary to the sequence of the polynucleotide defined in a);

c) a polynucleotide that hybridizes under stringent hybridization conditions with the polynucleotide defined in a) or with the polynucleotide defined in b).

For the purpose of defining a polynucleotide or oligonucleotide hybridizing under stringent hybridization conditions, such as above, it is intended a polynucleotide that hybridizes with a reference polynucleotide under the following hybridization conditions:

The hybridization step is realized at 65° C. in the presence of 6×SSC buffer, 5×Denhardt's solution, 0,5% SDS and 100 μg/ml of salmon sperm DNA.

For technical information, 1×SSC corresponds to 0.15 M NaCl and 0.05M sodium citrate; 1×Denhardt's solution corresponds to 0.02% Ficoll, 0.02% polyvinylpyrrolidone and 0.02% bovine serum albumin.

The hybridization step is followed by four washing steps:

two washings during 5 min, preferably at 65° C. in a 2×SSC and 0.1%SDS buffer;

one washing during 30 min, preferably at 65° C. in a 2×SSC and 0.1% SDS buffer,

one washing during 10 min, preferably at 65° C. in a 0.1×SSC and 0.1%SDS buffer

A first illustrative useful polynucleotide that is included in the polynucleotide of sequence SEQ ID N

o

1 is the following polynucleotide of sequence SEQ ID N

o

2 that corresponds to the Sp6 endsequence of SEQ ID N

o

1:

ATACTCAAGC TTGCCGCAAT CGAAACCAAC CTGTTTGTGC CGCAAGAAAT TACGCCGTGG

60

CCCGGCGCCG ATCAAGAAAC GCCCCGGCGC GCGGCGGTGT CGTCGTATGG CATGACGGGC

120

ACCAATGTGC ACGCCATTGT CGAGCAGGCA CCGGTGCCAG CCCCCGAATC CGGTGCACCA

180

GGCGACACCC CGGCCACACC CGGTATCGAC GGCGCGCTGC TGTTCGCGCT GTCGGCCAGC

240

TCGCAGGACG CGCTGCGGCA AACCGCCGCG CGGCTGGCCG ATTGGGTCT

289

A second illustrative useful polynucleotide that is included in the polynucleotide of sequence SEQ ID N

o

1 is the following polynucleotide of sequence SEQ ID N

o

3 that corresponds to the T7 endsequence of SEQ ID N

o

1, located on the opposite strand:

TTGGCGGGTT GGCCACACAC CCGCCGGTGA CGGCGACGAT GCTGGGCTGG TTGCGGCCCT

60

GCGCCACCGC GGCTTGCATG CTGGTTGGCT GTCTTGGGAC GATCCCGAAA TAGTCCACGC

120

GGATCTGGTG ATTTTGCGGG CTACCCGCGA TTACCCCGCG CGGCTCGACG AGTTTTTGGC

180

CTGGACTACC CGCGTGGCCA ATCTGCTGAA CTCGCGGCCG GTGGTGGCCT GGAATGTCCA

240

CGCCGTTCAC CTACGTGACC TTGATGGGAT CCGGGGGT

278

The polynucleotide of sequence SEQ ID N

o

1 contains 11 ORFs, the respective locations of which, taking into account the orientation of each ORF on the chromosome, on the sequence of the

Mycobacterium tunerculosis

chromosome, is given hereafter:

The location of ORF1 is comprised between nucleotide at position nt 1695944 and nucleotide at position nt1696441.

The location of ORF2 is comprised between nucleotide at position nt 1696728 and nucleotide at position nt1697420.

The location of ORF3 is comprised between nucleotide at position nt 1698096 and nucleotide at position nt1699892. ORF3 probably encodes a protein having the characteristics of a membrane protein.

The location of ORF4 is comprised between nucleotide at position nt 1700210 and nucleotide at position nt1701088.

The location of ORF5 is comprised between nucleotide at position nt 1701293 and nucleotide at position nt1702588. ORF5 encodes a protein having the characteristics of a membrane protein.

The location of ORF6 is comprised between nucleotide at position nt 1703072 and nucleotide at position nt1704091. ORF6 encodes a protein having the characteristics of a GDP-D-mannose dehydratase.

The location of ORF7 is comprised between nucleotide at position nt 1704091 and nucleotide at position nt1705056. ORF7 encodes a protein having the characteristics of a nucleotide sugar epimerase involved in colanic acid biosynthesis.

The location of ORF8 is comprised between nucleotide at position nt 1705056 and nucleotide at position nt1705784.

The location of ORF9 is comprised between nucleotide at position nt 1705808 and nucleotide at position nt1706593. ORF9 encodes a protein having the characteristics of colanic acid biosynthesis glycosyl transferase.

The location of ORF10 is comprised between nucleotide at position nt 1706631 and nucleotide at position nt1707524.

The location of ORF11 is comprised between nucleotide at position nt 1707530 and nucleotide at position nt1708648. ORF11 encodes a protein similar to a spore coat polysaccharide biosynthesis.

A polynucleotide of interest obtained by the above-disclosed method according to the invention may also contain at least one ORF that encodes all or part of acidic, glycine-rich proteins, belonging to the PE and PPE families, whose genes are often clustered and based on multiple copies of the polymorphic repetitive sequences. The names PE and PPE derive from the fact that the motifs ProGlu (PE, positions 8, 9) and ProProGlu (PPE, positions 7 to 9) are found near the N-terminus in almost all cases. The PE protein family all have a highly conserved N-terminal domain of ˜110 amino acid residues, that is predicted to have a globular structure, followed by a C-terminal segment which varies in size, sequence and repeat copy number. Phylogenetic analysis separated the PE family into several groups, the larger of which is the highly repetitive PGRS class containing 55 members whereas the other groups share very limited sequence similarity in their C-terminal domains. The predicted molecular weights of the PE proteins vary considerably as a few members only contain the ˜110 amino acid N-terminal domain while the majority have C-terminal extensions ranging in size from 100 up to >1400 residues. A striking feature of the PGRS proteins is their exceptional glycine content (up to 50%) due to the presence of multiple tandem repetitions of GlyGlyAla or GlyGlyAsn motifs or variations thereof.

Like the PE family, the PPE protein family also has a conserved N-terminal domain that comprises ˜180 amino acid residues followed by C-terminal segments that vary considerably in sequence and length. These proteins fall into at least three groups, one of which constitutes the MPTR class characterised by the presence of multiple, tandem copies of the motif AsnXGlyXGlyAsnXGly (SEQ ID NO: 730). The second subgroup contains a characteristic, well-conserved motif around position 350 (GlyXXSerValProXXTrp)(SEQ ID NO: 731), whereas the other group contains proteins that are unrelated except for the presence of the common 180-residue PPE domain. C-terminal extensions may range in size from 00 up to 3500 residues.

One member of the PGRS sub-family, the WHO antigen 22T (Abou-Zeid et al., 1991), a 55 kD protein capable of binding fibronectin, is produced during disease and elicits a variable antibody response suggesting either that individuals mount different immune responses or that this PGRS-protein may not be produced in this form by all strains of

M. tuberculosis

. In other words, at least some PE_PGRS coding sequences encode for proteins that are involved in the recognition of

M. tuberclosis

by the immune system of the infected host Therefore, differences in the PGRS sequences could represent the principal source of antigenic variation in the otherwise genetically and antigenically homogeneous bacterium.

By performing the method of the invention using the

M. tuberclosis

BAC based DNA library I-1945, the inventors have discovered the occurence of sequence differences between a given PGRS encoding ORF (ORF reference on the genomic sequence of

M. tuberclosis

Rv0746) of

M. tuberclosis

and its counterpart sequence in the genome of

M. bovis

BCG.

More precisely, the inventors have determined that one ORF contained in BAC vector N Rv418 of the

M. tuberclosis

BCG I-1945 DNA library carries both base additions and base deletions when compared with the corresponding ORF in the genome of

M. bovis

BCG that is contained in the BAC vector N X0175 of the

M. bovis

BCG I-2049 DNA libary. The variations observed in the base sequences correspond to variations in the C-terminal part of the aminoacid sequence of the PGRS ORF translation product.

As shown in

FIG. 6

, an amino acid stretch of 29 residues in length is present in this

M. tuberclosis

PGRS (ORf reference Rv0746) and is absent from the ORF counterpart of

M. bovis

BCG, namely the following amino acid sequence:

NH

2

-GGAGGAGGSSAGGGGAGGAGGAGGWLLGD-COOH (SEQ ID NO: 732).

Furthermore ,

FIG. 6

shows also that an amino acid stretch of 45 residues in length is absent from this

M. tuberclosis

PGRS and is present in the ORF counterpart of

M. bovis

BCG, namely following amino acid sequence:

NH

2

-GAGGIGGIGGNANGGAGGNGGTGGQLWGSGGAGVEGGAALSVGDT-COOH (SEQ ID NO: 733).

Similar observations were made with PPE ORF Rv0442, which showed a 5 codon deletion relative to a

M. bovis

amino acid sequence.

Given that the polymorphism associated with the PE-PGRS or PEE ORFS resulted in extensive antigenic variability or reduced antigen presentation, this would be of immense significance for vaccine design, for understanding protective immunity in tuberculosis and, possibly, explain the varied responses seen in different BCG vaccination programmes.

There are several striking parallels between the PGRS proteins and the Epstein-Barr virus-encoded nuclear antigens (EBNA). Both polypeptide families are glycine-rich, contain Gly-Ala repeats that represent more than one third of the molecule, and display variation in the length of the repeat region between different isolates. The Gly-Ala repeat region of EBNA1 has been shown to function as a cis-acting inhibitor of antigen processing and MHC class I-restricted antigen presentation (Levitskaya et al., 1995). The fact that MHC class I knock-out mice are extremely suscepible to

M. tuberclosis

underlines the importance of MHC class I antigen presentation in protection against tuberculosis. Therefore, it is possible that the PE/PPE protein family also play some role in inhibiting antigen presentation, allowing the bacillus to hide from the host's immune system.

As such the novel and nonobvious PGRS polynucleotide from

M. bovis

which is homolog to the

M. tuberclosis

ORF Rv0746, and which is contained in the BAC clone N X0175 (See Table 4 for SP6 and T7 endsequences of clone n

o

X0175) of the I-2049

M. bovis

BCG BAC DNA library is part of the present invention, as it represents a starting material in order to define specific probes or primers usefill for detection of antigenic variability in mycobacterial strains, possible inhibition of antigen processing as well as to differentiate

M. tuberculosis

from

M. bovis

BCG.

Thus, a further object of the invention consists in a polynucleotide comprising the following sequence SEQ ID N

o

4:

CCGACCCAGA CACTGACCGG GCGACCGCTG ATCGGCAACG GCACCCCCGG GGCGGTCGGC

60

AGCGGGGCCA CCGGGGCCCC CGGTGGGTGG CTGCTCGGCG ACGGCGGGGC CGGCGGGTCC

120

GGCGCGGCGG GCTCGGGCGC GCCCGGCGGG GCGGGCGGGG CTGCCGGGCT GTGGGGTACC

180

GGCGGGGCCG GCGGGATCGG CGGAGCCAGC ACCGTACTCG GCGGCACCGG CGGGGGAGGC

240

GGGGTCGGTG GGCTGTGGGG CGCCGGTGGG GCCGGCGGGG CCGGTGGAAC CGGCCTTGTT

300

GGTGGCGACG GCGGGGCCGG TGGGGCCGGC GGGACCGGCG GACTGCTGGC CGGGCTGATC

360

GGTGCCGGCG GAGGTCACGG CGGGACCGGC GGGCTCAGCA CTAATGGCGA CGGCGGGGTT

420

GGCGGGGCCG GCGGGAATGC CGGAATGCTC GCCGGGCCGG GCGGCGCCGG CGGAGCCGGC

480

GGTGACGGCG AAAACCTGGA CACCGGTGGG GACGGCGGGG CCGGCGGTAG CGCAGGGCTG

540

CTGTTCGGCA GCGGCGGCGC CGGCGGCGCC GGCGGATTTG GTTTCCTCGG TGGGGACGGC

600

GGGGCCGGTG GCAACGCCGG GCTGCTGTTG TCCAGCGGCG GGGCCGGCGG GTTCGGCGGG

660

TTCGGCACCG CCGGTGGGGT CGGTGGGGCC GGCGGCAATG CCGGCTGGCT GGGCTTCGGC

720

GGGGCCGGGG GCATCGGCGG AATCGGCGGT AACGCTAACG GGGGCGCCGG TGGGAACGGC

780

GGCACCGGCG GTCAGTTATG GGGTAGCGGC GGCGCCGGCG TCGAAGGCGG CGCAGCCTTA

840

AGCGTCGGCG ACACCGGCGG GGCCGGTGGC GTCGGCGGCA GCGCCGGGCT GATCGGCACC

900

GGCGGCAACG GCGGCAACGG CGGCACCGGC GCCAACGCCG GCAGCCCCGG AACCGGCGGC

960

GCCGGCGGGT TGCTGCTGGG CCAAAACGGG CTCAACGGGT TGCCGTAGCC GGGCGGCACG

1020

GCATGGCTTC CGGGCGTCAA CCACTCGCCG GTGATGCAGA TCGGCTGCGG AGCGGGCCGC

1080

CAAAATGGGG GCCGCCGCGC CAGGTATCTC GGCGAAGATC CCCGGCGCTC GAGCGCTTTG

1140

TCAGAGGCCC GTCGCGGGTC GTCGTGACGA CGGCTATCCG GGCGGTGCGG GTTTCGCGGC

1200

GCGCCCTGTG CCCGGCACCG CCGCCCGTTT GTCGGCAACG CCGCCGCGAC CCGTGAGCCG

1260

TCCAGCAGCT GGCGCCTGCG

1280

Polynucleotides of interest have been defined by the inventors as useful detection tools in order to differentiate

M. tuberclosis

from

M. bovis

BCG. Such polynucleotides are contained in the 45 aminoacid length coding sequence that is present in

M. bovis

BCG but absent from

M. tuberclosis

. This polynucleotide has a sequence beginning (5′ end) at the nucleotide at position nt 729 of the sequence SEQ ID N

o

4 and ending (3′ end) at the nucleotide in position nt 863 of the sequence SEQ ID N

o

4.

Thus, part of the present invention is also a polynucleotide which is chosen among the following group of polynucleotides:

a) A polynucleotide comprising at least 8 consecutive nucleotides the following nucleotide sequence SEQ ID N

o

5:

GGGCATCGGC GGAATCGGCG GTAACGCTAA CGGGGGCGCC GGTGGGAACG GCGGCACCGG

60

CGGTCAGTTA TGGGGTAGCG GCGGCGCCGG CGTCGAAGGC GGCGCAGCCT TAAGCGTCGG

120

CGACACC

127

b) A polynucleotide which sequence is fully complementary to the sequence of the polynucleotide defined in a);

c) A polynucleotide that hybridizes under stringent hybridization conditions with the polynucleotide defined in a) or with the polynucleotide defined in b).

The stringent hybridization conditions for the purpose of defining the above disclosed polynucleotide are defined herein before in the specification.

The invention also provides for a BAC-based

Mycobacterium tuberculosis

strain H37Rv genomic DNA library that has been deposited in the Collection Nationale de Cultures de Microorganismes on Nov. 19, 1997 under the accession number I-1945.

A further object of the invention consists in a recombinant BAC vector which is choosen among the group consisting of the recombinant BAC vectors belonging to the BAC-based DNA library I-1945.

Generally, a recombinant BAC vector of interest may be choosen among the following set or group of BAC vectors contained in the BAC-based DNA library I-1945: Rv101; Rv102; Rv103; Rv104; Rv105; Rv106; Rv107; Rv108; Rv109; Rv10; Rv110; Rv111; Rv112; Rv113; Rv114; Rv115; Rv116; Rv117; Rv118; Rv119; Rv11; Rv120; Rv121; Rv122; Rv123; Rv124; Rv126; Rv127; Rv128; Rv129; Rv130; Rv132; Rv134; Rv135; Rv136; Rv137; Rv138; Rv139; Rv13; Rv140; Rv141; Rv142; Rv143; Rv144; Rv145; Rv146; Rv147; Rv148; Rv149; Rv14; Rv150; Rv151; Rv152; Rv153; Rv154; Rv155; Rv156; Rv157; Rv159; Rv15; Rv160; Rv161; Rv162; Rv163; Rv164; Rv165; Rv166; Rv167; Rv169; Rv16; Rv170; Rv171; Rv172; Rv173; Rv174; Rv175; Rv176; Rv177; Rv178; Rv179; Rv17; Rv180; Rv181; Rv182; Rv183; Rv184; Rv185; Rv186; Rv187; Rv188; Rv18; Rv190; Rv191; Rv192; Rv193; Rv194; Rv195; Rv196; Rv19; Rv1; Rv201; Rv204; Rv205; Rv207; Rv209; Rv20; Rv214; Rv215; Rv217; Rv218; Rv219; Rv21; Rv220; Rv221; Rv222; Rv223; Rv224; Rv225; Rv226; Rv227; Rv228; Rv229; Rv22; Rv230; Rv231; Rv232; Rv233; Rv234; Rv235; Rv237; Rv240; Rv241; Rv243; Rv244; Rv245; Rv246; Rv247; Rv249; Rv24; Rv251; Rv252; Rv253; Rv254; Rv255; Rv257; Rv258; Rv259; Rv25; Rv260; Rv261; Rv262; Rv263; Rv264; Rv265; Rv266; Rv267; Rv268; Rv269; Rv26; Rv270; Rv271; Rv272; Rv273; Rv274; Rv275; Rv276; Rv277; Rv278; Rv279; Rv27; Rv280; Rv281; Rv282; Rv283; Rv284; Rv285; Rv286; Rv287; Rv288; Rv289; Rv28; Rv290; Rv291; Rv292; Rv293; Rv294; Rv295; Rv296; Rv29; Rv2; Rv301; Rv302; Rv303; Rv304; Rv306; Rv307; Rv308; Rv309; Rv30; Rv310; Rv311; Rv312; Rv313; Rv3l4; Rv315; Rv316; Rv317; Rv318; Rv319; Rv31; Rv32; Rv322; Rv327; Rv328; Rv329; Rv32; Rv330; Rv331; Rv333; Rv334; Rv335; Rv336; Rv337; Rv338; Rv339; Rv33; Rv340; Rv341; Rv343; Rv344; Rv346; Rv347; Rv348; Rv349; Rv34; Rv350; Rv351; Rv352; Rv353; Rv354; Rv355; Rv356; Rv357; Rv358; Rv359; Rv35; Rv360; Rv361; Rv363; Rv364; Rv365; Rv366; Rv367; Rv368; Rv369; Rv36; Rv370; Rv371; Rv373; Rv374; Rv375; Rv376; Rv377; Rv378; Rv379; Rv37; Rv381; Rv382; Rv383; Rv384; Rv385; Rv386; Rv387; Rv388; Rv389; Rv38; Rv390; Rv391; Rv392; Rv393; Rv396; Rv39; Rv3; Rv40; Rv42; Rv413; Rv414; Rv415; Rv416; Rv417; Rv418; Rv419; Rv41; Rv42; Rv43; Rv45; Rv46; Rv47; Rv48; Rv49; Rv4; Rv50; Rv51; Rv52; Rv53; Rv54; Rv55; Rv57; Rv58; Rv59; Rv5; Rv60; Rv61; Rv62; Rv63; Rv64; Rv65; Rv66; Rv67; Rv69; Rv6; Rv70; Rv71; Rv72; Rv73; Rv74; Rv75; Rv76; Rv77; Rv78; Rv79; Rv80; Rv81; Rv82; Rv83; Rv84; Rv85; Rv86; Rv87; Rv88; Rv89; Rv8; Rv90; Rv92; Rv94; Rv95; Rv96; Rv9.

The end sequences of the polynucleotide inserts of each of the above clones corresponding respectively to the sequences adjacent to the T7 promoter and to the Sp6 promoter on the BAC vector are shown in Table 3.

It has been shown by the inventors that the minimal overlapping set of BAC vectors of the BAC-based DNA library I-1945 contains 68 unique BAC clones and practically spans almost the whole H37Rv chromosome with the exception of a single gap of approximately 150 kb.

More specifically, a recombinant BAC vector of interest is choosen among the following set or group of BAC vectors from the BAC-based DNA library I-1945, the location of which vector DNA inserts on the chromosome of

M. tuberclosis

is shown in FIG.

3

: Rv234; Rv351, Rv166; Rv35; Rv415; Rv404; Rv209; Rv272; Rv30; Rv228; Rv233; Rb38; Rv280; Rv177; Rv48; Rv374; Rv151; Rv238; Rv156; Rv92; Rv3; Rv403; Rv322; Rv243; Rv330; Rv285; Rv233; Rv219; Rv416; Rv67; Rv222; Rv149; Rv279; Rv87; Rv273; Rv266; Rv25; Rv136; Rv4l4; Rv13; Rv289; Rv60; Rv104; Rv5; Rv165; Rv215; Rv329; Rv240; Rv19; Rv74; Rv411; Rv167; Rv56; Rv80; Rv164; Rv59; Rv313; Rv265; Rv308; Rv220; Rv258; Rv339; Rv121; Rv419; Rv418; Rv45; Rv217; Rv134; Rv17; Rv103; Rv21; Rv22; Rv2; Rv270; Rv267; Rv174; Rv257; Rv44; Rv71; Rv7; Rv27; Rv191; Rv230; Rv128; Rv407; Rv106; Rv39; Rv255; Rv74; Rv355; Rv268; Rv58; Rv173; Rv264; Rv417; Rv401; Rv144; Rv302; Rv81; Rv163; Rv281; Rv221; Rv420; Rv175; Rv86; Rv412; Rv73; Rv269; Rv214; Rv287; Rv42; Rv143.

The polynucleotides disclosed in Table 3 may be used as probes in order to select a given clone of the BAC DNA library I-1945 for further use.

The invention also provides for a BAC-based

Mycobacterium bovis

strain Pasteur genornic DNA library that has been deposited in the Collection Nationale de Cultures de Microorganismes on Jun. 30, 1998 under the accession number I-2049.

A further object of the invention consists in a recombinant BAC vector which is chosen among the group consisting of the recombinant BAC vectors belonging to the BAC-based DNA library I-2049. This DNA library contains approximately 1600 clones. The average insert size is estimated to be 80 kb.

Generally, a recombinant BAC vector of interest may be chosen among the following set or group of BAC vectors contained in the BAC-based DNA library I-2049: X0001; X0002; X0003; X0004; X0006; X0007; X0008; X0009; X0010; X0012; X0013; X0014; X0015; X0016; X0017; X0018; X0019; X0020; X0021; X0175.

The end sequences of the polynucleotide inserts of each of the above clones corresponding respectively to the sequences adjacent to the T7 promoter and to the Sp6 promoter on the BAC vector are shown in Table 4.

The polynucleotides disclosed in Table 4 may be used as probes in order to select a given clone of the BAC DNA library I-2049 for further use.

Are also part of the invention the polynucleotide inserts that are contained in the above described BAC vectors, that are useful as primers or probes.

These polynucleotides and nucleic acid fragments may be used as primers for use in amplification reactions, or as nucleic probes.

PCR is described in the U.S. Pat. No. 4,683,202. The amplified fragments may be identified by an agarose or a polyacrylamide gel electrophoresis, or by a capillary electrophoresis or alternatively by a chromatography technique (gel filtration, hydrophobic chromatography or ion exchange chromatography). The specificity of the amplification may be ensured by a molecular hybridization using, for example, one of the initial primers as nucleic probes.

Amplified nucleotide fragments are used as probes in hybridization reactions in order to detect the presence of one polynucleotide according to the present invention or in order to detect mutations in the genome of the given mycobacterium of interest, specifically a mycobacterium belonging to the

Mycobacterium tuberculosis

complex and more specifically

Mycobacterium tuberculosis

and

Mycobacterium bovis

BCG.

Are also part of the present invention the amplified nucleic fragments (<<amplicons>>) defined herein above.

These probes and amplicons may be radioactively or non-radioactively labeled, using for example enzymes or fluorescent compounds.

Other techniques related to nucleic acid amplification may also be used and are generally preferred to the PCR technique.

The Strand Displacement Amplification (SDA) technique (Walker et al., 1992) is an isothermal amplification technique based on the ability of a restriction enzyme to cleave one of the strands at his recogntion site (which is under a hemiphosphorothioate form) and on the property of a DNA polymerase to initiate the synthesis of a new strand from the 3′OH end generated by the restriction enzyme and on the property of this DNA polymerase to displace the previously synthesized strand being localized downstream. The SDA method comprises two main steps:

a) The synthesis, in the presence of dCTP-alpha-S, of DNA molecules that are flanked by the restriction sites that may be cleaved by an appropriate enzyme.

b) The exponential amplification of these DNA molecules modified as such, by enzyme cleavage, strand displacement and copying of the displaced strands. The steps of cleavage , strand displacement and copy are repeated a sufficient number of times in order to obtain an accurate sensitivity of the assay.

The SDA technique was initially realized using the restriction endonuclease HindIII but is now generally practised with an endonuclease from

Bacillus stearothermophilus

(BSOBI) and a fragment of a DNA polymerase which is devoid of any 5′3′exonuclease activity isolated from

Bacilllus cladotenox

(exo-Bca) [=exo-minus-Bca]. Both enzymes are able to operate at 60° C. and the system is now optimized in order to allow the use of dUTP and the decontamination by UDG. When unsing this technique, as described by Spargo et al. in 1996, the doubling time of the target DNA is of 26 seconds and the amplification rate is of 10

10

after an incubation time of 15 min at 60° C.

The SDA amplification technique is more easy to perform than PCR (a single thermostated waterbath device is necessary) and is faster that the other amplification methods.

Thus, another object of the present invention consists in using the nucleic acid fragments according to the invention (primers) in a method of DNA or RNA amplification according to the SDA technique. For performing SDA, two pairs of primers are used: a pair of external primers (B1, B2) consisting of a sequence specific for the target polynucleotide of interest and a pair of internal primers (S1, S2) consisting of a fusion oligonucleotide carrying a site that is recognized by a restriction endonuclease, for example the enzyme BSOBI.

The operating conditions to perform SDA with such primers are described in Spargo et al, 1996.

The polynucleotides of the invention and their above described fragments, especially the primers according to the invention, are useful as technical means for performing different target nucleic acid amplification methods such as:

TAS (Transcription-based Amplification System), described by Kwoh et al. in 1989;

SR (Self-Sustained Sequence Replication), described by Guatelli et al. in 1990.

NASBA (Nucleic acid Sequence Based Amplification), described by Kievitis et al. in 1991.

TMA (Transcription Mediated Amplification).

The polynucleotides according to the invention are also useful as technical means for performing methods for amplification or modification of a nucleic acid used as a probe, such as:

LCR (Ligase Chain Reaction), described by Landegren et al. in 1988 and improved by Barany et al. in 1991 who employ a thermostable ligase.

RCR (Repair Chain Reaction) described by Segev et al. in 1992.

CPR (Cycling Probe Reaction), described by Duck et al. in 1990.

Q-beta replicase reaction, described by Miele et al. in 1983 and improved by Chu et al. in 1986, Lizardi et al. in 1988 and by Burg et al. and Stone et al. in 1996.

When the target polynucleotide to be detected is a RNA, for example a mRNA, a reverse transcriptase enzyme will be used before the amplification reaction in order to obtain a cDNA from the RNA contained in the biological sample. The generated cDNA is subsequently used as the nucleic acid target for the primers or the probes used in an amplification process or a detection process according to the present invention.

The non-labeled polynucleotides or oligonucleotides of the invention may be directly used as probes. Nevertheless, the polynucleotides or oligonucleotides are generally labeled with a radioactive element (

32

P,

35

S,

3

H,

125

I or by a non-isotopic molecule (for example, biotin, acetylaminofluorene, digoxigenin, 5-bromodesoxyuridin, fluorescein) in order to generate probes that are useful for numerous applications.

Examples of non-radioactive labeling of nucleic acid fragments are described in the french patent N

o

FR-7810975 or by Urdea et al. or Sanchez-Pescador et al., 1988.

In the latter case, other labeling techniques may be also used such as those described in the french patents FR-2,422,956 and 2,518,755. The hybridization step may be performed in diffrent ways (Matthews et al., 1988). The more general method consists of immobilizing the nucleic acid that has been extracted from the biological sample onto a substrate (nitrocellulose, nylon, polystyrene) and then to incubate, in defined conditions, the target nucleic acid with the probe. Subsequently to the hybridization step, the excess amount of the specific probe is discarded and the hybrid molecules formed are detected by an appropriate method (radioactivity, fluorescence or enzyme activity measurement).

Advantageously, the probes according to the present invention may have structural characteristics such that they allow the signal amplification, such structural characteristics being, for example, branched DNA probes as those described by Urdea et al. in 1991 or in the European patent N

o

EP-0225,807 (Chiron).

In another advantageous embodiment of the probes according to the present invention, the latters may be used as <<capture probes>>, and are for this purpose immobilized on a substrate in order to capture the target nucleic acid contained in a biological sample. The captured target nucleic acid is subsequently detected with a second probe which recognizes a sequence of the target nucleic acid which is different from the sequence recognized by the capture probe.

The oligonucleotide probes according to the present invention may also be used in a detection device comprising a matrix library of probes immobilized on a substrate, the sequence of each probe of a given length being localized in a shift of one or several bases, one from the other, each probe of the matrix library thus being complementary to a distinct sequence of the target nucleic acid. Optionally, the substrate of the matrix may be a material able to act as an electron donor, the detection of the matrix poisitons in which an hybridization has occurred being subsequently determined by an electronic device. Such matrix libraries of probes and methods of specific detection of a targer nucleic acid is described in the European patent application N

o

EP-0713,016 (Affymax technologies) and also in the U.S. Pat. No. 5,202,231 (Drmanac).

Since almost the whole length of a mycobacterial chromososme is covered by a BAC-based genomic DNA libraries according to the present invention (i.e. 97% of the

M. tuberculosis

chromosome is covered by the BAC library I-1945), these DNA libraries will play an important role in a plurality of post-genomic applications, such as in mycobacterial gene expression studies where the canonical set of BACs could be used as a matrix for hybridization studies. Probing such matrices with cDNA probes prepared from total mRNA will uncover genetic loci induced or repressed under different physiological conditions (Chuang et al., 1993; Trieselmann et al., 1992). As such, the H37Rv BAC library represents a fundamental resource for present and future genomics investigations.

The BAC vectors or the polynucleotide inserts contained therein may be directly used as probes, for example when immobilized on a substrate such as described herein before.

The BAC vectors or their polynucleotide inserts may be directly asdorbed on a nitrocellulose membrane, at predetermined locations on which one or several polynucleotides to be tested are then put to hybridize therewith.

Preferably, a collection of BAC vectors that spans the whole genome of the mycobacteriurn under testing will be immobilized, such as, for example, the set of 68 BAC vectors of the I-1945 DNA library that is described elsewhere in the specification and shown in FIG.

3

.

The immobilization and hybridization steps may be performed as described in the present Materials and Methods Section.

As another illustrative embodiment of the use of the BAC vectors of the invention as polynucleotide probes, these vectors may be useful to perform a transcriptional activity analysis of mycobacteria growing in different environmental conditions, for example under conditions in which a stress response is expected, as it is the case at an elevated temperature, for example 40° C.

In this specific embodiment of the invention, Genescreen membranes may be used to immobilize the restriction endonuclease digests (HindIII digests for the BAC DNA library I-1945) of the BAC vectors by tranfer from a gel (Trieselmann et al., 1992).

Alternatively, the BAC vectors may be immobilized for dot blot experiments as follows. First, the DNA concentration of each BAC clone is determined by hybridization of blots of clone DNAs and of a BAC vector concentration standard with a BAC vector specific DNA probe. Hybridization is quantified by the Betascope 603 blot analyzer (Betagen Corp.), which colects beta particles directly from the blot with high efficiency. Then, 0.5 μg of each clone DNA is incubated in 0.25 M NaOH and 10 mM EDTA at 65° C. for 60 min to denature the DNA and degrade residual RNA contaminants. By using a manifold filtration system (21 by 21 wells), each clone DNA is blotted onto a GeneScreen Plus nylon membrane in the alkaline solution. After neutralization, the blots are baked at 85° C. for 2 h under vacuum. Positive and negative controls are added when necessary. In order to perform this procedure, it may be referred to the article of Chuang et al. (1993).

For RNA extractions, cells grown in a suitable volume of culture medium may, for example, be immediately mixed with an equal volume of crushed ice at −70° C. and spun at 4° C. in a 50 ml centrifugation tube. The cell pellet is then suspended in 0.6 ml of ice-cold buffer (10 mM KCl, 5 mM MgCl, 10 mM Tris; pH 7.4) and then immediately added to 0.6 ml of hot lysis buffer (0.4 M NaCl, 40 mM EDTA, 1% beta-mercaptoethanol, 1% SDS, 20 mM Tris; pH 7.4) containing 100 μl of water saturated phenol. This mixture is incubated in a boiling water bath for 40 s. The debris are removed by centrifugation. The supernatant is extracted with phenol-chloroform five times, ethanol precipitated, and dried. The dried RNA pellet is dissolved in water before use.

Then labeled total cDNA may be prepared by the following method. The reaction mixture contains 15 μg of the previously prepared total RNA, 5 μg of pd(N

6

) (random hexamers from Pharmacia Inc.), 0.5 mM DATP, 0.5 mM dGTP and 0.5 mM DTTP, 5 μM dCTP, 100 μCi of [α-

32

P]dCTP (3,000 Ci/mmol), 50 mM Tris-HCl (pH 8.3), 6 mM MgCl

2

, 40 mM Kcl, 0.5 U of avian myeloblastosis virus reverse transcriptase (Life Science Inc.) in a total volume of 50 μl. The reaction is allowed to continue overnight at room temperature. EDTA and NaOH are then added to final concentrations of 50 mM and 0.25 M, respectively, and the mixture is incubated at 65° C. for 30 min to degrade the RNA templates. The cDNA is then ready to use after neutralization by adding Hcl and Tris buffer.

The hybridization step may be performed as described by Chuang et al. (1993) and briefly disclosed hereinafter. The DNA dot blot is hybridized to

32

P-labeled total cDNA in a solution containing 0.1% polyvinylpyrrolidone, 0.1% Ficoll, 0.1% sodium Pp

i

, 0.1% bovine serum albumin, 0.5% SDS, 100 mM NaCl, and 0.1 mM sodium citrate, pH 7.2, at 65° C. for 2 days and then washed with a solution containing 0.1% SDS, 100 mM NaCl, and 10 mM Na-citrate, pH 7.2. The same dot blot is used for hybridization with both control and experimental cDNAs, with an alkaline probe stripping procedure (soaked twice in 0.25M NaOH-0.75 M NaCl at room temperature, 30 min each, neutralized, and completely dried at 65° C. for at least 30 min) between the two hybridizations. Quantification may be done with the Betascope 603 blot analyzer (Betagen Corp.).

As it flows from the above technical teachings, another object of the invention consists in a method for detecting the presence of mycobateria in a biological sample comprising the steps of:

a) bringing into contact the recombinant BAC vector or a purified polynucleotide according to the invention with a biological sample.

b) detecting the hybrid nucleic acid molecule formed between said purified polynucleotide and the nucleic acid molecules contained within the biological sample.

The invention further deals with a method for detecting the presence of mycobacteria in a biological sample comprising the steps of:

a) Bringing into contact the recombinant BAC vector or a purified polynucleotide according to the invention that has been immobilized onto a substrate with a biological sample.

b) Bringing into contact the hybrid nucleic acid molecule formed between said purified polynucleotide and the nucleic acid contained in the biological sample with a labeled recombinant BAC vector or a polynucleotide according to the invention, provided that said polynucleotide and polynucleotide of step a) have non-overlapping sequences.

Another object of the invention consists in a method for detecting the presence of mycobacteria in a biological sample comprising the steps of:

a) Bringing into contact the nucleic acid molecules contained in the biological sample with a pair of primers according to the invention.

b) Amplifying said nucleic acid molecules;

d) detecting the nucleic acid fragments that have been amplified, for example by gel electrophoresis or with a labeled polynucleotide according to the invention.

In one specific embodiment of the above detection and/or amplification methods, said methods comprise an additional step wherein before step a), the nucleic acid molecules of the biological sample have been made available to a hybridization reaction.

In another specific embodiment of the above detection methods, said methods comprise an additional step, wherein, before the detection step, the nucleic acid molecules that are not hybridized with the immobilized purified polynucleotide are removed.

Also part of the invention is a kit for detecting mycobacteria in a biological sample comprising:

a) A recombinant BAC vector or a purified polynucleotide according to the invention;

b) Reagents necessary to perform a nucleic acid hybridization reaction.

The invention also pertains to a kit for detecting a mycobacteria in a biological sample comprising:

a) A recombinant BAC vector or a purified polynucleotide according to the invention that is immobilized onto a substrate.

b) Reagents necessary to perform a nucleic acid hybridization reaction.

c) A purified polynucleotide according to the invention which is radioactively or non-radioactively labeled, provided that said polynucleotide and the polynucleotide of step a) have non-overlapping sequences.

Moreover, the invention provides for a kit for detecting mycobacteria in a biological sample comprising:

a) A pair of purified primers according to the invention;

b) Reagents necessary to perform a nucleic acid amplification reaction;

c) Optionally, a purified polynucleotide according to the invention useful as a probe.

The invention embraces also a method for detecting the presence of a genomic DNA, a cDNA or a mRNA of mycobacteria in a biological sample, comprising the steps of:

a) Bringing into contact the biological sample with a plurality of BAC vectors according to the invention or purified polynucleotides according to the invention, that are immobilized on a substrate;

b) Detecting the hybrid complexes formed.

The invention also provides a kit for detecting the presence of genomic DNA, cDNA or mRNA of a mycobacterium in a biological sample, comprising:

a) A substrate on which a plurality of BAC vectors according to the invention or purified polynucleotides according to the invention have been immobilized;

b) Optionally, the reagents necessary to perform the hybridization reaction.

Additionally, the recombinant BAC vectors according to the invention and the polynucleotide inserts contained therein may be used for performing detection methods based on <<molecular combing>>. Said methods consist in methods for aligning macromolecules, especially DNA and are applied to processes for detecting, for measuring intramolecular distance, for separating and/or for assaying a macromolecule, especially DNA in a sample.

These <<molecular combing>> methods are simple methods, where the triple line S/A/B (meniscus) resulting form the contact between a solvent A and the surface S and a medium B is caused to move on the said surface S, the said macromolecules (i.e. DNA) having a part, especially an end, anchored on the surface S, the other part, especially the other end, being in solution in the solvent A. These methods are particularly fully described in the PCT Application n

o

PCT/FR 95/00165 files on Feb. 11, 1994 (Bensimon et al.).

When performing the <<molecular combing>> method with the recombinant BAC vectors according to the inventions or their polynucleotide inserts, the latters may be immobilized (<<anchored>>) on a suitable substrate and aligned as described in the PCT Application No. PCT/FR 95/00165, the whole teachings of this PCT Application being herein incorporated by reference. Then, polynucleotides to be tested, preferably under the form of radioactively or non radioactively labeled polynucleotides, that may consist of fragments of genomic DNA, cDNA etc. are brought into contact with the previously aligned polynucleotides according to the present invention and then their hybridization position on the aligned DNA molecules is determined using any suitable means including a microscope or a suitable camera device.

Thus, the present invention is also directed to a method for the detection of the presence of a polynucleotide of mycobacterial origin in a biological sample and/or for physical mapping of a polynucleotide on a genomic DNA, said method comprising:

a) Aligning at least one polynucleotide contained in a recombinant BAC vector according to the invention on the surface of a substrate;

b) Bringing into contact at least one polynucleotide to be tested with the substrate on which the at least one polynucleotide of step a) has been aligned;

c) detecting the presence and/or the location of the tested polynucleotide on the at least one aligned polynucleotide of step a).

The invention finally provides for a kit for performing the above method, comprising:

a) a substrate whose surface has at least one polynucleotide contained in a recombinant BAC vector according to the invention,

b) optionally, reagents necessary for labeling DNA;

c) optionally, reagents necessary for performing a hybridization reaction.

In conclusion, it may be underlined that the alliance of such BAC-based approaches such as described in the present specification to the advances in comparative genomics by the availability of an increased number of complete genomes, and the rapid increase of well-characterized gene products in the public databases, will allow the one skilled in the art an exhaustive analysis of the mycobacterial genome.

MATERIALS AND METHODS

1. DNA-preparation. Preparation of

M. tuberclosis

H37Rv DNA in agarose plugs was conducted as previously described (Canard et al., 1989; Philipp et al., 1996b). Plugs were stored in 0.2 M EDTA at 4 C and washed 3 times in 0.1% Triton X-100 buffer prior to use.

2. BAC vector preparation. pBeloBAC11 was kindly provided by Dr. Shizuya, Department of Biology, California Institute of Technology (Pasadena, Calif.). The preparation followed the description of Woo et al., 1994 (Woo et al., 1994).

3. Partial digestion with HindIII. Partial digestion was carried out on plugs, each containing approximately 10 μg of high molecular weight DNA, after three one hour equilibration steps in 50 ml of HindIII 1×digestion buffer (Boehringer Mannheim, Mannheim, Germany) plus 0.1% Triton X-100. The buffer was then removed and replaced by imliplug of ice-cold HindIII enzyme buffer containing 20 units of HindIII (Boehringer). After two hours incubation on ice, the plugs were transferred to a 37° C. water bath for 30 minutes. Digestions were stopped by adding 500 μl of 50 mM EDTA (pH 8.0).

4. Size selection. The partially digested DNA was subjected to contour-clamped homogenous electric field (CHEF) electrophoresis on a 1% agarose gel using a BioRad DR III apparatus (BioRad, Hercules, Calif.) in 1×TAE buffer at 13° C., with a ramp from 3 to 15 seconds at 6 V/cm for 16 hours. Agarose slices from 25 to 75 kb, 75 to 120 kb and 120 to 180 kb were excised from the gel and stored in TE at 4° C.

5. Ligation and transformation. Agarose-slices containing fractions from 25 to 75 kb, 75 to 120 kb and 120 to 180 kb were melted at 65° C. for 10 minutes and digested with Gelase (Epicentre Technologies, Madison, Wis.), using 1 unit per 100 μl gel-slice. 25-100 ng of the size-selected DNA was then ligated to 10 ng of HindIII digested, dephosphorylated pBeloBAC11 in a 1:10 molar ratio using 10 units of T4 DNA ligase (New England Biolabs, Beverly, Mass.) at 16° C. for 20 hours. Ligation mixtures were heated at 65° C. for 15 minutes, then drop-dialysed against TE using Millipore VS 0.025 mM membranes (Millipore, Bedford, Mass.). Fresh electrocompetent

E. coli

DH 10B cells (Sheng et al., 1995) were harvested from 200 ml of a mid-log (OD

550

=0.5) culture grown in SOB medium. Cells were washed three times in ice-cold water, and finally resuspended in ice-cold water to a cell density of 10

11

cells/ml (OD

550

=150). 1 μl of the ligation-mix was used for electroporation of 30 μl of electrocompetent DH10B

E. coli

using a Eurogentec Easyject Plus electroporator (Eurogentec, Seraing, Belgium), with settings of 2.5 kV, 25 μF, and 99 ½, in 2 mm wide electroporation cuvettes. After electroporation, cells were resuspended in 600 μl of SOC medium, allowed to recover for 45 minutes at 37° C. with gentle shaking, and then plated on LB agar containing 12.5 μg/ml chloramphenicol (CM), 50 μg/ml X-gal, and 25 μg/ml IPTG. The plates were incubated overnight and recombinants (white colonies) were picked manually to 96 well plates. Each clone was inoculated 3 times (2×200 μl and 1×100 μl of 2YT/12.5 μg/ml CM per clone) and incubated overnight. One of the microtiter plates, containing 100 μl culture per well, was maintained as a master plate at −80° C. after 100 ml of 80% glycerol were added to each well, while minipreps (Sambrook et al., 1989) were prepared from the remaining two plates to check for the presence of inserts. Clones containing inserts were then designated “Rv” clones, repicked from the master plate to a second set of plates for storage of the library at −80° C.

6. Preparation of DNA for sizing, direct sequencing and comparative genomics. A modified Bimboim and Doly protocol (Birnboim et al., 1979) was used for extraction of plasmid DNA for sequencing purposes. Each Rv clone was inoculated into a 50 ml Falcon polypropylene tube containing 40 ml of 2YT medium with 12.5 μg/ml of CM and grown overnight at 37° C. with shaking. Cells were harvested by centrifugation and stored at −20° C. The frozen pellet was resuspended in 4 ml of Solution A (50 mM glucose, 10 mM EDTA, 25 mM Tris, pH 8.0) and 4 ml of freshly prepared solution B (0.2 M NaOH, 0.2% SDS) was then added. The solution was gently mixed and kept at room temperature for 5 minutes before adding 4 ml of ice-cold solution C (3M Sodium Acetate, pH 4.7). Tubes were kept on ice for 15 min, and centrifuged at 10,000 rpm for 15 min. After isopropanol precipitation, the DNA pellet was dissolved in 600 μl RNase solution (15 mM Tris HCl pH 8.0, 10 μg/ml RNase A). After 30 minutes at 37° C. the DNA solution was extracted with chloroform:isoarnylalcohol (24:1) and precipitated from the aqueous phase using isopropanol. The DNA pellet was then rinsed with 70% ethanol, air-dried and dissolved in 30 μl distilled water. In general, DNA prepared by this method was clean and concentrated enough to give good quality results by automatic sequencing (at least 300 bp of sequence). For a few DNA preparations, an additional polyethylene glycol (PEG) precipitation step was necessary, which was performed as follows. The 30 μl of DNA solution were diluted to 64 μl, mixed gently and precipitated using 16 μl 4M NaCl and 80 μl of 13% PEG 8000. After 30 min on ice the tubes were centrifuged at 4° C., the pellet carefully rinsed with 70% ethanol, air-dried and diluted in 20 μl of distilled water.

7. Sizing of inserts. Insert sizes were determined by pulsed-field gel electrophoresis (PFGE) after cleavage with Dral (Promega). 100-200 ng of DNA was Dral-cleaved in 20 μl total reaction volume, following the manufacturer's recommendations, then loaded onto a 1% agarose gel and migrated using a pulse of 4 s for 15 h at 6.25 V/cm at 10° C. on an LKB-Pharmacia CHEF apparatus. Mid-range and low-range PFGE markers (New England Biolabs) were used as size standards. Insert sizes were estimated after ethidium bromide staining of gels.

8. Direct sequencing. For each sequencing reaction 7 μl BAC DNA (300-500 ng), 2 μl primer (2 μM), 8 μl reaction mix of the Taq DyeDeoxy Terminator cycle sequencing kit (Applied Biosystems) and 30 μl distilled water were used. After 26 cycles (96° C. for 30 sec; 56° C. for 15 sec; 60° C. for 4 min) in a thermocycler (MJ-research Inc., Watertown, Mass.) DNA was precipitated using 70 μl of 70% ethanol/0.5 mM MgCl

2

, centrifuged, rinsed with 70% ethanol, dried and dissolved in 2 μl of formamide/EDTA buffer. SP6 and T7 samples of 32 BAC clones were loaded onto 64 lane, 6% polyacrylamide gels and electrophoresis was performed on a Model 373A automatic DNA sequencer (Applied Biosystems) for 12 to 16 hours. The sequences of oligonucleotides used as primers are shown in Table 1.

9. DOP-PCR. As an alternate procedure we used partially degenerate oligonucleotides in combination with vector-specific (SP6 or T7) primers to amplify insert ends of BAC clones, following a previously published protocol for P1 clones (Liu et al., 1995). The degenerate primers Deg2, Deg3, Deg4, Deg6 (Table 1) gave the best results for selected amplification of insert termini.

TABLE 1

Primers used for PCRs and sequencing

Vector specific Primers for DOP PCR-first

amplification step:

SP6-BAC1:

AGT TAG CTC ACT CAT TAG GCA

(SEQ ID NO: 734)

T7-BAC1:

GGA TGT GCT GCA AGG CGA TTA

(SEQ ID NO: 735)

Vector specific Primers (direct sequencing nested

primer for second PCR step)

SP6 Mid:

AAA CAG CTA TGA CCA TGA TTA CGC CAA

(SEQ ID NO: 736)

T7-Belo2:

TCC TCT AGA GTC GAC CTG CAG GCA

(SEQ ID NO: 737)

Degenerate Primers:

Deg2:

TCT AGA NNN NNN TCC GGC

(SEQ ID NO: 738)

Deg3:

TCT AGA NNN NNN GGG CCC

(SEQ ID NO: 739)

Deg4:

CGT TTA AAN NNN NWA GGC CG

(SEQ ID NO: 740)

Deg6:

GGT ACT AGT NNN NNW TCC GGC

(SEQ ID NO: 741)

Primers used for the amplification of

M. bovis

DNA in polymorphic chromosomal region of Rv58:

Primer 1:

ACG ACC TCA TAT TCC GAA TCC C

(SEQ ID NO: 742)

Primer 2:

GCA TCT GTT GAG TAC GCA CTT CC

(SEQ ID NO: 743)

10. Screening by pooled PCR. To identify particular clones in the library which could not be detected by random end-sequencing of the 400 BAC clones, PCR-screening of DNA pools was performed. Primers were designed for regions of the chromosome where no BAC coverage was appearent using cosmid-or H37Rv whole genome shotgun sequences. Primers were designed to amplify approximately 400-500 bp. Ninety-six-well plates containing 200 μl 2YT/12.5 μg/ml CM per well were inoculated with 5 μl of −80° C. glycerol stock cultures each from the master plates and incubated overnight. The 96 clones of each plate were pooled by taking 20 μl of culture from each well and this procedure was repeated for 31 plates. Pooled cultures were centrifuged, the pellets were resuspended in sterile water, boiled for 5 minutes, centrifuged and the supernatants kept for PCRS. As an initial screening step, the 31 pools of a total of 2976 BACs, representing about two thirds of the library were tested for the presence of a specific clone using appropriate PCR primers. PCR was performed using 10 μl of supernatant, 5 μl of assay buffer (100 mM b-mercaptoethanol, 600 mM Tris HCl (pH 8.8), 20 mM MgCl

2

, 170 mM (NH

4

)

2

SO

4

), 5 μl of Dimethylsulfoxide (DMSO), 5 μl of dNTPs (20 mM), 5 μl of water, 10 μl primer (2 μM), 10 μl inverse primer (2 μM) and 0.2 units off aq DNA polymerase (Boehringer). 32 cycles of PCR (95° C. for 30 s, 55° C. for 1 min 30 s, 72° C. for 2 min) were performed after an initial denaturation at 95° C. 1 min. An extension step at 72° C. for 5 min finished the PCR. If a pool of 96 clones yielded an appropriate PCR product (FIG.

1

A), subpools were made to identify the specific clone. Subpools representative for lane A of a 96 well plate were made by pooling clones 1 to 12 from lane A into a separate tube. Subpools for lanes B to H were made in the same way. In addition, subpools of each of the 12 rows (containing 8 clones each) were made, so that for one 96 well plate, 20 subpools were obtained. PCR with these 20 subpools identified the specific clone (

FIG. 1B

, lower gel portion). If more than one specific clone was present among the 96 clones of one plate (

FIG. 1B

, upper gel portion), additional PCR reactions had to be performed with the possible candidates (data not shown).

11. Genomic comparisons. DNA from the BAC clone Rv58 was digested with the restriction endonucleases EcoRI and PvuII, and resolved by agarose gel electrophoresis at low voltage overnight (1.5 V/cm). DNA was transferred via the method of Southern to nitrocellulose membranes (Hybond C extra, Amersham) following standard protocols (Sambrook et al., 1989), then fixed to the membranes at 80° C. for 2 hours. The blot was hybridized with

32

P labelled total genomic DNA from

M. tuberclosis

H37Rv,

M. bovis

type strain (ATCC 19210) or

M. bovis

BCG Pasteur. Hybridization was performed at 37° C. overnight in 50% formamide hybridization buffer as previously described (Philipp et al., 1996b). Results were interpreted from the autoradiograms.

12. Computer analysis. Sequence data from the automated sequencer ABI373A were transferred as binary data to a Digital Alpha 200 station or Sun SparcII station and analysed using TED, a sequence analysis program from the Staden software package (Dear et al., 1991). Proof-read sequences were compared using the BLAST programs (Altschul et al., 1990) to the

M. tuberclosis

H37Rv sequence databases of the Sanger Centre, containing the collected cosmid sequences (TB.dbs) and whole-genome shotgun reads (TB_shotgun_all.dbs) (http://www.sanger.ac.uk/). In addition, local databases containing 1520 cosmid endsequences and the accumulating BAC endsequences were used to determine the exact location of end-sequenced BACs on the physical and genetic map. MycDB (Bergh et al., 1994) and public databases (EMBL, Genbank) were also used to compare new sequences, but to a lesser extent. The organization of the open reading frames (ORFs) in the polymorphic region of clone Rv58 was determined using the DIANA software established at the Sanger Centre.

EXAMPLES

Example 1

Construction of a pBeloBAC11 Library of

M. tuberclosis

H37Rv.

Partial HindIII fragments of H37Rv DNA in the size range of 25 to 180 kb were ligated into pBeloBAC11 and electroporated into strain

E. coli

DH10B. While cloning of fractions I (25 to 75 kb) and II (75 to 120 kb) gave approximately 4×10

4

transfornants (white colonies), cloning of fraction III (120 to 180 kb) repeatedly resulted in empty clones. Parallel cloning experiments using partial HindIII digests of human DNA resulted in stable inserts for all three fractions (data not shown), suggesting that the maximum size of large inserts in BAC clones is strongly dependent on the source of the DNA. Analysis of the clones for the presence of inserts revealed that 70% of the clones had an insert of the appropriate size while the remaining 30% of white colonies represented empty or lacZ′-mutated clones. Size determination of randomly selected, Dral-cleaved BACs via PFGE showed that the insert sizes ranged for the majority of the clones between 40 kb and 100 kb with an average size of 70 kb. Clones with inserts of appropriate size were designated with “Rv” numbers, recultured and stored at −80° C. for further use.

Example 2

Direct DNA Sequence Analysis of BACs.

To characterize the BAC clones, they were systematically subjected to insert termini sequencing. Two approaches, direct sequencing of BAC DNA and PCR with degenerate oligonucleotide primers (DOP), adapted to the high G+C content of mycobacterial DNA, were used. In a first screening phase, 50 BAC clones designated Rv1 to Rv50 were analysed using both methods in parallel. Except for two clones, where the sequences diverged significantly, the sequences obtained by the two methods only differed in length. Sequences obtained directly were on average about 350 bp long and for 95% of the clones both the SP6 and T7 endsequences were obtained at the first attempt. Sequences obtained by DOP-PCR were mostly shorter than 300 bp. For 40% of the BACs we obtained only very short amplicons of 50 to 100 base pairs from one end. In two cases the sequence obtained with the DOP-PCR differed from the sequences obtained by direct sequencing, and in these cases

E. coli

or vector sequences were amplified (data not shown). Taking the advantages and disadvantages of both methods into account, we decided to use direct termini sequencing for the systematic determination of the SP6 and T7 end-sequences.

Example 3

Representativity of the Library.

After having determined the end-sequences of 400 BACs a certain redundancy was seen. The majority of clones were represented at least 3 to 4 times. Maximum redundancy was seen in the vicinity of the unique ran operon, as 2.5% of the clones carried identical fragments that bridge the cosmids Y50 and Y130 (

FIG. 3

, approximate position at 1440 kb). The majority of clones with identical inserts appeared as two variants, corresponding to both possible orientations of the HindIII fragment in pBeloBAC11. This suggests that the redundancy was not the result of amplification during library construction, but due to the limited number of possible combinations of partial HindIII fragments in the given size-range of 25 to 120 kb. To detect rare BAC clones, a pooled PCR protocol was used. Primers were designed on the basis of the existing cosmid sequences and used to screen 31 pools of 96 BAC clones. When positive PCR products of the correct size were obtained, smaller subpools (of 8 or 12 clones each) of the corresponding pool were subsequently used to identify the corresponding clone (FIG.

1

). With this approach 20 additional BACs (Rv401-Rv420) were found for the regions where no BACs were found with the initial systematic sequencing approach. The endsequences of these BACs (Rv401-420) were determined by direct sequencing, which confirmed the predicted location of the clones on the chromosome. A 97% coverage of the genome of H37Rv with BAC clones was obtained. Only one region of 150 kb was apparently not represented in the BAC library as screening of all pools with several sets of specific primers did not reveal the corresponding clone. This was probably due to the fact that HindIII fragments of mycobacterial DNA larger than 110 kb are very difficult to establish in

E. coli

and that a HindIII fragment of ˜120 kb is present in this region of the chromosome (data not shown).

Example 4

Establishing a BAC Map.

Using all endsequence and shotgun-sequence data from the H37Rv genome sequencing project, most of the BAC clones could then be localized by sequence comparison on the integrated map of the chromosome of

M. tuberclosis

strain H37Rv (Philipp et al., 1996b) and an ordered physical map of the BAC-clones was established. PCR with primers from the termini sequences of selected BACs were used for chromosomal walking and confirmation of overlapping BACs (data not shown). The correct order of BACs on the map was also confirmed more recently, using 40,000 whole genome shotgun reads established at the Sanger Centre. In addition, pulsed-field gel electrophoresis of Dral digests of selected BACs was performed (

FIG. 2

) in order to see if the approximate fragment size and the presence or absence of DraI cleavage sites in the insert were consistent with the location of the BACs on the physical map (FIG.

3

). Comparison of the sequence-based BAC-map with the physical and genetic map, established by PFGE and hybridization experiments (Philipp et al., 1996b), showed that the two maps were in good agreement. The positions of 8 genetic markers previously shown on the physical and genetic map were directly confirmed by BAC-endsequence data (Table 2, FIG.

3

). The position of 43 from 47 Y-clones (91%) shown on the physical and genetic map, which were later shotgun sequenced, was confirmed by the BAC endsequences and shotgun sequence data. Four clones (Y63, Y180, Y251, and Y253) were located to different positions than previously thought and this was found to be due to book keeping errors or to chimeric inserts. Their present approximate location relative to the oric is shown in FIG.

3

: Y63 at 380 kb, Y63A at 2300 kb, Y180 at 2160 kb, Y251 at 100 kb, and Y253 at 2700 kb. A total of 48 BACs, covering regions of the chromosome, not represented by cosmids were then shotgun sequenced (Cole et al., 1997), and these are squared in FIG.

3

. No chimeric BACs were found, which is consistent with the observations of other research groups for other BAC libraries (Cai et al., 1995; Zimmer et al;, 1997). The absence of chimeric BACs was of particular importance for the correct assembly of the

M. tuberculosis

H37Rv sequence. The exact position of the BAC termini sequences on the chromosome will be available via the world wide web

TABLE 2

Identities of genetic markers previously shown on the integrated and

genetic map of H37Rv (Phlipp et al., 1996b) which showed perfect

sequence homology with BAC end sequences.

BAC

end

Description of

GenBank

Locus

sequence

genetic marker

Organism

Accession n

o

apa

Rv163SP6

Secreted

M. tuberculosis

X80268

alanine-proline-rich

antigen

dnaJ,

Rv164T7

DnaJ hsp

M. leprae

M95576

dnaK

fop-A

Rv136T7

Fibronectin binding

M. tuberculosis

M27016

protein

polA

Rv401T7

DNA polymerase I

M. tuberculosis

L11920

ponA

Rv273T7

Penicillin binding

M. leprae

S82044

protein

pstC

Rv103T7

Putative

M. tuberculosis

Z48057

phosphate transport

receptor

recA

Rv415SP6

Homologous

M. tuberculosis

X58485

recombination

wag9

Rv35SP6

35-kDa antigen

M. tuberculosis

M69187

Example 5

Repetitive Endsequences.

Repetitive sequences can seriously confound mapping and sequence assembly. In the case of the BAC endsequences, no particular problems with repetitive sequences were observed. Although nine clones with one end in an IS1081 (Collins et al., 1991) sequence were identified, it was possible to correctly locate their position on the map using the sequence of the second terminus. Moreover, these BACs were used to determine the exact locations of IS1081 sequences on the map. Five copies of this insertion sequence, which harbors a HindIII cleavage site, were mapped on the previous physical and genetic map. In contrast, BAC endsequence data revealed an additional copy of IS1081 on the

M. tuberculosis

H37Rv chromosome. The additional copy was identified by six clones (Rv27, Rv118, Rv142, Rv160, Rv190, Rv371) which harbored an identical fragment linking Y50 to 1364 (

FIG. 3

, at ˜1380 kb). This copy of IS1081 was not found by previous hybridization experiments probably because it is located near another copy of IS1081, localized on the same DraI fragment Z7 and AsnI fragment U (

FIG. 3

, at ˜1140 kb). Furthermore, the position of a copy of IS1081 previously shown in DraI fragment Y1 (

FIG. 3

, at ˜1840 kb) had to be changed to the region of Y349 (

FIG. 3

, at ˜3340 kb) according to the endsequences of BAC Rv223. The positions of the four other IS1081 copies were confirmed by the sequence data and therefore remained unchanged. In total 6 copies of IS1081 were identified in the H37Rv genome in agreement with the findings of others (Collins et al., 1991).

In addition, a sequence of 1165 bp in length containing a HindIII site was found in two copies in the genome of H37Rv in different regions. The endsequences of BAC clones Rv48 and Rv374, covering cosmid Y164, as well as Rv419 and Rv45, that cover cosmid Y92, had perfect identity with the corresponding parts of this 1165 bp sequence (

FIG. 3

, at ˜3480 kb and 900 kb). Analysis of the sequence did not reveal any homology with insertion sequences or other repetitive elements. However, as each of the two locations showed appropriate BAC coverage, chimerism of the sequenced cosmids Y164 and Y92 can be ruled out as the probable cause.

Example 6

Using BAC Clones in Comparative Genomics.

The minimal overlapping set of BAC clones represents a powerful tool for comparative genomics. For example, with each BAC clone containing on average an insert of 70 kb, it should be possible to cover a 1 Mb section of the chromosome with 15 BAC clones. Restriction digests of overlapping clones can then be blotted to membranes, and probed with radiolabelled total genomic DNA from, for example,

M. bovis

BCG Pasteur. Restriction fragments that fail to hybridize with the

M. bovis

BCG Pasteur DNA must be absent from its genome, hence identifying polymorphic regions between

M. bovis

BCG Pasteur and

M. tuberclosis

H37Rv. The results of such an analysis with clone Rv58 (

FIG. 3

, at 1680 kb) are shown here. This clone covers a previously described polymorphic genomic region between

M. tuberclosis

and

M. bovis

BCG strains (Philipp et al., 1996a). EcoRI and PvuII digests from clone Rv58, fixed on nitrocellulose membranes, were hybridized with

32

P-labelled total genomic DNA from

M. tuberclosis

H37Rv,

M. bovis

(ATCC 19120), and

M. bovis

BCG Pasteur.

FIG. 4

presents the results of this analysis, where it is clear that several restriction fragments from clone Rv58 failed to hybridize with genomic DNA from either

M. bovis

or

M. bovis

BCG Pasteur. On the basis of the various missing restriction fragments, a restriction map of the polymorphic region was established and compared to the H37Rv sequence data. The localization of the polymorphism could therefore be estimated, and appropriate oligonucleotide primers (Table 1) were selected for the amplification and sequencing of the corresponding region in

M. bovis

. The alignment of

M. bovis

and

M. tuberculosis

H37Rv sequences showed that 12,732 bp were absent from the chromosomal region of the

M. bovis

type strain and

M. bovis

BCG Pasteur strain. The G+C content of the polymorphic region is 62.3 mol %, which is the same as the average genome G+C content of the

M. tuberclosis

genome, hence indicating that this region is not a prophage or other such insertion. Subsequent PCR studies revealed that this segment was also absent from the Danish, Russian, and Glaxo substrains of

M. bovis

BCG, suggesting that this polymorphism can be used to distinguish

M. bovis

from

M. tuberclosis

. Analysis of this sequence showed that 11 putative open reading frames (ORFS) are present in

M. tuberclosis

, corresponding to ORFs MTCY277.28 to MTCY277.38/accession number Z79701-EMBL Nucleotide Sequence Data Library (FIG.

5

). FASTA searches against the protein and nucleic acid databases revealed that the genes of this region may be involved in polysaccharide biosynthesis. Among these putative genes, the highest score was seen with ORF 6 (MCY277.33), whose putative product shows a 51.9% identity with GDP-D-Mannose dehydratase from

Pseudomonas aeruginosa

(accession number U18320-EMBL Nucleotide Sequence Data Library) in a 320 amino acid overlap. The novel

M. bovis

sequence of the polymorphic region was deposited under accession number AJ003103 in the EMBL Nucleotide Sequence Data Library.

As it appears from the teachings of the specification, the invention is not limited in scope to one or several of the above detailed embodiments; the present invention also embraces all the alternatives that can be performed by one skilled in the same technical field, without deviating from the subject or from the scope of the instant invention.

TABLE 3

End sequences of the polynucleotide inserts cloned in the named recombinant

BAC vectors contained in the I-1945

M. tuberculosis

H37Rv genomic DNA library.

RvXXXSP6 corresponds to the SP6 endsequence of the clone RvXXX;

RvXXXT7 corresponds to the T7 endsequence of the clone RvXXX.

RvXXXIS 1081 corresponds to a region located close to a copy of the IS1081

repetitive sequence (Insertion element)

The character <<->> denotes an uncertain base residue.

Clone Rv101

::::::::::::::Rv101SP6.seq::::::::::::::

AATACTCAAGCTTGCCCAGCCGTCGATGACAAGAAATATGTCCGCAAAAGACTCAGCGGCCGACTTTTGCTCGCAGCTGGCGGTACCGCGCCACCGATTCTATGCCG

(SEQ ID NO. 6)

TGGTCGCGGAAAAATGCCTCCCGAAATCGCACGGCCGACTCCAGTTCGGCGAGCATCCGCGATGCCAGCTGCGGCTGCGCCCTGCCGGCCACGGCACCCACATGCG

GCAGTTCGTCCACCTGGGCCAGCGCCCCGCCGCCGAATTCCAAACAATAGAACTGCACCCGGCCCGCATCTGTGGGTAACAGCCAACGCCATGATCAGCGTCCGCAG

CGCGGTTGACTTGCCCGTTTGCGGTGCACCTACGAACGCGACATTGCCTGCGGCCCCGGACAAGTCGATCGTGCGCGGCACCGTGACTGCTCTAACGGGCGATTG

AAATTCCGAT

::::::::::::::Rv101T7.seq::::::::::::::

CCACCCGTGTAATTTGGGATGGGCAAAAAGGCGAAGCACCGCGTGGCCACGAACGCCGGGAGGGACAATCTGGGCGGTTAGGGCTTCTCGCCGGGAAGGCCCGAAC

(SEQ ID NO. 7)

GTACGGCGTTTCAACACCTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGCTGGCACCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGG

TAGTCGCCGCCCGGGCGGCTACACTCTGAAACGCGATGACCATCGATGTGTGGATGCAGCATCCCGACGCAACGGTTCCTACACCGCGATATGTTCGCCTCGCTGC

CCCGGTGGACCGGT

Clone Rv102

::::::::::::::Rv102SP6.seq::::::::::::::

AATACTCAAGCTTTCCGCCGATACCCGCCATGTCGCGCACATCCAGGACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAGTGCGGATGATCGGGCCGCC

(SEQ ID NO. 8)

TACGTCGTGGTGTACCTCGTCGGTAACAACGAAACCGAAGCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACCGCACGGGGTGAAGG

CCTATGTCACCGGTCCGGCAGCACTCAATGCCGACCAGGCCGAGGGCGGAGACAAAAGTATCGCTAAGGTCACCGCGATCACCAACATGGTGATCGCAGCAATGTT

GCTAGTGATCTATCGCTCCGTAATTACCGCGGTTCT

::::::::::::::Rv102T7.seq::::::::::::::

GTGCCGTTCCAACCCGAATTGGCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACCTCGATGCTGCCGCCATGG

(SEQ ID NO. 9)

ACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCGTTGACCGGGCGGATCGCGGTGATCGTCGA

TGACGGCATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCGATCGGCCCAGACGACATC

GTGGCGAGATTCGCCGGGTACGCCGATGAGGTGGT

Clone Rv103

::::::::::::::Rv103SP6.seq::::::::::::::

AATACTCAAGCTTTCGGCGGAAACGGACACATTGCGAATATTGATGACAAAATAAAAATCATTGATGGTTTGAGTCACCAGGCCGATCAAGCCTTCGCCGAGCCAA

(SEQ ID NO. 10)

ATTCCAATCAAGAGGCCCAAGCCCGTACCAATCAGCCCGGCAACGAGGGATTCCGTCATTATCAGCCAAAATAACTGCTCTCGGGTTACACCCAAACAGCGCAATA

TGGCGAAAAACGGTCGCCGTTGCACGACATTAAATGTCACGGTATTGTAGATTAAAAAGATACCCAC

::::::::::::::Rv103T7.seq::::::::::::::

TGCTCCCGAAACCTGGGGTGTGCCTGCTCTGTATGCACGGCATACGGACATCCTTCCCCTGAGACCCGCGGTCGAACCAGCCACGTGTCCATCATAGNGGGTCAA

(SEQ ID NO. 11)

CCCCGGCCAAGGGCGACGGCACGCCAAGTTCGCCGACCGTTAACCTAGTGCTGTTAGCTTCATTTGCTGCGATCAAAACAGCTGGTCGGCCGTTAGGAACTGAATT

GAAACTCAACCGATTTGGTGCCGCCGTAGGTGTCCTGGCTGCGGGTGCGCTGGTGTTGTCCGCCTGTGGTAACGACGACAATGTGACCGGGGGAGGTGCAACCACT

GGCCAGGCGTCGGCAAAGGTCGATTGCGGGGGGAAGAAGACACTCAAAGCCAGTGGGT

Clone Rv104

::::::::::::::Rv104SP6.seq::::::::::::::

ATACTCAAGCTTTGCCGACGAGCGGGCGATGTTGATGACGGGAAACCCCAGCGCACAACCGACGATTTTGGCGTAGCCGGCGGACGTCTGCTCGATTCCGATCAGG

(SEQ ID NO. 12)

TCGGCGCTCGCATCGAGCATGGCGCCGGCGACGGCTAGCAGCGATCCGCCGTCGTCGAGGAGCACGACACGAGCCGTACGCCCGGCCGTAAGCCGCGCCCAGGATT

CGGCGAAAAACCGTTCTACGTGGCGGGTGTACTGGGTGTCGAATGATTCGTGGGGTGCGTAGGCGTCGCTGCAATCGTCGACATAGATGCCGTCGGGCCGCATCGC

GTCGACAACTCCGGGTGAGTGGAATAGCACTTGCCGATCACCGCGACGTTGCGCGGATGAGGCCGAACCCGAATA

::::::::::::::Rv104T7.seq::::::::::::::

TCCTATGTCCCTGCCGAGCANGTGATCGAACGCGGTGACAGATTTGTCTATCCTGGACCTGACGGTGAGGTCGAAGTTTTCCAGGAATTCGGCAAAATCGGTAAGA

(SEQ ID NO. 13)

GCCTGAAGAATTCGGTATCGCCGGACGAAATCTGCGACGCATACGGGGGCATATACGCTTCGGGTTTACGAGATGTCGATGGGGCCGCTGGAGGCTTCACGTCCAT

GGGCCACAAAGGATGTTGTCGGCGCGTACCGTTTTCTGCAGCGGGTGTGGCGCTTGGTCG

Clone Rv105

::::::::::::::Rv105SP6.seq::::::::::::::

ATACTCAAGCTTGATTCCGCCGAAACCGACCGTGAGCACCCCGCCAGCCACCACGCTCGGGTCGGGCGCCGGGCCCGGGCCCGCCAGGCTGCTCCGCTCGGTGATGG

(SEQ ID NO. 14)

CACGCCACCGCGACACCACCCGGCTGCGCTACGTCTAACCATTCCAGGCGGAGCTACATCAGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCCAGGTCGAAGTCTA

TACCGATATGCGCATCCGCAGCCGCCACCCTGGAGAACAGAACGATGCCCTACTAATGCTTGTCTGGCGGGGCC

::::::::::::::Rv105T7.seq::::::::::::::

GGTACGCTTCGGTCGCAGTCTGCGAGTGATGCATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGTTGCTCACCGGAATCCAACCGGTA

(SEQ ID NO. 15)

GAAGGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCAGCACTCCGCAGGCTTCGTCGGGGTGGTCGCGA

CGCGCATGGGCCACCATCGCATTCACCAGGTCTGCGCGAATCACCAGCACGTAGACGGTTCCTTTCCTAAGCAACACCGAAGTTTCAGGACCCGAATGCTCCGGGA

AACATGTCACGGTAGGTCGGTATTCCGGCTACCGGCTGA

Clone Rv106

::::::::::::::Rv106SP6.seq::::::::::::::

GGCGTCAACGGTGTCGGAACCCGCGTCAAGCAATTGGTAGGCCTGCAGTCTGTGAATCAGGCCGACGCTGTGGCCGCCGCGGC

(SEQ ID NO. 16)

::::::::::::::Rv106T7.seq::::::::::::::

GGCTNGCGTACCCGGTACCGGCCGCGGGCCTACCACGTGCCGGAACTGGAAGCGCAGTAAGCCCTCAACGCGCCACCGCTTTGGCCCGCGCGCCCGGCGTAGGCGC

(SEQ ID NO. 17)

ATCGGCGGTGGCCGTGGGGCGGCGCACTGCGACCTCACCAGCGGCTTTCGAGCTTTGTTCGATCAACCGGCCAGCATGGTCGANGATGCATTCGAGACCATATTCG

AAATTGGTTTCATCGGGGGCCCCGATCCGATGCCCCCTCCCAGTTGCGTGAGCAANCAGCGGAGTCNTCGCGGGATCGATGGCCACGGGGTGTTCAATGGCGGATG

GTCCGCTGCCCGCCGACTGGCTCTTGCGGGAGAACCGATCTAGCACCACCGATCCGCGCACGTNG

Clone Rv107

::::::::::::::Rv107T704.seq::::::::::::::

GTAATNTCGCGCACANCCANGACTTCTGGGGGGATCNGCTGACAGTGGNGGATCCCAAATTGCGGATGATCGGGCCGCCNACGTCGTTGTGTACCTCNTCNGTC

(SEQ IN NO. 18)

ACAACNAANCCGAANCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACCGCNCGGGGTGAAGGCCTATGTCACCGGTCCGGCAACACT

CAATGCCGACCAGGCCGANGCCGGACACNANAGTATCNCTAACGTCACCGCGATCACGAGCATGGTGATCGNNCAATGTTNCTANTGATCTATCGCTCCGTAATTA

CCGCGGTTCTCGTCTTGATCATGGTCGCANCGAACTCCGGCGCAATCCGCGGATTCATCGNCTTGCTCGCCGATCACATATTTTCAGCCTTTCACATTGCAACNAA

CCTGCTCGTCTCATGGNGATGCGGCGACACGGACTACCGATATCATGCTCGCCGTTACACAATCNCGCCACGCCGCGAAGACNGGAAACGCTTCTACACAATNTTC

NCGGGACGCCACTNAACTTGGTTCNGGTTTGACATTGCCGCGCATGTNGCCCAGCTTTGCCGGCTCCCCTTA

Clone Rv108

::::::::::::::Rv108T704.seq::::::::::::::

TGAATTTCCCGATCCCACAATCTCGGTTCAGATACAGGTCGCCATACCCCTTACTTCGGCAACGCTGGGCGGATTGGCCCTGCNGCTGCAGCANACCATCGACGCC

(SEQ ID NO. 19)

ATCGAATTGCCGGCAATCTCGTTCAGCCAATCCATACCCATCGACATTCCGCCGATCGACATCCCGGCCTTCNCCCTTTAACGG

Clone Rv109

::::::::::::::Rv109SP6.seq::::::::::::::

AACAGCTATGACCATGNTTACGCCAAGCTATTTAGGTAACACTATANAATACTCAAGCTTTTACGGTGATCGCGCATCACCTGGTTCATGAACTGGAAGCAGCGCA

(SEQ ID NO. 20)

NCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCCGCGGTCNGGTGCAGGTGCTCGGGCAGCTCGGCCGCGACAGCCGCCTGACCCTGAAACCAGCTTCC

ATATCCCGCGACNAACNACNCCAGTCCGCTACGTAACCCCTCCGCGACTGTCCATGGACAACAGCGCGTTCTCCACCGACCGGGCCCGGGTGTGGGGTGTTTCGGC

GACCGGCAGCCAGGTGGTCCACACTGCCGACGGGCGCCGCGAGCCGTTCACCGACCAAGCCGCCGAACAAGTCCGCCCGATCGCATACTCCAACCGGTTGCGGTAC

TGCAGGTCAGCTGGCGTACCTCCTCNTCNCGCTGGCGAAGTCTTFGCTCANCACGTCGCAGAACGGCAAGGAACACGTTCA

::::::::::::::Rv109T7.seq::::::::::::::

GACCGNNCCATGTTTCCACAATGTGGTGCCAGTNCGGNGGCTACGTGCCATCNANACACTGGCGCAGGCTATCGCACCCGTTATCNGCTACGAACAAATNCGGTA

(SEQ ID NO. 21)

TGCGTTCTTTANCATGAGTCGGCGACCGNCGATCATGGTCGACACCCACGACNGAAATACGCAGATCGCCNTCNAGCNTGTGTGCCGCGGATTATCANGACTGACC

TCCTGGCTGACCGGNNTGTNTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGNTCGTGGTCGGCTCGGATAGCGAAGTCAGCTAATTCTCGTGGCAGCTCGAAAGGG

TCCTGCCGGTGCCGGTCTTTGCGCAAACCATGCNCATGTTACGGTCCCTCGGGTGCGGCCTGGCGGCGGC

Clone Rv10

::::::::::::::Rv10SP6D2.seq::::::::::::::

GGGATGGGCGGGCCCGCTAAACTCTTCGTGTTCCACTAACTCCGGGAGGGNCAATCTCGGGCCGTTATGGCTCACGTCGCGTCGCCCTCCGACCGCGAACATTCGG

(SEQ ID NO. 22)

AGTTGGCAGCAACCTGGTAGCACCCTGGCCGG

::::::::::::::Rv10T704.seq::::::::::::::

NCCGTCGTTGACAAGTAAATATGTCCGCAAAAGTCTCAGCGGCCGACTTTGCTCGCAGGTGGCGGTACCGCGCCACCGAGTCGATGCCGTGGTCGCGGAAGAATGC

(SEQ ID NO. 23)

CTCCCGAAATCGCACGGCCTTCCCNNTTTAAACGGA

Clone Rv110

::::::::::::::Rv110SP6.seq::::::::::::::

TTTAGGTGACACTATAGAATACTCAAGCTTTTGGTCTAGCCGGCCGAGCACGATACGGGTGTCATTGGCCACCGGCGGCGGCTGTCCGGGAAATGGCGGGTCCCG

(SEQ ID NO. 24)

GTGGTTTTGCTGATGAGTGCTGAACCGTANTCGAAGTGGGCGGCGTCAGACTCCACCCANCCAGCAGGCAGCGCGAAGCTGAATCCTCCAACCGGGTTGTCNATCC

GGACAAGTTGGGGTGCGTTTGGGGCAATGACAGGTGGCNGCGGTGCGTTCGGGTCCGCCGGCGGAAGTGCTGCGTTGGGATCNCCCGCTGGGCATTCGGCNTTTT

GCGGCGGCCGGTGGTNGGGGGGCAACAGGTNTCCCNGTGCGGGTGGCGCTCAACGGTCNACGGCGCAAGCCGCCGTTGTTGGTACCNGGGGCGCTGGCTCCGGATC

GCGTTGGCGGTCNCCGG

::::::::::::::Rv110T7.seq::::::::::::::

CTACACCATCGAATACGACGGCGTCGCCNACTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTAC

(SEQ ID NO. 25)

TTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGCACGGANAACCTGCCGCTGC

TAGAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAANGTGATTGTTAACCTGGGCTACNGCGACCCGGCCTATGG

TTATTCNACCTCNCCGCCCAATGTTGCGACTCCGTTCGGGTTGTTCCCANAAGTCNNCCCGGTCGTCATCGCCGAANCTCTCNTCCCGGGACCCACAGGGAATCNG

CNATTTCNCCTACAAATCANCCACCTCCA

Clone Rv111

::::::::::::::Rv111T7.seq::::::::::::::

GCATGATCGGCCACCTTTCGGGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGCGGGTAATCGCCGACGGTGCCGGTTCGCGAGCCGAAGGT

(SEQ ID NO. 26)

GACGACTCTGATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCACCAACGGCGCGAGCTCAACGACGTCAATCNCGTTGTCGCTTTCTACGGTCACCGACCCTGGT

GACCGTAGTTCNCCCG

Clone Rv112

::::::::::::::Rv112SP6.seq::::::::::::::

GACACTATAGAATACTCAAGCTTGCCAACCGCCAGCCTGCATCCGGCGGCGANCACTGCTCCGCCGACCAGTACGAACCAACCTGCGGTGCCCAGGCCATTGACGA

(SEQ ID NO. 27)

TGTGCTGGTCGGCGCCCGCGAGTCCGCGCACCATCAACGCCGCGGGCACCACCANGGCGGCCCCACCCTGCACGGCGACGATCATTCCGGCGCCGCTCACGGCGGG

CGGGGCTCGAACANGCACAGCATCAACGTNGTCACCCGGCCGTGACCGGCCCGCATCGTCACACCACCCAAGCCCATTGCCGTCCTCCTCAACNGGGCGACCCGGC

CCGCATCGTCACACGGNCTAAGGCCATTGCCGTCCTCCT

::::::::::::::Rv112T7.seq::::::::::::::

TCGGCGCCATCGGCACCTTCGAGGACCTGTATTTCGACGCCGTGGCCNACCTGAGGTTGGCGGTGGCNAAGTGTGCACCCGGTTGATTCGCTCGGCCTTGCCGGA

(SEQ ID NO. 28)

TGCCACCCNGCGCCTGGTGGTCGATCCGCNAANAGACAANTTGTGGTGGANGCTTCTGCTGCCTGCGACACCCACNCGTGGTGGCACCGGGCAGCTTTAGCTGGC

ATGTCCGACCGCGCTGGCCGACNACTCCAGACNTTCCACNAANGGTCGCONNCCCAATGTNCCGNANTGTCTCCGGNTCCCTTTACCNCCCAATGGGCNGNTTCC

ACNGGTTACGGGCCCCNTNCCGGCGGGTCTNCCTCCCAANCTACCAAATACGCCCGACNTTCCGGA

Clone Rv113

::::::::::::::Rv113SP6.seq::::::::::::::

ATACTCAAGCTTTTATGGTGATCGCGCATCACCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCG

(SEQ ID NO. 29)

GGTGCAGGTCTCGGGCAGCTCGGCCGCGAACAGCCCGGCTTGAACCCTGAAAACCNGCTTTCCATATCCCGCGACGAAAGAACGCCAGTTCCGCTACTTAACCCC

TCCGCGAACCGTCCATGGACAACAGCGCGTTCTCCACCAACCGGGCCCGGGTGT

::::::::::::::Rv113T7.seq::::::::::::::

TCGGCTCAGGCCGCGCTGCTGGTAGAGTCGCTGACCGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGCGCAGGCTATCG

(SEQ ID NO. 30)

CACCCGTTATCGGCTACGAAGCAAATCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGATCGCCGTCA

AGCATGTGTGCCGCGGATTATCAGGACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGGTCGTGGTCGGCTCGGATAGCGA

GGTCAGCGAATTCTCGTGGCAGCTCGAAAGGGTCCTGCCGGTGCCGGTCTTTGCGCAAACAATAGCGCAGGTTACGGTCGCGCGGGGTGCGGCCTGGCGGCGGCC

Clone Rv114

::::::::::::::Rv114SP6.seq::::::::::::::

CAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTCGCGTCTACGCCGGCCCGGAGCATCCGCACAGCGCTCAGCAGCCGGTTCCGTACGANCTCAAGCAGGTG

(SEQ ID NO. 31)

GCGCAATGACCGAAACCACCCCAGCCCCGCAAACCCCGGCGGCCCCGGCCGGGCCCGCACAATCGTTCGTGTTGGAGCGGCCCATCCANACCGTTGGGCGCCGTAA

GGANGCCGTGGTACGAATGCGGCTGGTGCCCGGCACCGGCAAGTTCGACCTCAACGGCCGCAGCTTGGANGACTACTTCCCAAACAAGGTGCACCAGCAGTTGATC

AAGGCACCCCTGGTCACCGTGGATCGGGTGGAAAGTTTCGACATCTTTGCCCACCTGGGCGGCGGCGGCCGTCCGGTCAGGCCGGGCCTGCCCTGGGTATCGCCCG

GGCATTGATTCTGGTATCCCCNGAAGAACCG

::::::::::::::Rv114T7.seq::::::::::::::

CGGTTGGCCACCGCTTCTGCGGTGCCGCCGCCGTCGACAATGACCGTGTCGTCCTTGCTGACCACCACGCGTCGGGCCCGAGCCCAGCACCTCCAAGCCCACCTCGC

(SEQ ID NO. 32)

GCAGCACCATGCCGGCGTCGGGGTTGACCACCTGGCCACCCGTCACCACCGCCAGGTCCTCAAGGAAACGCTTACGGCGGTCACCGAAGTACGGCCCCTTGACCG

CGACCGCTTTCAACGTCTTGCGAATCGCGTTGACGACCAGCGTCGCCAACG TTCGCCCTCCACGTCTTCAGCCACGATCAGTAGTGGCTTACCGTTCCTGCAAC

CTTTTCCAGCAATGGCAACAGATCGGGAAGCGANCTGATCTTGTCTTGGTGCN

Clone Rv115

::::::::::::::Rv115SP6.seq::::::::::::::

CCAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTTTGGCTGGGTCGCCTTCGAATTCNGCGTGCACCGCTATGGGTTGCANCAGCGGCTGGCGCCGCACACC

(SEQ ID NO. 33)

CCACTGGCCCGGGTGTTTTCGCCCCGAACCCGATCATGGTGAGCGAAAAGGANATTCNCCTGTTCGATGCTGGGATTCGCCACGCCAAGGCATCTANCGATTACT

CTCCNCGGGGTGGGAAAAGTGCCCAATCCCCTCCCTCCAACTTTCCNAACAATCATTCCGGTTCCNCCNTCCGGTTGGNGGTAACCNNCCAATAAAACCCCTGCC

CG

::::::::::::::Rv115T7.seq::::::::::::::

GCCCGCNCATGGCCAATCCCCGAAGACATCATTGGCCAGTGGCCGGGCGCTAACAGGTTCCAGCCCCCCACCANTGCCGCTCGAACATGCGGTGCAACCCATTCGC

(SEQ ID NO. 34)

AGGCCGGCAGGGAAAGCACCGCGGAAGCCGCAAAGGGCTGCAGTTCCGCGCCCAATAATGTCGTCCGCAACCAGATGCGCTCNAAAACCNCNCCGGCAGTCAGCGC

ACCCGACGCGANGTCGAAAGACGTCNTCAGCGCGCCCACATGGGGTGCCAATCGGCACGGCAGGTATGCCGCGCGCAACCCGAGCGCGTGGTGCATGCCCACGGTC

CGCANGANGCGCANCACCCGCCAATGCCGAANCCCACGAAACATCGGGCGCATCCACCTTCAACC

Clone Rv116

::::::::::::::Rv116SP6.seq::::::::::::::

ATACTCAAGCTTGCCCAGCCGTCGATGACAAGAAATATGTCCGCAAAAGACTCAGCGGCCGACTTTGCTCGCAGCTGGCGGTACCGCGCCACCGAGTCGATGCCGT

(SEQ ID NO. 35)

GGTCGCGGAAGAATGCCTCCCGAATTCGCACGGCCAATTCCATTCCGGGAAGCATCCGCAATGCCAGCTGCGGTTGCCCCCTGCCGGCCACGGCACCCACTTGCGG

CATTGCGTCCACCTGGGCCAGCGCCCCGCCGCCAAATTCCAAACAATAAAAATTGCACCCGGC

::::::::::::::Rv116T7.seq::::::::::::::

CCACCCGTGTATTTTGGGATGGGCAAAAAGGCGAAGCACCGCGTGGCCACGAACGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAAC

(SEQ ID NO. 36)

GTACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGGTAGCACCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGG

TAGTCGCCGCCCGGGCGGCTACAGTCTGAAACGCGATGACCATCGATGTGTGGATGCAGCATCCGACGCAACGGTTCCTACACGGCGATATGTTCGCCTCCCTGCC

CCGT

Clone Rv117

::::::::::::::Rv117SP602.seq::::::::::::::

CTGCCCATGTTTGGGGACGCCCGACCAGCCGATGCTGGAGGCCTACACGGCCCTTGGTGCGCTGGCCACGGCGACCGAGCGGCTGCAACTGGGCGCGTTGGTGACC

(SEQ ID NO. 37)

GGCAATACCTACCGCAGCCNGACCCCTNTCNCAANAGGATNTTGTTCGCCGGACCCCNCTC

::::::::::::::Rv117T704.seq::::::::::::::

CCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGA

(SEQ ID NO. 38)

CGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATC

GTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCTACGCGACCGCCTTT

Clone Rv118

::::::::::::::Rv118SP6.seq::::::::::::::

ATACTCAAGCTTTGTCACACCAAGTGTTTCGACCAGGCGCTCCATCCGGCGAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGTTCA

(SEQ ID NO. 39)

GCTCGCTTGCGGCGCTGCAGCAGCCATTCGGGGAAATACCTGCCCTGGCGCAGCTGGGGGATCCCAACTTCAATGGTTGCGGCACGGGTGCTAAATTCACGGTGGC

GGTAGCCGTTGCCCTAATTGGACCGCTCATCGCTGCTTTCGCGGTACCCCGCCCCGCACAGGGCTTCGGCTTCAGCCCCCATCAGGGCGGCAATAAACTTCAAGAG

CACC

::::::::::::::Rv118T7.seq::::::::::::::

GAGGCAGCTTCGCCGGCAATTCTACTAGCGAGAAGTCTGGCCCGATACGGATCTGACCGAAGTCGCTGCGGTGCAGCCCACCCTCATTGGCGATGGCGCCGACGAT

(SEQ ID NO. 40)

GGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGCGACGCGGTAGGTGGTCAAGTCCGGTCTACGCTTGGGCCTTTGCGGACGGTCCCGACGCTGGTCGCGGTTG

CGCCCGCGAAAGCGGCGGGTCGGGTGCCATCAGGAATGCCTCACCGCCGGCGGCATGCACGGCCAGTGCCGCGGCGATGTCAGCCTCGGGACATCATGCTCGCGTT

CATACTCCTCGACCAGTCGGCGGAACAGCTCGATTCCCGGACCGCCCAGCGCATTGGTGATGGAATCGGCGAACTTGGCCACCCGCTGGGTGTTGACATCCTCGAC

GGTGGGCAATTGGCCTCGGTAAGCTTTGCCGCGTAGCTTTTCATC

Clone Rv119

::::::::::::::Rv119SP6.seq::::::::::::::

ATACTCAAGCTTCACTGACAAGGGACGAATTCGTCGGCCGCCTGTTCGACTGGGTGGTGGCCGAGCTGGTCGCCACCACTCAGGCCGCGGTCACGGCGGTACCGGC

(SEQ ID NO. 41)

GCGGGAGCAAACTCGCGCGGGCATGGCCAACTTCTTGCGGACCATCACCGCAGACGCCCGCTTCGGACCCCTGCTGTCCACCACACAGTTGGCCAACGCATTAATC

ACCCGCAAGCTTGCGGAATCCACCGCCCTGTTCGC

::::::::::::::Rv119T7.seq::::::::::::::

TCCATCACCCGATGTGGCNGGAGCACTGCCATGTCGATCTCAACTACCACCTCCGGCCGTGGCGGTTGCGCGCCCCGGGGGGTCCGCGCGAACTCGACGAGGCGGT

(SEQ ID NO. 42)

CGGAGAAATCGCCANCACCCCGCTGAACCGCGACCACCCGCTGTGGGAGATGTACTTCGTTGAGGGGCTTGCCAACCACCGGATCGCGGTGGTTGCCAAAATTCAC

CATGCGTTGGCTGACGGTGTTGCCTCGGAAACATGATGGCACGGGGGATGGATCTGCCGCCGGGACCGGAGGTCGGCCGCTATGTGCCTGACCCCGCTCCTACCA

AGCGGCA

Clone Rv11

::::::::::::::Rv11SP6.seq::::::::::::::

AGCTTTGCAGTTGCTGAGTAATGTCGGCCAACGTCACCACAACCGCGATGAATTCAATCATGCCGCCCAGGGCGGCCAACCAATGGTGGCCGCGAGCGGCAGCTC

(SEQ ID NO. 43)

GATCGCAGCGCGGAGGTTGCCGGCCGCCAGTTGATTCACGAACAGGGTGAGGTCATAGGCGGGCAGGATAGTGACGAAGGCAAGACCTCCATCTGCCGTCGGAAGA

AGTATCGAG

::::::::::::::Rv11T7.seq::::::::::::::

AGCTTCAGAACAGGCCTGTTGTGGGCGCACCCGGCTCGCCGAGTTCTGCACGCACCGCCTCAAGTGCGGCCCGCACCGCCGGCATCTCCCGGTCACGCAGGGCCGC

(SEQ ID NO. 44)

GGCCCGCGCCGCAGCGACGGCGTGTTCGCGCAGTTCGCCGTCAATGATGCTGACCTGATCGGCCACCCGGGCGTTCTCGGCGTCGTCGCGTTCACTAATCGCGGTG

CTCAGCAGCGTCTCGACAGCCACCACCCGAGTGGCGACCAGCTGCTCCACCACGGACCGAGCGATGCCCGTC

Clone Rv120

::::::::::::::Rv120SP6.seq::::::::::::::

ATACTCAAGCTTCAGTTCCTCCACGACGCGTTCCCAAATGAATTTCCCGATCCCACAATCTCGGTTCAGATACAGGTCGCCATACCCCTTACTTCGGCAACGCTGG

(SEQ ID NO. 45)

GCGGATTGGCCCTGCCGCTGCACCAAACCATCAACGCCTTCAAATTGCCGGCAATCTCGTTCAGCCAATCCAT

::::::::::::::Rv120T7.seq::::::::::::::

GCTCTACGCCGCCTACGGGTCGAACATGCATCCCGAGCAGATGCTCGAGCGCGCACCCCACTCGCCGATGGCCCGGAACCGGCTGGTTACCGGGTGGCGGCTGACG

(SEQ ID NO. 46)

TTCGGCGGCGAGGACATCNGCTGGGAAGGGGCGCTTGCCACCGTCGTCNAAGACCCAAATTCGAAGGTGTTCGTCGTGCTCTACGACATGACCCCGGCGGACGAGA

AGAACTTGACCGGTGGGAAGGCTCCGAGTTCGGTATCCACCAGAAGATCCGATGCCGCGTGGAGCGCATTTCCTCGGACACCACAACGGGATCCCGTCCTCG

Clone Rv121

::::::::::::::Rv121SP6.seq::::::::::::::

ATACTCAAGCTTGCCAAAGAGACCTCGTCCACCAAGCAGGACGCGACCGTCGAGGTGGCGATCCGGCTTGGCGTCGACCCGCGTAAGGCAAACCAGATGGTTCGCG

(SEQ ID NO. 47)

GCACGGTCAACCTGCCCACACCGGCACTGGTTAAGAACTGCCCGCGTCGCGGTTTTCGCGGTTGGTGAAAAGGCCAATGCCTGCGTTTGCCGTGGGGGCGGATGTT

GTCGGGAGTGACAATCTGATCAAAAGGATTCAGGGCGGTTGGCTGGAATTCAATGCCGCAATCGCGACACCGG

::::::::::::::Rv121T7.seq::::::::::::::

CCACGGCGTGGATCAAGGTACCGGCCGGGATGTTGCGCAATGGCAGGTTGTTGCCCGGCTTGATGTCGGCGTTAGCGCCGGATTCCACCACATCCCCTTGCGAAAG

(SEQ ID NO. 48)

TCCGTTGGGTGCAATGATGTAGCGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCGTACTCGATGTGCGCGACCTTGGCGTTG

ACACCATCTTTGTCATTGCGGCGAAAGTCGATCATCCGGTAAGCGCGCTTATGACCGCCGCCTTTGTGCCGGGTGGTAATCCGGCCATGCGCGTTGCGTCCACCGC

GACGTGCAGCGGGGCGCACCAGCGACTTCTCCGGGGTTGACCGGGTNATCT

Clone Rv122

::::::::::::::Rv122SP602.seq::::::::::::::

GCAGCATGACGGCGGTAGCGAACACCGCCGGATGCAGCGCAAGTAGCGTCGATGTGCTCACGGAATCGCCCCGGCACCGCGATCTCGANGATCACCAGTGCCACCC

(SEQ ID NO. 49)

CCTGCAGCGCNACACCGACGATTCCGTACACCGCCACGCCGATCAGGCCCTGGGCCATCTGATTGGAGCTGGCGTANATGGCGGCGATGGTGACGATGGCCAGCGC

CACATACATTGTGGCGGCCAGAACCACGGCGTTGGGGCGGCGGTCGATGAACACTAGGCGACGCAGATCGCCCGGGGTCAACAGGTTGACCATCAGAAAGCCTGCG

ACTAGCACGGCGGCGCCACTAGGAGGTACAAGAANGTGGCCACCACCCCATGCAGGATCGGGGTAAGGCTGATGGTCCCGAAATCGACTCCGGCCTAATACATGAC

TCTCTCCTTTGCGTCATCGCCTTACTTGTGCGCGGAA

Clone Rv

::::::::::::::Rv123SP602.seq::::::::::::::

GGGACACACCTCGATGCTGCCGCNATGGACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACGCATCCCGTT

(SEQ ID NO. 50)

GACCGGCCGGANCNCTCTCTA

::::::::::::::Rv123T704.seq::::::::::::::

TGGGCGCCTCTTTCGGCCTTCCCNNTTTAAACGNAGCANGACATTCTGGGTATCGAGTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCCTGGCGGTGG

(SEQ ID NO. 51)

GATCCGACTACAATCTGCTGCTGATTTCCCGGTTGAAAGAGGAAATTGGGGCCGGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGGGAGTGGTGAC

GGCTGCCGGCATGGTGTTCGCCGTTACCATGTCGTTGTTTGTGTTCAGGATTTGCGAATTATTGGTCAGATCGGTACCACCATCGCCTTCCC

Clone Rv124

::::::::::::::Rv124SP602.seq::::::::::::::

CCGATCGGCGCCGCANCTGGTTGGTGTTNCGGATGAATCGCAGCGAAAATGTAGCTGCGGTGGCGTGTCGTGACTCGTNGGCGTCGACGCTCGTGGCAGCCACCG

(SEQ ID NO. 52)

ANCGGTTGGTCCAGGATCTGGATGGGCAAAGTTGTGCGGCCCGGCCGGTGACGGCCGATGAGCTGACCGAGGTCGACAGCGCCGTGTTGGCTGACTTGGAACCGAC

ATGGAGTCGCCCCGGTTGGCGTCACCTCAAGCATTTCAATGGTTATGCGACCAGTTTTTGGGTTACGCCGTCAGACATCACGTCGGAGCTTGGATGAGCTGTGTC

TGCCAGATAGCCCCGAATCGGGACGACCGTGGTCACGGTGCGTCTGACCACTCGGGTCGGGTCGCCCGCGCTATCGGCATGGGTGCGTNATCACAGCGACACGCGC

CTGCCCAAGGANGTNCGGNCGGACC

::::::::::::::Rv124T7D4.seq::::::::::::::

CGGGTTGCGGATCCACGCGTGCGGGTTGTCAGCAGCTACGGCACTGAACCGCGCCCACAGCTCGCCGATCCGCTTTCGGTGGTTCTCGATCGACTCGCCGTAGGCG

(SEQ ID NO. 53)

ATGCGCAGCGCCTGCTCGAATATCGGGTACACGTAGGCCGGCTTCCCNCTTTA

Clone Rv126

::::::::::::::Rv126SP6.seq::::::::::::::

CTTGATTTTGATCATCATGACGATCATCACCCTAATTTTGCTACCCGCACTGGTTATCGTGGGTACCGTCGTGCTTTCCATGGGCGCCTCGGTCGGGCTTTCCGTA

(SEQ ID NO. 54)

TTGGTCTGGCAGGACATTCTGGGTATCGATTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCCTGGCGGTGGGATCCGACTACAATCTGCTGCTGATTT

CCCGGTTGAAAAAGGAGATTGGGGCGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGGCAGTGGTGACGGCTGCCGCATGGTGT

::::::::::::::Rv126T7.seq::::::::::::::

GGGGATCCCTAGATCGACCTGCAGGCATGCAAGCTTGGCGTGTCGTTCCAACCCGAATTGGCTTTCGGCGCCATCGGTGAGGCGGGACCCACCTCGATGCTGCCGC

(SEQ ID NO. 55)

CATGGACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGGATCGCGGTGATC

GTCGATGACGGCATCGCCACCGGAGCNACTGTCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCGATCGGCCCAGACG

ACATCGTGGCGAGATTCGNGGGGTACGCCGATGAGGTGGTGTGTTTGGCGACGCCGGCGTNGTTCTTCGCCGNCGGGCANGGTTACCGCAACTTCACCCAGACCTC

CGACGACGAGGTGGTGGCGTCTCTCCTGGATCGTGCTC

Clone Rvl27

::::::::::::::Rv127SP6.seq::::::::::::::

AAGGCTGCAGGTCGAAGCGGNTGGTTACGACTCCCTGTGTGTGATGGACCAGTTCTACTATCTGCGTCTACACGGCCTTGGTGCGCTGGCCACGGCGACCGAGCG

(SEQ ID NO. 56)

GCTGCAACTGGGCGCGTTGGTGACCGGCAATACCTACCGCAGCCCCGACCCTGCTGGCAAAGATNATCACCACGCTCGACGTGGTTAGCGCCGGTCGAGCGATCCT

CGGCATTGGAGCCGGCGGGTTTGAACTGGAACACCGCCAGCTCGGCTTCGAGTCCGGCACTTCCAGTGACCGGTTCAACCGGCTCGA

::::::::::::::Rv127T.seq::::::::::::::

CTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCN

(SEQ ID NO. 57)

GCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTACAGCCACTGCGATCGGTGCCGATCGTGG

GGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCTACGGCGACCCGGCCTATGGTTATTCGACCTCGccGNcCAATGTTGCGAC

TCCGTTCGGGTTGTTCCAGAAGTCAGCCCGCTCGTCATCGCGGACGCTCTCGTCN

Clone Rv128

::::::::::::::Rv128SP6.seq::::::::::::::

CGGTCATAGCCCTCGGGTCCGGCCAGCACTCCGCAGCCTTCGTCGGGGTGGTCGCGACGCGCATGGGCCACCATCGCATTCACCAGGTCTGCGCGAATCACCAGCA

(SEQ ID NO. 58)

CGTAGACGGTTCCTTTCCTAAGCAACACCGAAGTTTCACGACCCGAATGCTCCGGGAAACATGTCACGGTAGGTCGGTATTCCGGCTACCGGCTGAGCATTGAGCA

CGCCGGCCAGCACCGCACGAGCCAGGCAATCAGCCGCCGCCGCACCGATCGCGGTGACCAGCTGAGTCTCCGGAGACAATGCGGCCGGCACGCCGGNCTCCGGCGG

CACCGCTACNGCGCCCGTGG

::::::::::::::Rv128T7.seq::::::::::::::

GTGATGGCACGCCACCGCGACACCACCCGGCTGCGCTACNTCGAGCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAGGTCG

(SEQ ID NO. 59)

AGGTCGATACCGATTTGCGCATCCGCANCCGCNCCCTGGACGACAGAACCGTGCCCTACGAGTGCTTGTCGGGCGGGGCCAAAGAACAGCTTGGCATCCTGGCGCG

ATTGGCCGGCGCGGCGCTGGTCGCCAAGGACGACGCCGTTCCGGTGCTGATCGACGACGCGCTGGGGTTCACCGATCCGGAGCCACTATCAAGATGGGGGAGGTCT

CTGACACCATCGGCCCCGACGGACATGTGATCGTGCCGACGTGCAGTCCCACCCCG

Clone Rv129

::::::::::::::Rv129SP6.seq::::::::::::::

GCGAAAGTCCGTTGGGTGCAATGATGTAGCGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCGTACTCGATGTGCGCGACCTT

(SEQ ID NO. 60)

GGCGTTGACACCATCTTTGTCATTGCGGCGAAAGTCGATCATCCGGTNNGCGCGCTTATGACCGCCGCCTTTGTGCCGGGTGGTAATCCGGCCATGCGCGTTGCGT

CCACCGCGACCGTGCAGCGGGCGCACCAGCGACTTCTCCGGGGTTGACCGGGTGATCTCGGCGAAATCAGATACGCTGGCGCCGCGACGACCAGGCGTCGTGGGCT

TGTNCTTGCGAATTGNCATGTCTAATCANGTCTTTCTCTCACGCTCTCGTCGCCGGGCTAGGCCGCATTGCCCTGCTCCTCCTCATCGCTTCGCTCTGCATCGTCC

CCGGGCTAAGCCGTGCCCCGAAA

::::::::::::::Rv129T7.seq::::::::::::::

GATGGTTCGCGGCACGGTCAACCTGCCACACGGCACTGTGTAAGACTGCCCAGCGTCGCGGTATTCGCGGTTGGTGAAAGGCCGATGCTGCCGTTGCCGCGGGGGCG

(SEQ ID NO. 61)

GATGTTGTCGGGAGTGACGATCTGATCGAGAGGATTCAGGGCGGCTGGCTGGAATTCGATGCCGCGATCGCGAACACCGGATCAGAATGGCCAAAGTCGGTCGCAT

CGCTCGGGTGCTGGGTCCGCGCGGCCTGATGCCCAACCCGAAACCGGCACCGTCACCGCCGACTCCCCATGGCGTCCCGGATATCAAGGGCCGGCAAATCAACTT

CCCGGTTGATCAGCAAGGCAACCTGCCTCCNCCTCCGG

Clone Rv130

::::::::::::::Rv130SP6.seq::::::::::::::

ATACTCAAGCTTCGTCATAAGACCATGGTGCGCTTTCTTTCACCCGTCCAGAGTCGGGGGCATCGGCACCGGCTCGCATCGCATCATCCTCCCACGACGGGCCCT

(SEQ ID NO. 62)

CATCAGCTTGGGCCATTTCAATGTACTTGATACCCCGCGCTGCGGGTAGGCCACTGCGACAATTCAAACACGGTGTCACACGGTGAATAGTGTCGAGATGGGCTCT

GATCAACCGTCGCAAACCCGGTTTCGCATCAATAGCGGAATCCCACCGGGTTGCATGGAGGCTGCTGACCTTGGAAAACAAAATTTTTTCATTACAACAAAACAAC

CGCCNCGGAAACTTTGCA

::::::::::::::Rv130T7.seq::::::::::::::

CGAATTCGGCGTGCACCGCTATGGGTTGCAGCAGCGGCTGGCGCCGCACACCCCACTGGCCCGGGTGTTTTCGCCCCGAACCCGGATCATGGTGAGCGAAAAGGAG

(SEQ ID NO. 63)

ATTCGCCTGTTCGATGCTGGGATTCGCCACCGCGAGGCCATCGACCGATTACTCGCCACCGGGGTGCGAGAGGTGCCGCAGTCCCGCTCCGTCGACGTCTCCGACG

ATCCATCCGGCTTCCGCCGTCGGGTGGCGGTAGCCGTCGATGAAATCGCTGCCGGCCGCTACCTGCAAGGTGATTCTGTCCCGTTGTGTCGAAGTGCCTTTCGCGA

TCGACTTTCCGTTGACCTACCGGCTGGGGCGTCGGCACAACACCCCGGTGAGGTCGTTTTTGTTGCAGTTGGGCGGAATCCGTGCTCTGGGTTACAGCCCCGAACT

CGTCACGGCGGTGCGCGCCGACGGAGTTGTTATCACCGATCCGTTGGCCGTACCGCGCCTTGGGC

Clone Rv132

::::::::::::::Rv132SP6.seq::::::::::::::

TCAGACTCCACCCAGCCAGCAGGCAGCGCGAAGCTGAATCCTCCAACCGGGTTGTCGATCCGGACAGGTTGGGGTGCGTTTGGGGCAATGACAGGTGGCGGCGGTG

(SEQ ID NO. 64)

CGTTCGGGTCGGCCGGCGGAGGTGCTGCGTTGGGATCGCCCGGCTGGGCATTCNGCGTGTTGGCGGCGGCCGGTGGTGGGGGGCAACAGGTGTCGCCGGTGCGGG

TGGCGCTGCAGCCGTCGACGGCGGCGAAGCGGCCGTTGTGGGTACCGGGGGCGCTGGCTCCGGATCGGCGTTGGCGGTCGCGGGCACCGCAACGGTCACCAAGCTG

GCGCTGGCCATCGCCGCGATAGCCAGTGCCGCCAATCGTCCCTTGCGACGTGTCAAGTNGGGGTCCACCTGATGCATGGCCAAAGAACCTACCGTGTTAACGGCGC

AACNCAAGGACCGCGCCGGTCGCN

::::::::::::::Rv132T7.seq::::::::::::::

TTTCCGCGGTACCCGCTCAACTTTGTGTCNACCCTCAACGCCATTGCCGGCACCTACTACGTNCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAG

(SEQ ID NO. 65)

CGGGTCCGCTGAACAATTCGGTCCGTCCCACGAAAGAACCAGTTTTNCNTCTTTCNCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGG

GGAACCCACTGGCGAACCTGTGTTTCAACCAACACTTAGAGTGTAATTGTAAACCTGGGCTAGGGGAAACCGGCTCTAGTTTTTCCACCNTCTCCGCCCCNTGTTT

CGAATACTCCGTTCGGGTTGTCCCCAAA

Clone Rv134

::::::::::::::Rv134SP6.seq::::::::::::::

GCTTCCGGCTCGTATGTTGTGTGGAATTGTGACCCGATACCAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTAGTTAGGTGACACTATACAATA

(SEQ ID NO. 66)

CTCAAGCTTGCCGGCTGGTGGGCCGACCACTTCGATGGCACGACCCGTGAACTGCTGCCCGGCCAATTCTTCTTGGTCGCCCGGACCGATGGACCGGGGCTGGGAT

TCCAGAAGGTGCCCGATCCCCTGGGAAAAACCGCGTGCACCTCTACTTCACGACCAACGAC

::::::::::::::Rv134T7.seq::::::::::::::

CCGATCGACTGATGCGCCGACAACCACGCCCCAACAACTGGAATGAACCGTCGTGACCATCATCAGCACGGGGTTGTAGGCGACTTGCGACATGTTCAACCCGCCG

(SEQ ID NO. 67)

TACTCGGACGGAATCTTCAAACCGAAACAGCCCAGCTCGGCCAGGCCTTTCACGTACTCGTCGGGGATCTGGGCACCACGCTCGAGGACGCTGCCGTCCACGGTGT

CTAGGAATTCCCGCAGTTTGACCAGAAACGCCTCGGTTCGGGCCTCCTCGGCGTCCGACGGCTTGGGAAATGGGTGTATGAGCCCTACGGGAAACCGGCCCACAAA

GAGTTCTTTGGCGAAGGACGGTTTATCCCAACCACTTTCGCGAGATTCCTCGGCAAGGGCCCGCGCTTGCTCCTCGGTGACCTGAGTTTGCTGTGCCATCGCCGCC

TCCTCCCTGA

Clone Rv135

::::::::::::::Rv135SP6.seq::::::::::::::

TGCATCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAAT

(SEQ ID NO. 68)

ACTCAAGCTTTTACGGTGATCGCGCATCACCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCGGG

TGCAGGTGCTCGGGCAGCTCGGCCGCGACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACGAACGACGCCAGTCCGCTACGTAACCCCTCCGCGACTG

TCCATGGACAACAGCGCGTTCTCCACCGACCGGGCCCGGGTGTGGGGTGTTTCGGCGACCGGCAGCCAGGTGGTCCACACTGCCGACGGGCGCCGCGAGCCGTTCA

CCGACCAGGCCGCCGAGCAAGTCCGCCCGATCGCATACTCC

::::::::::::::Rv135T7.seq::::::::::::::

GGGGGCGCTGCrGGTATAGTCGCTGACCGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGCGCAGGCTATCGCACCCGTT

(SEQ ID NO. 69)

ATCGGCTACGAGCAAATCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGATCGCCGTCAAGCATGTGT

GCCGCGGATTATCAGGACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGGTCGTGGTCGGCTCGGATAGCGAGGTCAGCGA

ATTCTCGTGGCAGCTCGAAAGGGTCCTGCCGGTGCCGGTCTTTGCGCAAACGATGGCGCAGGTTACGGTCGCGCGGGGTGCGGCCTGGCGGCGGCCAGAGCACGAG

TTCACCGATGCGCAGCTAGTGGCGACAGCGTCAGCCAAC

Clone Rv136

::::::::::::::Rv136SP.seq::::::::::::::

TGCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAAT

(SEQ ID NO. 70)

ACTCAAGCTTCCGTACAGGTCGCCTCCAACACGGCGGGGAAGCGACACCAGCCTACCGAGCTTGGAGTCCAGGACGCCAGCGGCGGCGTCGGTCTGCGTCGTGGTG

CCGCCGGGGTGGCGTTGGCTGGCAACGATCTCCACCCAGCCGGTCGGGTTACCCACGATCTCGGCATAGACGoGGGCCGAGGCCGGTGCGATACCGTATTGCGTCA

ATTGGGACGCGGTTGTGCATTCGGCTAGCTCGGTTGCCACACCCGTCAGGGGTTCGACGTTGGCGGGTTCGGCGGGCCCCAGCACCGCTGTCACCATGCCCGCCAA

GCCGACCTGCGGCGCCACCAACT

::::::::::::::Rv136T7.seq::::::::::::::

CGGCATGACCACCGACAGGCCCGACTGGTCGTACCACTCGAACGCCGGGGTGTTGATGTCCCAGCCGCTGAAGTCGTCCTGCGCGCGCAGGCCGTCGAGCAGGTAC

(SEQ ID NO. 71)

AGGGCGGGCGAGTTGGCACCACCACTTTGGAATTGGACCTTATGTCACGGCICCATCGACGGCGACGGCACCTGCAGGTACTCCACCGGCAAGCCCGGCGGGGAAA

ACGAACCCTGTCAACAAGCTGCATTCTTGCTTCCCTCATCCTCATCTCAACGCATCCATGCATGTTTGGGCGCATCCTGAATTANGTCAGACTGCAGGCGCTGGGC

CGGCAGTGCTCGTGTATCAACCACAACTTGGGGCGT

Clone Rv137

::::::::::::::Rv137SP6.seq::::::::::::::

TTCCAACCCTAATTGGCTTTCGGCCCCATCCGTGAGGACGGGGTGCGGGTGCTCAACAACAACGTCGTCCGCGGGACACACCTCTATGCTGCCGCCATGGACGCGG

(SEQ ID NO. 72)

TCCAACGCAAGCAGCTGATCGAGCTACAACCCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGCATCGCCGTGATCGTCGATGACGG

CATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCACGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCGATCGGCCCAAACGACATCGTGGCG

AGATTCGCCGGGTACGCCGATGAGGTGGTGTGTCTGGCGACGCCGGCGTTGTTCTTCGCCCTCGGGCAGGGTTACCGCAACTTCAC

::::::::::::::Rv13T7.seq::::::::::::::

CAGGCATGCCAGCTTTCCGCCGATACCCGCCATGTCGCGCACATCCAGGACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAAGTGcGQATGATCGGGCCG

(SEQ ID NO. 73)

CCTACGTCGTGGTGTACCTCGTCGGTAACAACGAAACCGAAGCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACCGCACGGGGTGAA

GGCCTATGTCACCGGTCCGGCAGCACTCAATGCCGACCAGGCCGAGGCCGGAGACAAAAGTATCGCTAAGGTCACCGCCGATCACNAGCATGGTGATCGCAGCAAT

GTTGCTAGTGATCTATCGCTCCGTAATTACCGCGGTTCTCGTCTTGATCATGGTCGGCATCGACTCGGCCAATCCGCGGATTCATCGCCrTGCTCGCCGAACACAA

CATTTTCACCTTTCACATTTGCACCAACCTGCTCTTCTCAT

Clone Rvl38

::::::::::::::Rv138SP6.seq::::::::::::::

CACTACTCAAGCTCTCTCNTCATTACCACCCCTGTAATTTGGGATGGGCAAAAAGGCGAAGCACCGCTTGGCCACNAACGCCGGGAGGGACAATCTCGGGCGGCTA

(SEQ ID NO. 74)

TGGCTTCTCCCGGGAAGGCCCCAACGTACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATTGGCACCAACCTGNTACCACCCTGGCCGG

GCGATGATCTGCAGCGTCGCCGCGGGTAGTCCCCGCCCGGGCGGCTACAGTCTGAAACCCCGATGACCATCGATGTGTGGATGCAGCATCCGACGCAACGGTTCCT

ACACGGCGGATATGTTCTCCTCGCTGCGCCGCTGGACCGGTGGGTCTATCCCCTGAAACCGACATCCCN

::::::::::::::Rv138T7.seq::::::::::::::

CAGGCATGCAAGCTTTCGTCAGTTCATTGCGCCAGCAGACCAACAAGAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGA

(SEQ ID NO. 75)

CGGCGCGAACGACGCCAGCGACCACATTCAGCAGATGGCCAGCGCGTGCCGGGCCACGAGGTTGGTGCTCGGCGGCrACTCCCAGGGTGCGGCCGTGATCGACATC

GTCACCGCCGCACCACTGCCCGGCCTCGGGTTCACGCAGCCGTTGCCGCCCGCAGCGGACGATCACATCGCCGCGATCGCCCTGTTCGGGAATCCCTCGGGCCGCG

CTGGCGGGCTGATGAGCGCCCTGACCCCTCAATTCGGGTCCAAGAACATCAACCTCTGCAACAACGGCGACCCATTTGTTCGGACGGCAACCGGTGGCAACGCACC

TAAGCTACCTGCCCGGGATGA

Clone Pv139

::::::::::::::Rv139SP6.seq::::::::::::::

GTTTATGCACTGGTTAGGTGTTTCCATGAGTTTCATTCTGAACATCCTTTAATCATTGCTTTGCGTTTTTTTATTAAATCTTGCAATTTACTGCAAAGCAACAACA

(SEQ ID NO. 76)

AAATCGCAAAGTCATCAAAAAACCGCAAAGTTGTTTAAAATAAGAGCAACACGTACACAAGGAGATAAGAAGAGCACATACCTCAGTCACTTATTATCACTAGCGC

CCGCCGCAGCCGTGTAACCGAGCATAGCGAGCGAACTGGCGAGGAAGCAAAGAAGAACTGTTCTGTCAGATAGCTCTTACGCTCAGCGCAAGAAGAAATATCCACC

GTGGGAACTCCAGGTAGAGGTAC

Clone Rv13

::::::::::::::Rv13SP6.seq::::::::::::::

ATACTCAAGCTTGGGTGTAGCCGATCACCGGAAGTCNCATGATCAGCCACGTTCCGCGCCGCCCGGCATACGGTGGTGTACCGATCTCCGCGTCATACACCCGCGG

(SEQ ID NO. 77)

GTAATCGCCGACGGTGCCGGTTCGGGAGCCAA

::::::::::::::Rv13T7.seq::::::::::::::

AGCTTTATCTGAAAGCGAACAGCTCGCGGCGGCCCACGACGTGCTGCGTCGGATTGCCGGGCGGCGAGATCAATTCCAGGCAGCTCCCGGACAATGCGGCTCTGCT

(SEQ ID NO. 78)

GGCCCGCAACGAAGGACTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGCTTGATGCCCGGTCGGCAAG

CCCGGCAGTTGCCAAACCCATCGTGATCAGGCTCGGCTCGCGAGTTCGGCGAAGAAATGGTTCGCCTGATCACCTACCATCGGCCA

Clone Rv140

::::::::::::::Rv140SP6.seq::::::::::::::

TCAACACGCCGCCAGCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCTCCAGGCTNCTCCGCTCGGTGATGGCACGCCACCGCGACACCACCCGGCTGCGCTAC

(SEQ ID NO. 79)

GTCGAGCCATACCGGGCGGAGCTACATCGGCCCGGCCGCCCAGTGTTCGGGCCCTCTCGCCCAGGTCGAGGTCGACACCGATTTGCGCATCCGCAGCCGCACCCTG

CGACGACAGAACCGCGGCCCTACCCACTGCTTGTCGGGCGGGGGCCAAAGAACCAGCTTGNCATCCTGCCACAATTGGCCGGCGCCG

::::::::::::::Rv140T7.seq::::::::::::::

CAGGCATGCAAGCTTCACGTCCGTACGGCTCGGGTACGCTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCAC

(SEQ ID NO. 80)

ACCTTCAGTTGCTCACCGGAATCCAACCGGTAGAAGGTCGGCCAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCA

GCACTCCGCAGGCTTCGTCGGGGTGGTCGCGACGCGCATGGGCCACCATCGCATTCACCAGGTCTGCGCGAATCACCAGCACGTAGACGGTTCCTTTCCTAAGCAA

CAC

Clone Rv141

::::::::::::::Rv141SP6.seq::::::::::::::

AATATTCAAGCTTTCGGCGGAAACGGACNCCTTGCGAACATTGATAACAAAATAGAAATCATTGATGGTTTGAGTCACCAGGCCGATCAAGCCTTCGCCGAGCCAA

(SEQ ID NO. 81)

ATTCCAATCAAGAGGCCCAAGCCCGTACCAATCAGCCCGGCAACGAGGGATTCCGTCNTTATCAGCCNAAATAACTGCTCTCGGGTACCACCCAAACAGCGCAATA

TGGCGAAAAACGGTCGCCGTTGCACAACATTAAATGTCTCGGTATTGTTGATTAAAAAGATACCCACCACCAGGGCAATCCAACTGAGAGCGGTTAAATTGACCGT

AAAAACCTCCCGTCATCTGTTT

::::::::::::::Rv141T7.seq::::::::::::::

CAGGCATGCAAGCTTGCTGCATCTTCCTGTGACTGCTCCCGAAACCTGGGGGTGTGCCTGCTGTGTATGCACGGCATACGGACATCCTTCCCCTGATACCCGCGGT

(SEQ ID NO. 82)

CGAACCAGCCACGTGTCCATCATCAGGGGTCAACCCCGGCCAAGGGCGACGGCACGCCAAGTTCGCCGACCGTTAACCTAGTGCTGTTAGCTTCATTTGCTGCGAG

CAAAACAGCTGGTCGGCCGTTAGGAACTGAATTGAAACTCAACCGATTTGGTGCGGCCGTAAGTGTCCTGTCTGCGGGTGCGCTGGTGTTGTCCGCGTGTGGTAAC

GACGACAATGTGACCGGGGGAGGTGCAACCACTGGCCAGGCGTCCGCGAAAGTCCATTGCNGGGGGAAGACAC

Clone Rv142

::::::::::::::Rv142IS1081.seq::::::::::::::

GAAAGTGCCCCAAGGTGTTGGTGAAACTCGCTGGACGGTCCCCAGGATGTTGGCAGCACATTCACCGGACATGACCGGAGCAAGACCGGACATCCTCCCATACCGT

(SEQ ID NO. 83)

CGTCGCCGTGTACATCCGTAGCCCGTCCTGGCAGGTGCTGGGTTGAACAAAATCAGCCCAACACCTGCCACGACGAAGAAGCGGGTTGCGCTGGCATGTCTTGTCG

GCTCGGCGATCGAATTCTACGAATTCCTTATCTACGGGACCGCTGCGGCGCTGGTGTTTCCCACCGTGTTCTTCCCACACCTGGATCCCACGGTGGCCGCCGTGGC

CTCCAAGGGGACATTTGCTGTGGCGTTCCTATCCCGGCCGTTCGGCGCGGCCGTCTTTGGATACTTTGGAGACCGCCTCGGCCGCCAGAAGACCCTGGTCGCCACA

CTGTTGATCATGGCCCTGGCAACCGTGACTGTTGGGCTGGTTCCACGACAGTGGCCATCGCGC

::::::::::::::Rv142SP6.seq::::::::::::::

ATATTCAAGCTTTGTCACACCAAGTGTTCCGACCAANCGCTCCATCCGGCGAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGTTCA

(SEQ ID NO. 84)

TCTCGCTTGCGGCGCTGCAGCAGCCAGTCCGGGAAATAGCTGCCCTGGCGCAGCTTGGGGATCGCGACGTCGATGGTTGCGGCACGGGTGTCGAAATCACGGTGGC

GGTAGCCGTTGCGCTGATTGGACCGCTCATCGCTGCGTTCGCGGTAGCCCNCCCCGCACAGGGCGTCGGCTTCAGCCCCCATCCAAGGCGGCGATGAACGTCGAGA

GCAGCCCGCGCAGCAMTCCGGGCTCGCCTGTGCGAGTTGGTCAGCCAGAAGCTGCTCGGTGTCATMGATGAGAAGAGGTCAGTGCGTCCTTTCCTTCG

::::::::::::::Rv142T7.seq::::::::::::::

CAGGCATGCAAGCTTTTTGAGCGTCTCGCGGGGCAGCTTCGCCGGCAATTCTACTAGCGAGAAGTCTGGCCCGATACGGATCTGACCGAAGTCGCTGCGGTGCAGC

(SEQ ID NO 85)

CCACCCTCATTGGCGATGGCGCCGACGATGGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGCGACGCGGTAGGTGGTCAAGTCCGGTCTACGCTTGGGCCTTT

GCGGACGGTCCCGACGCTGGTCGCGGTTGCGCCGCCAAAGCGGCGGGTCGGGTGCCATCATGAATGCCTCACCGCCGCCGCACTGCACGGCCAGTGCCCCGGCQAT

GTCAGCCATCGGGACATCATGCTCGCGTTCATACTGCTCGACCAGTCCGCGGAACAGCTCCATTCCACCGCCCAACGC

Clone Rv143

::::::::::::::Rv143SP6.seq::::::::::::::

ATACTCAAGCTTTTGGCTGGGTCGGCTTCCAATTCAGCGTGCACCGCTATGGGTTGCAGCAGCGGCTGGCNCCGCACACCCCACTGGCCCGGGTGTTTTCGCCCCG

(SEQ ID NO. 86)

AACCCGGATCATGGTGAGCGAAAAGGAGATTCNCCTGTTCGATGCTGGGATTCGCCACCGCGAGGCCATCGACCGATTACTCGCCACCGGGGTGCGAGAGGTGCCG

CAGTCCCGCTCCGTCGACGTCTCCGACGATCCATCCGGCTTCCGCCGTCGGGTGGCGGTAGCCGTCGATGAAATCGCTGCCGGCCGCTACCACAAGGTGATTCTGT

CCCGTTGTGTCCAAGTGCCTTTCGCGATCGACTTTCCGTTGACCTACCGGCTGGGGCGTCGGCACAACACCCCGGTGAGGTCGTTTTTGTTGCAGTTGGGCGGAAT

CCGTGCTCTGGGTTACAGCCCCGAACTCGTCACGGCGGTGCGCCGCCGAC

::::::::::::::Rv143T7.seq::::::::::::::

CAGGCATGCAAGCTTCAACCTATTGACGCATTGTGCGAACTGACGGCGCCCGCGCATGGCCAATCCGGAAGACCATCATTGGCCAGTGGCCGGGCGCTAACAGGTT

(SEQ ID NO. 87)

CCAGCCCCCCACCAGTGCCCCTCGAACATGCGGTGCAACCCATTCGCAGGCCGGCAGGGAAAGCACCGCGGAAGCCGCAAAGGGCTGCAGTTCCGCGCCCAATAGT

GTCGTCCGCAACCAGATGCGCTCGAAAACCGCCGCCGGCAGTCAGCGCACCCGACGCGAGGTCGAGAGACGTCGTCAGCGCGCCCACATGGGGTGCCAATCGGCAC

GGCAGGTAGGCCGCGCGCAACCCCAACGGGTGGTGCATGCCACGGTCCGCAGGAGGCCACCACCC

Clone Rv144

::::::::::::::Rv144SP6.seq::::::::::::::

ATACTCAAGCTTCCCGGCCGCAGGTGACGGCGCGGCCTAGCGCCACTTGATGCCGCACCCGATCGACGGNCGTTCGGTCGGGGTTGACTGGCCGCCCGGCGAAGG

(SEQ ID NO. 88)

GCGTCAACCGCGGCCCGGACGTCGGCGGCCGTCACCGGTCGGCCATTGCCCGGCGGGAGTCGTCGAGCTGACCACGGTAGACAAGTCGGCGCTGGCCGTCGAAGA

CAAACGTGTCGGGTGTGCAGGCCGCGGAGAAGGCGCNGGCGACGTCTCGGGTTTCGTCGTAGAGATACGGGAACGTCCAGCCGTGGCGGCGGCCTCGGCGACCAT

CTGATCGGGCCCGTCCTGCGGGTAGGTGACCACGTCTTACTGGAGATACCGACCATCGGGACCCTTTGATCGGCGAGGTCCCGGCCGACCGTGGCCAATCCGGCG

GCGACGTGTCGCCCGTACCGGCCAGTGGTTC

::::::::::::::Rv144T7.seq::::::::::::::

CAGGCATGCAAGCTTTANCANCATCAACCCCGCCCCGCACCAGCACCGACACGATGTCGATGCCATCGAGGTGAATGTCGAACTGGCNCAAACCATCTGGCGACCG

(SEQ ID NO. 89)

CGACCACCGGCAACATGGGTACCGGCGATTTCCGGTGCCAATGCCGACCCGACGGGCCGCTCTCACCGCAGGTGACCTCGATCACCGAGACCAGCCGGCCGTTATA

CTCACGCACCCCTACCGTGTCACGCCCAAAACGGCGCTGGTGGTCGATTGCCGGAGTGCACCCCGCACCCAGTGTCGTGCCCGGATCCGCCGACCAATCCCGCACC

GGCTG

Clone Rv145

::::::::::::::Rv145T7.seq::::::::::::::

ATATTCAACCTTGCACACATTGACGATACCTTGGTCACGAGACCCCAAAAGCTGGCCTCCACCGCGCGCCGGGGACCACGGTCATACCTTGANNCNGCTTTCGATC

(SEQ ID NO. 90)

GTTGATGCTGCGTCTTGGTCCGCGGAAACCGCAGGCTGGCATATGCACGTGGGCGCACTGGCGATCTGCGATCCCCACCGATTCGCCCGAATACAGCTTTCAGCGG

CTCCCCCAAGTTGATCATCGACCGGCTGCCGGATATCCCGCACTTGCGGTGGCGGGTCACCGGCGCCCCGCTCGGACTGGACCGGCCGTGGTTCGTCGAGGACCACG

AAC

::::::::::::::Rv145T7.seq::::::::::::::

CAGGCATGCAAGCTTCATGCCCGCGGCATGATAGCCACATGCACGCAATCGAACTCAGCGAAACCGGCGGGCCAGGCGTCTTACGCCACCTCACCAGCGCGCAACC

(SEQ ID NO. 91)

TCAACCCGGGCACGGAGACCTCCTGATC

Clone Rv146

::::::::::::::Rv146SP67.seq::::::::::::::

ATACTCAAGCTTGATTTTGATCATCATGATGATCATCACCCGAATTGTGGTAGCCGCAGTGGTTATCGTGGGTACCGTCGTGCTTTCCATGGGCGCCTCTTTCGGG

(SEQ ID NO. 92)

CTTTCCGTATTGGTCTGGCAGGACATTCTGGGTATCGAGTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCNTGGCGGTGGGATCCGACTACAATCTGC

TGCTGATTTCCCGGTTGAAAGAGGAAATTGGGGCCGGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGG&AGTGGTGACGGCTGCCGGCATGGTGTT

CGCCGTTACCATGTCGTTGTTTGTGTTCAGCGATTTGCGAATTATTGGTCAGATCGGTACCACCATCGGCCTGGGCTTGCTGTTCGACACCCTCGTCGTGCCTCGT

TCATGAAACCGTCCATTGCTGCCCTGCTGGGACCTGGTTCTGGTGGCCGCTACGGGTGCGCCGCGCCCGGCAGTCAAATCTTCCGCCG

::::::::::::::Rv146T7.seq::::::::::::::

CAGGCATGCAAGCTTGGCGTGCCGTTCCAACCCGAATTGGCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACC

(SEQ ID NO. 93)

TCGATGCTGCCGCCATGGACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGGGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCG

GATCGCGGTGATCGTCGATGACGGCATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAACGTGGTGCTGGCGGTCCCC

ATCGGCCCAGACGACATCGTGGCGAGA

Clone Rv147

::::::::::::::Rv147SP6.seq::::::::::::::

ATACTCAAGCTTTTACGGTGATCGCGATCACCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCG

(SEQ ID NO. 94)

GGTGCAGGTGCTCGGGCAGCTCGGCCGCGACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACGAACGACGCCAGTCCGCTACGTAACCCCTCCGCGAC

TGTCCATGGACAACAGCGCGTTCTCCACGACCGGGCCCGGGTGTGGGGTGTTTCGGCGACCGGCAGCCANGTGGTCCACACTGCCGAAG

::::::::::::::Rv147T7.seq::::::::::::::

TAGTCGCTGACCGGTGCAGGTTTCGACNATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGCGCAGGCTATCGCACCCGTTATCGGCTACGAGCAAA

(SEQ ID NO. 95)

TCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGATCGCCGTCTANCNTGTGTGCCGCGGATTATCAGG

ACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGGTCGTGGTCGGCTCGG

Clone Rv148

::::::::::::::Rv148SP6.seq::::::::::::::

ATACTCAAGCTTTCCGCCGATACCCGCCCATGTCGCGCACATCCAGAACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAGTGCGGATGATCGGGCCGCCT

(SEQ ID NO. 96)

ACGTCGTGGTGTACCTCGTCGGTAACAACGAAACCGAAGCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACGGCACGGGGTGAAGGC

CTATGTCACCGGTCCGGCAGCACTCAATGCCGACCAGGCCGAGGCCGGAGACAAAAGTATCGCTAAGGTCACCGCGATCACGAGCATGGTGATCGCAGCAATGTTG

CTAGTGATCTAATCGCCCCGTAATTACCGCGGTTCTCGTCTTGATCATGGTCGGCATCGACCTCGGCGCAATCCGCGGATTCNTCGCCTTGTCGCCGACCACAACA

TTTTCAGCCTTTCAACATTTGCGACAACCTGCTCGTTCTCATGGCGATTGCNGCGAAC

::::::::::::::Rv148T7.seq::::::::::::::

CAGGCATGCAAGCTTGGCGTGCCGTTCCAACCCCGAATTGGCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCTGGACACAA

(SEQ ID NO. 97)

TCGATGCTGCCGCCATGGACGCGGTCGAACGCAAGCACGTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCG

GATCGCGGTGATCGTCGATGACGGCATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCG

ATCGGCCCAGACGACATCGTGGCAGATTCGCCGGTACGCCGATGAAGTGGTGTTGTTTGGCGACCCGGCGTTGTT

Clone Rv149

::::::::::::::Rv149SP6.seq::::::::::::::

ATACTCAAGCTTTGGCATTGTGCACATTTTCCACCCGTGCTCTATTAATGCTGAGCCGCTAATTGTGACCCCAGTCGGGAAACACGCGGAGCACCAAATTCACCGC

(SEQ ID NO. 98)

AGCGGCCGGGGCGGTTCAACTCACCATGGATCGCTCTCGTCGTCTGGTGCTGGACAATCGTCGCTGTAGCGCGTCGCGAACACCTCAGCTTCTGCTGCCGCGGCTT

CTTCCGGCGATGGTAACCCCCAGGTTTCGCCCACGGTCTTACGTAGCAGTGCGACGCGGTGTTCATCTGCATCGACCTGTTGACTCATCCTGTCAAGGATGAAGGC

GTACTGGGCCGACTGCGCCTTCTGCCGCGCCAGGTCGGCAATCACCAGGATCTCAGAAACGAGCTGCGACTCACTCTTCCAGGCCACCCTGGCCGAAAGCTCGACA

TGGTCAATCCGGCCG

::::::::::::::Rv149T7.seq::::::::::::::

CAGGCATGCAAGCTTGCGGGCCGGAGTGGTTTCGACGGCCGCTCGCTTCTCGGCATCGGTTTGGGCTGTCACCAGCAGTTGGTAGTTCTTCACGTACTGTTGTTCG

(SEQ ID NO. 99)

AGCGTCGAGCCGCCGCGCGTGTCGAGGTCGCCGGACGCGTATCCCGCCAGGCCGGTCAGGGTGCCCTTCCAGTCCACGCCGCTGTGGTCGGCGAACCGCTTATCTT

CAATCGAGACGATCGCCAGCTTCATCGTGTTGGCGATCTTGTCCGAGGGCACCTCGAACCGGCGCTGCGAGTACAGCCACGCGATCGTGTTGCCCTTCGCGTCGAC

CATCGTCGATACCGCAGGCACTTGCCCCTC

Clone Rv14

::::::::::::::Rv14SP6.seq::::::::::::::

ATACTCAAGCTTCCCGGCGGCCAGTACCGAAAGCGCGAACAGCTCGCGGCAGCCCACGACGTGCTGCGTCGGATTGCCGGCGGCGAAATCAATTCCAGGCAGCTCC

(SEQ ID NO. 100)

CGGACAATGCGGCTCTGCTGGCCCGCAACGAAGGACTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGC

TTGATGCCCGGTCGGCAAGCCCGGCAGTTGCCAAACCCAGCGTGATCAGGGTCGGCTCGCGAGTTCGGCGAAGAAGTGGCTCGGCTGATCACCTACCATCGGCCAG

GATCTGCGTGTCATCACAACGCTCGCCAAGGAGGTTGTTGTGGTGCTATCGACGGCCTTTAGCCAGATGTTCGGAATCGACTATCCGATAGTGTCCGCGCCAATGG

ACTTGATCGCCG

::::::::::::::Rv14T7.seq::::::::::::::

AGCTTCGGTGTAGCCGATCACCGGAAGCCGCATGATCAGCCACGTTTCGCGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGCGGGTAATCG

(SEQ ID NO. 101)

CCGACGGTGCCGGTTCGC&AGCCGAAGGTGACGACGCTGATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCAGCAACGGCGCGAGCTCAACGACGTCAATCACGT

TGTCGCTTTCTACGGTCACCGACGCCGTGACCGTAGTCGCCCGGTGCGCTCGGCCGAGAAGTTGCACCGCCACCACCGCGACACCGTCTTGCACGCGGACCCCACC

CCCGGATCGGTTGTTGGCCAAGGTAATTGGGTCATTCCATTTGACGGGACGCCGACCCCGCAGCCCCAGTACCGCCCACGACCACGCCGGCTGACCCACCACTGTA

CGAACACCAAGGCGACGCCGA

Clone Rv15

::::::::::::::Rv150SP6.seq::::::::::::::

ATACTCAAGCTTCGGTGGCTTCGCCCGCCCTGCCGGGTGGACTTCATGACAACGCGGGGGCGATTACCCCCGCTACCGCCAGCAGCATGACGGCGGTACC7AACAC

(SEQ ID NO. 102)

CGCCCGGATGCCTCGCACGTGCCTCGATGTGCTCACGGAATCGCCCCGGCACCGCGATCTCGAGGATCACCAGCGTTACCCCCGGCAGCGCGACACCGACAATTCC

GTACACCGCCACGCCGATCCGGCCCTGGGCCAGCTGATTGGAGCTGGCG

::::::::::::::Rv150T7.seq::::::::::::::

CAGGCATGCAAGCTTCCACATGTACGGATCCACGAACATCCCGTTGAACTGACAGGTGCGGCCCGGCTCGATCAGGCCGGCCACTTGTTCTACGCGGTTACCGAAG

(SEQ ID NO. 103)

ATCTCTTCGGTGACCTGCCCGCCGCCGGCCAGCTCGGCCCAGTGCCCGGCGTTGGCCGCCGCGGCGACGATCTTGGCGTCCACGGTGGTCCGGGTCTTGCCCGCTA

GCACGATCCGCGAGTCGGCCGGTCACCCGGGT

Clone Rv151

::::::::::::::Rv151SP6.seq::::::::::::::

ATACTCAAGCTTTCCAAGTCCCAAGTGTCGATCATGGCCAAAGAGCTCGACAAAGCCGTAGAGGCGTTTCGGACCCGCCCGCTCGATGCCGGCCCGTATACCTTCC

(SEQ ID NO. 104)

TCGCCGCCGACGCCCTGGTGCTCAAGGTGCGCGAGGCAGGCCGCGTCGTCGGGGTGCACACCTTGATCGCCACCGGCGTCAACGCCGAGGGCTACCGAAAGATCCT

GGGCATCCAGGTCACCTCCGCCGAAGACGGGGCCGGCTGGCTGGCGTTCTTCCGCGACCTGGTCGCCCGCGGCCTGTCCGGGGTCGCGCTGGTCACCAGCGACGCC

CACGCCGGCCTGGTGGCCGCGATCGGGGCCACCCTGCCCGCAGCGTGGCAGCGCT

::::::::::::::Rv151T7.seq::::::::::::::

CAGGCATGCAAGCTTCACACGTAGGCGCGTCGATAAATGACTCCGCCGCGCTTCGCACATCCTCGTAGCGATCCTTGGCGAGCAGGTCAACCGGGCGCTGCCCGT

(SEQ ID NO. 105)

CGAGGAGCCGGTTTTTGGCGTGCAGCCACTGGCCGACACCTCGGGGGGTAGGCGAATCCGAGAGCAGGAGGACGAGGTCACGGAGCTGCGCCAGCCGGTCGTACCG

CTCAGGGCGGATGTCGCCGGTCCGCCACCCGCGTACCGCCCGATCGGACACCTGTATGACCGCGGCGACGTC

Clone Rv152

::::::::::::::Rv152SP6.seq::::::::::::::

CGCGGCGGCGCATTACCCCCGCTACCGTCAGCAGCTTGACGGCGGTAGCGAACACCGCCGGATGCAGCGCAGGTGCGTCTATGTGCACACGGAATCGCCCCGGCAC

(SEQ ID NO. 106)

CGCGATCTCGAGGATCACCAGTGCCCGCCCCCTG

::::::::::::::Rv152T7.seq::::::::::::::

GGGATCGAGGAACAGCGCGTTGAACTGATAGGTGCGGCCGGCTCGAGCAGGCCGGCCATTTGTTCGATGCGGTTACCGAAGATCTCTTCGGTGACCTGCCCGCCG

(SEQ ID NO. 107)

CCGCCAGCTCGGCCCAGTGCCCGGCGTTGGCCGCCGCGGCCGACGATCTTGGCGTCCACGGTGGTCGGGGTCATGCCCGCGAGCAGGATCGGCGAGCGGCCGGTCA

GCCGGGTGAACTTCGTCGAGAGCTTGACCCTG CGTCGGGGAGGCGAACCACGGTCGGTGCGTATCTCGACCAGGCCCGGGCAACCTCGGGGGTGGCGCCGACGGT

GAACAGGTTGCGCTGGCCACCACGGGTAGCCGCCGGCACTATGCCGATGCCCAGGCCGCGGATCACCGGTGCGGTCAGTCGGGTCAGGATGTCGCCCGGCCCCAGG

TCGAAGATCCAGCGGGCGCCGGCCGCGTGGACACNGGTGATCTCGTCCACCATCGACTTTTCTGATCA

Clone Rv153

::::::::::::::Rv153SP6.seq::::::::::::::

TAACTCAAGGCTTGCGTTGAGGCCCCAGGCCCATCGACGGTTTGGCGGCCTTAAATGCACTGAGGTCGTCAATTGACCCCACAGCGGAAATGCCGACTATTCGCAG

(SEQ ID NO. 108)

GCCTCCTTCGCCTTGGCTGCCGGAGAGGGGCTCCGCGGGAACCGCATGCAGGTATATGACCTCGGTTTCTCGGGTGCTACCGGGTGCCTTGTCGAGGATGAACTCG

GCGTTGGAATTGTCCAGCCGGCCCAATTCATCGAGCGCAGATTCGTACACATGGCCGGCGGCGACATACGCTTCACCGTGGATCTGCTCCACACGGAGCGGCCTGT

CGGGATCCTGCTCACGGGTAAAGGAACTTACNTGGCNCTCGGTGCC

::::::::::::::Rv153T7.seq:::::::::::::

CCTTCTGCGCCACCCACACCGTCAACGCCCGCGAAGTCGACGTCGTCCAGGCCATCGGCGGCCTCACGGATGGATTCGGCGCGGACGTGGTGATCGACGCCGTCGG

(SEQ ID NO. 109)

CCGACCGGAAACCTACCAGCAGGCCTTCTACGCCCGCGATCTCGCCGGAACCGTTGTGCTGGTGGGTGTGCCGACGCCCGACATGCGCCTGGACATGCCGCTGGTC

GACTTCTTCTCTCACGGCGGTGCGCTGAAGTCGTCGTGGTACGGCGATTGCCTGCCCGAAAGCGACTTCCCCACGCTGATCGACCTTGACCTGCATGGCCGGCTGC

CGCTGCAGCGGTTCGTTTCCGAACGCATCGGGCTCGAAGACGTCGAGGAGGCGTTCCACAAGATGCATGGCGGCAAGGTATTGCGTTCGGTGGTGATGTTGTGATG

GCCGCCATCGAGCGCGTCATCACCCACGG

Clone Rv154

::::::::::::::Rv154SP6.seq:::::::::::::

ATACTCAAGCTTGATTTTGATCATCATGATGATCATCACCCGAAGTGTGGTAGCCGCAGTGGTTATCGTGGGTACCGTCGTGCTTTCCATGGGCGCCTCTTTCGGG

(SEQ ID NO. 110)

CTTTCCGTATTGGTCTGGCAGGACATTCTGGGTATCGAGTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCCTGGCGGTGGGATCCGACTACAATCTGC

TGCTGATTTCCCGGTTGAAAAAAGAAATTGGGGCCGGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGGGAGTGGTTACCGCTGCCGGCATGGTGTT

CGCCGTTACCA

::::::::::::::Rv154T7.seq:::::::::::::

ATTGNCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACCTCGATGCTGCCGCCATGGACGCGGTCGAACGCAAG

(SEQ ID NO. 111)

CAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGGATCGCGGTGATCGTCGATGACGGCATCGCCACCG

GAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCGATCGGCCCAGACGACATCGTGGCGAGATTCGCCGG

GTACGCCGATGAGGTGGTGTGTTTGGCGACGCCGGCGTTGTTCTTCGCCGTCGGGCAGGGTTACCGCAACTTCACCCAGACCTCCGACGAAGAAGTGGTGGCGTTT

TCTGGATCGTGCTC

Clone Rv155

:::::::::::::Rv155SP6.seq:::::::::::::

ATACTCAAGCTTTTCCCGTCCGTCATCGCCCAAGCGCGTGAGGCCGAAGCGGCTGGTTACGACTCCCTGTTTGTGATGGACCACTTCTACCAACTGCCCATGTTGG

(SEQ ID NO. 112)

GGACGCCCGACCAGCCGATGCTGGAGGCCTACACGGCCCTTGGTGCGCTGGCCACGGCGACCGAGCGGCTGCAACTGGGCGCGTTGGTGACCGGCAATACCTACCG

CAGCCCGACCCTGCTGGCAAAGATCATCACCACGCTCGACGTGGTTAGCGCCGGTCGAGCGATCCTCGGCATTGGAGCCGGTTGGTTTGAGCTGGAACACCGCCAG

CTCGGCTTCGAGTTCGGCACTTTCAGTGACCGGTTCAACCGGCTCGAANAGGCGCTACAGATCCTCGAGCCAATGGTCAAGGGTGAGCGCCAACGTTTTTCGGCGA

TTGGTACCCACCGA

:::::::::::::Rv155T7.seq:::::::::::::

CGGCCACCGGGGCCACTCCGCACAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCGAC

(SEQ ID NO. 113)

CCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACG

ATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACT

TGAAGGTGATTGTTAACCTGGGCTACGGCGACCCGGCCTATGGTTATTCGACCTCGCCGCCCAATGTTGCGACTCCGTTCGGGTTGTTCCCAGAGGTCAGCCCGGT

CGTCATCGCCGACGCTCTCGTCGCCGGGACCAGCAGGGAATCGGCGATTTCGCCTACA

Clone Rv156

:::::::::::::Rv156SP6.seq:::::::::::::

TCGCCACCGCACCGCGGCGAACGCTCAAAGGCACCTACTGGCACCAAGGCCCCACACGTCACCCTGTGACCTCCTGCGCCGACCCCGCCCGAGGTCCTGGCCGTTA

(SEQ ID NO. 114)

CCACCGAACGGGCGAGCCGGGAGTCTGGTACGCATCGAACAAAGAGCAAGGTGCATGGGCGGAGTTGTTCCGCCACTTCGTCGATGACGGGGTCGATCCATTCGAG

GTCCGTCGCCGCGTCGGTCGAGTGGCGGTCACACTCCAGGTACTCGACCTCACAGACGAGAGGACTCGATCCCATCTAGGTGTGGACGAAACAGATCTTCTGTCCG

ACGACTACACCACCACCCAGGCCATCGCCGCCGCCCGCGATGCCAACTTCGACGCCGTACTGGCCCCGGCGGCGGCGCTCCCCGGTTGTCAAACACTTTGCCGTGT

AATCCCATGACGTATCTGCGCAACGACGTGCNCAACNGTGGCTGATGTCNGTGGTGTTGTGGGGTGGGC

:::::::::::::Rv156T7.seq:::::::::::::

TCGCCACCGCACCGCGGCGAACGCTCAAAGGCACCTACTGGCACCAAGGCCCCACACGTCACCCTGTGACCTCCTGCGCCGACCCCGCCCGAGGTCCTGGCCGTTA

(SEQ ID NO. 115)

CCACCGAACGGGCGAGCCGGGAGTCTGGTACGCATCGAACAAAGAGCAAGGTGCATGGGCGGAGTTGTTCCGCCACTTCGTCGATGACGGGGTCGATCCATTCGAG

GTCCGTCGCCGCGTCGGTCGAGTGGCGGTCACACTCCAGGTACTCGACCTCACAGACGAGAGGACTCGATCCCATCTAGGTGTGGACGAAACAGATCTTCTGTCCG

ACGACTACACCACCACCCAGGCCATCGCCGCCGCCCGCGATGCCAACTTCGACGCCGTACTGGCCCCGGCGGCGGCGCTCCCCGGTTGTCAAACACTTTGCCGTGT

TCGTTCACGCACTGCCCAACATCGAGCCCGA

Clone Rv157

:::::::::::::Rv157SP6.seq:::::::::::::

ATGAAATAAGAAGAGCACATCCCTCAGTCGGTTATCATCACTAGCGCTCGCCGCACCCGTGTAACCGATCATAGCGAGCGAACTGGCGAGGAAGCAAAGAATATCT

(SEQ ID NO. 116)

GTTCTGTCAGATAGCTCTTACGCTCAGCGCAAGAAGAAATATCCCCCGCGGGAACAACTCCAGGTAGAGGTACACACGCGGATAGCCAATTCAGAGTAATAAACTG

TGACACTCACACCCTCATCAATGATGACGAACTACACCCCGATATCCGGTCACATGACGAAGGGAAAGAGAAGGATATCATCTGTGACAAACTGCCCTCAAATTTG

GCTTCCTTAA

Clone Rv159

:::::::::::::Rv159SP6.seq:::::::::::::

ATACTCAAGCTTGTCGAACTCCTTCTTGAATACCGGCCGGCCATCCACAGATGCCCGGAAGAACTTCCAGGTACCCATGGCGGCTGGATCAGGGGGCGGCACAGTT

(SEQ ID NO. 117)

GGTCTTGTCCTGCCTCGAGTGGCGTCGTTGTCCGGCTTGGACGGGGCTCCGACGGTACCGGAGGGCAGCGACAAAACACTTATGCACTTGGGCGACCCGCCGAGAC

GGTGCGACACCCATCCCGACGGCACAAGCTCAGCCGCGGCCGCTCTTGTTCTTCGTCGGATCGACATTCACCCACTTCTGACCGGGCTTGGGCGAAGGAAGCAGAA

:::::::::::::Rv159T7.seq:::::::::::::

GGTATAGTCGCTGACCGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGCGCAGGCTATCGCACCCGTTATCGGCTACGAG

(SEQ ID NO. 118)

CAAATCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGATCGCCGTCAAGCATGTGTGCCGCGGATTAT

CAGGACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGGTCGTGGTCGGCTCGGATAGCGAGGTCAGCGAATTCTCGTGGCA

GCTCGAAAGGGTCCTGCCGGTGCCGGTCTTTGCGCAAACGATGGCGCAGGTTACGGTCGCGCGGGGTGCGGCCCTGGCGGCGGCCCA

Clone Rv15

:::::::::::::Rv15SP6D2.seq:::::::::::::

GACACTATATNATACTCAAGCTTCAGGTCAATGTGCGCCAAGCCCTGACGCTGGCCGACCAGGCCACCGCCGCCGGANCCCTNTCTAGA

(SEQ ID NO. 119)

:::::::::::::Rv15T7.seq:::::::::::::

CTGTAGCCACCTGTTGCCATCCCCGTCATGCCCGACTCTGGTCATCTCGGATCCGCTGACACCCCGCTAAGGCTGCTCCTCTCGGTGCATTACCTCACCGACGGCG

(SEQ ID NO. 120)

AACNCCCCCAGCTTTACGACTATCCGGATGACGGCACCTGGTTGCCGGCTAACTTCACCGTCAGCTTGGACGGCGGCGCTACCGTCGATGGCGCCAGCGGGGCGAT

GGCCGGGCCCGGCGACCGATTCGTCNTCANCCTGTCGCGTGAACTTGCCGACGTCATCGTGGTCGGTGTGGGCACCGTGCGCATTGAGGGCTACTCCGGCGTCCGG

ATGGGTGTCGTCAAGCGCCCGCACCGGCAGGCCCGA

Clone Rv160

:::::::::::::Rv160SP6.seq:::::::::::::

ATACTCAAGCTTCGCACGCTCGGCGCGCGCGGTACCGCCCAGGTCGCCCAACAGATCGTCGATGTTCGCGTCGTCCGCCTCGCGCACGTGGTCTGTCACCAGTCAA

(SEQ ID NO. 121)

CGTTAACGCCGCCGCACATGTCCTGCGGCCGGGCAAAAACGTGAAAAACGAGCGGGCGACTGCNATGTCATGACACCGACGGCCGCCGATGGGCCCAGGGTCTGGC

AAATTCGATCTGTGCGGCCAGTGCCAGCAGCGTCGCCTCGTCATACGGCCGGCCGACGAGTTGAACCGACATGGGCAGGCCGTCGCCGTCGAAGTCCCACGGCACC

ACGGGCGCGGGCTGGCCGGTCAGATTCCAAAATTGAAAGTACGGAACCGCTGCACCACCAA

:::::::::::::Rv160T7.seq:::::::::::::

ATCGTTTCGACCAGGCGCTCCATCCGGCGAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGTTCAGCTCGCTTGCGGCGCTGCAGCA

(SEQ ID NO. 122)

GCCAGTCCGGGAAATAGCTGCCCTGGCGCAGCTTGGGGATCGCGACGTCGATGGTTGCGGCACGGGTGTCGAAATCACGGTGGCGGTAGCCGTTGCGCTGATTGGA

CCGCTCATCGCTGCGTTCGCGGTAGCCCGCCCCGCACAGGGCGTCGGCTTCAGCCCCCATCAAGGCGGCGATGAACGTCGAGAGCAGCCCGCGCAGCAGATCCGGG

CTCGCCTGTGCGAGTTGGTCAGCCAGAAGCTGCTCGGTGTCGATAAGATGANAAGAAGTCATTGCGTTATTTCCT

Clone Rv161

:::::::::::::Rv161SP6.seq:::::::::::::

ATACTCAAGCTTGGGTGTTGCCGATCACCGGAAGCCGCATGATCAGCCACGTTTCGCGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGCGG

(SEQ ID NO. 123)

GTAATCGCCGACGGTGCCGGTTCGCGAGCCGAAGGTGACGACGCTGATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCAGCAACGGCGCGAGCTCAACNACGTCA

ATCACGTTGTCGCTTTCTACGGTCACCGACCCGGTGACCGTAGTCGCCCGGTGCGCTCGGCCGAGAAGTTGCACCGCCACCACCGCGACAACGTCTTGCACGCGGA

CGCCACCCCCCGGAT

:::::::::::::Rv161T7.seq:::::::::::::

GCGCNAACAGCTCGCGGCAGCCCACGACGTGCTGCGTCGGATTGCCGGCGGCGAGATCAATTCCAGGCAGCTCCCGGACAATGCGGCTCTGCTGGCCCGCAACGAA

(SEQ ID NO. 124)

GGACTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGCTTGATGCCCGGTCGGCAAGCCCGGCAGTTGCC

AAACCCAGCGTGATCAGGCTCGGCTCGCGAGTTCGGCGAAAAAGTGGCTCGCCTGATCACCTACCATCGGCCAGGATCTGCGTGTCATCACGACGCTCGCCAAGGA

GGTTGTTGTGGTGCTATCGACGGCCTTTAGCCAGATGTTCGGAATCGACTATCCGATAGTGTCCGCGCCAATGGACTTGATCGCCGGCGGTGAGCTGGCTGCCGCN

GT

Clone Rv162

:::::::::::::Rv162SP6.seq:::::::::::::

ATACTCAAGCTTTCTCCGATACCCGCCATGTCGCGCACATCCAGGACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAAGTGCGGATGATCGGGCCGCCTA

(SEQ ID NO. 125)

CGTCGTGGTGTACCTCGTCGGTAACAACGAAACCGAAGCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACCGCACGGGGTGAAGGCC

TATGTCACCGGTCCGGCAGCACTCAATGCCGACCAGGCCGAGGCCGGAAACAAAAGTATCGCTAAGGTCACCGCGATCACGAACATGGTGATCGCAGCAATGTTGC

TAGTGATCTATCGCTCCG

:::::::::::::Rv162T7.seq:::::::::::::

CCATGAGCACCGCCAGCCGAGCACGAGGCCAAACTCCGCCGACGCAGGCCGGTTGGACTTGTCGTGCTGGACAAGGGGTTTAGCCGCCGAAGCAGTGACGTACATC

(SEQ ID NO. 126)

GGCGAAGAGCAGTTCGCCTGTCGACCGACGGCGCAAACCGTGAGGCTAGGGAAGCGAGGAGCACATGGCCGCCGACCCGCAATGTACACGCTGCAAGCAAACCATC

GAACCCGGATGGCTATACATCACCGCCCATCGCCGCGGTCAAGCCGGGATCGTCGATGACGGCGCAGTACTGATTCACGTGCCCGGTGAATGCCGCACCCCGGGGA

GCACTTTCCGCCAAAACTAACCCGGTTGG

Clone Rv163

:::::::::::::Rv163SP6.seq:::::::::::::

CGGGTGTCATTGGCCACCGGCGGCGGCTGTCCGGGAAATGGCGGGTCCCCGGTGGTTTTGCTGAGGAGTGCTGAACCGTAGTCGAAGTGGGCGGCGTCAGACTCCA

(SEQ ID NO. 127)

CCCAGCCAGCAGGCAGCGCGAANCTGAATCCTCCAACCGGGTTGTCNATCCGGACAGGTTGGGGTGCGTTTGGGGCAATNACAGGTGGCGGCGGTGCGTTCGGGTC

GGCCGGCGGAGGTGCTGCNTTGGGATCCCCGGCTGGGCATTCGGCNTGTTGGCGGCGGCCGGTGGTGGGGGGGGCAACACGTGTCNCCGGTGCGGGTGGCCCT

:::::::::::::Rv163T7.seq:::::::::::::

CCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTC

(SEQ ID NO. 128)

CAACTACTTCATCCTGACGCCGGAACAANTTGACGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGCACGGAGAACCTG

CCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGGANACCCACTGGCGAACCTGGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCTACGGCGACCC

GGCCTATGGTTATTCGACCTCGCCGCCCAAATGTTG

Clone Rv164

:::::::::::::Rv164SP6.seq:::::::::::::

AGCTTCCCGAGTTCGGCTTTGGATCAAGACCCCAGTCCGCGGGCGCGATCCGGCNGCTCGGTGACTACATCAAGCCACAAATCGACGGCTTTCGGGGTGCCGATAC

(SEQ ID NO. 129)

CGATGACGTGGCGGATGTCGAGTGTTGAGTTCTCGGCGGGGCGGATGCTCACCTGGCGATCACCTGCCTCTCGTTGACGATCGATCGTCTATGCCGCCGTCTCTGC

GGGAACAGGCCNCCAGTACATCGCCACAGACGGGATCCACCCGCATTTCGGCTACGGTTGCTCGTTTCGGTGTTCGGACTAGTCGGTCCTGGTGACGTGCCGGTGA

TGCGGACCGGTCCTAGCACTGACCAATGGCCAAAATGCGGGC

:::::::::::::Rv164T7.seq:::::::::::::

CGGGGGGCCTCTTAATAGTGTAGGAAAGAAGCTCTACATATTCAGGAGGATTCACCATGGCTCGTGCGGTCGGGATCGACCTCGGGACCACCAACTCCGTCGTCTC

(SEQ ID NO. 130)

GGTTCTGGAAGGTGGCGACCCGGTCGTCGTCGCCAACTCCGAGGGCTCCAGGACCACCCCGTCAATTGTCGCGTTCGCCCGCAACGGTGAGGTGCTGGTCTGCCAG

CCCGCCAAGAACCAGGCAGTGACCAACGTCGATCGCACCGTGCGCTCGGTCAAGCGACACATGGGCAGCGACTGGTCCATAGAGATTGACGGCAAGAAATACACCG

CGCCGGAGATCAGCGCCCGCATTCTGATGAAGCTGAAGCGCGACGCCGAGGCCTACCTCGGTGAGGACATTACCGACGCGGTTATCACGACGCCCGCCTACTTCAA

TGACGCCCAGCGTCAGGCCACCAAGGACCCGGCCAGATCGCCGGTCTCACGTGCTGCGG

Clone Rv165

:::::::::::::Rv165SP6.seq:::::::::::::

ATACTCAAGCTTCATAACAGGCCTGTTGTGGGCGCACCCGGCTCGCCGAGTTCTGCACGCACCGCCTCAAGTGCGGCCCGCACCGCCGGCATCTCCCGGTCACGCA

(SEQ ID NO. 131)

GGGCCGCGGCCCGCGCCGCAGCGACGGCGTGTTCGCGCAGTTCGCCGTCAATGATGCTGACCTGATCGGCCACCCGGGCGTTCTCGGCGTCTTCGCGTTCACTAAT

CGCGGTGCTCAGCAGCGTCTCGACAGCCACCACCCGAGTGGCGACCAGCTGCTCCACCACGGACCGCAGCGATGCCGTCACCTCACCCGTCCAGCGGTCCACCACG

ACACGGTCGTGCACCAGCGCGCGGGCATTCACCACCCAGGCGGTCACCGCCAGGCCGATCGCCACACCCGCCACCATCCCCGATGCAGCCAGGCCGGGAGTAAGA

:::::::::::::Rv165T7.seq:::::::::::::

CTGGTGCTGGACGGAGCCTAGTACAACTTCCTCTCCAATGCTCTTGCCCCGATCGCGGCGACCAGGATGACCCAGGACATCCTGCCGCCCGAAGTACTGGAAAAGC

(SEQ ID NO. 132)

TCACACCCGAGTTCGTCGCACCGGTGGTGGCCTACCTGTGCACCGAGGAGTGTGCCGACAACCCATCGGTGTACGTCGTCAGTGGTGGTTAGGTGCAGCGAGTTGC

GCTGTTTGGCAACGACGGCGCCAACTTCGACAAACCGCCGTCNGTACAAGATGTTGCGGCGCGGTGGGCCGAGATCNCCGATCTGTCCGGTGCGAAAATTGCTGGA

TTCAAGTTGTAGAACTAAAT

Clone Rv166

:::::::::::::Rv166SP6.seq:::::::::::::

ATACTCAAGCTTTTCCGGCGTCGTCCACCTGACCCAAAAAGCGCAGGTGCGCCGCCAAACGGCCCGCCTGGCCGCGCAACTGGTCGGCGTCGCCGTGGCCGACAAT

(SEQ ID NO. 133)

CAGTAGCTGGACATCCGGAAACCGCTGCACCACCTTCGGCAGCGCGTCAAGCAAAAACGGCCATTCC

:::::::::::::Rv166T7.seq:::::::::::::

TTTCAGATCTCATTTTTATGACATGACTGGAGATCTGTCTAGATTGCAGCTCCTGTGAGCGTGGGTACCGGATTCAAGCCGGTCGGTCACGCCGCGGTGGTACCGG

(SEQ ID NO. 134)

CTTTGCGGCAGTGCTCGGCCTCGAGTTCGGCGATCGCGCGCGAAGTGCGTTTCGCGCACCAAGATCGCGGCCTAATGGCCGGCGATGACCGCGATGACCAGCGCGA

TCCAGGAAAAACCGTTCCAACCAGTGCTGGGCGGCCATCCCCG

Clone Rv167

:::::::::::::Rv167SP6.seq:::::::::::::

ATACTCAAGCTTCCCGACCACAAGTTGAACAGCACCGATTTCGGCGAGCACTTCGTCAACTTCCAGGGTGCCCGCACCAAGTATTTCGACAAGTATTTCCGTCGGG

(SEQ ID NO. 135)

CCGCCGCCGCCGGCGCGCGGCAGGTGGTCATCCTGGCGGCGGGGCTGGACTCCCGCGCGTACCGGCTGCCTTGGCCCGACGGGACCACGGTTTTTGAGCTGGACCG

CCCGCAGGTCCTTGATTTCAAGCGCGAGGTGCTCGCCAGCCACGGTGCCCAACCGCGCGCCCTGCGCCCGCGA

:::::::::::::Rv167T7.seq:::::::::::::

GTGTGCTGTCAATTCAGAGCTGAGCCTGATGCACTCAACTTACTGAGCATGCTAACGCTGGTCGTGCGGGTCTTGTTCCCGCGTGTCGGCAGGGCACACGCTCGGG

(SEQ ID NO. 136)

GCGTAGCTGGGAGAGGCCCCGGTCAAGCCCGGAGAGCAGTGCTCAGTCCGCCAGCTTGACCGACTTTCGATGAGAACGCGCTTCTCGCCGTATTGAACTGGCGTGC

TGACGGTCGCTGAGCAGCGCTCGCCGAGTGCGGCCGCTGATTCTTTCATCGAGCCAGGAGGCGCATTCGTGTTCGGCCGCCTGCGGGTCGGCCCCATCGTCGACGC

GATCCGTCACCCACTCCTCGATCAGGTCTGCCTCATCGAACGGGCCAACGGTGCTGTCGGAGTATGTGTGCGTGGGCACGGCGAGCCGGGTGCTGTGGTACACCCA

CCGTTGCATGACCAAGTTGACGCCTGACTGGCTGAGCACCGCGATCCGCTCACAGGTCGGAACGTTGGTG

Clone Rv169

:::::::::::::Rv169SP.seq:::::::::::::

ATACTCAAGCTTTTGGTCTAGCCGGCCGAGCCCGATACAGGTGTCATTGGCCACCGGCGGCGGCTGTCCGGGAAATGGCGGGTCCCCGGTGGTTTTGCTGAGGAGT

(SEQ ID NO. 137)

GCTGAACCGTATGCGAAGTGGGCGGCGTCAGACTCCACCCAGCCAGCAGGCAGCGCGAAACTGAATCCTCCAACCGGGTTGTCGATCCGGACAGGTTGGGGTGCGT

TTGGGGCAATGACAGGTGGCGGCGGTGCGTCCGGGTCGGCCGGCGGAAGTGCTGCGTTGGGATCGCCCGGCTGGGCATTCTGCGTGTTGGCGGCGGCCGGTGGTGG

GGGGGCAACAGGTGTCTCCGGTGCGGGTGGCGCTGCACC

:::::::::::::Rv169T7.seq:::::::::::::

GGGGCCACTCCGCACAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACG

(SEQ ID NO. 138)

CCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCA

GTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTG

ATTGTTAACCTGGGCTACGGCGACCCGGCCTATGGTTATTCGACCTCGCCGCCCAATGTTGCGACTCCGTTCGGGTTGTTCCCAGAGGTCAGCCCGGTCGTCATCG

CCGACGCTCTCGTCGCCGGGACCCAGCACGGAAT

Clone Rv16

:::::::::::::Rv16SP6.seq:::::::::::::

TTCTNTCTTCCCNNATTCGTNNNTCTCNTACTACCNGGGCCNCAAAACACCTTGGCNAACGCTCAAAGGCGNTACNGGCACCAAGGCCCCACACGTCACCCTGTGA

(SEQ ID NO. 139)

CCTCCTGCGCCGACCCCGCCCGAGGTCCTGGCCGTTACCACTGAACGGGCGAGCCGGGAGTCTGGTACGCATCGAACAAAGAGCAAGGTGCATGGGCGGAGTTGTT

CCGCCNCTTTTTTTATGACGGGGTCGATCCATTCGAGGTCCGTCGCCGCGTCGGTCGAGTGGCGGTCACACTCCAGGTACTCGACCTCNCAGACGAGAGGACTCGA

TCCCATCTANGTGTGGACNAAACAGATCTTCTGTCCGACGACTACACACCACCCAGGCCATCGCCGCCGCCCGCGATGCCAACTTCNACNCCGTNCTGGCCCCGGC

GGCGGCGCTCCCCGGTTGTCAAACACCTGCCGTGTTCGTTCACNCACTGCCCAACATCNAGCCCGANCNATCCNAGGTCCGTCCAACGCCTCCGCGGCTCNCCAAC

CTNCTCCCNCTGATCNTCCGCACCAAACACATGCCCGACTCCNTGCNCCNATTGCTTGNATCCCT

:::::::::::::Rv16T7.seq:::::::::::::

CCGCTATCGGTCGGTGTGCTTGGCGGCGTCGGTATCAACACCGCCCACGAAATGGGGCACAAGAAGGATTCGCTGGAGCGGTGGCTGTCCAAGATCACCCTCGCCC

(SEQ ID NO. 140)

AGACCTGCTACGGGCACTTCTACATCGAGCACAACCGTGGCCATCACGTCCGGGTGTCCACACCGGAGGACCCGGCGTCGGCGCGGTTCGGCGAGACGTTGTGGGA

GTTCCTGCCCCGCAGTGTTATCGGCGGCTTGCGCTCGGCCGTTCATTTGGAGGCCCAACGGCTGCGTCGGCTCGGCGTCAGCCCCTGGAATCCCATGACGTATCTG

CGCAACGACGTGCTCAACGCGTGGCTGATGTCGGTGGTGTTGTGGGGTGGGCTGATCGCGGTCTTCGGCCCGGCGCTGATCCCGTTCGTCATCATCCAGGCAGTCT

TCGGCTTCAG

Clone Rv170

:::::::::::::Rv170:::::::::::::

ATACTCATGCTTGCCGAAGTTCCGATGGGTCGCGCCGGCGANCCCAGCGAAGTCGCTAGCGTGGCCGTGTTCTTGGCTTCGGATCTATCCTCGTACATGACCGGCA

(SEQ ID NO. 141)

CCGTGTTGGACGTGACTGGCGGCCGGTTCATATGACACCGAGATCATTGCCACGGTACGGCAATTCGTCAAGAAGGAAATCTTTCCCAATGCACCGGCCCTCGAAC

GTGGCAACAGCTACCCGCAAGAAATCGTCGATCGGCTGGGTGTTATTGGCTTCGTCGGTCGCCGGCTGCAAGGGTATCGACACCACCGAGTTCATTCTCCGGGCGT

GCC

:::::::::::::Rv170T7.seq:::::::::::::

GGCGTCAACGGTGTCGGCACCGGCGTCCTGCAGTTGGTAGGCCTGCAGTTTGTGCATCAGGCCGATGCCGCGGCCCTCGTGGCCACGCATGTACAGCACCACGCCG

(SEQ ID NO. 142)

CGCCCCTCACGGGCGACCATCGCCAGCGCGGCGTCCAGCTGAGGCCCGCAATCGCAGCGGCGTGACCCAAACACATCGCCGGTCAAGCACTCCGAATGCACCCGGA

CCAGCACGTCGTCACCGTCGGCGTTGGGCCCGGCGATCTCGCCGCGGACCAGCGCGACATGTTCCACGTCCTCGTAGATGCTGGTGTAGCCGATGGCGCGAATCTC

CCATGACGAGTCGGAATCCGCGCCTCGGCG

Clone Rv171

:::::::::::::Rv171SP6.seq:::::::::::::

ATACTCAAGCTTCGGCCTCGCTGCAGGAGTGGGAGCCGCAGGGCTGGAAATCCGAAAAACGAGCCGGTGATCGCACTGTCGCCGATCGGGGCCGCACCTGGTTGGT

(SEQ ID NO. 143)

GTTACCGATGAATCCGCACCCAAAATGTGGCTGCGGTGGCGTTTCTTGACTCCTTGGCGTCGACTCTTGTGGCAGCCACCGAGCGGTTGGTCCAGGATCTGGATGG

GCAAAGTTGTGCGGCCCGGCCGGTGACGGCCGATGAGCTGACCGAGGTCGACAGCGCCGTGTTGGCTGACTTGGAACCGACATGGATTCGCCCCGGTTGGCGTCAC

CTCAAGCATTTCAATGGTTAT

:::::::::::::Rv171T7.seq:::::::::::::

ATGCGTCACCCCGATGCGCCCAGATCGGGGCTTCGCAAATAAAGCACGAACAGGCGGGCAAAACGTCTATCTCGGAGCCGGAAGGGCAATCAGCCGACCGTCGACG

(SEQ ID NO. 144)

AACGACACCGGCGATAACCACTTAGGCGTTGAACGGCCGGCCCAAACATTACGCCTCCGTTGATAAGGCTTTCGGTCTCTTCCCCGGTCATCCCAAGCAGGTTGCG

GCAAATTTGAACGCTTTCCTGTCCGGGCACCGGCCCCGGGCTTTGGGGTCCNTCCGA

Clone Rv172

:::::::::::::Rv172SP6.seq:::::::::::::

ATACTCAAGCTTCAATCGCGCCGCCACAATCCAAATATGCGTCTAGCGTCTCGATGAGCGTCGGTCCGGCATCGGCTAGGGGCCGCATCACGTCGGTATGCAGGGC

(SEQ ID NO: 145)

CACGATCGCCCAAGGCGTCGCCCATCAAGGGCGCGTTCGGGCAAAAATTCCCCTATCCAGCACGGGCCGCGGCGCTCCGCNCCAGCCGGCGACGGCGTTCATCCCG

GAGATCGCCTCGCTAGCGCTGCGGTGCGCCGCGGTCAGCATGGGCGCCGTGGGGCCGATGACCACCGGGGCGT

:::::::::::::Rv172T7.seq:::::::::::::

TTCGGCGGGTCTGTAGATTGCGGTCGGCCACCCCACAGGCACTCATGAACCGCAGCCCACGATCGATCTCGGTGG

(SEQ ID NO. 146)

Clone Rv173

:::::::::::::Rv173SP6.seq:::::::::::::

GCGCACCATCGCCAGTAGGTGCCCGTGGTCGGGCGCGTCGAGCCACCCGAGCGGAAACGCGAGTCCGAACAGCAACAGCAGGACGGGCGCAACCAGGGCGGTGACC

(SEQ ID NO. 147)

ATGCCCCCGGCGCTGAACATCAACCACAGGAAGGGCTCCGCCGAGCGTCCGCGCGACC

:::::::::::::Rv173T7.seq:::::::::::::

CATCGTCGAACTTCGGTCCGGGTTGNTAGNACCGCAGCACCAAACGCACCCACCGACCCCCACGCTTCACGCCAACCCTTTAGTTCATTGGCGTGAACAGCAGCGT

(SEQ ID NO. 148)

AGCCGGTTGCCCCGATATATGTGGAAAAATCGTTCGGACGTACAAAAAAAGTTCCTGACGCTGGCGTCAACTCGAAACTGCCTCGGAAGTCAATGATGATCCATCA

GTCAATATTAAAGTCG

Clone Rv174

:::::::::::::Rv174SP6.seq:::::::::::::

ATACTCAAGCTTGTCTGCTGCCTCAGCGTATGCATCCAACAGCGCATCGCGATCAACGATCAGGCGCGCCGATTTCGGGCCGCGGGCAGTGGCACTGGCCAGATGG

(SEQ ID NO. 149)

CCGTTTTTTTCGAGAAACTTCAACGCCTGAGCGCTGCTTCCCATCGAGAGACCGGTGGCCTCTACAACCGATGCGACAGTTGGACCGGCGATGTTCGCCAGCAGCG

CTTCACATACGGCAAGTNTGGCGCGG

:::::::::::::Rv174T7.seq:::::::::::::

TTGTCCAGGCGGGGAATCGGGCAGGGAGACGACACCTTCGTTCGGTTCGATCGTCGCGAACGGGTAGTTGGCCGCGACCACGTTGTTTCGGGTCAGCGCGTTGAAA

(SEQ ID NO. 150)

AGTGTCGACTTGCCGACGTTGGGCAGGCCCACGATCCCCAGGCTCAAGCTCACAGA

Clone Rv175

:::::::::::::Rv175SP6.seq:::::::::::::

ATACTCATGCTTGGCGCCTGGGTGGCAGCCCACCTGCCCACCACACGGACCGCGGTGCGGACGCGGCTGACGCGCCTGGTGGTCAGCATCGTGGCCGGTCTGCTGT

(SEQ ID NO. 151)

TGTATGCCAACTTCCCGCCGCGCAACTGCTGGTGGGCGGCGGTGGTTGCGCTCGCATTGCTGGCCTGGGTGCTGACCCNCCGCNCNACAACACCGGTGGGTGGGCT

GGGCTACGGCCTGCTATTCGGCCTGGTGTTCTACGTCTCGTTGTTGCCGTGGATCGGCGAGCTGGTGGGCCCCGGGCCCTGGTTGGCACTGGCGACGACGTNCGCG

CTGTTCCCCGGCATCTTCGGTCTGTTCGCCGTCGTGGTACCCTGTTGCCGGGTTGGCCC

:::::::::::::Rv175T7.seq:::::::::::::

CGCCAATTCACGATATCGTTAACCGATATCCCGAGCCGATAGCTGGCGGGCTCGGGTGGTGGCCAGCGGCGCTGCGACGAAAGGTGTGACCGTCATGAAACAGACA

(SEQ ID NO. 152)

CCACCGGCGGCCGTCGGCCGTCGTCACCTGCTCGAGATCTCAGCATCCGCAGCCGGTGTGATCGCGCTTTCGGCGTGTAGTGGGTCGCCGCCCGACCCCGGCAAAG

GCCGGCCCGACACAACCCCGGAACAGGAAGTCCCGGTCACCGCGCCCGAAGNACTTGATGCGCGAACNCGGAGTGCTCCAAACGCATCCTGCTGAT

Clone Rv176

:::::::::::::Rv176SP6.seq:::::::::::::

ATACTCAAGCTTGGGCACTGACTTCGGTACCCCCTCCGCCTTTGGCCAGCAGCAGCCACAGCGCGGTTCGCGGACCGAACGTGGACATCAATAGCCCGGAATCGGT

(SEQ ID NO. 153)

GTGTGCAAGTTGGTAAACGGTGTTGATCCCAAGCTTTGCCAGCCTTTTCGTAGTCTTGGGCCCCACACCCCACAGTGCTTCGACGGTACGGTCACCCATGATGGCC

ATCCAGTTGGCATCGGTGAGCTGATAAATGCCAGCTGGTTTCGCCAACCCGGTAGCGATCTTGGCGCGCTGCTTGTTGTCACTGATACCTATCGAGCAAGACAGCC

CGGTTTGCGACAAAATGACTTTTCGGATCTCTTCGGCGACTTCGATGGGGTCGTCGGGA

:::::::::::::Rv176T7.seq:::::::::::::

AAAGTCCTGTGCCGGTTCGCTAAACACCCGGCGGACACTCAGACGGTGCTGGTGGTGCGGCATGGCACCGCGGGCACCAAAGCGCACTTCTCCGGGGGACGACAGC

(SEQ ID NO. 154)

AAGCGACCGCTAGACAAGAGGGGTCGTGCGCAGGCAGAAACGTTGGTACACAGCTGCTGGCGTTCGGCGCCACCGATGTTTATGCCGCCGACCGGGTGCGCTGCCA

CCAGACGATGGAGCCACTCGCCGCGGAACTGAACGTGACCATACACA

Clone Rv177

:::::::::::::Rv177SP6.seq:::::::::::::

ATACTCAAGCTTGGGTTCCACGCCCGCGCAGCCACGCCGTCACCTTTCCACGAGACCTCACCTGCCGATCCGAAATGGAATCGGCCGTGACGGAATTGGCGCACCG

(SEQ ID NO. 155)

AACACCCAACGAGGTGGTGGCTTCGTCGCGAACCGTCACCCGAGTCGCGGCCACCGTGCGCACGGCGACGTTCTACACCCGCACCAAGATCCGAAAGCTGCAAGCT

CCCAGCACCGATCCCGACGTCATCACCGCTGCCGCCCGGCACGTCCTTGACCTATTCGAGCTGGATCGGCCCGTCCGGTTGCTGGGAGTGCGGTTAGAACTGGCCT

AGAACCGGCGGGCACACCGCNCCTCCCGCCCCGCAATTCTTGACCGCNCCGGCC

:::::::::::::Rv177T7.seq:::::::::::::

CGCGGTTGGCGTAGTTGGACGGGTCGCCCTCCGAGGCCAATGATGACGATGACCACGCCGATCACGATGGCCACCGAGAGGGACAACAACAGAAAGCTGACGAATC

(SEQ ID NO. 156)

CCTCCTTGGCGGCCGGGGCTTTGTGGTCGCCGGTCGCGATGGGCGCGAATTTACGGCCCGCTCCCCCAGGCCGCCGCGAAGCAGGGTCCCCAGCCAGTTGGCGTAG

GCGGAATTAACGATCAGCGCCACCGCGATAACCTGCCATGCCTCGGGCATATCGATGTGCGGCCAGAACAGGCCGAAC

Clone Rv178

:::::::::::::Rv178SP6.seq:::::::::::::

CCAACAAGAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGGCGCGAACGACGCCAGCGACCACATTCAGCAGATGGA

(SEQ ID NO. 157)

CAGCGCGTGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCGTGATCGACATCGTCACCGCCGCACCACTGCCCGGCCTCGGGTTCACGCAG

CCGTTGCCGCCCGCAGCGGACGATCACATCGCCGCGATCGCCCTGTTCGGGAATCCCTCGGGCCGCGCTGGCGGGCTGATGAGCGCCCTGACCCCTCAATTCGGGT

CCAAGACCATCANCCTCTGCAACAACGGCGACCCGATTTGTTCNGACGGCAACCGGTGGCGAGCGCACCTAGGCTACGTGCCCGGGATGACCAACCAGGCGGCGCG

TTTCGTCGCGAGCAGGATCTAACCGCGAGCCGCCCATAGATTCCCG

:::::::::::::Rv178T7.seq:::::::::::::

TAANACCCGTGTAATTTGGGATGGGCAAAAAGGCCAAGCACCGCGTGGCCACGAACGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGA

(SEQ ID NO. 158)

ACGTACGGCGTTTCAACACGTCGCGTCNCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGGTAGCNCCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCG

GGTAGTCGCCGCCCGGGCGGCTACAGTCTGAAACGCGATGACCATCGATGTGTGGATGCAGCATCCGACGCAACGGTTCCTACACGGCGATATGTTCGCCTCGCTG

CGCCGGTGGACCGGTGGGTCTATCCCGGAGACCGACNTCCCGATCGAAGCGACCGTCTCCTCGATGGACGCCGGCGGCGTCACCCTGGGTTTGCTCACCGCCTGGC

GTGGCCCCAA

Clone Rv179

:::::::::::::Rv179SP6.seq:::::::::::::

GTCCGCAAAAGACTCAGCGGCCGACTTTGCTCGCAGCTGGCGGTACCGCGCCACCGATTCGATGCCGTGGTCGCGGAAGAATGCCTCCCGAAATCGCACGGCCGAC

(SEQ ID NO. 159)

TCCAGTTCGGCGAGCATCCGCGATGCCACGTGCGGCTGCGCCCTGCCGGCCACGGCACCCACATGCGGCAGTTCGTCCACCTGGGCCAGCGCCCCGCCGCCGAAGT

CCAAACAATAGAACTGCACCCGGCCCGCATCGTGGGTAGCAGCCAACGCCATGATCAGCGTCCGCAGCGCGGTTGACTTGCCCGTTTGCGGTGCACCTACGACCGC

GACATTGCCTGCGGCCCCGGACAAGTCGATCGTCAGCGGCACCCN

:::::::::::::Rv179T7.seq:::::::::::::

CGTGGCCACGAACGCCGGGAGGGACANTCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAACGTACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAA

(SEQ ID NO. 160)

CATTCGGGGATGGCAGCAACCTGGCAGCTACCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGGTAGTCGCCGCCCGGGCGGCTACAGTCTGAAACGCGATGACC

ATCGATGTGTGGATGCATCATCCGACGCAACGGTTCCTACACGGCGATATGTTCNCCTCGCTGCGCCGGTGGACCGGTGGGTCTATCCC

Clone Rv17

:::::::::::::Rv17SP6.seq:::::::::::::

ATACTCAAGCTTTGCGGCGGGCGCCGAAATGTGAACGCACCAAACCCGCCCGCTGCGGGTCGGCGGGCCACTCGACCTCGAATTTCGCCGCCGTGACCATCCAGCC

(SEQ ID NO. 161)

CGACGGCAGTTGGGCACCCGGCCCCCCGGTCGCGGCATAACTGTTGGCGTCGCCGTCATAAAGCTCGAACAGCACCGAAACCGACTCCACCACCGGCCGGTGCGCC

TCAAAATCCACGCCGATCTCCACATACCGGGAAAACGTCGGTGTCCCATCGGGTTTCGGCTTGCCCGCCAGCTGCACACCACCGGTGGCCTCGGCCACCTTCGCGG

CCTGAGCGCAGCTACNCATCCTGACGATCATCACCCCGCCCCCGGCTCACGCTTGGCCTCCGTGACCGCACGCATCGCCCGGTTGCGCGCACCGCGACGCCCGTAC

AGCCGCGCGCAC

:::::::::::::Rv17T7.seq:::::::::::::

AGCTTGCCGGGACTGCGGAACAGAAGCGGCGGTTCCTACCGCGGTGTGCGGCCGGCGCGATATCGGCCTTTTTACTAACCGAACCCGATGTGGGCTCCGATCCGGC

(SEQ ID NO. 162)

GCGCATGGCATCGACGGCGACGCCGATCGATGACGGCCAGGCTTACGAGCTTGAGGGTGTGAAGTTGTGGACCACCAACGGTGTGGTAGCGGACCTGCTAGTGGTT

ATGGCGCGGGTACCGCGCAGTGAAGGGCACCGAGGGGGAATCAGCGCCTTTGTCGTCGAGGCTGATTCGCCCGGGATCACCGTGGAGCGGCGCAACAAGTTCATGG

GACTGCGTGGCATCNAAAACGGCGTGACCCGGCTTCATCGCGTCNGGGTGCCCAAAGACAACTTGATCGGCA

Clone Rv180

:::::::::::::Rv180SP6.seq:::::::::::::

CTCAAGCTTGGCGATGCGGGCTGGCCAAAACTGGCCGGGCGGGGGTTGGCTTGTTCAATCAAGGGTGGGTTGCCG

(SEQ ID NO. 163)

:::::::::::::Rv180T7.seq:::::::::::::

CCGAAGGCCCGTTCCCGGGCGTTCAGCAAGCGATCGTCGGTTGGCCCACTGCGGGTCGAATCTTGCGGCCGCGCCGGTCGTGGAACGCCCAGGTCACCCGGCGGCG

(SEQ ID NO. 164)

TACC

Clone Rv181

:::::::::::::Rv181SP6.seq:::::::::::::

ATACTCAAGCTTTTTTCTGCTCATGAAGGTTAGATGCCTGCTGCTTAAGTAATTCCTCTTTATCTGTAAAGGCTTTTTGAAGTGCATCACCTGACCGGGCAAATAG

(SEQ ID NO. 165)

TTCACCGGGGTGAGAAAAAAGAGCAACAACTGATTTAGGCAATTTGGCGGTGTTGATACAGCGGGTAATAATCTTACGTGAAATATTTTCCGCATCAGCCAGCGCA

GAAATATTTCCAGCAAATTCATTCTGCAATCGGCTTGCATAACGCTGACCACGTTCATAAGCACTTGTTGGGCGATAATCGTTACCCAATCTGGATAATGCAGCCA

TCTGCTCATCATCCAGCTCGCCAACCAGAACACGATAATCACTTTCGGTAAGTGCAGCAGCTTTACGACGGCGACTCCCATCGGCAATTTCTATGACACCAGATAC

TCTTCGACCGAACGCCGGTGTCTGTTGACCA

Clone Rv182

:::::::::::::Rv182SP6.seq:::::::::::::

CTCAAGCTTGGTGCCGACATGGCCGGGCTGGAGCCCGCGTATGGCAAGGTTCCGCTCAATGTGGTTGTGATGCAGCAGGACTACGTTCGCCTCAATCAGCTCAAAC

(SEQ ID NO. 166)

GTCACCCCCGTGGCGTGCTGCGCAGCATGAAGGTCGGCGCCCGCACGATGTGGGCGAAGGCAACAGGTAAAAACCTGGTCGGCATGGGTCGAGCCCTCATTGGGCC

GTTGCGGATCGGGTTGCACCGCGCCGGAGTGCCGGTCGAACTCAACACCGCCTTCACCGATCTTTTCGTCAAAATGGCGTCGTGTCCGGGGTATAC

:::::::::::::Rv182T7.seq:::::::::::::

CCGAAGCGTGGGAAATCCTGACCGAATACCGCGACGTGCTGGACACTTTGGCCGGCGAGCTGCTGGAAAAGGAGACCCTGCACCGACCCGAGCTGGAAAGCATCTT

(SEQ ID NO. 167)

CGCTGACGTCTAAAAGCGGCCGCGGCTCACCATGTTCGACGACTTCGGTGGCCGGATCCCGTCGGACAAACCGCCCATCAAGACACCCGGGGGAGATCGCGATCGA

AACGCGGCGAAACTTGGGCC

:::::::::::::Rv183SP6.seq:::::::::::::

CGACTCGACAAGCATTCTTGACAGTTGTTTTGGCTCGGCATGGTTAGCCAAGGTTCTGCGGTCCCACCAGATCATCTTGGTCCGGTAGCGCTCGTCCGGGTATGCT

(SEQ ID NO. 168)

GCCGCCGGGATTCTCGCTGCTATTACTCCCCCCGAAAAACGCCACCGGTCCAGCGCGTGGGCCGCCGCGGTCCCCATCACAAACTGAACCCCCAACAGGGGACATG

CTTAGCGGTAGGGCGCGCGCCAAGGCGGCAGCAATCGCATCACTGCGCTGCGCGTCACTATTAACCCACCCGGACTTCACTTCCACGACCCCGAATGGCGCCCGGT

CATTGATCATCTTGCGCACCGCGGATAATCCGGGATTGCCAGCCCATTCGACTACCGCATGCGAGTCATCGGCTGACCGCAGCGGTCCGATTACCCGAGCGCCCCG

ANTACATCTCCTCCAATATCAATGGGCGCAA

Clone Rv183

:::::::::::::Rv183:::::::::::::

GCGGTNTAGCTTCCCGTCGTACCGGCGACCGCCAGCCGAGAAGCTCGTTTTCCCAGTGTTGCTGGGGATTCTCACGCTGCTGCTGAGTGCGTGCCAGACCGCTTCC

(SEQ ID NO. 169)

GCTTCGGGTTACAACGAGCCGCGGGGCTACGATCGTGCGACGCTGAAGTTGGTGTTCTCCATGGACTTGGGGATGTGCCTGAACCGGTTCACCTACGACTCCAAGC

TGGCGCCGTCTCGTCCGCAGGTCGTTGCTTGCGATAGCCGGGAGGCCCGGATCCGCAATGACGGATTCCATGCCAACGCTCCGAGTTGCATGCGGATCGACTACGA

ATTGATCACCCAGAACCATCGGGCGTATTACTGCCTGAAGTACCTGGTGCGGGTCGGATACTGCTATCCGGCGGTGACGACCCCCGGCAAGCCGCCATCCGTGCTG

CTGT

Clone Rv184

:::::::::::::Rv184SP6.seq:::::::::::::

CTCAAGCTTGGGCGTGACGGCCACCGGGGCCACTCCGCACAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCG

(SEQ ID NO. 170)

CTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCA

ATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAAAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAA

CCTGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCTACGGCGACCCGGCCTATGGTTATTCC

:::::::::::::Rv184T7.seq:::::::::::::

CGGGTGTCATTGGCCACCGGCGGCGGCTGTCCGGGAAATGGCGGGTCCCCGGTGGTTTTGCTGAGGAGTGCTGAACCGTAGTCGAAGTGGGCGGCGTCAGACTCCA

(SEQ ID NO. 171)

CCCAGCCAGCAGGCAGCGCGAAGCTGAATCCTCCAACCGGGTTGTCGATCCGGACAGGTTGGGGTGCGTTTGGGGCAATGACAGGTGGCGGCGGTGCGTTCGGGTC

GGCCGGCGGAGGTGCTGCGTTGGGATCGCCCGGCTGGGCATTCGGCGTGTTGGCGGCGGCCGGTGGTGGGGGGGCAACANGTGTCGCCGGTGCGGGTGGCGCTGCA

Clone Rv185

:::::::::::::Rv185SP6.seq:::::::::::::

NCTTGATATTGGCGTCAACGGTGTCGGCACCGGCGTCCTGCAGTTGGTAGGCCTGCAGTTTGTGCATCAGGCCGATGCCGCGGCCCTCGTGGCCACGCATGTACAG

(SEQ ID NO. 172)

CACCACGCCGCGCCCCTCACGGGCGACCATCGCCAGCGCGGCGTCCAGCTGAGGCCCGCAATCGCAGCGGCGTGACCCAAACACATCGCCGGTCAAGCACTCCGAA

TGCACCCGGACCAGCACGTCGTCACCGTCGGCGTTGGGCCCGGCGATCTCGCCGCGGACCAGCGCGACATGTTCCACGTCCTCGTAGATGCTGGTGTAGCCGATGG

CGCGAAACTCCCCATGACGAGTCGGAATCCGCGCCTCGGCGACCCGCTCAATGTGCTTCTCGTGCTTGCGCCGCCATTCGATCAAGTCAGCAATGGTGATCAGCGC

CAGACCGTGCTCNTCGGCG

:::::::::::::Rv185T7.seq:::::::::::::

CATAAGGGCCGGCGTACCCGGTACCGGCCGCGGGCCTACCACGTGCCGGAACTGGAAGCGCAGTAAGCCCTCAACGCGCCACCGCTTTGGCCCGCGCGCCCGGCGT

(SEQ ID NO. 173)

AGGCGCATCGGCGGTGGCCGTGGGGCGGCGCACTGCGACCTCACCAGCGGCTTTCGAGCTTTGTTCGATCAACCGGCCAGCATGGTCGAGGATGCATTCGAGACCA

TATTCGAAATTGGTTTCATCGGGGGCCCCGATCCGATGCCCCCTCCCAGTTGCGTGAGCAAGCAGCGGAGTCGTCGCGGGATCGATGGCCACGGGGTGTTCAATGG

CGGATGGTCCGCTGCCCGCCGACTGGCTCTTGCGGGAGAGCCGATCTAGCACCACCGATCCGCGCACGTGGACCGAAACCGCCGAGTAGATGTCGAAAGCGT

Clone Rv186

:::::::::::::Rv186SP6.seq:::::::::::::

CGTCCTTTTCCCCAAGATAGAAAGGCAGGAGAGTGTCTTCTGCATGAATATGAAGATCTGGTACCCATCCGTGATACATTGAGGCTGTTCCCTGGGGGTCGTTACC

(SEQ ID NO. 174)

TTCCACNAGCAAAACACGTAGCCCCTTCAGAGCCNNATCCTGAGCAANATGAACAGAAACTGAGGTTTTGTAAACGCCACCTTTATGGGCAGCAACCCCGATCACC

GGTGGAAATACGTCTTCAGCACGTCGCAATCGCGTACCAAACACATCACGCATATGATTAATTTGTTCAATTGTATAACCAACACGTTGCTCAACCCGTCCTCGAA

TTTCCATATCCGGGTGCG

Clone Rv187

:::::::::::::Rv187SP6.seq:::::::::::::

CTCAAGCTTCATGTCCGTACGGCTCGGGTACGCTTCCGTCGCAGTGTGCGAGTGATAAATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTC

(SEQ ID NO. 175)

AGTTGCTCACCGGAATCCAACCGGTAGAAGGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCAGCACTC

CGCAGGCTTCGTCGGGGTGGTCGCGACACGCATGGGCCCCATCGCATTCAC

:::::::::::::rV187T7.seq:::::::::::::

NCGCCGCCAGCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCGGTGATGGCACGCCACCGCGACACCACCCGGCTGCGCTACGTCGA

(SEQ ID NO. 176)

GCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAGGTCGAGGTCGATACCGATTTGCGCATCCGCAGCCGCACCCTGGACGAC

AGAACCGTGCCCTACGANTGCTTGTCGGGCGGGGCCAAAGAACAGCTTGGCATCCTGGCGCGATTGGCCGGCGCGGCGCTGGTCTCCAAAGAAGACGCCCTTCCGG

TGCTGAT

Clone Rv188

:::::::::::::Rv188SP6.seq:::::::::::::

CGCCACGTTCATGGGCAACAACCCCGATCACCGGTGGAAATACGTCTTCAGCACGTCGCAATCGCGTACCAAACACATCACGCATATGATTAATTCGTCCAATTGT

(SEQ ID NO. 177)

ATAACCAACACGTTGCTCAACCCGTCCTCGAATTTCCATATCCGGGTGCGGTAGTCGCCCTGCTTTCTCGGCATCTCTGATAGCCTGAGAAGAAACCCCAACTAAA

TCCGCTCGTTCNCCTATTCTCCAGCGCCGGG

Clone Rv189

:::::::::::::Rv18SP6.seq:::::::::::::

ATACTCAAGCTTCAACCGATTGACGCATTGTGCGAACTGACGGCGCCCGCGCATGGCCAATCCGGAAGACCATCATTGGCCAGTGGCCGGGCGCTAACAGGTTCCA

(SEQ ID NO. 178)

GCCCCCCACCAGTGCCGCTCGAACATGCGGTGCAACCCATTCGCAGGCCGGCAGGGAAAGCACCGCGGAAGCCGCAAAGGGCTGCAGTTCCGCGCCCAATAGTGTC

GTCCGCAACCAGATGCGCTCGAAAACCGCGCCGGCAGTCAGCGCACCCGACGCGAGGTCGAGAGACGTCGTCAGCGCGCCCACATGGGGTGCCAATCGGCACGGCA

GGTAGGCCGCGCGCAACCCGAACGCGTGGTGCATGCCCACGGTCCGCAGGAGGCGCAGCACCCGCCAATGCCGAAGCCCACGAAACATCGGGCGCATCCACGCTTC

AACCTC

Clone Rv18

:::::::::::::Rv18T7.seq:::::::::::::

AGCTTTTGGCAGGGTCTCCTTCGAATTCGGCGTGCACCGCTATGGGTTGCAGCAGCGGCTGGCGCCGCACACCCCACTGGCCCGGGTGTTTTCGCCCCGAACCCGG

(SEQ ID NO. 179)

ATCATGGTGAGCGAAAAGGAGATTCGCCTGTTCGATGCTGGGATTCGCCACCGCGAGGCCATCGACCGATTACTCGCCACCGGGGTGCGAGAGGTGCCGCAGTCCC

GCTCCGTCGACGTCTCCGACGATCCATCCGGCTTCCGCCGTCGGGTGGCGGTAGCCGTCGATGAAATCGCTGCCGGCCGCTACCACAAGGTGATTCTGTCCCGTTG

TGTCGAAGTGCCTTTCGCGATCGACTTTCCGTTGACCTACCGGCTGGGGCGTCGGCACAACACCCCGGTGAGGTCGTTTTTGTTGCAGTTGGGCGGAATCCGTGCT

CTGGGTTACAGCCCGAATCGTCAC

Clone Rv190

:::::::::::::Rv190SP6.seq:::::::::::::

ATACTCAAGCTTTGTCACACCAACTGTTTCCACCAGGCGCTCCATCCGGCGAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGTTCA

(SEQ ID NO. 180)

GCTCGCTTGCGGCGCTGCAGCAGCCAGTCCGGGAAATAGCTGCCCTGGCGCAGCTTGGGGATCGCGACTTCTATGGTTGCGGCACGGGTGTCGAAATCACGGTGGC

GGTAGCCGTTGCGCTGATTGGACCGCTCATCGCTGCGTTCGCGGTAGCCCGCCGCGCACAGGGCGTCGGCTTCAGCCCCCATCAAGGCGGCGATGAACGTCGAGAG

CAGCCCGCGCAGCAGATCCGGGCTCGCCTGTGCGAGTTGGTCAGCCAGAACCTGCTCGGTGT

:::::::::::::Rv190T7.seq:::::::::::::

CCTTAAGCCCCGCAGGGCCCGGCACGCGCGGTACCGCCCAGGTCGCCCAACAGATCGTCGATGTTCGCGTCGTCCGCCTCGCGCACGTGGTCTGTCACCAGTCAAC

(SEQ ID NO. 181)

GTTAACGCCGCCGCACATGTCCTGCGGCCGGGCAAAAACGTGAAAAACGAGCGGGCGACTGCAATGTCATGACACCGACGGCCGCCGATGGGCCCAGGGTCTGGCA

GATTCGATCTGTGCGGCCAGTGCCAGCAGCGTCGCCTCGTCATACGGCCGGCCGACGAGTTGAACCGACATGGGCAGGCCGTCGCCGTCGAAGTCCCACGGCACCA

CGGCCGCGGGCTGGCCGGTCAGATTCCAGACTTGAAAGTACGGAACCCGCTGCACCACCAGCAGCAACGTCGAAACTGCACCCCGGCGTTGGTAGGCGCCGATGCG

GGACGGGCCGGTCGCGGCGCCTGGCGTCACAACTACGTCGACATCGTCGAAGATCGACTGGATCGGCTGCTCACACCACTCGGCGGCCGCAGGCCGCCATCCGCCG

TC

Clone Rv191

:::::::::::::Rv191SP6.seq:::::::::::::

AGCTTTTTGAGCGTCGCGCGGGGCAGCTTCGCCGGCAATTCTACTAGCGAGAAGTCTGGCCCGATACGGATCTGACCGAAGTCGCTGCGGTGCAGCCCACCCTCAT

(SEQ ID NO. 182)

TGGCGATGGCGCCGACGATGGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGCGACGCGGTGGGTGGTCAAGTCCGGTCTACGCTTGGGCCTTTGCGGACGGTC

CCGACGCTGGTCGCGGTTGCGCCGCGAAAGCGGCGGGTCGGGTGCCATCAGGAATGCCTCACCGCCGCGGCACTGCACGGCCAGTGCCGCGGCGATGTCAGCCATC

GGGACATCATGCTCGCGTTCATACTCCTCGACCAGTCGGCGGAACAGCTCGATTCCCGGACCGCCCAGCGCATTGGTGATGGAATCGGCGAACTTGGCCACCCGCT

GGGTGTTGACATCCTCGACGGTGGGCAATTGCCCCCGGTAACGTTTGCCGCCT

:::::::::::::Rv191T7.seq:::::::::::::

CGGTCCGACCCTGTTCGACGGCTACCTGAATCAACCCGATGCCACCGCCGCGGCGTTCGACGCCGACAGCTGGTACCGCACCGGCGACGTCGCGGTGGTCGACGGC

(SEQ ID NO. 183)

AGTGGGATGCACCGCATCGTGGGACGCGAGTCGGTCGACTTGATCAAGTCGGGTGGATACCGGGTCGGCGCCGGTGAAATTGAAACGGTGCTGCTCGGGCATCCGG

ACGTGGCGGAGGCGGCAGTCGTCGGGGTGCCCGACGATGATCTAGGCCAGCGGATCGTTGCCTACGTAGTCGGCTCAGCGAATGTCGATGCGGACGGGCTTATCAA

CTTTGTTGCCCAACAACTTTCGGTGCACAAGCGCCCGCGCGAGGTGCGTATCGTANATGCGCTGCCGCGCAACGCCTTGGGGAAAGTGCTCCAGAACATTGCTGTC

AGAAGCTGANCTACGCGAATTATCGTGTTACGCTGGA

Clone Rv192

:::::::::::::Rv192SP6.seq:::::::::::::

ATACTCAAGCTTGCCGAAGTTCCGATGGGTCGCGCCGGCGAGCCCAGCGAAGTCGCTACCGTGGCCGTGTTCTTGGCTTCGGATCTATCCTCGTTCATGACCGGCA

(SEQ ID NO. 184)

CCGTGTTGGACGTGACTGGCGGCCGGTCCATATGACACCGAGATCATTGCCACGGTACGGCAATTCGTCAAGAAGGAAATCTTTGGGAATGCACCGGCCCTCGAAC

GTGGCAACAGCTACCCGCAAGAAATCGTCGATCGGCTGGGTGTTATTGGCTTGCTCGGTCGCCGGCTGCAAGGGTATCGACACCACCGAGTTCATTCTCGGGCGTG

CCGGCGCATTCGAGCTGGCGGTGCGCGCTGCCCAGCACCGTCATAGGTACTTGACGATGGTCCACGTCGGACGAGCGCCTCCACGTCGCTGCCGAACGGTATGCAT

GGCGGCTACGATTCTC

:::::::::::::Rv192T7.seq:::::::::::::

CGGTGTCGGCACCGGCGTCCTGCAGTTGGTAGGCCTGCAGTTTGTGCATCAGGCCGATGCCGCGGCCCTCGTGGCCACGCATGTACAGCACCACGCCGCGCCCCTC

(SEQ ID NO. 185)

ACGGGCGACCATCGCCAGCGCGGCGTCCAGCTGAGGCCCGCAATCGCAGCGGCGTGACCCAAACACATCGCCGGTCAAGCACTCCGAATGCACCCGGACCAGCACG

TCGTCACCGTCGGCGTTGGGCCCGGCGATCTCGCCGCGGACCAGCGCGACATGTTCCACGTCCTCGTAGATGCTGGTGTAGCCGATGGCGCGAAACTCCCCATGAC

GAGTCGGAATCCGCGCCTCGGCGACCCGCTCAATGTGCTTCTCGTGCTTGCGCCGCCATTCGATCAAGTCAGCAATGGTGATCAGCGCCAGACCGTGCTCATCGGC

GAACACCGCAATTCATCGGTGTTGCGCCATCGAGCCCTCATCTTTTTGGCTGACGATCTCGCAAATCGCCCCCGCGGGTTGCAGCCGGCAT

Clone Rv193

:::::::::::::Rv193SP6.seq:::::::::::::

ATACTCAAGCTTTGGGTGAAAGCCGATCACCGGAAGCCGCATGATCAGCCACGTTTCGCGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGC

(SEQ ID NO. 186)

GGGTAATCGCCGACGGTGCCGGTTCGCGAGCCGAAGGTGACGACGCTGATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCAGCAACGGCGCGAGCTCAACGACGT

CAATCACGTTGTCGCTTTCTACGGTCACCGACCCGGTGACCGTNCTCGCCCGGTGCGCTCGGCCGATAAGTTGCACCGCCACCACCGCGACACCGTCTTGCACGCG

GACCCACCCCCGGATCCGTTGTTGGCC

:::::::::::::Rv193T7.seq:::::::::::::

AGCTTGCTGGCATCCGCTCCAGTAGCGCCCCGCGCGTGGCTTCCAGCGCCCGCAGATGCTCCATGAGCCGGCCGGTCGAGTCGGCGCCGGCGTTCACCGCCACCCG

(SEQ ID NO. 187)

CCAGGAGCTGGCGGCCAGCATCTCCGCCTTCACGCATTGCGCGATCACAGAGAGAATATACGTCTCATATTCGTTGGAGGTCGTCGCAGGCAATCGGTCGATGACG

GATTTGATGGCATCGAGCTGTGCTTCGGCGTAGCCCTCCAGCACGTCGGTATCGCTGTGGCGGTCCACGACGACCGCACCGGCGCGGCGGACAGCCGTCGGGTTGG

ACGNTGTGCGGCGATCAGTCCGGCCAGCTCCGCCTCGGGATCAGCGGC

Clone Rv194

:::::::::::::Rv194SP6.seq:::::::::::::

ATACTCAAGCTTGCTGCAGCTTCCTATGACTGCTCCCGAAACCTGGGGGTGTGCCTGCTGTGTATGCACGGCATACGGACATCCTTCCCCTGAGACCCGCGGTCGA

(SEQ ID NO. 188)

ACCAGCCACGTGTCCATCATCAGGGGTCAACCCCGGCCAAGGGCGACGGCACGCCAAGTTCGCCGACCGTTAACCTAGTGCTGTTAGCTTCATTTGCTGCGACCAA

AACAGCTGGTCGGCCGTTAGGAACTGAATTGAAACTCAACCGATTTGGTGCCGCCGTAGGTGTCCTGGCTGCGGGTGCGCTGGTGTTGTCCGCGTGTGGTAACNAC

NACAATGTGACCGGGGGAGGTGCAACCACTGGCCAGGCGTCGGCGAAGGTCGATTGCGGGGGGAAGAAGAACTCAAAGCCAGTGGGTCGACGCGCAGGCCAACGC

:::::::::::::Rv194T7.seq:::::::::::::

AGCTTGACGCGGAGACGGACACATTGCGAACATTGATGACAAAATAGAAATCATTGATGGTTTGAGTCACCAGGCCGATCAAGCCTTCGCCGAGCCAAATTCCAAT

(SEQ ID NO. 189)

CAAGAGGCCCAAGCCCGTACCAATCAGCCCGGCAACGAGGGATTCCGTCATTATCAGCCAAAATAACTGCTCTCGGGTTACACCCAAACAGCGCAATATGGCGAAA

AACGGTCGCCGTTGCACGACATTAAATGTCACGGTATTGTAGATTAAAAAGATACCCACCAACAAGGCAATCAAACTGAGAGCGGTTAAATTGACCGTAAAAGCGT

CCGTCATCTGTTTGACGGTGTCCCGTTGGGTATCCGACGTTTCCATACGCACACCGGCCGGCAGTCTTTGTTGGATGCGTGTTGCAGTGGCCTCATCTTTGATGAT

CAAATCGATGTGGCTCAGTCTTCCGGGCA

Clone Rv195

:::::::::::::Rv195SP6.seq:::::::::::::

ATACTCAAGCTTCGGCTCAGGCGGCGCTGCTGGTAAAGTCGCTGACCGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGC

(SEQ ID NO. 190)

GCAGGCTATCGCACCCGTTATCGGCTACGAGCAAATCGCGGTATCGCTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAG

ATCGCCGTCAAGCATGTGTGCCGCGGATTATCAGGACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGGTCGTGGTCCGCT

CGGATAGCGAGGTCAGCGAATTCNCNTGGCAGCTCCAAAGGGTCCTGCCGGTGCCGGTCTTTGCGCAAACNAAGGCNCAGGTTA

:::::::::::::Rv195T7.seq:::::::::::::

TGATCGCGCATCACCTGCTTCATAAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCGGGTGCAGGTGCTCGGGCA

(SEQ ID NO. 191)

GCTCGGCCGCGACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACGAACGACGCCAGTCCGCTACGTAACCCCTCCGCGACTGTCCATGGACAACAGCG

CGTTCTCCACCGACCGGGCCCGGGTGTGGGGTGTTTCGGCGACCGGCAGCCAGGTGGTCCACACTGCCGACGGGCGCCGCGAGCCGTTCACCGACCAGGCCGCCGA

GCAAGTCCGCCCGATCGCATACTCCAACCGGTTGCGGTACTGCAGGTTCAGCTGGCGTACTCCTCGTCGCGCTCGGCGAGGTCTTGCTCCAGCACGTCGCANACGG

CAG

Clone Rv196

:::::::::::::Rv196SP6.seq:::::::::::::

CAAAGCGCGAACTGCTCGCGGCAGCCCACGACGTGCTGCGTCGGATTGCCGGCGGCGAAATCAATTCCAGGCAGCTCCCGGACAATGCGGCTCTGCTGGCCCGCAA

(SEQ ID NO. 192)

CGAAGGACTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGCTTGATGCCCGGTCGGCAAGCCCGGCAGT

TGCCAAACCCAGCGTGATCAGGCTCGGCTCGCGAGTTCCGGGAAGAAGTGGCTCCGCCTGATCACCTACCATCCGCCAGGATCTGCGTGTCTTCACCACGCCCGCC

AAGGAGGTTGTTGTGGTGCTATCGACCGN

:::::::::::::Rv196T7.seq:::::::::::::

CCGGAAGCCGCATGATCAGCCAAGTTTCGCGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGCGGGTAATCGCCGACGGTGCCGGTTCGCGA

(SEQ ID NO. 193)

GCCGAAGGTGACGACGCTGATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCAGCAACGGCGCGAGCTCAACGACGTCAATCACGTTGTCGCTTTCTACGGTCACC

GACCCGGTGACCGTNGTCGCCCGGTGCGCTCGGCCGAAAANTTGCACCGCCACCACCGCGAAACCGTCTTGCACNCCGGAAGCCACCCCCGATCCGTTGTTGGGCC

AGGTTATTGGGT

Clone Rv19

:::::::::::::Rv19SP6.seq:::::::::::::

CCGGAACCGCCGACGGCACGGTATAACGCCTCCGCATATGGGTCGACAACCAGCGGGTCGGACTTCTGGGCTTCTAGCGTTCGCGCNGTCGCGACAAACAGCGCGG

(SEQ ID NO. 194)

TCGAACCGACACTCGTTGTGATGTCCTAGCTATCACGTTCGGTACGCACCCAATCGAGTCTAGCGCGGGTAGNTCAGCCCCGATCTCCANGCTCCGCCGAGCCAGG

CGC

:::::::::::::Rv19T7.seq:::::::::::::

CTGGTTTATGTCCCGTTGAAGTTCCATCACCCGATGTGGCGGGAGCACTGCCAGGTCGATCTCAACTACCACATCCGGCCGTGGCGGTTGCGCGCCCCGGGGGGTC

(SEQ ID NO. 195)

GGCGCGAACTCGACGAGGCGGTCGGAGAAATCGCCAGCACCCCGCTGAACCGCGACCACCCGCTGTGGGAGATGTACTTCGTTGAGGGGCTTGCCAACCACCGGAT

CGCGGTGGTTGCC

Clone Rv1

:::::::::::::Rv1SP6D2.seq:::::::::::::

CCGAGCAGTTGGGAATCGCTCTGCANCAAACCAATATTCTGCGCGACGTCGCGCGACGAGCTGGACCGATTAGGCGTACGCCTCCGNCTGGACGACACCGGGGCAC

(SEQ ID NO. 196)

TCGATGACCCCGACGCCTACGCTCGCAGGATATTGTTCGCCGGACCCCTCTCTAG

:::::::::::::Rv1T7.seq:::::::::::::

TATATAATACTCAAGCTTGCCGACGCCAACGCTCGCGCGATGTTGTTAGCCCGACCCGGCTCTTACATGGCACCGGTGCCCCACACGTCAGCCTGTGACGTCCTGC

(SEQ ID NO. 197)

ACCGCGACTCTTTACATAGAATGTGGATTGCCGGATTGGGGATGTCCGGCATCGCTCAATCTGTAGTCCGCGTTGTCCCGCGAGGGCCATGTGGATGGGGGGAAGG

ATCCGTGGCGTCCGGGATCACCATGGGG

Clone Rv201

:::::::::::::Rv201SP6.seq:::::::::::::

ATACTCAAGCTTGCCGAAGTTCCGATGGGTCGCGCCGGCGAGCCCAACGAAATCGCTAGCGTGGCCGTGTTCTTGGCTTCGGATCTATCCTCGTACATGACCGGCA

(SEQ ID NO. 198)

CCGTGTTGGACGTGACTGGCGGCCGGTTCATATGACACCGAGATCATTGCCACGGTACGGAAATTCGTCCAGAAGGAAATCTTTCCCAATGCACCGGCCCTCGAAC

GTGGCAACAGCTACCCGCAAGAAATCGTCAATCGGCTGGGTGTTATTGGCTTGCTCGGTCGCCGGCTGCGAGGGTTTCTACACCACCGAGTTCATTCTCGGGCGTG

CCGGCGCATTCGAACTGGCGGTGCGCGCTG

:::::::::::::Rv201T7.seq:::::::::::::

GCACCGGCGTCCTGCAGTTGGTAGGCCTGCAGTTTGTGCATCAGGCCGATGCCGCGGCCCTCGTGGCCACGCATGTACAGCACCACGCCGCGCCCCTCACGGGCGA

(SEQ ID NO. 199)

CCATCGCCAGCGCGGCGTCCAGCTGAGGCCCGCAATCGCAGCGGCGTGACCCAAACACATCGCCGGTCAAGCACTCCGAATGCACCCGGACCAGCACGTCTTCACC

GTCGGCGTTGGGCCCGGCGATCTCGCCGCGGACCAACGCGACATGTTCCACGTCCTCGTAGATGCTGGTGTAGCCGATGGCGCGAAACTCCCCANGACAAGTCGGA

ATCCGCGCCTCGGCGAACCGCTCAATGTGCCTCTCGTGCTTGCGCCGCCATTC

Clone Rv204

:::::::::::::Rv204SP6.seq:::::::::::::

TGGTCCGTGTGCGCATACCAATACAACGCGCCGGGCACCTGACGCGGCGGCCGCAACCAATCGGTGGCCATCGCCATCTTCTGCTACCCGGTCAACGGACGCACCT

(SEQ ID NO. 200)

TCTCCTGGCCGACGTAGTGCGCCCACCCGCCGCCGTTGCGTCCCATCGATCCGGTCAAC

Clone Rv205

:::::::::::::Rv205SP6.seq:::::::::::::

GGCGTGTTGGCCACCGGGGCCACTCCGCACAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTG

(SEQ ID NO. 201)

TGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCAATACGGTCGG

TCCCACGATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAAAGCCACTGGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCA

ACCAAACTTGAAGGTGATTGTTTACCTGGGCTACGGCGACCCGGCCTATGGTTATTCGACCTCCCCGCCCAA

:::::::::::::Rv205T7.seq:::::::::::::

CGTCCGTGNCCCCTCAANCGCGTGNNGCCGAAGCGGCTGGTTACGACTCCCTGTTTGTGATGGACACTTCTACCAACTGCCCATGTTGGGGACGCCCGACCAGCCG

(SEQ ID NO. 202)

ATGCTGGAGGCCTACACGGCCCTTGGTGCGCTGGCCACGGCGACCGANCGGCTGCAACTGGGCGCGTTGGTGACCGGCAATACCTACCGCAGCCCGACCCTGCTGG

CAAAGATCATCACCACGCTCGACGTGGTTAGCGCCGGTCGAGCGATCCTCGGCATTGGAGCCGGTTGGTTTGAGCTGGAAACACCGCCAGCTCGGCTTCGAGTTCG

GCACTTTCAGTGACCGGTTCAACCGGCTCGAAGAGGCGCTACAGATCCTCCAGCCAATGGTCAAGGGTGAGCGCCCAACGTTTTTCGGCGATTGGTACACCACCGA

ATC

Clone Rv207

:::::::::::::Rv207SP6.seq:::::::::::::

CCGCTTCCGTGTAACCGAGCANNGCGAGCGANCTGGCGAGGAAGCAAAGAAGAACTGTTCTGTCAGATAGCTCTTACGCTCAGCGCAAGAAGAAATATCCACCGTG

(SEQ ID NO. 203)

GGAAAAACTCCAGGTAGAGGTACACACGCGGATAGCCAATTCAGAGTAATAAACTGTGATAATCAACCCTCATCAATGATGACGAACTATCCCCCGATATCAGGTC

ACATGACGAAGGGAAAGAGAAGGAAATCAACTGTGACAAACTGCCCTCAAATTTGGCTTCCTTAAAAATTACAGTTCAAAAAGTATGAGAAAATCCATGCAGGCTG

AAGGAAACAGCAAAACTGTGACAAATTACCCTCAGTAGGTCAGAACAAATGTGACGAACCNCCCTCAAATCTGTGACAGATAACCCTCAGACTATCCTGTCGTCAT

GGAAGTGATATCGCGGAAGGAAAATACGATNTGAGTCGTCTGGCGGCCTTTCTTTTTCTCAATGTATGAGAGCG

Clone Rv209

:::::::::::::Rv209SP6.seq:::::::::::::

TGACACCCAACAGAGGGCACTTAAGATGGCAATGCGGCCGCCTACCTGCACGTTTTCGCGATGTCAGAGGATGCCGAGGGAGAACAATGCGAGCACGGCCGCTGAC

(SEQ ID NO. 204)

NTTGCTCACCGCTTTGGCGGCGGTGACATTGGTGGTGGTTGCGGGCTGCNAGGCCCGANTCNAGGCCGAAGCATATAGCGCGGCCGACCGCATTTCGTCTCGACCG

CAAGCGCGACCTCAGCCGCAGCCGGTGGAGCTACTGCTGCGCGCCATCACGCC

:::::::::::::Rv209T7.seq:::::::::::::

ACGGGCGACGCTGAGGTGGGCCCGCGGCTATTCATGCTGTCGTCCACGTCCAGCGACGCACTGCGCCAGACGGCCCGCCAACTAGCCACCTGGGTGGAAGAACACC

(SEQ ID NO. 205)

AGGACTGCGTGGCGGCCTCGGATCTGGCCTACACGCTGGCGCGTGGCCGCGCGCACCGGCCGGTGCGCACCGCGGTGGTTGCCGCCAACCTGCCGGAGCTCGTCGA

GGGTTTGCGCGAGGTGGCCGACGGTGACCCCTCTATGACGCGGCGGTGGGACACTGTGATCTAAGACCGGTCTGGGTCTTCTCCGGGCAAGGGTCTCAGTGGGCGG

CGATGGGCACCCAATTGCTCGCCAGCGAACCAGTGTTCGCGGCCACCATCG

Clone Rv20

:::::::::::::Rv20SP6.seq:::::::::::::

ATACTCAAGCTTCGCGAGATCCGGATGGCACTCACGCTGGACAAGACCTTCACAAAATCTGAAATCCTGACCCGATACTTGAACCTGGTCTCGTTCGGCAATAACT

(SEQ ID NO. 206)

CGTTCGGCGTGCAGGACGCGGCGCAAACGTACTTCGGCATCAACGCGTCCGACCTGAATTGGCAGCAAGCGGCGCTGCTGGCCGGCATGGTGCAATCGACCAGCAC

GCTCAACCCGTACACCAACCCCGACGGCGCGCTGGCCCGGCGGAACGTGGTCCTCGACACCATGATCNAAAACTTCCCGGGGAGGCGGAGGCGTTGCGTGCCGCCC

AGGGCGAACCGCTGGGGGTTCTGCCGCAGCCCAATGATTGCCGCGCGGCTGCATCGCGGGCGGCGACCGCCATTCTTCTGCGAATACGTCCAGGAGTACTGTCTCG

GGGC

:::::::::::::Rv20T7.seq:::::::::::::

AGCTTATGTGGCCGCCCACCTACCTTATCTAGCCTAGCTAACTAAATCCAGTGCCGACAGTGCGCGGCTGGCCACCCAGCATGAGGTTATGACCACGGCATATGCC

(SEQ ID NO. 207)

AGCGCGCTGGCGGCGATGCCGACGCTGACCGAGTTGGCCGCTAATCACACCAGCCATGCGGTGTTGCTGGGAACGAATTTCTTTGGAATCAATACGATCCCGATCG

CGCTCAATGAGGCCGACTATGCGCGGATGTGGATTCAGGCGGCCACCACGATGAGTATCTATGAGGGCACCTCCGATGCGGCGCTGGCGTCNGCACCGCAAACCAC

ACCGGCTCCGGTACTGTTCAACGGCGGTGCTGGCGTTTGCCAGCGCCTGCCGGCGATCTC

Clone Rv214

:::::::::::::Rv214SP6.seq:::::::::::::

ATACTCAAGCTTGCCACCCATGCCGAGCAAGGTCGACTCAGCGATGACGAATTGTTCTTCTTCGCGGTGTTGCTGCTGGTTGCGGGCTATGAGAGCACTGCTCATA

(SEQ ID NO. 208)

TGATTAGCACNTTGTTTCTGACGCTGGCCGACTATCCAGATCAGCTGACACTCCTTGCGCAGCAACCAGACCTGATCCCGTCGGCGATCGAGGAGCACCTCCGCTT

TATATCGCAATCCAAAACATCTGCCGCACAACGCGCGTCGACTATTCGGTCGGTCAAGCGGTCATCCCGGGA

:::::::::::::Rv214T7.seq:::::::::::::

CCGGGGTAGAACGATGCGATCTGGGCCATGTCGACATCGGTGGTACAGGTAAACCGCGCCGTGTGCGCGGTCTCGGAGATCAGAACGTGGTCGCAGTTGACACCGC

(SEQ ID NO. 209)

GGGCTTTCAGCCAGTCGCGATAATCGGCGAAGTCGGCGCCTGCCGCCCCAACTAGCGCGACCTCGCCACCTAGCACACCGATGGCGAAGGCCATGTTTCCGGCCAC

GCCGCCGCGGTGCATCATCAACTC

Clone Rv215

:::::::::::::Rv215SP6.seq:::::::::::::

ATACTCAAGCTTGGCGGCAACGCCACTACCGGGCTCACCAGGTCCTGTGCCGCCACCGCCGGCGCCGAAAGCACCATCAGGTCGTAGTTGTCTGGACGTTCGACAC

(SEQ ID NO. 210)

CGTAAGCGAACACAATGCCGCCGCCCATGCTGTGCCCGAGCACGATGCGCTTGCACCCGGGATATTCCCGGGTGGCGATCCCAACGAGGGTGTCGAAGTCAGCGGT

GTATCTGAGATGTCTCTCACTATCATCCGTTTGGCACCCGAGCGGGCATGCCCGCGGGGGGTCAAC

:::::::::::::Rv215T7.seq:::::::::::::

GTCGACGGCATCAAGGTCCGCAGTGATGGTGTTCATCTCACCCAGGAAGGCGTGAAGTGGCTGATACCGTGGCTTGAGGATTCGGTGCGGGTCGCCAGTTAATCCG

(SEQ ID NO. 211)

CCGTGTGCTCCGGATGAGCGCGACGGTAACCCTGGAATTGTGCTGTGTGCTGGCTGTGTCGTTGTGATGAGCCTGTCTAAGTGGTGCGTAACCGTTTGACGAGCCG

CGGCCTCGCTGCAAACATTGAAGCCCGCACGTCTGGGTTTGTATTTACACAACGAGGGCGCTCCCCGATCTGGCGCGCGCAACGAGGTGCNCACTATCCATTCGAG

GTGAACTGGACTCCTTGATGCTCATGCCGGTGCGGTTTTGTC

Clone Rv217

:::::::::::::Rv217SP6.seq:::::::::::::

ATACTCAAGCTTGCGTTCGATGAAGTAGTCGTCGGTCAGCGCCGCCTCTTCGAGCTCCTTGGCGATGCCCAGCAAGGAGTCATCGCCGCCGAGCTTGGCCAGGATC

(SEQ ID NO. 212)

TTGTCGGCCTGTTCCTTGACGATGCGGGCCCGCGGATCGTAGTTCTTGTAGACACGATGACCGAAACCCATCAATTTGACCCCGGCCTCGCGGTTCTTGACCTTGC

GTTACAAACTCGCTGACGTCGTCGCCGCTGTCGCGAATGCCCTC

:::::::::::::Rv217T7.seq:::::::::::::

NGTCAAGCCGAGCATGCGCGAGGNAACGACGAACCCAACAAGCCATGGTGGTTGGCGCCGTCGAGAGGTCGGCGGTCGCCACAACGGGAAGATCGCCTTGAGCGTC

(SEQ ID NO. 213)

GCTCGACCGCCGCCTCGAGTTGGGTCATAACGAAGTAGCTGATGCCGATCATGTCGACGTTTCCGTCGCATCAGCGTGCAGCGGCGACCCACTCGACGAGGTCTCG

GTGCCGCCGCGGCCAGGGCACCAGCAGTGACGATTCCAGGCGCCGTCGGG

Clone Rv218

:::::::::::::Rv218SP6.seq:::::::::::::

CGATAATCGCTTCCGGTAAGTGCAGCAGCTTTACGACGGCGACTCCCATCGGCAATTTCTATGACACCAGATACTCTTCGACCGAACGCCGGTGTCTGTTGACCAG

(SEQ ID NO. 214)

TCAGTAGAAAAGAAGGGATGAGATCTCCCCGTGCGTCCTCAGTAAGCAGCTCCTGGTCGCGTTCATTACCTGACCATACCCGAGAGGTCTTCTCAACACTATCACC

CCGGAGCACTTCTAGAGTAAACTTCCCATCCCGACCACATATAGGCTAAGGTAATGGGCATTACCGCGAGCCATTACTCCTACGCGCGCAATTAACGAATCCACCA

TCGGGGCCGCTGGTGTCN

Clone Rv219

:::::::::::::Rv219SP6.seq:::::::::::::

NAATACTCAAGCTTTCTCGTGATTACCACCCGTGTAATTTGGGATGGGCAAAAAGGCGAATCACCGCGTGGCCACAAACGCCGGGAGGGACAATCTCGGGCGGCTA

(SEQ ID NO. 215)

GGGCTTCTCGCGGGAAGGCCCGAACGTACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAACATTAGGGGATGGCAGCAACCTGGTATCACCCTGGCCGGG

CAATGATCTGCAGCGTCGCCGCGGGTAGTGNCCGCCCGGGCGGCTAC

:::::::::::::Rv219T7.seq:::::::::::::

CCAACTAGAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGGCGCGAACGACGCCAGCGACCACATTCAGCAGATGGC

(SEQ ID NO. 216)

CAGCGCGTGCCGGGCCACGATGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCGTGATCGACATCGTCACCGCCGCACCACTGCCCGGTCTCGGGTTCACGCAG

CCGTTGCCGCCCGCAGCGGACGATCACATCGCCGCGATCGCCCTGTTCGGGAATCCCTCGGGGCCGCGCTGGCGGGCTGATGATCGCCCTGACCCCTCAATTCGGG

TCCAAGA

Clone Rv21

:::::::::::::Rv21SP6.seq:::::::::::::

ATACTCAAGCTTGCTGCAGCTTCCTGTGACTGCTCCCGAAACCTGGGGGTGTGCCTGCTGTGTATGCACGGCATACGGACATCCTTCCCCTGAGACCCGCGGTCGA

(SEQ ID NO. 217)

ACCAGCCACGTGTCCATCATCAGGGGTCAACCCCGGCCAAGGGCGACGGCACGCCAAGTTCGCCGACCGTTAACCTAGTGCTGTTAGCTTCATTTGCTGCGAGCAA

AACAGCTGGTCGGCCGTTAGGAACTGAATTGAAACTCAACCGATTTGGTGCCGCCCGTAAGTGTCCTGGCTGCCGGTGCGCTGGTGTT

:::::::::::::Rv21T7.seq:::::::::::::

AGCTTGCGCGGCGTGGCGATCGCGGTTCAAGGCGCGCTCTTCGAGCACAACGAGCGAAGACAGCTCGGCGACGGAGCCTTTATCGACATCCGTTCGGGCTGGCTGA

(SEQ ID NO. 218)

CCGGCGGCGAAGAACTGCTGGACGCGTTGTTGTCGACGGTGCCGTGGCGAGCCGAGCGCCGTCAGATGTACGACCGGGTGGTCGATGTGCCGCGGCTGGTGAGTTT

TCACGACCTGACCATCGAAGATCCGCCGCATCCGCAGCTGGCGCGGATGCGCC

Clone Rv220

:::::::::::::Rv220SP6.seq:::::::::::::

AATACTCAAGCTTGCGCACGACCAGGACGTCGAGTGGCGCTTGCAGTGACTTGGCGACCTCAAAGGCCACCGGTACCCCGCCGCGCGGCAAGCCAAGGACNACNAC

(SEQ ID NO. 219)

GGCCTTGCCGGATAGCTGCGCCAGGCGTTGCGCCAACTGGCGTCCAGCGTCGCCACGATCGTCAAAGAGCTTCATCTGCCGAGTGTGTCGCCATCTCATGGCTCCA

AATATGGAATTAGGTCCCTGGGCCGACTGACGACAGTCCCTCAGCGACCGGATTGCGCATCCCGCCTTGTACGCTGCTCCGCAAATCCCGGGCTTGCGTCCGCGGA

AGCGAACTCGGCGGCGCTACGGTGGTGGCTCACTTCGGCCGTGC

:::::::::::::Rv220T7.seq:::::::::::::

GGTTGGTGCGGTCCACCTTCGCGGCGGCGGCGCGATATGCCTTGCTGGTCTTGCTCATTTGATATCCAATCTATGGGTCGTGGTTACTCAGCGGGCCGAAGCTGGC

(SEQ ID NO. 220)

CCTCCCACGGGTAGGGCCCTATTCGACGGTGATGCCCATCGACCGAGCGGTACCGGCGATGATCTTGGCCGCAGCGTCGACGTCGTTGGCGTTGAGGTCCGTCTTC

TTGGTCTCGGCGATTTCGCGGACTTGATCCCAGGTGACTTTGGCGACCTTGGTCTTGTGCGGCTCCGCCGAACCCTTCGCCACACCAGCGGCCTTAAGCAGCAGCT

TGGCGGCGGGCGGCGTCTTCAGCGTGAAAGTGAAGCTACGGTCTTCATAAACGGTGATCTCCACCGGGATGACGTTGCCGCGCTGGTTCTCCGTCGCGGCGTTGTA

CGCCTTGCAGAACTCCATGATGTTGACCCGTGCTGACCGAACGCGGGGCCCACTGGCGGGGC

Clone Rv221

:::::::::::::Rv221SP.seq:::::::::::::

ATACTCAAGCTTTTCGACCCGCAAGCCGGCGGTGCCCCTCCTCGTTCCGCTGCCCGGTCTGCTCGATCGGTTCGGGGTCGCCGCGCTAGGCCCAATTGCCCGGCTC

(SEQ ID NO. 221)

CTCCTCGGGCCGTTCCACAACCCGCATCGTCGCCGGGCTAGGTTCAAGCCATGCCGGTAAACCCCAGGACGCCAGTGCTGATCGGCTATGGACAGGTCAACCACCG

AGGCGACATCGACGCCNAAAATCAGTCCATCGAACCCGTCGACCTGATGGCCNCCGCGGCCCGGAAAGCCGCCGAGTCCACCGTGCTCGAAGCGGTGGATTCCATC

CGTGTGGTGCACATGCTGTCGGCGCATTACCGGAATTCCCGGGCGTCTCCTCGGC

:::::::::::::Rv221T7.seq:::::::::::::

NCCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCGGGTGCAGGTGCTCGGGCAGCTCGGCCGCGA

(SEQ ID NO. 222)

CAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACGAACGACGCCAGTCCGCTACGTAACCCCTCCGCGACTGTCCATGGACAACAGCGCGTTCTCCACCG

ACCGGGGCCGGGTGTTGGGGTGTTCGGCAACGGCAACCAAGTTGGTCCACACTGCCGACGGGCGCCGCAAATCCGTTCACCGAACCAGGCCGCCNAAACAATTCCG

CCCGATCCCATAT

Clone Rv222

:::::::::::::Rv222SP6.seq:::::::::::::

ATACTCAAGCTTGTCGGGATCAATCTCGAGGGCATCCACGCACGAAAAGTAAACTCTATCAAGCTTTTTGACGACACCCACGGACGCCCCATATATGTTCGGGTGG

(SEQ ID NO. 223)

GCAAGAACGGTCCCTACCTGGAACGTTTGGTGGCCGGCGACACCGGTGAGCCCACGCCGCAGCGGGCCAACCTCAGCGACTCGATTACCCCGGACGAACTGACTCT

ACAGGTGGCCGAAGAGCTCTTTGCCACACCGCAACAGGGACGGACTTTGGGCTTGGACCCAGAAACCGGCCACGAAATCTTTGCCAGGGGAAGGCCGGTTTGGGCC

TTATGTTACCTATATCCTGCCGGAACCTGCGGCTGATGCGGCCGCGGCCGCTCAGGGAN

:::::::::::::Rv222T7.seq:::::::::::::

AGCAGCTAGCCGCGCTCGCCGCGCTGGTCGGTGCGTGCATGCTCGCAGCCGGATGCACCAACGTGGTCGACGGGACCGCCGTGGCTGCCGACAAATCCGGACCACT

(SEQ ID NO. 224)

GCATCAGGATCCGATACCGGTTTCAGCGCTTGAAGGGCTGCTTCTCGACTTGAGCCAGATCAATGCCGCGCTGGGTGCGACATCGATGAAGGTGTGGTTCAACGCC

AAGGCAATGTGGGACTGGAGCAAGAGCGTGGCCGACAAGAATTGCCTGGGCTATCGACGGTCCAGCACAGGAAAAGGTCTATGCCGGCACCGGGTGGACCGCTATG

CGCGGCCAACGGCTGGATGACAGCATCGATGACTCCAAGAAACGCGACCACTACGCCATTCAAGCGGTCGTCGGCTTCCCGACCGCACATGATGCCGAAGAATTCT

ACAGCTCCTCCG

Clone Rv223

:::::::::::::Rv223IS1081N1400.seq:::::::::::::

CGCGACTGGCTCCCCGGNCGGCTGCTCGGGTCCGCCGATAGAGACCGGGATGTCGCCCGACGACGGGCAGCCGGGTTGCGTGGGACGGGGCGGGGGTCGGGCAGCC

(SEQ ID NO. 225)

CAAGCAACGGGCTAGTCCCCGAATCCTACGGAGCCGTCACCTACGCCTACGTAATAGTAGCTATCAATAACAGTTGACATACGCAACGATCTGTGAGATCAATATT

GCCTGACGCATGTCAAGACAGGCGTCAAGACAGGTGTCAATAATTCGCTCCGCTGGTGACGGTAACCGGTCGTGCGGGTGTGTGACGCCTAAGGAAGGAGTGTGGG

TGGTGACGCTGAGAGTGGTTCCTGAGGGTTTGGCGGCCGCCAGTGCGGCGGTGGAGGCGTTGACCGCACGGCTGGCCGCCGCACACGCTGGCGCGGCGCCGGCGAT

TACGGCGGTGGTGGCGCCCGCGGCGGATCCGGTGTCGTTGCAGAATGCGGTGGGGTTTAGCGCCTTAAGTAGCCAGCATGCCGCGATCGCCGGCGAAAGGGTCCAA

GAACTGGGT

:::::::::::::Rv223SP6.seq:::::::::::::

ATACTCAAGCTTATTGAACCGCGGGTCGCAGGCAAAGTGGACCTCATAACGACTCGGGTCCAGCGACCGCGCCAACACGAACGGCCGGACGACGTGGGCCAGGGTC

(SEQ ID NO. 226)

GCGGCCTCCCCTACAAACAGGATCCGTTGCCTGCGAACGACAGGCTCCGGTGCGGCGTTGGGCGCCGTGCTCGTCCCAGCGTCCGGTCCCGGGTCGCCGGCGACGC

TTGTTTCCTCCATACTCGCCCCCTAATCTCGAGGCAGCCCGTACCCGCAGGCAACCTCCCAAAAATGCAATCCCGCAAAATGCAATGCGTCNAGCTATTTCTCACA

CCGACCGCTAGTTGCGGATCAGAAATCCGTTGGGCGCGGAAGTCCAGCCGAATTTGTTCTCCCGCTCCGCATCATGCTTGTAATCGTTTGGAAATTCATCCTCATA

TGCCTCGATCGCTTCATAGGGTCCAGGCCCAAACCCGGGCAGGACTGGGTGGCCGTTGATGTTGGAATCCTCCACTACTAGGTATTCACCGGC

:::::::::::::Rv223T7.seq:::::::::::::

GTCTCGATCATGGCCAAAGAGCTCGACGAAGCCGTAGAGGCGTTTCGGACCCGCCCGCTCGATGCCGGCCCGTATACCTTCCTCGCCGCCGACGCCCTGGTGCTCA

(SEQ ID NO. 227)

AGGTGCGCGAGGCAGGCCGCGTCGTCGGGGTGCACACCTTGATCGCCACCGGCGTCAACGCCGAGGGCTACCGAGAGATCCTGGGCATCCAGGTCACCTCCGCCGA

GGACGGGGCCGGCTGGCTGGCGTTCTTCCGCGACCTGGTCGCCCGCGGCCTGTCCGGGGTCGCGCTGGTCACCGGCGACGCCCACGCCGGCCTGGTGGCCGCGATC

GGCGCCACCCTGCCCGCAGCGGCCTGGCAGCGCTGCAGAACCCACTACGCAGCCAATCTGATGGACGCCACCCCGAAGCCCTCCTGGCCGTGGGTGCGCACCCTGC

TGCACTCCATCTACGACCAGCCCGACGCCGAATCAGTTGTTGCCAATATGATCGGGTTCTCGAC

Clone Rv224

:::::::::::::Rv224SP6.seq:::::::::::::

ATACTCAAGCTTTCGTCAGTTCATGGCGCCAGCAGACCAACAAGAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGG

(SEQ ID NO. 228)

CGCGAACGACGCCAGCGACCACATTCAGCAAATGGCCAGCGCGTGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCGTGATCAAGATCTTC

ACCGCCGCACCACTGCCCGGCCTCGGGTTCACGCATCCGTTTGGCCGCCGCC

:::::::::::::Rv224T7.seq:::::::::::::

GCCCCGTGTAATTTGGGATGGGCAAAAAGCGAAGCACCGCGTGGCCACGAACGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAACGT

(SEQ ID NO. 229)

ACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGGTAGCACCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGGTA

GTCTCCGCCCGGGCCGC

Clone Rv225

:::::::::::::Rv225SP6.seq:::::::::::::

ATACTCAAGCTTCCTTTGACCGAACGCGTCCACCGCACCGTGAGATTGGTGGCGCCATTCGTCGTGGTGTAGCTGCTGTTGGCGGCGTCGCCGTATTGTGCGGGCC

(SEQ ID NO. 230)

AGCCTTGTGCGGGGGCCGCTTCTACCCACAAGTCGGCACTTCCGCAACCGCCCAGCTCGACCGCGAATTACGGCGGCCGCAACGGCCGCCGGAAGGCGTCACGCAA

TCGCTTATCCTTTCCAGGTTCCCAAATCCTCCGCTTACTTGGGTCCTTCATCGG

:::::::::::::Rv225T7.seq:::::::::::::

GGCAGCGGCGACAACCGGAACGTCCGCACGGTGCTCAATCACGGGTGCACGGTGTGCATCAGAATGGCGGGGGTTCGTTGTCGCGGTGAGGCGTTCGGCGAGGAGG

(SEQ ID NO. 231)

TAGTGTCTACCCCTTGCCCGCGGGTTCGTGCGGACTGAAAGGGATTTCATTGGGAACCCACGGCTGCGTATCGCAGGGCCTCGGTGACGTCTGCTTCCTCNAGCTC

AGGAAGTTCGGCGAGAATCTCGGTGGATGTTATTTGGTCCGCCTAC

Clone Rv226

:::::::::::::Rv226SP6.seq:::::::::::::

ATACTCAAGCTTTCTCGGCTTCTCTGATAGCCTGAGAAGAAACCCCAAGTTAATCCGCTGCTTCACCTATTCTCCAGCGCCGGGTTATTTTCCTCGCTTCCGGGCT

(SEQ ID NO. 232)

GTCATCATTAAACTGTGCAATGGCGATAGCCTTCGTCATTTCATGACCAGCGTTTATGCACTGGTTAAGTGTTTCCATGAGTTTCATTCTGAACATCCTTTATTCA

TTGTTTTGCGTT

Clone Rv227

:::::::::::::Rv227SP6.seq:::::::::::::

ATACTCAAGCTTGGTGACCGGCACCGCGATACGTTGCGGCAGGCATCTGGGCTGGCGGTGGTTCGCCGCTCCGAAGCCGTCGAACACCATCGCCAGCGCGGCTTCC

(SEQ ID NO. 233)

ACATCAACGACCATTTCGGCCAGCTTGCGGCGCATCAGCGGCTTGTCGATGAGCGCCCCACCGAATGCCCGCCGCTGCCCGGCGTATCACATCGATTCGACCATCG

CGCGGCGCGCGTTGCCGAGGGCGAACGAGGCGGTGCCCAACCGCAATCTGTTTGGTCAGCTCCCTCATGCGGGTTGATTCCTTGCCGTCCGGACGGGCCCGCGTCA

TGCGCTCGGTTCGCC

:::::::::::::Rv227T7.seq:::::::::::::

CCGTTGCGCAGCGTGAGCCGATAGTTGACATCCGGCTCGGTGAAGGTGAAATCGATGGCCAGGTCGAGGTCCCATGCGCGTGGGCCATTGATGCCGATCGCCAGGA

(SEQ ID NO. 234)

CGTCAAAGATTTGGTCCGGCGTCAGCTGGGCGAAAAACGTGGGCGCCGGGACTTGCCCGGAGCTGCCCGGGTTCCCGTCGCGCAGCTCGGCGGCCCCGGTCAGAAA

GAAATTGCGCCAGGTCGCACACTCCGCGCCGTAGGCCAGCTGCTCCAGGGTGTCGGCATAGAGCCCGCGGGCCGCAGCGTGCTCGCTGTCGGCGAACACCGCATGG

TCGAGAAGCGTTGCCGCCCAACGGGAAATCACCTGCGTCGAAAGCTTCGCGGGCCAGCTCCAGCACTCGGTCGATGCCACCCAACGCGT

Clone Rv228

:::::::::::::Rv228SP6.seq:::::::::::::

ATACTCAAGCTTGCGGATGTTACCCCTGACAGCGTGAACTATGTCNAAACACACGGCACCGGAACGGTGTTGGGGGACCCCATCGAGTTCGAGTCGCTGGCGGCCA

(SEQ ID NO. 235)

CTTATGGCCTGGGTAAAGGCCAGGGCGAGAGCCCGTGCGCATTGGGGTCGGTCAAAACCAACATCGGCCACCTGGAGGCGGCCGCCGGTGTGGCTGGATTCATCAA

GGCGGTGCTGGCGGTGCAACGTGGGCACATTCCCCGCAACTTGCACTTCACCCGGTGGAACCCGGCCATCAACACGTCGGCGACGCGGCTGTTCGTGCCGACCGAA

AGCGCCCCGTGGCCGGCGGCTGCCGGTCCACGCAGGGCTGCGGTGTCATCGTTCGGCCTCAGCGGGACCAA

:::::::::::::Rv228T7.seq:::::::::::::

CCGGTAACCAGATCAGCTCGTCGACCTCACTGCCGGGGGTGAATTCCCCACCGGTGCTGCGCGCTGCCCAGTAGTGCACCTTCTTGACGCCTCGAAAAGGGGAGTC

(SEQ ID NO. 236)

GGTCGGGTAGGTCACCGTCAGGAGCCGCCTACCCAGGTTGGCGCGGTGACCGGTCTCCTCGAGTATCTCCCGCACCGCCCCCACCGGTGCGGTCTCGCCCGGATCC

ACTTTGCCCTTGGGCAGCGACCAGTCGTCGTAACGGGGGCGGTGAATGACAGCGATCTCGACCGGCCCTTCCGAATCGGCACTGCCGGGTCGCCAGAACACCGCAC

CGGCGGCGTACACAATCCGGCCCGCCGAGCGCCGGCGGGCGGACGANTTCTGGATCGACACCTCAACTCCTGCAGGTCAATTCGGCCAAGCTGCTCGCGGTCGTGG

ATGTGGTC

Clone Rv229

:::::::::::::Rv229SP6.seq:::::::::::::

ATACTCAAGCTTGATGCCGCCGAAACCGAGCGTGAGCACGCCGCCACCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCGGTGATGG

(SEQ ID NO. 237)

CACGCCACCGCGACACCACCCGGCTGCGCTACGTCGAGCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAGGTCGAGGTCTA

TACCGATTTGCGCATCCGCAGCCGCACCCTGGTCGTCTCGTACCGTGCCCTACCTCTGCTTGTCGGGCGGGGCCA

:::::::::::::Rv229T7.seq:::::::::::::

TCCGTACGGCCCGGGTACGCTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGTTGCTCACCGG

(SEQ ID NO. 238)

AATCCAACCGGTAGAAGGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCAGCACTCCGCAGGCTTCGTC

GGGGTGGTCGCGACGCGCATGGGCCACCATCCATCCACCAGGTCTGCGCGAATCACCCGC

Clone Rv22

:::::::::::::Rv22SP6.seq:::::::::::::

GGACACATTGCGAACATTGATGACAAAATAGAAATCATTGATGGTTTGAGTCACCAGGCCGATCAAGCCTTCGCCGAGCCAAATTCCAATCAAGAGGCCCAAGCCC

(SEQ ID NO. 239)

GTACCAATCAGCCCGGCAACGAGGGATTCCGTCATTATCAGCCAAAATAACTGCTCTCGGGTTACACCCAAACAGCGCAATATGGCGAAAAACGGTCGCCGTTGCA

CGACATTAAATGTCACGGTATTGTAAATTAAAAAGATACCCACCAACAAGGCAATCAAACTGAGAGCGGTTAAATTGACCGTAAAAGCGTCCGTCATCTGTTTCAC

GGTGTCCCGTTGGGTNTCCGACGTTTCCATACGCACACCGGCCGGCAGTCTTTGTTGGATGCGTGTTGCAGTGGCCTCATCTTTGATGATCA

:::::::::::::Rv22T7.seq:::::::::::::

GCCTGGCCCAGGTGAAGGCCGACCTCGACGCCAAAGCCGCTGATCCGGCACATGAGTCGGTGGACTGGGACTTGAAGTCGCTGCGATGGGCGTGGAACCGAGCCAA

(SEQ ID NO. 240)

AGATGACGTGGCGCCGTGGTGGGCCGAGAATTCCAAGGAGTGCTACTCGTCGGGGTTGGCCGATCTGGCCCAGGGCCTGGCTAATTGGAAAGCTGGCAAGAACGGG

ACCCGCAAAGGCCGGCGGGTGGGCTTCCCGCGATTCAAATCCGGGCGGCGTGATCCTGGCAGGGTGCGGTTCACCACCGGCACCATGCGCATAGAGGATGACCGGC

GCACGATCACGGTCCCGGTGATCGGGCCGCTGCGGGCCAAGGAGAACACCCGCCGGGTGCAACGCCACCTCGTGAGCGGGCGCGCGCAGATCCTGAACATGACCTT

GTCGCAGCGGTGGGG

Clone Rv230

:::::::::::::Rv230SP6.seq:::::::::::::

TAACTCAAGCTTCAAGTCCGCNGTCCGACCCTGTTCGACGGCTACCTGAATCAACCCGATGCCCCGCCGCGGCGTTCGACCCGACAGCTGGTACCGCACCGGCGAC

(SEQ ID NO. 241)

GTCGCGGTGGTCGACGGCAGTGGGATGCACCGCATCGTGGGACGCGAGTCGGTCGACTTGATCAAGTCGGGTGGATACCGGGTCGGCGCCGGTGAAATTCAAACGG

TGCTGCTCGGGCATCCGGACGTGGCGGANGCGGCAGTCGTCGGGGTGCTCGACTATTATCTAGGCCAGCGGATCGTTGCCTACGTAGTCGGCTCAGCGAATGTCGA

TGCGGACGGGCTTATCAACTTTGTTGCCCAACAACTTT

:::::::::::::Rv230T7.seq:::::::::::::

CCATGTCGCCCAACATATCGTCGATGTTCGCGTCGTCCGCCTCGCGCACGTGGTCTGTCACCAGTCAACGTTAACGCCGCCGCACATGTCCTGCGGCCGGGCAAAA

(SEQ ID NO. 242)

ACGTGAAAAACGAGCGGGCGACTGCAATGTCATGACACCGACGCCGCCGATGGGCCCAGGGTCTGGCAGATTCGATCTGTGCGGCCAGTGCCAGCAGCGTCGCCTC

GTCATACGGCCGGCCGACGAGTTGAACCGACATGGGCATGCCGTCGCCGTCGAAGTCCCACGGCACCACGGCCGCGGGCTGGCCGGTCAGATTCCANACTTGAAAG

TACTGAAGCCGCTGCACCACCAG

Clone Rv231

:::::::::::::Rv231SP6.seq:::::::::::::

CGAAAGCGTGAAACAGCTCGCGGCAGCCCCCGACGTGCTGCGTCGGATAGCCGGCGGGCGAAGATCAATTCCAGGCAGCTCCCGGACAATGCGGCTCTGCTGGCCC

(SEQ ID NO. 243)

GCAACGAAGGACTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGCTTGATGCCCGGTCGGCAAGCCCGG

CAGTTGCCAAACCCAGCGTGATCNTGCTCNGCTCTNTANTTCGGCGAAGAAGTGGCTCGCCTGATCACCTACCATCGGCCAGGATCTGCGTGTCATCACAACGCTC

GCCAAGGAGGTTGTTGTG

:::::::::::::Rv231T7.seq:::::::::::::

TCCGCCACGCTTCGCGCCGCCCGGCATACGGCGCGTACCGATCTCCGCGTCATACACCGCGGGTAATCGCCGACGGTGCCGGTTCGCGAGCCGAAGGTGACGACGC

(SEQ ID NO. 244)

TGATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCAGCAACGGCGCGAGCTCAACGACGTCAATCACGTTGTCGCTTTCTACGGTCACCGACCCGGTGACCGTAGT

CGCCCGGTGCGCTCGGCCGAGAAGCTGCACCGCCACCACCGCGACACCGTCTTGCACGCGGACCCACCCCGGATCGGTTGTTGGCCAAGGTAATTGGGTCATTCCA

TTTGACGGGACGCCGACCC

Clone Rv232

:::::::::::::Rv232SP6.seq:::::::::::::

CATTCTTTAACAGTTGTTTTGGGCTCGGCATGGTTAGCCAACGTTCTGCGGTCCACCATATCATCTTGGTCCGGTAGCGCTCGTCCGGGGTATGCTGCCGCCGGGA

(SEQ ID NO. 245)

TTCTCGCTGCTATTACTCCCCCCGAAGAACCGCCACCGGTCCAGCGCGTGGGCCGNCGCGGTCCCATCACAAACTGAACCCCCAACAGGGACATGCTTATCGGTAG

GGCGCGCGCCAAGGCGGCAGCAATCGCATCACTGCGCTCTGCGCGTCACTATTAACCCACCCGGACTTCACTTCCACCACCCCGAATGGCGCCCGGTCATTGATCA

TCTGGCGCACCGCGGATAA

:::::::::::::Rv232T7.seq:::::::::::::

CGGTGTCCTGCAGTTGGTAGGCCTGCAGTTTGTGCATCATGCCGATGCCGCGGCCTCGTGGCCACGCATGTACAGCACCACGCCGCGCCCCTCACGGGCGAACATC

(SEQ ID NO. 246)

GCCAGCGCGGCGTCCAGCTGAAGCCCGCAATCGCAGCGGCGTGACCAAACACATCGCCGGTCAAGCACTCCGAATGCACCGGACCAGCACGTCGTCACCGTCGGCG

TTGGGCCCGGCGATCTCGCCGCGGACCATGCGCGACATGTTCCACGTCCTCGTANATGCTGGTGTAGCCGATGGCGCGAAACTCCCCATGACGAGTCGGAATCCGC

GCCTCGGCGACCCGCTCAATGTGCT

Clone Rv233

:::::::::::::Rv233SP6.seq:::::::::::::

CGGCATCTGGCGGCTGAACCTGTTCTTGGGCAACATGCCGAGGATCGCCTCTTCCACCACGCGGTCGGGGTGGCGTTGCATTACCTCACCGATGGTGCGCTTGTGC

(SEQ ID NO. 247)

AGGCCGCCGGGATACCCCGAGTGCCGGTAAACCATCTTGTGCTGCAGTTTGTCGCCGCTGATGGCGACCTTGTCGGCGTTGATCACGATNACNAATCACCGCCANC

GACATTGGGGGCGAACGTCGGCTCGTGCTTGCCGCGCAGCAGGCTGGCCGCCGCGACGCAAGGCGCCAACCACCACGTCCGTGGCGTCGATGACGTACCACCATCG

CGTGGTGTCACCCGCCTTGGGC

:::::::::::::Rv233T7.seq:::::::::::::

GCGGCAAAAATTGAAGCACTCNTGGCCACTNCCGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAACGTACTGCGTTTCAACACGTCG

(SEQ ID NO. 248)

CGTCGCCCTCCGACCGCGAACATTCTGGGATGGCAGCAACCTGTTAGCACCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGGTAGTCGCCCCCGGGCGGCTAC

AGTCTGAAACGCGATGACCATCGATGTGTGGACGCCGCATCCGACNCAACGGTTCCTACACTGTGATATGTTCGCCTCGCTGCGCCGGTGGACGGTGGGTCTATCC

CGGA

Clone Rv234

:::::::::::::Rv234SP6.seq:::::::::::::

CGCGTTGAACTGAAGGGGTGCCGCCCGGCTCGAGCAGGCAAGCCATTTGTTCGATGCGGTTACCGAAGATCTCTTCGGTGACTGCCCGCCGCCGGCCAGCTCGGCT

(SEQ ID NO. 249)

CAGTGTCCGGCGTTGGTCGCCGCGGCGACAATCTTGGCGTCCACGGTGGTCGGGGTCATGCCCGCGAGCAGGATTGGCGAGCGGNCGGTCAGCCGGGTGAACTTCG

TCAAGAGCTGACGCTGCGGTTGGGGAGGCGAATCATGGTCGGTGCGTAGCCTCGACTAGGCCCGGG

:::::::::::::Rv234T7.seq:::::::::::::

TGACAACGCGGCGGCGATTACCCCGCTACCGCAGCAGCATGACGCGGTAGCGAACACCGCCGGATGCAGCGCAGGTGCGTCGATGTGCTCACGGAATCGCCCCGGC

(SEQ ID NO. 250)

ACCGCGATCTCGAGGATCACCAGTGCCACCCCCTGCAGCGCGACACCGACGATTCCGTACACCGCCACGCCGATCAGGCCCTGGGCCACGTGATTGGAGCTGGCGT

ATATGGCGGCGATGGTGACGATGGTCATCGCCTCTTACATTGTGGCGGCCAGAACCACGGCGTTGGGGCGGCGGTCGATGAACACTAGGCGACCANATCCCCGGGG

TCAACAGGTTGACCATCC

Clone Rv235

:::::::::::::Rv235SP6.seq:::::::::::::

CGCGGACATCCCGAACGAGGACACGCGACCGCTTCGGTGTGTGATCTATCAGGGCTCGCACCACGCGCAACCGCTTCCGGCTACCTAGACGCGGT

(SEQ ID NO. 251)

:::::::::::::Rv235T7.seq:::::::::::::

GCATGCGGGTGATGCCGTTCTCAGTGCGCAACAGCGTTCGACGCGGCATACCCAGCCGCACATGCCGTGCACGCCGGNGCCGGGGCGGGAATCT

(SEQ ID NO. 252)

Clone Rv237

:::::::::::::Rv237SP6.seq:::::::::::::

CTCAAGCTTCAGNCCNTCTAAGCGGTCTGCGCGGCGATCGCAAAGATCGCCCTTTGCCGGCGTTGGGGGCTTCTGCTCGGGGGTGTTGTACACCTTCTCGAACACC

(SEQ ID NO. 253)

TCGGCACCGACACCACCACCGTCGGCTTGAACACCGCCAACATCGGCAGCANATCTTGATGTCCTGGTGAATCCACGGTGACTTTGGAGTGGAAGGCGGCCATACT

GATCGCGCGCGCCACCACATGAGCTAGCGGCAGGAAAACCAGCAGCCGCTCACCCTTGCGCAGCAGCGTCGGGTGATATGCCTGGCGCCC

:::::::::::::Rv237T7.seq:::::::::::::

AGTCGAANGTCAGTCCGGTCTCCTCTCCGACTACGGCCAAGAACTGGGGCGACGGTGTCAGTGCAGAACAGCGGAAACTGGTGGCGCCCTAGGCGAGCGAACGCTC

(SEQ ID NO. 254)

ACAAACGGCGGTGACCGCTTCTGGTCGTGCACCATCGAGCCGTGCCCAGCCCGGCCGCGTGCCGTCAGCCGCATCCACTGGATGCCCTTCTCGGCGGTTTCAATCA

NGTACAGGCGACGTTCGCCACCATCGTGCCGGGGCACGGTTAGCGAGAAACGCCGACTTCACCGATTGCCTCGGTGATGxxxxx

Clone Rv23

:::::::::::::Rv23T7.seq:::::::::::::

AGCTTCGCGGCGTGGCGATCGCGGTTCAAGGCGCGCTCTTCGAGCACAACGAGCGAAGACAGCTCGGCGACGGAGCCTTTATCGACATCCGTTCGGGCTGGCTGAC

(SEQ ID NO. 255)

CGGCGGCGAAGAACTGCTGGACGCGTTGTTGTCGACGGTGCCGTGGCGAGCCGAGCGCCGTCAGATGTNCGACCGGGTGGTCGATGTGCCGCGGCTGGTGAGTTTT

CACGACCTGACCATCGAAGATCCGCCGCATCCGCAGCTGGCGCGGATGCGCCGGCGGCTCAACGACATCTACGGCGGCGAACTGGGTGAGCCCTTCACCACCGCCG

GGCTGTGCTACTACCGCGACGGCTCTGACAGCGTCGCCTGGCATGGCGACACCATTGGTCGCGGCAGCACTGAGGACACTATGGTGGCGATCGTCAGCCTCGGCGC

CACCCGCGTCTTCGCGCTGCGGCCGCGTGG

Clone Rv240

:::::::::::::Rv240SP6.seq:::::::::::::

AGCTTCAGCTGATACTCGACCAGCCCCACTCGGGCCAATACGTGAATGTCTAGCATCTTCACCCGTTCACGGGCTANTCGAGTAGTAGACATTGATTAGCCTGAAC

(SEQ ID NO. 256)

GTACCTCCGACGCCAGCTGACGAACGGGTATGACGGATGGATTTCGTGGTGTCGCGCCCGAGGTCAATTCGTTACGGATGTATCTCGGGGCCGGATCGGGGCCGAT

GTTGGCGGCCGCGGCGGCCTGGGACGGACTATCCGACGAACTGGCGGTGGCGGCGTCGTGGTTTGGGTCGGTGACCTCGGGCCTGGCGGATGCGGCGTGGCGCGGC

CCGCGGCGGTTGCGATGGCNCGCGCGGT

:::::::::::::Rv240T7.seq:::::::::::::

CTGGTCATGGACGTTGCTCCGGTAGTGGCTCACTGCCGATCCTCCTCGTTGAGAGTGCCACCTCAGGGTTGGGTAGGGTTGGGTACTCGAAACCAAGTTACCCACC

(SEQ ID NO. 257)

AGTAACACCGTCAAAATATATCCGTTGCATAGGTCAATGCAAGTTGATGTGAGCTACATTGCACCAACTAACTAACCAACCGGTTGGGTTAGCGGTGATCCTGGCC

GTGTCGGTCCTCTCACCTGCGGTGATAGCGATCAAATGAAGAATATGCGGAGTCTAGGGCGGCAGCGCCTGGCANCGTAGATCATCGGCTCACGCGGATGCGGCCT

CTTGGTACGGACATGCGCGCG

Clone Rv241

:::::::::::::Rv241SP6.seq:::::::::::::

CTCGTGAGTAGCACCCCTGTAATTTGGGATCGGCAAAAAGGCGAATCACCGCGTGGCCACGACACGCCGGGAGGGACNATCTCGGGCGGCTAGGGCTTCTCGCGGG

(SEQ ID NO. 258)

AAGGCCCGAACGTACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGG

:::::::::::::Rv241T7.seq:::::::::::::

GGATCAACTACCGGCCAACGGTGATTCTTGGGCGCCGCTGACGCGCGAACGACCCAGCGACACATTCAGCAGATGGCCAGCGCGTGCCGGGCCACGATGTTGGTGC

(SEQ ID NO. 259)

TCGGCGGCTACTCCCATGGTGCGGCNCGTGATCGACATCGTCACCGCCGCACCACTGCCGGCCTCGGGTTCACGCAGCCGTTGCCGCCCGCAGCGGACGATCACAT

C

Clone Rv243

:::::::::::::Rv243SP6.seq:::::::::::::

AGGACCGTCAGCACGGCGACGTGCTACTCGCCGAGCAGTGGGAATCGCTCTGCAGCAAACCATTACTCTGCGCGACGTTCGAGATGACCTTCTGAATGGACGGATC

(SEQ ID NO. 260)

TACCTGCCGCGCGACGACCTGGACCGCGTATGCGTCCGCCTCCGCCTGGACGACACCGGGGCACTCTATGACCCCGACGGACGGCTCGCGGTACTGCTGCGGTTCA

CCGCCGACGCCCGCACGGTACGCGTCGGGACTGCGCTGAGTCCANCCTCGACGCCGTAGCGCTGCTGCTGTGCGGCCATGTCTGGCATCTACCGCCGTCGCTCCCT

TGA

:::::::::::::Rv243T7.seq:::::::::::::

CGACTCTGTTGGCCACTGCGGGTCGATCTTGCGGCCGCCCCGGTCGTGGAACGCCCAGGTCACCCGGCGGCGCACCGCGGTCAGCGCGTCGTTGGCCAGCGTGGTC

(SEQ ID NO. 261)

ACATGGAAGTGGTCGACGACGAGCTTGGCGTTGGGCAGCAGCCCGGGCGTGCGGATCGCCGAGGCGTATGCAGCGGCGGGGTCGATGGCCACCGTACTGGATGCTC

TCCCGGAACTGCGGTGTGCGCGCTTGCAGCCATGCCAGCACCGCCGCGCCGCCGCGGCCTTCATGCTGCCCATAAACCCTGATACCGGCCAGGTCGACNAACCNGT

ATCCCACGGTCAACCC

Clone Rv244

:::::::::::::Rv244SP6.seq:::::::::::::

CACACGGACGGCGGTGCGGACGCAGCTGACGCGCATGGTGGTCAGCATCGCGGCCGGTCTGCTGTTGTATGCCTACTTCGCGCCGCGCAAATGCTGGTGGGCGGCG

(SEQ ID NO. 262)

GTGGTGGCGCTCGCATGGCTGGGCTGGGTGCTGACCCAACTCTCGAACCACACCGGTGGGTGGGCTGGGCTATGGCCTGCCATATCGGCCTGGTGTTCTACN

:::::::::::::Rv244T7.seq:::::::::::::

CCGATATCCGAGCCGATAGCTGGCGGGCTCGGGTGGTNGCCAGCGGCGCTGCGACGAAAGTGTGACCGTCATGAAACAGACACCACCGGCGGCCGTCGGCCGTCGT

(SEQ ID NO. 263)

CACCTGCTCGAGATCTCAGCATCCGCAGCCGGTGTGATCGCGCTTTCGGCGTGTCGTGGGTCGCCGCCCGAGCCCGGCAAACGCCGGCCCGACACAACCCCGGAAC

AGGAAGTCCGGTCACCGCGCC

Clone Rv245

:::::::::::::Rv245SP6.seq:::::::::::::

GCTTCAGGACAAATTGNATCCCTATGCACCCGTTGTCACGCCGATGAGTGAAGACTGCACGCAATCGCCGGAATCCGGCAAAACCCTGCACAAGCGAAATCAACCG

(SEQ ID NO. 264)

GAGGCTGACAAGGCAACGTCGGTGATCCGTACCGCCTGGTTGGACAAACGGCAGAAGGCGCCTCGTCCGGTCCATCTACGCCGAGCACACTGGTGATAGCGCCATC

GGCATCGGTGCGGCCACGGTGGAGACGAACGTCCGCNGGCGTCTGGGTCAGTAACCCGCCGACCAGTTCTCGGGCAAGCTGGTCAACATCGGGCGCCACGTCTCCA

AC

:::::::::::::Rv245T7.seq:::::::::::::

GTTTGGCGGCCTTATTGCACTGAGGTCGTCAATTGACCCACAGCGGAAATGCCGACTATTCGCAGGCCTCCTTCGCCTTGGCTGCCGGAGATGGGCTCCGCGGGAA

(SEQ ID NO. 265)

CCGCATGCAGGTATATGACCTCGGTTTCTCGGGTGCTACCGCGTGCCTTGTCGAGGATGAACTCGGCGTTGGAATTGTCCAGCCGGCCCAATTCATCGAGCGCAGA

TTCGTACACATGGCCGGCGGCGACATACCTTCACCGTGGATCTGCTCCACACGGACCGCCCTGTCGGGATCTGCTCACGGGTAAAGGAATTA

Clone Rv246

:::::::::::::Rv246SP6.seq:::::::::::::

GCGCACTCCTCCTTATCGCTCCGCTCTGCATCGTCGCGGCGCGGTCAGGTGCAAACGCCTTCGGGGGTGGGGGTCCTGCGGAGCACACCGGATACGGAGCGCAACG

(SEQ ID NO. 266)

CGTCGCGTTGTGCGGGCAAACAAGTGTGCAGGNNCCAATGCCATGTCCAGCAGCTTATCAGTGTCGAACGTGCGAACGTCGCGCCTTCGCCGGTGCCTGAATCTCT

ACAAG

:::::::::::::Rv246T7.seq:::::::::::::

CGCTGAAAGCCACCATTCGCGGGTCGGGCGCCGGGCTCGGGCCGCCAGGCTGCTCCGCTCGGTCATGGCACGCCACCGCGACACCACCCGGCTGCGCTACGTCGAG

(SEQ ID NO. 267)

CCATACCGGGCGGAGCTACATCGGCTCGGCCGCCTACTCTTCGGGNCCTCTTTCGAGGTCGAGGTCGA

Clone Rv247

:::::::::::::Rv247SP6.seq:::::::::::::

TGTAATTTGGGATGGGCAAAAAGCAAANCACCGCGTGGCCACAAACGCGGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGCCCGAAACGTACGGCG

(SEQ ID NO. 268)

TTTCAACACGTCGCGTCGCCTCCGACGCGAAATTCGGG

:::::::::::::Rv247T7.seq:::::::::::::

CTTGGGCAACATGCTGAGGATCGCCTTTTTCACCACGCGGTCGGGGTGGCGTTGCATTAGCTCACCGATGGTGCGCTTGTTGCAGGCCGCCGGGATACCCGAGTGCC

(SEQ ID NO. 269)

GGTAAACCATCTTGTGCTGCAGTTTGTCCCGCTGATGGCGACCTTGTCGCGTTGATCACGATGACGAAGTCACCGCCATCGACATTGGGGGCGAACTCGGCTTGTG

CTTG

Clone Rv249

:::::::::::::Rv249SP6.seq:::::::::::::

GCATGCTTCATTATCTAATCTCCAGCCGTGGTTTAATCAGACGATCGAAAATTCATGCAGACGGTCCCAAATAGAAAGACATTCTCCAGGCACCAGTTGAAGAGGT

(SEQ ID NO. 270)

TGATCAATGGTCTGTTCAAAAACAAGTTCTCATCCGGATTGAACTTTACCAACTTCATCCGTTTCATGTACAACATTTTTAGAANCATGCTTC

Clone Rv24

:::::::::::::Rv24SP6.seq:::::::::::::

ATACTCAAGCTTGATGCCGCCGAAACCGAGCGTGAGCACGCCGCCAGCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCGGTGATGG

(SEQ ID NO. 271)

CACGCCACCGCGACACCACCCGGCTGCGCTACGTCTATCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCATTGTTCNGGCCCTCTTTCGAGGTCGAGGTCTA

TACCGATTTGCGCATCCG

:::::::::::Rv24T7.seq:::::::::::::

TCCGTACTGGTCGGGTACGCTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGTTGCTCACCGG

(SEQ ID NO. 272)

AATCCAACCGGTAGAAGGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAACCTCGGGTCCG

Clone Rv251

:::::::::::::Rv251SP6.seq:::::::::::::

GTTCTCGCACGATTTCGGATTAGCGGGATGGTCTCAATTGGGTATGCGGGGAAGGCGCTGACATTCGCCGCGATTAGCTGTTTGATGGACCGGGGGTGATTTTTGA

(SEQ ID NO. 273)

TCACGGAAATGGGTGTTTATNCAGGTCGCACGCTTTCATCCGGGGCGGAACG

:::::::::::::Rv251T7.seq:::::::::::::

GGGTGTGCCTGCTGTGTATGCACGGCATACGGACATCCTTCCCCTGAAGACCCGCGGTCGAACAGCCACGTGTCCATCATCANGGGGTCAACCCCGGCCAAGGGCG

(SEQ ID NO. 274)

ACGGCACGCCAAGTTCGCCGACCGTTAACCTAGTGCTGTTAGCTTCATTTGCTGCGAGCAAAACAGCTGGTCGGNCGTTAGGAATGAATTGAAACTCAACCGATTT

GGTGCCGCCGTAGGTGTCCTGGCTG

Clone Rv252

:::::::::::::Rv252T7.seq:::::::::::::

ACTACCCGGCCAACGGTGATNTCTTGGCCGCCGCTGACNGCGCGAACGACGCCAGCGACCACATTCAGCAGATGGCCAGCGCGTGCCGGGCCACGANGTTGGTGCT

(SEQ ID NO. 275)

CGGCGGCTACTCCCANGGTGCGGNCGTGATCGACATCNTCACCGCCGCACCACTGCCCGGCCTCGGGTTCACCAGCCGTTGCCGCCCGCAGCGGACGATCACATCG

CTTTTATTTNNTNTTCNGGAATCCCTCGGGCCGCGCTGGCGGGCTGATGA

Clone Rv253

:::::::::::::Rv253SP6.seq:::::::::::::

ACGTCGGGANACTGTTCGCGTTCATCCTCGTCTCGGCGGATTGGTCTGCTGCGCCGGACCGACCGATCTTCAGCGGGGGGTCACGCTCCGTGGGGTGCCGTTACTT

(SEQ ID NO. 276)

CCGATCGCCCAGTGTGCGCGTGCTGTGGCTGATGCTGAACCTCACCGCGTTGANTTGGATCGGTTCGGGATCTGGCTGGTGGCCGGAACGCNATTTATGTCGCTAC

GGGCGCCGGC

:::::::::::::Rv253T7.seq:::::::::::::

GCTCAAAGGCACTACTGGCACCAAGGCCCACACGTCACCTGTGACTCCTGCGCCGACCCGCCCGAGGTCTGGCCGTTACACCGAACGGGCGAGCCGGGAGTTGGTA

(SEQ ID NO. 277)

CCATCGAACAAGACAAGGTGCATGGGCGGAGTTGTTCCGCCACTTCGTCGATGACGGGTC

CGATACCGGCTGCTTACCGAGACATCCACCATGCCACCCGAATCACCGCACGCGCCGAAATCGCACAACAGCTTGACGCCTTGCAGGTTCCGCGATTGGAATTGCC

(SEQ ID NO. 278)

GACGGTCTCTGACGGCGTCGACCTTGGCAGCCTCTACGAGCTCTCGGAATCACTTGCCCAGCAGGGGGTTCGATGAGTGTCACACCGAAGACCTCGATATGGGCGC

AATCCTGGCCGACACATCCAACCGGGTGGTTGTGTGCTGCGGCGCCGGTGGGGTCNGCAANACACTACCGCGGCCGCGCTGGCGTTGCGCGCGGCCGAATATGGCC

GCACTGTGGTCG

:::::::::::::Rv254T7.seq:::::::::::::

CGTCGTCGTCGTGGTATGCGATAGCCATCCCGTCGGGCTACTCGCCATCACCGATCAGCTTCGCCCCGAAGCCGCCGCGGCGATTTCCGCTGCGACCAAACTGACC

(SEQ ID NO. 279)

GGGGCCAAACCGGTATTGCTTACCGGCGACAACCGGGCCACCGCCGATCGGCTCGGTGTACANGTTGGCATCGACGACGTACGGGCCGGGCTACTGCCGACGACAA

NGTCGCAGCCGTGCNGCNGCTGCAAGCTGGAGGTGCCAGATTGACCGTGGTCGGTGACGGTATCAACGACCTCCGGCCTTAGCGGCCGCGCATGTCGCATCGCCAT

GGGCAGCGCCCGAC

Clone Rv255

:::::::::::::Rv255SP6.seq:::::::::::::

GCACGCAATCGAAGTCACCCAAACCGGGCGGGCCAGGCGTCTNACGCCACGTCNACCAGCCGCAACCTCAACCCGGCCACGGCGAGCTCCTGATCAAGGCCGAGGC

(SEQ ID NO. 280)

CATCGGTGTCTACTTCATCGACACCTACTTCCGCTCCGGGCAATATCCGCGCGAACTCCCGTTCGTCATCTGCTCCGAAGTATGCGGCACGGTGGANGCCGTCGGC

CAGGGGTTAC

:::::::::::::Rv255T7.seq:::::::::::::

TCGACTGTGTGGCCACAGATCACGCCCCGCATGCCGAGCACGAGAAATGCGTCGAATTCGCCGCGGGCCGGCCGGCATGCTCGGGTTGCAGACGGCATTGTCGGTG

(SEQ ID NO. 281)

GTGGTGCATACAATGGTGGCGCCGGCTTGTTGANTTNGGCGCGATATCGCGCGGGTGATGAGTGANAACCGGCGTGCA

Clone Rv257

:::::::::::::Rv257SP6.seq:::::::::::::

GAACCTGACACCCTGGTCACGGGTGAGCACGGACTTGATTTCTTCNCTATTGGTCGGCGCTGTTGAGCACACCACGCCGCTGACGGCCGTCGCGTCCTCGCTGTGC

(SEQ ID NO. 282)

TCGGTCTGGTGGAGCGCGCTGCCCGCGGCCNAACATCNTAAATCAAGCGTATTCGTCAACAGATATCATCAATGTCGGCGCTGGACTATTCAAATCATCGATATAC

TGGTGACCTGGTCCTTCGCCATCGATCAATGGCGATAGTCACGCAAATCGTCACGGACATCGTCGGCGTCCCAGCTGGCCCGTGCCAACAGATGCTGCAACCCATC

GGGGTGGTATCACCGCGGTGCTCGGCGATGGTCCACAATTCTTGCGGTCCAAGCCCNAAACATCCCGGGCATGAATTCACCGGCATGCGCN

:::::::::::::Rv257T7.seq:::::::::::::

CTATCGTACCCGCGCCGGTCACCTTCTGGATATCGCCGGCCTGGTCAAGGGGGCGTCCGAGGGAGCCGGGCTGGGTNACAAGTTCCTGGCTCATATCCGCGAATGC

(SEQ ID NO. 283)

GACGCCATTTGTCAGGTGGTGCGGGTGTTCGTCGACGACGACGTGACTCATGTCACCGGACGGGTCGATCCCCAGTCCGACATTGAGGTCGTCGAGACCGAGCTGA

TCCTGGCAGATCTGCAAACCCTGGAGCGGGCCACGGGCCGGCTGGAGAATGAAGCGCGCACCAACAAGGCGCGCAAGCCGGTCTACGAAGCGGCACTGCGTGCCCA

GCANGTGCTCGACGCCGGGCAAGACGCTGTTCGCCGCGGGGGTGGATGCCGCCGCGTTGCGCGACTGAAACTGCTGACCACCAAGCCCTTCCTGT

Clone Rv258

:::::::::::::Rv258SP6.seq:::::::::::::

TACTCAAGCTTCAGGCCGCCACGTCCGCCGTCCGTCGGCGACGTGACCTCGAGCGCCGAGTTCGACTCGACATCGCCGCCGGCGCATGCCGACATGAACGCGGCAC

(SEQ ID NO. 284)

TCACCGCAAGCCCGTCGGACGTCAGGTCGATCGACTCCGCTTCAAGCACCGGATCGTCCGGGCAACTCGCGGCCTCGGCCTGTGCGAACGGCACACCCGTCGTGGC

GGCNCCCCGCGCGGAACTGGGCTCATCACGGTCGTTGCGAGCCGGTCGCGTCACCGCGTACCGACGCCGTC

:::::::::::::Rv258T7.seq:::::::::::::

CCGACATCGAGTGGGCTCGCAGTGACTTGGCGACCTCCAAGCCACCGGTACCCGCCGCGCGGCAAGCCAAGGACGACGACGGCCTTGCCGGATAGCTGCGCCAGGC

(SEQ ID NO. 285)

GTTGCGCCAACTGGCGTCCAGCGTCGCCACGATCGTCAAAGAGCTTCATCTGCCGAGTGTGTCGCCATCTCATGGCTCCAAATATGGAATTAGGTCCCTGGGCCGA

CTGACGACAGTCCCTCAGCGACCGGATTGCGCATCCCGCCTTGTACGCTACTCCGCAAATCCCGGGCTTGCGTCCGCGGAAGCGAACTCGGCGGCGCTACGTGGTG

GTTCACTTCGGCCGTGCGCACTCGGATCGACGGGCCGATGGTGGCCGGGCCCGCGCGCTTCTTGGTCATCCGATTGAGT

Clone Rv259

:::::::::::::Rv259SP6.seq:::::::::::::

ATACTCAAGCTTGTCGCGGTAAACCGCACGCAGGGCGGTGGGTGCGGTGTCAAAGACACCCACACTTCTTTGCGGTTCGGTGATCTCGACACCGGCCGCGAGCCGA

(SEQ ID NO. 286)

CCACCATGCGCGCGTAGATCGGCGATCAGCGCGTCGGCTATCGCCTGGGTGCCGCCCACCGGAATCGGCCAGCCGACCGAATGGGCCAGCGTTGCCAGCATCAGTC

CGGCGCCGGCCGACACCAGTGACGGCAACGGTGAAATCGCGTGGGCGGCAACGCCGGTGAACAACGCGCGGGCATCCTCGCCCGCCAACGACCGCCAGGCAGGGTG

CCTGGGCCATCATCCGCAGCCCGA

:::::::::::::Rv259T7.seq:::::::::::::

TGGACTCATAACGATCGGGTCAGCGACGCGCCAACACGAACGGCCGGACGAGTGGGCCAGGGTCGCGCCTCCCCTACAAACAGGATCCGTTGCCTGCGAGCGACAG

(SEQ ID NO. 287)

GCTCCGGTGCGGCGTTGGGCGCCGTGCTCGTCCCAGCGTCCGGTCCCGGGTCGCCGGCGACGCTTGTTTCCTCCATACTCGCCCCCTAATCTCGAGGCAGCCCGTA

CCCGCAGGCAACCTCCCAAAAATGCAATCCCCCAAAATGCAATGCGTCGAGCTATTTCTCACACCGACCGCTAGTTGCGGATCAGAAATCCGTTGGGCGCGGAAGT

CCAGCCGAATTTGTTCTCCCGCTCCGCATCATGCTTGTAATCGTTTGGAAATCATCCTCATATGCCTCGATCGCTTCATAGGTCAAGCCCAAACCCGGCAGGATGG

GTGGCC

Clone Rv25

:::::::::::::Rv25SP6.seq:::::::::::::

CTTTACACTTTATGCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTG

(SEQ ID NO. 288)

ACACTATAGAATACTCAAGCTTAGTGGTTGCGCACGTAAATTCGTCAGGTGACCGATCCCCTGCTGTCTCACTCGCCTCACAGCGACCACCACGGCTGGCGCTCAA

GGCGGGCACGTGCGGAGCAGATGAGGAATGTGCGACGTCTTGATGCAGCCTGTCAGAACACCGAGACCCTCGACGAACTTACGATCGAAACCGCTTAGGCCAACCG

GTGACGGGGGTGTCTTTCCGCGGCTAGGGCGCCTTATCGTCCGAAGGCCGTGGGTGGTGATCGCCTTCTGGGTCGCGCTTGCGGGTCTGCTTGCGCCGACGGTGCC

GTCCCTGGACCGATCTCCCAGCGGCATCCAGTGGCGATTCTGCCATCGG

:::::::::::::Rv25T7.seq:::::::::::::

CAGGCATGCAAGCTTGCGATGTATCAACACGCCGTTGCGCAGCGTGAGCCGATAGTTGACATCCGGCTCGGTGAAGGTGAAATCGATGGCCAGGTCGAGGTCCCAT

(SEQ ID NO. 289)

GCGCGTGGGCCATTGATGCTGATCGCCAGGACGTCAAAGATTTGGTCCGGCGTCAGCTGGGCGAAAAACGTGGGCGCCGGGACTTGCCCGGAGCTGCCCGGGTTCC

CGTCGCGCAGCTCGGCGGCCCCGGTCAGAAAGAAATTGCGCCAGGTCGCACACTCCGCGCCGTAGGCCAGCTGCTCCACGGTGTCGGCATATAGCCCGCGGGCCGC

AGCGTGCTCGCTGTCGGCGAACACCGCATGGTCGAGAAGCGTTGCCGCCCAACGGAAATCACTGCGTCAAAGCTTCGCCGGGCCACTCCAGCACTCCGTC

Clone Rv260

:::::::::::::Rv260SP6.seq:::::::::::::

ATACTCAAGCTTGACCGACGCTGATCGCACCGCACGCGGGAACCTCAAGGGCACTACTGGCACAAGGGCCCACACGTCAACCTGTTAACTCCTGCGCCGACCCCGG

(SEQ ID NO. 290)

CCGAAGTCCTTGGCGTTAACACCGAACGGGCCAACCCGGGAATTTGGGTTCCATCAAAACAAATAGCAGGTGCCTGGGCGGAGTGTTC

:::::::::::::Rv260T7.seq:::::::::::::

GTCGTCGTGTGCTGGGGCGTCCGTATCAGCACGCCCACGAAATGGGGCACAAGAAGGATTCCTGGAACGGTGGCTGTCCAAGATCACCCTCGCCCAAAACTGCTAC

(SEQ ID NO. 291)

GGGCACTTCTACATCGAGCACAACCGTGGCCATCACGTCCGCGGTGTCCACACCGGGAGG

Clone Rv261

:::::::::::::Rv261SP6w.seq:::::::::::::

ATATGCCTTGCTGAGCTTTTCGGATCGCAGCGAGTCGTACCCGCGCCGGTCACCTTCGTGGATATCGCCGGCCTGGTCAAGGGGGCGTCCGAGGGAGCCGGGCTGG

(SEQ ID NO. 292)

GTAACAAGTTCCTGGCTCATATCCGCGAATGCGACGCCATTTGTCAGGTGGTGCGGGTGTTCGTCGACAACGACGTGACTCATGTCACCGGACGGGTCGATCCCCA

GTCCGACATTGAGGTCGTCGAGACCGAGCTGATCCTGGCAGATCTGCAAGCCCTGGAGCGGGCCACGGGGCGGCTNGAA

:::::::::::::Rv261T7.seq:::::::::::::

GACACCCTGGTCACGGGTGAGCAGGACTCGATTTCTTCGCTATTGGTCGGCGCTGTTGAGGCACAGCACGCCGCTGAGGCCGTCGCGTCCTCGCTGTGCTCGGTCT

(SEQ ID NO. 293)

GGTGGAGCGCGCTGCCCGCGGCCGAACATCGTAAATCAAGCGTATTCGTCAACAGATATCATCAATGTCGGCGCTGGACTATTCAAATCATCGATATACTGGTGAC

CTGGTCCTTCGCCATCGATCAATGGCGATAGTCACGCAGATCGTCACGGACATCGTCTGCGTCCCAGCTGGCCCGTGCCAACAGATGCTGCAACCCATCGGGGTGG

TATCNCCGCGGTGCTCGGCGATGGTCCAACAATTCTTGCGGTCCAAGCCCGAAACCATCCGGCCATGAGTTCACCGGCATGGCGCAACGGCTGGTGCCGGGCAAAA

CGCGGCGCGATCGAATTC

Clone Rv262

:::::::::::::Rv262SP6.seq:::::::::::::

TGTAGAAGGTGGGTCCCGTCCAACTTCGCGGCGGCGGCGCGATATGCCTTGCTGGTCTTGCTCATTTGATATCCAATCTATGGGTCGTGGTTACTCAACGGGCCGA

(SEQ ID NO. 294)

AGCTGGCCCTCCCACGGGTAGGGTCCTATTCGACGGTGATGTCC

:::::::::::::Rv262T7.seq:::::::::::::

CCCGAATCCGGTGGCCGGCAGGGGGCCTGGCGACGTGGACACCTTCTAACTTGTCTTTACCGGTCACTGTTGCACCCCAACACCTTTAACGACGTGGACGGACGTT

(SEQ ID NO. 295)

ACATCGGATTCGACGGTGTCATCCACAGCGTTGCCATTGGGCACACCCACTACGCCAATTTCTCCGACTGGGACACCTACCGCAGCCTCGCCCCACTGCAGGGACT

GTTGTTCCCGCAACGGGCCATCGACATGATCCAGTCGTTGGTGACCGACGCGGAGCAGACTGGTGCGTATCCGCGTTGGGCGCTGGCGAAATTCCGCCACCGGCAT

GAT

Clone Rv263

:::::::::::::Rv263SP6.seq:::::::::::::

TTGAGATGCTGGTCGGGATGCCGATGGTTGGAACATGGTCCCCTGGCGTCGAATACGCGCGAGCGCATGAGCTCACCGGTTCGGAACAACGTATCGAAGAACTCGC

(SEQ ID NO. 296)

ACTGCTGGCAGATGGTATCTCCGATGTGGTTGTAATTTGTATCCCAACTCTAACTGTGCTATCGGATCTGCGTGAATA

:::::::::::::Rv263T7.seq:::::::::::::

CGTAATCACGATCCCGCTGAGACACTTGACCTTACGGCCGAAGTGACTTCGCTGCTGCTATGCCGACACCCGATTTCCATACGCTGCTGTACACGACGGCCGGGCC

(SEQ ID NO. 297)

GGTGGCCTCCATCACGCTCAACCGCCCGGAACAGCTCAACACCATCGTCCCGCCCATGCCCGACGAGATCGAGGCCGCTATCGGGTTGGTCGAACGCGACCAGGAC

ATCAAGGTCATCNTNCTGCGCGGTGGCGGGCGCGCCTTCTCCGGCGG

Clone Rv264

CAAGCTTAAGCTGGTTCCGGCCACTCCATGAGCCGTAGTGCAATGGTTCGTGCACGGCGAGGCCGAACTTGCCATAAACATCCCTGACGAAAGTCTCCGGCAAGCC

(SEQ ID NO. 298)

GATTGCTTCTTCGGGCCGCTTCTTGTGGATTGTCCGATAACCCGGTCCCTCATGCTGGAAGTTGTGCGCACTCTTTCCTTCCGCGATGTGGGCTAACGACTCGTCA

TTGAGCAAGAAGTACGTGCACAGGCATCGTCCGCCGGGCTTCAGCACGCGGGAGATCTCGTCCAGATAGTGCTCCACGTCCGGNGGGAAACATGTGGGTGAACACC

GAGGTNAGAAACACCNCATCCAACGACGCATCCGGGATATGGAAAGCGAAA

:::::::::::::Rv264T7.seq:::::::::::::

TATGGTCTTCGTCGACCAGTACGTCGTAGGCGCCATGAGCCAGCGACTGAAGCCGCGCCATGCCTGCACGGCCCGCTCATCCAGCGAGGCGGCCATCTCCCGCAGA

(SEQ ID NO. 299)

TAGCCTGCCGCCTCGGCGCGCACGCTGTCCGGATCGCGTCCGAGCTCGTCGGCCAGCGCACGCAGCCGCTCGTCATACCATCGGGCATCCAGCAGTTGGGTAACCT

CAACGGGGTCGGTCGCTAGCGGCGTCATTGATTCAGCAACAATACCGATGCGCTGCAGCAACTTTCGCAGTCCGATGCGGCCCACCTCCCGTGCAGTCACTGGCTA

GCCCCCGTCATGCCGGTTGTGTCGATGGCACGGCAGCGGGCTCGTAAACCTGCGGTCTCAGCTCGCTGG

Clone Rv265

:::::::::::::Rv265SP6.seq:::::::::::::

GCTTAGCGGTCTTGCTCGAACCGACATTGCGTGCCACTCATGAGCGGGTGGCGGTCGCGGTGCTTACACATCT

(SEQ ID NO. 300)

:::::::::::::Rv265T7.seq:::::::::::::

GTATCTGGCGCCTCTCGAATATCCTTGAACGTCCCGCGGTGCCACCCAGATAGATCGCAGCGCCCTGCAATGGAGTTCCCTTTATGGCCTCTCTAGCCTCCCGCTT

(SEQ ID NO. 301)

GATCGGCTCGACCCGAGAGATGCCCTCGGGCGTTGCGGGATCTCCCTCCA

Clone Rv266

:::::::::::::Rv266SP6.seq:::::::::::::

CTTCACGCCGATCCGCGACCGCGAACGCGACGGTGACGGTGGGCGACAAGGTTCGGTTGGTCGCCGCGGCGCTGGGCGATATCAGCTCACCCGGTTTCGAGGTGTT

(SEQ ID NO. 302)

CGGCGACCGGACGGTGCTGCAGACATTCTTGAGCGTCCTCGACCGGCCCGATTCGGCCTTCAACATCGTGACGCCGTATTTCGGCGGTACCGCTCGGCGCCGAGTC

GAAGGCGGCCTGAGCTAAAGCCGGGCATTGCGCGAGTGGTAAACAAGTTCGGTGACTTCGGTTGACCGACTCGACGGGCTCGATCTGGGCGCGCTGGACCGGTATC

TGCGTTCGCTGGGGATCGGGCCNACCGCNANTTGCGTTGCGANCTGATTCCGGTGGAGCTCCAATCTGACTTCCGG

:::::::::::::Rv266T7.seq:::::::::::::

GCAGCTACCGACCCTAGCGACGAGTGTGTTCGCAGCGTCGAATGTGAACGTTCGGCGTGATTCGGCGCGCGGGTTCCCGCTCTCAGCGCACGTTCGGCGCCGAGGN

(SEQ ID NO. 303)

GGCTAGTCCCTGGTTAAGCAATGTCTCGGTCGCCGCCAGCAGCGCGCATGTCGCCAACCCGTCNACCGCGTTGCGCATGTCCGGTACCGACGGAAACGACGGCGCG

ATCCGGATGTTCTTGTCGTCCGGATCCTTTCGATACGGGAACGACCCCCCGCCTCGGTCACCGCGATACCAACGTCCTTAGCCAANGCTACNGTCCGGCGCGCGGT

CCCGGGCAACACGTCGAAGCTGATGAANTAACCACCCTTGGGCTCGGTCCAAGANGCGATCTTGGACTCCTTAACCGCTGATNCAA

Clone Rv267

:::::::::::::Rv267IS1081N60.seq:::::::::::::

TCCCCATCGGCGCCGGACCGTTTGAAAGTCCAAGCACGGGTGGGATGGAATCGACGACAGTTGAGCGCCGTCGGTGGCCGTGGTCAGCAGCTGTTCGCGAACGCAC

(SEQ ID NO. 304)

CAGGTCACATCCCTTCGACATCTCACCGACGTGGCACGGGCGACATCAACAGGAAGATTGACGAATCCCTCGCAGGCGCGGCACGTCCGCAGGCCAACGCCAACTA

CGGGGCCACCAGCGATCCTCCGCTCACGCACCAGCCCAAGCCAGGCTCANCCACCCAAGTCGGCCCGCGCTCTCCCTCGCCCCCTGGTCTCCGGGGCCTTGTTAAA

CAACTACCGGAAGTCCACCAATCCTCGCTGCATCTCGACACCGTCCGCCTCACTCCCTTCCTCCCGCCCCTCTCCACACNACACACCTCTTGCATTAAGGTCACGG

AGCGGTCACTTTTCGTCGGACGAAATTCGCAATCCGGCCGCTCGCCGCCAGAGAT

:::::::::::::Rv267SP6.seq:::::::::::::

CGGAAAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGTTCAGCTCGCTTGCGGCGCTGCAGCAGCCAGTCCGGGAAATAGCTGCCCT

(SEQ ID NO. 305)

GGCGCAGCTTGGGGATCGCGACGTCGATGGTTGCGGCACGGGTGTCGCAAATCACGGTGGCGGTAGCCGTTGCGCTGATTGGACCGCTCATCGCTGCGTTCGCGGT

AGCCCGCCCCGCACAGGGCGTCGGCTTCAGCCCCCATCAAGGCGGCGA

:::::::::::::Rv267T7.seq:::::::::::::

GGCCGAGTCCAGCACTTCGCACTATGTGCAGACCAAANACCCGGTGGTCGCCGCGCTGCGGCAGCGGCTGGCAACGGCGCCGGTGATCACCGAGTGGTGCGNAGTT

(SEQ ID NO. 306)

GCCGACCGGCAGTTCGCCGCGGGCTTACTACGAGAAGGGCCTGCGCGACGTCATCAGGTATCACGTGTCGATGACGTCGAGCGTTAACTTCCCCGACCAGACGGCG

ACCTCGCCGATGGACCCCGCGTTGTACCTGGTGTGGGCGCAAGCTAACGCCGCCGCANGCTATCGGTACTCGGTCGAAGCGCAGCCGGGGTCGCAAGCGCTAGCGG

GCAAGGTCGCGACGATCTCGGTCACCTGGACCAACTACGGCGCTGCTGCCGCCACCGAATAGTGNGTGCCCGGCTACCGGCTGGTGGATTCCACGGGACATGTGGT

TCGGACCTGCCGGCAGCGGTGGAACTGAAGANGCTGGTCT

Clone Rv268

:::::::::::::Rv268SP6.seq:::::::::::::

AGCTTCAAGGACATCGTCATCGCGACCAAAACCGCGAGCTAGGTCGGCATCCGGGAAGCATCGCGACACCGTGGCGCCGAGCGCCGCTGCCGGCAGGCCGATTAGG

(SEQ ID NO. 307)

CGGGCAGATTAGCCCGCCGCGGCTCCCGGCTCCGATTACGGCGCCCCGAATGGCGTCACCGGCTGGTAACCACGCTTGCGCGCCTGGGCGGCGGCCTGCCGGATCA

GGTGGTATATGCCGACAAAGCCTGCGTGATCGGTCATCACCAACGGTGACAGCAGCCGGTTGTGCACCATCGCNAACGCCACCCCGGTCTCCGGGTCTGTCAN

:::::::::::::Rv268T7.seq:::::::::::::

GCTCGCGGTCCAGCAGCAGACGTGTCTGACCCCGACGCCCGGCCGCCGGTACCGAAACCGGATCGGCCCGCCGATGGCCGCGGCCACGGCGTCTGCCTTACCCGGC

(SEQ ID NO. 308)

CCGGATACCAGCAGCCACACCTCGCGGGAACGCTGAATCGCCGGCAGGGTCAAGGTGATTCGGCGTGGCGGCGGTTTCGCGAATCGTCCACCGCCACCACCATGCG

GGTGCTCTCGAAGACGCGGGGCTGTGCGGGAACAGCGAGTTAATGTGGCCCTCGGGCCCCATGCCCAGCAGGTGGACGTCGAAATTCGGCCCGGGTCACCTGGTGC

GGCACTGGCGGCC

Clone Rv269

:::::::::::::Rv269SP6.seq:::::::::::::

AGCTTGTCGATCGTCCGGCAGCGTCCGGCGAGTCAAGTCGAAGCCAGTCCGGTCTCCTCTCCGACTACGGCCAAGAACTGGGCGACGGTGTCAGTGCATACCAGCG

(SEQ ID NO. 309)

GANACTGGTGGCGCCCTAGGCGAGCGACCGCCTCACAAACGGCGGTGACCGCGTTCTGGTCGTGCACCATCGAGCCGTGCCCATCCCGGCCGCGTGCCGTCAGCCG

CATCCACTGGATGCCCTTCTCGGCGGTTTCAATCAGGTACAGGCGACGTTCGCCANCATCGTGCCGGGGCANGG

:::::::::::::Rv269T7.seq:::::::::::::

TTGGTGATCATCGNCCCAACGACCCCGAGGCGATGTTCTTGCACACCGAGGAGTGTCGCAAGCTGGGGCTGGCCTTCGCCGCCGATCCGTCTCAGCAGCTGGCGAA

(SEQ ID NO. 310)

GCTGTCGGGGTGAGGAAATTCGCAGGCTCGTCAACGGTGCTGCTTACTTGTTCACCAACGACTACTAATGGGATCTGCTGCTGTCCAAGACCGGCTGGTCAGANGC

CGATGTGATGGCGCAGATCGACCTGCGGGTGACCACATTGGGTCCTAAGGGTGTCGATTTGGTAGAACCTGACGCACCACCATCCACGTCGGCGTTGGTCCCCGAA

ACAGCCAGACCGA

Clone Rv26

:::::::::::::Rv26SP6.seq:::::::::::::

GGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAG

(SEQ ID NO. 311)

CTTGATTTTGATCATCATGATGATCATCACCCGAAGTGTGGTAGCCGCAGTGGTTATCGTGGGTACCGTCGTGCTTTCCATGGGCGCCTCTTTCGGGCTTTCCGTA

TTGGTCTGGCAGGACATTCTGGGTATCGAGTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCCTGGCGGTGGGATCCGACTACAATCTGCTGCTGATTT

CCCGGTTGAAAGAGGAAATTGGGGCCGGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGGGAGTGGTGACGGCTGCCGGCATGGTGTTCGCCGTTAC

CATGTCGTTGTTTGTGTTCAGCGATTTGCGAATT

:::::::::::::Rv26T7.seq:::::::::::::

CAGGCATGCAAGCTTGGCGTGCCGTTCCAACCCGAATTGGCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACC

(SEQ ID NO. 312)

TCGATGCTGCCGCCATGGACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCG

GATCGCGGTGATCGTCGATGACGGCATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCNCCCGGGCGCACG

Clone Rv270

:::::::::::::Rv270SP6.seq:::::::::::::

GGCATCTTGGCCGCCATGTTAGCCACACTGCCACCGGCTATAGAAGCGATGCGCACCGTCCTGCCAGCACATTGCGGCGCTCCTCCCTGGAAAGCAAGATAACCAA

(SEQ ID NO. 313)

GCTCATGCCGTGGTTGTGGGTGGCGTGGTTTGGTTTGGGTAACTTTGG

:::::::::::::Rv270T7.seq:::::::::::::

TCGGCTAATAATCGTCGACGCCGGCCTCCTCTGCAATCGCCTTGGCGGTCGCCGGGTTGTCACCGGTGATCATCACGGTGCGGATGATCATTCGGCGCATTTCGTC

(SEQ ID NO. 314)

GAATCGTTCCCGTATGCCCACCTTGACGATGTCCTTCAGATGGACGACGCCGATGGCCCGCGCGCTGCTGTTATCGGTCCATTCCGCAACGACTAGGGGTGTCCCC

CGCCGGAGCTGATGCCGTCGACAATGGCACCCACCTCCTCGGTGGGGTGGGCACCGTGATCGCGAACCCACTTCATCACCGCAGCCGCGGCACCTTGCGGATTCGA

CGGATG

Clone Rv271

:::::::::::::Rv271SP6.seq:::::::::::::

CTCAAGCTTGGAGGCGTGGCGATCGCGGTCCAAGGCGCGCTCTCCGAGCACAACGAGCGAAGACNGCTCGGCGACGGAGCCTTTATCGACNTCCGTTCGGGCTGGC

(SEQ ID NO. 315)

TGACGGCGGCNAAATAATGCTGGACTCGTTGTTGTCGACGGTGCCGTGGCGAGCCGAGCGCCGTCAGATGTACGACCGGGTGGTCTATGTGCCGCGGTTGGTGAGT

TTCCACGACCTGACCATCGAAGATCCGCCGCATCCGCTGCTGGCGCGGATGCGCCGGTGGCTCAACTAATTCTACGGCGGCGAACTGGGTNATCCCTTCNCCACCG

TCGG

:::::::::::::Rv271T7.seq:::::::::::::

CCTAGGTCAACCGTACCGTCATCGGATCGGGGTCGACCGCACAGATGGACTGGAGCTTCGGCGAGGTCATCGCCTATGCCTCGCGGGGGGTGACGCTGACCCCGGG

(SEQ ID NO. 316)

TGACGTGTTCGGCTCGGGCACGGTGCCCACCTGCACGCTCGTCGAAGCACCTCAGGCCACCGGAAATCATTCCCGGGCTGGCTGCACGACTGCGACGTGGTCACCC

TCCAGGTCGAAGGGCTGGGCGAGACGATGCAGACCGTCCGGACGAGCGGCACTCCTTTTCCGTTGGCTCTTCGGCCGAATCCGGACGCCGAACCCGACCGGCGCGG

GGTCAACCCGGCACCGACGCGGGTGCCGTTTACCCGCGGGCTGCACAAATCCCGACGGGTATGGGCTTTGACCTGCCGACGGGGGA

Clone Rv272

AGCTTGGCGTGACACCAACACAGGGCACTTAAGATGGCAATGCGCCGCCTACCTGCACGTTTTCGCGATGTCAGAGGATGCCGAGGGGAGAACAATGCGAGCACGG

(SEQ ID NO. 317)

CCGCTGACGTTGCTCACCGCTTTGGCGGCGGTGACATTGGTGGTGGTTGCGGGCTGCGAGGCCCGAGTCTAGGCCGAAGCATATAGCGCGGCCGACCGCATTTCGT

CTCGACCGCAAGCGCGACCTCAGCCGCAGCCGGTGGAGCTACTGCTGCGCGCCATCACGCCGCCTAGGGCTCCGGCGGCGTCGCCGAACGTCGGGTTTGGCGAACT

GCCTACCCGGGTCCGGCAGGCAACCGAT

:::::::::::::Rv272T7.seq:::::::::::::

TCATGCCGTTGGACCGACCATCGGAGTTAGTTGCCGAACCGCGGGACCACCGCAAGCACCCGGTCCTGGTCGCGCACCGCGTCGGCCAACCGCTTGAGCACCACCA

(SEQ ID NO. 318)

CGCCGCAGCCCTCGCCGCGCACGAATCCATCCGCGTTGGCGTCGAAGCTGTTGCATCGGCCGGTCGGTGACAGCGCCGACCACTTGGACAGCGCGATGGCGGTGAA

CGGTGACAAGGTGAGCTGCACCCCGCCCGCCAATGCCACGTCGGTTTCACGCAGGCGAAGCTCTGACACGCCAAGTGAATTGCCACCAGCGACGACGAACAAGCGG

TATCTACGGCGATGG

Clone Rv273

:::::::::::::Rv273SP6.seq:::::::::::::

GGGTCGACTTTCTGCAAGGCGAGGCTACACCGTCGTCGTCGTGGTATGCGATAGCCATCCCGTCGGGCTACTCGCCATCACCGATCAGCTTCGCCCCGAAGCCGCC

(SEQ ID NO. 319)

GTGGTGATTTCCGCTGCGACCAAACTGAACGGGGCCAAACCGGTATTGCTTACCGGCGACAACCGGGCCACCGCCGATCGGCTCGGTGTTCAGGTTGGCAT

:::::::::::::Rv273T7.seq:::::::::::::

AATCCGAAATCCTGACCGATACTTGAACCTGGTCTCGTTCGGCAATAACTCGTCGGCGTGCAGGACGCGGCGCAAACGTACTTCGGCATCAACGCGTCCGACCTGA

(SEQ ID NO. 320)

ATTGGCAGCAAGCGGCGCTGCTGGCCGGCATGGTGCAATCTAACAGCACGCTCTTCCCGTACACCAACCCCGACGGCGCGCTGGCCCGGGCGGAACGTGGTCCTCG

ACACCATGATCGAAAAACCTTCCCGGGGAGGCGGATGC

Clone Rv274

:::::::::::::Rv274SP6.seq:::::::::::::

TTCCGAATTTCGGGTCCNGGTCATATGACCCTCATGGAAGAAGAAGCGGCCGCCCCGCGCCCGTGCGACGGCGAATGAAAACCCTCACCCAGGCCGCATTGAACGC

(SEQ ID NO. 321)

CGACAAGACGGTGGAGCAGGTCGAAGACGTCCTGGACGGTCTGGGTAAGACCATGGCCGAGCTGAACAGCTCGCTGTCACAGCTGAACAGCACCGTGGAGCGCTTG

GAGGACGGTCTGGACCATCTCGAAGGTACCCTGCACAGCCTGGACGATCTCGCGAAACGGCTCATCGTGTTGGTCGAGCCGGTGGAAGCCATCGTCGATCGGATCG

ACTACATCGTGAGCCTCGGCGAAACGGTGATGTCACCGCTGTCGGTC

:::::::::::::Rv274T7.seq:::::::::::::

NCTCGATCTTGGGGTACGTTCGATGAGGCTGCTGACCAACAACCCGGCCAAGCGGGTGGGACTGGATGGATACGGATTGCACATCATCGAGCGCGTGCCGCTGCCG

(SEQ ID NO. 322)

GTGCGGGCCAACGCGGAAGAACATCCGTTACCTGATGACCAAGCGTGACAAATTGGGGCACGACTTGGCTGGGTTGGACGATTTTCACGAATCCGTGCATCTGCCC

GGAGAATTCGGCGGTGCCTTGTGAAGGTGGCGCCGGGGTGCCGGATCTGCCGTCGCTGGATCGTCTGGTGTGCGGCTGGCGATTGTCGCCAGCAGCTGGCACGGAA

AGATCTGCGACGCGCTGTTGGACGGCGCCCGCAAGTGGCCGCCGGGTGTGGCCTCGATGACCGACTGTGGTTCGGGTGCTCCGCGCGATCGATAT

Clone Rv275

:::::::::::::Rv275SP6.seq:::::::::::::

TCATCCCGACCAAAACGCGAGCTAGGTCGGCATCCGGGAAGCATCGCGACACCGTGGCGCCGAGCGCGCTGCCGGCAGGCCGATTAGGCGGGCATATTATCCCGCC

(SEQ ID NO. 323)

GCGGCTCCCGGCTCCGAGTACGGCGCCCCGAATGGCGTCACCGGCTGGTAACCGCTCTTGCGCGCCTGGGCGGCGGCCTGCCGGATCAGGTGGTAGATGCCNACAA

AGCCTGCGTGATCGGTCATCACCAACGGTGACAGCAGCCGGTTGTGCACCAAGCGCGAACGCCACCCCGGTCTCCGGGTCTGTCCAACCGATCGACCGCCCAAGCC

CACATGAACAAACCCCGGCATCACGTTGCCGATCGGCATACCGTGA

:::::::::::::Rv275T7.seq:::::::::::::

TTGGCGGGTTGGCCCAGCAGCCCGCCGGTGACGGCGACGATGCTGGGCTGGTTGCGGCCCTGCGCCACCGCGGCTTGCATGCTGGTTGGCTGTCTTGGGACGATCC

(SEQ ID NO. 324)

CGAAATAGTCCACGCGGATCTGGTGATTTTGCGGGCTACCCGCGATTACCCCGCGCGGCTCGACGAGTTTTTGGCCTGGACTACCCGCGTGGCCAATCTGCTGAAC

TCGCGGCCGGTGGTGGCCTGGAATGTCGAGCGCCGTTACCTACGTGACCTGATGGATCGGGGGGTGCCGACCGTGCCCGGCGATGTGTATGTGCCGGGANAGCCGG

TCCGGTTGCCACGCAAAGGCCATGTCTTCGTCGGTCCGACCATCGGTACCGGGACACGGCGCTGTATTGCCCGGTTCGCTGCCGAGTTCGTCGCGCAACTGCACGC

NGGCGGGCCAGCGGTGCTCGTTCANCCCGGAGGTTCCGGTGACGATGATCGTGTTGGTCTCCCT

Clone Rv276

:::::::::::::Rv276SP6/seq:::::::::::::

GTAGGAGAGAACAAAGACCGTCGATAGGACACGTGTTACGCCGGTAGCTGTCATTGGTATGGGGTGCCGCTGCCGGGGGGCATCTACTCACCCGATCGGTTGTGGG

(SEQ ID NO. 325)

AGGCGTTGCTGCGGGGCGACAATCTGGTCACCGAGATCCCCGCCGACCGCTGGGACATCTACGAGTACTACGACCCCGAACCCGGCGTGCCCGGACGCACCGACTG

CAAATGGGGCGCGTACCTCGATAACGTCGGCGACTTTGATCCCGAGTTCTTCGGGATCGGGGAGAAAGAAACGATAGCGATCGATCCGCAGCACCGCTTGTTGCTG

GAAACCTCCTGGGAAGCCATGGAACACGGCGGGCTAACACCGAACCATATGCCTCCCGACANGGGTTTTCGTGGGGTT

:::::::::::::Rv276T7.seq:::::::::::::

CGAACTGAGCCCATAGAAAGGCAGCGACTAATTCGCTGGGCAAATAGGAAGACCCTTTGTCCTGCCACGTATATTTGTCGACCTCGTTGCGAAGGAAGCGGCTGCG

(SEQ ID NO. 326)

ATTGGTGCCCTTTTCCCTGGAGAATCTCTGCCCGGAGCAGGAAGTCTTATGAGTTGACAAGCAGGGGCGCCGCCTTCGCCGGAAATCACATTCTTGGTCTCGTGAA

ATGAGAGCGCTCCCAGGTCGCCGATGCTGCCGAGCGCCCGCCCACGATACGACGCCATCGCGCCTTGGGCCGCGTCTTCGACCACCGCCAGGTTGTGGTGCGTGGC

GATCTTCATGATCGCGTCCATCTCGCAGGCCACCCGGCATAGTGAACGGGGACCATGGCCTCGGTTCGCGGGTGAA

Clone Rv277

:::::::::::::Rv277SP6.seq:::::::::::::

CTTAGACGCCACCTCCGGGCCGAGCTCCACGGGGTGGATAAGTACGGCCGGATGTGGCCGCAATGGGAAGTTGTTGCCCGCTTGACTGTCCGGGTTAACGCCGGAT

(SEQ ID NO. 327)

TCCACCACATCCCCTTGCGAAAGGCCGTTGGGTT

:::::::::::::Rv277T7.seq:::::::::::::

GATCGCGATCGTCGATGTGGCCATCCGGCTTGGCGTCGACCCGCGTAAGGCAGACCAGATGGTTCGCGGCACGGTCAACCTGCCACACGCACTGGTAAGACTGCCC

(SEQ ID NO. 328)

GCGTCGCGGTATTCGCGGTTGGTGAAAAGGCCGATGCTGCCGTTGCCGCGGGGGCTGATGCTGTCGGATCGACGATCTGATCGAGAGGATCAGGGCGGCTGGCTGG

AATTCGATGCCGCGATCGCGATACCGGATT

Clone Rv278

:::::::::::::Rv278SP6.seq:::::::::::::

AGCTTACGCCGCTTTCGCTTCNGATTTGGGACGCCGCATCGAAAGCGCAGTTGGAAGCGCGGCGCCCGGCTGGTCGAGCTGCTCAAGCAGCCGCAATCCCAGCCCA

(SEQ ID NO. 329)

TGCCCGTTGAGGAGCAAGTGGTTTCGATCTTCCTGGGCACCGGCGGTCACCTGGACTCGGTGCCCGTCAAGGATGTCGGCGGTTCGAAACCGAATTACTGGACCAC

ATGCGGGC

:::::::::::::Rv278T7.seq:::::::::::::

CGACGGGACCTCGTCGCATCTTCCATAGCCCGCCACACCTTCAGTTGCTCACCGGAATCCAACCGGTATAAGGTCGGCGAAGCGCTCGGCATTGGTCATCGGGATA

(SEQ ID NO. 330)

TGCCGCTCGGGACGGTCAGATGCCCTCGGGTCCNGCCAGCACTCCTCAGGCTTCGTCGGGGTGGTCGCGACCGCATGGGCCACATCGCATTCACCAGGTCTGCGCG

AATCACCAGCACGTANACGGTTCCTTTCCTAAGCAACACCGAAATTTCAGGACCCGAATGCTCCGGGAAAACATGTCACGGTAAGTCCGGTATTCCGGGTACCGGT

TGAGCATTGA

Clone Rv279

:::::::::::::Rv279SP6.seq:::::::::::::

CGGCATCGGTTTGGGCTGTCACCAGCAGTTGGTAGTTCTTCACTACTGTTGTTCGAGCGTCGAGCCGCCGCGCGTGTCGAGGTCGCCGGACGCGTACCCGCCAGGC

(SEQ ID NO. 331)

CGGTCAGGGTGCCCTTCCAGTCCACGCNGCTGTGGTCGGCTAACCGCTTATCTTCAATCGAGACNATCGCCAGCTTCATCGTGTTGGCGATCTTGTCCGAGGGCAC

CTCGAACCGGCGCTGCGANTACAGCCACGCGATCGTGTTGCCCTTCGCGTCGACCATCGTCGATACCGCAGGCACTTGCCCCTCGAGCAGCTGGGCCGATCCGTTG

GCAACGACCTCAGAGGCACGATTGGACATCAGCCCTAGCCCGCCTGCG

:::::::::::::Rv279T7.seq:::::::::::::

CCGTCGANGCCGCCGACTTGGCTTGACCGACACCAACATGGCCTGAGGGTGTTCAACAAGACCGTGGCCGACGGGCTGAACATCACCATGAGCGGCATGAGCCACG

(SEQ ID NO. 332)

CCACCGAGTTCATCATGTTGATCGCCGAAAACCATTGGCGGGTAGCGGAAGAACGGTCGAGGTGCTCTACACCGAGTATTCGAAGTCGAAAGGCCAACCGCTGCTC

AACGGCGTCAACATCATTTTCGACGGGTTTCTGCGAGGGAGGATGCCACGATGAACTGGATCCAGGTGCTGTTGATCGCGTCGATCATCGGGTTGCTGTTCTACCT

GTTGCGGTCGCGCCGAAGCGCGCGGTCCGTGCCTGGGTCAAGGTGGGCTATGTCTTGTTCGTGCTCCCGGCATCTATGCCGTGCTGAGA

Clone Rv27

:::::::::::::Rv27SP6.seq:::::::::::::

TTACACGNCCTGCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGAC

(SEQ ID NO. 333)

ACTATAGAATACTCAAGCTTTTTGAGCGTCGCGCGGGGCAGCTTCGCCGGCAATTCTACTAGCGAGAAGTCTGGCCCGATNCGGATCTGACCGAAGTCGCTGCGGT

GCAGCCCACCCTCATTGGCGATGGCGCCGACNATGGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGNGACGCGGTANGTGGTCAAGTCCGGTCTACNCTTGGG

CCTTTGCGGACGGTCCCGACGCTGGTCGCGGTTGCGCCGCGGAAAGCGGCGGGTCGGGTGCCATCAGGAATGCCTCACCGCCGCGGCACTGNACGGCCAGTGCCGC

GGCGATGTCNGCCATCGGGACATCATGCTCGCGTTCATACTCCTCGACC

:::::::::::::Rv27T7.seq:::::::::::::

CAGGCATGCAAGCTTTGTCACACCAAGTGTTTCGACCAGGCGCTCCATCCGGCGAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGT

(SEQ ID NO. 334)

TCAGCTCGCTTGCGGCGCTGCAGCAGCCAGTCCGGGAAATAGCTGCCCTGGCGCAGCTTGGGGATCGCGACGTCGATGGTTGCGGCACGGGTGTCGAAATCACGGT

GGCGGTAGCCGTTGCGCTGATTGGACCGCTCATCGCTGCGTTCGCGGTAGCCCGCCCCGCACAGGGCGTCGGCTTCAGCCCCCATCAAGGCGG

Clone Rv280

:::::::::::::Rv280SP6.seq:::::::::::::

AGCTTAGCCAGTTTTTCTACTCTTGGGCCCACACCCACAGTGCTTCGACGGTACGGTCACCCATGATGGCCATCCAGTTGGCATCGGTGAGCTGATAAATGCCAGC

(SEQ ID NO. 335)

TGGTTTCGCCAACCCGGTAGCGATCTTGGCGCGCTGCTTGTTGTCACTGATACCTATCGAGCAAGACAGCCCGGTTTGCGACAAGATGACTTTTCGGATCTCTTCG

GCGACTTCGATGGGGTCGTCGGGAGTCCCGGGCGCCACCGCGAGGTAAGCCTCGTCCCAGCCCCATACCTCGACCGGGTATCCCAGGTCGCGCAATAACGCCACCA

CCTCCTCGGACGCCGCGTTGTAGGCGGCTGGGTTCGACGGCAAGAAGTGGCCTCAGGGCATCGTCGGCGCGGTCCCAACGGCNTGCCGGCGCGCACACCGTAGGCG

CGGGGCTC

:::::::::::::Rv280T7.seq:::::::::::::

CCGGCGGAACTCAGACGTGCTGGTGGTGCGGCATGGCACCGCGGGCAGCAAAGCGCACTTCTCCGGGGACGACAGCAAGCGACCGCTAGACAAGAGGGGTCGTGCG

(SEQ ID NO. 336)

CAGGCAGAAGCGTTGGTACCACAGCTGCTGGCGTTCGGCGCCACCGATGTTTATGCCGCCGACCGGGTGCGCTGCCACCAGACGATGGAGCCACTCGCCGCGGAAC

TGAACGTGACCATACACAACGAGCCCACCCTGACCGAAGAGTCCTACGCCAACAACCCCAAACGCGGCCGACACCGAGTGCTGCAGATCGTCGAGCAAGTAGGCAC

ACCCGTGATCTGCACGCAGGGCAAGGTCATTCCCGATCTGATCACGTGGTGGTGCGAGCGCGACCGTGTGCCCCCGACAGTCCCGCAATCGCAAAGGCAGCACGTT

GGTGT

Clone Rv281

:::::::::::::Rv281SP6.seq:::::::::::::

GTATGGTCAGCTGTCCATCCGGCGCTGTCGGCCGAGCTGCCAGATCTCGTCAGCCCGTAACCGGGTTGCGGGATCCACGCGTGCGGGTTGTCTAC

(SEQ ID NO. 337)

:::::::::::::Rv281T7.seq:::::::::::::

CCGACTTTCCGCGGGTACCCGCTCAACTTTGTGTCNACCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGA

(SEQ ID NO. 338)

CGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATC

GTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCTACGCGACCCGGCCTATGGTTATTCGACCTCGCCGCCCAATGTTGC

GACTCCGTTCGGTTGTTCCAGAANGTCAGCCCG

Clone Rv282

:::::::::::::Rv282SP6.seq:::::::::::::

GCACCGATGTCGGCGAGCACTTCGTCAACTTCCAGGGGTGCCCGCACCAAGTATTTCGACGAGTATTTCCGTCGGGCCGCCGCCGCCGGTGCGCGGCAGGTGGTCA

(SEQ ID NO. 339)

TCCTGGCGGCGGGGCTGGGACTCGCGCGCGTACCGGCTGCCTCGGC

:::::::::::::Rv282T7.seq:::::::::::::

TGCACCCAACTTACTGAGCATGCTAACGCTGGTCGTGCGGGTCTTGTTCCCGCGTGTCGGCAGGGCACACGCTCGGGGCGTAGCTGGGAGAGGCCCCGGTCAAGCC

(SEQ ID NO. 340)

CGGAGAGCAGTGCTCAGTCCGCCAGCTTGACCGACTTTCGATGAGAACGCGCTTCTCGCCGTATTGAACTGGCGTGCTGACGGTCGCTGAGCAGCGCTCGCCGAGT

GCGGCCGCTGATTCTTTCATCGAGCCAGGACGCGCATTCGTGTTCGGCCGC

Clone Rv283

:::::::::::::Rv283SP6.seq:::::::::::::

AGCTTACGGCCGGTCGACGCGACGAGTGGTTCATGACACCACAAACCGTCAACGCCTACTACAACCCGGGGATGAACGAAATCGTCTTCCCGCAGCGATTTTACAG

(SEQ ID NO. 341)

CCACCATTTTTCGATCCGCAGGCCGACGAGGCCGCCAACTACGGCGGGATCGGGGCGCGTGATCGGGCACGATGATCGGGCACGGTTTCGACGATAGGGCGCCAAA

TACGANGGCGACGCAATCTGGTCNATTGGTGGATCGA

:::::::::::::Rv283T7.seq:::::::::::::

ATGTCGTCACGTCACCACAATCGCGAGGACCCAATCATGCCGCCCAGGGCGGCCAACCCAATGGTGGCCGCGAAGCGGCAGCTCGATCGCAGCGCGGAGGTGCCGG

(SEQ ID NO. 342)

CCGCCAGTTGATTCACGAACAGGGTGAGGTCATAGGCGGGCAGGATAGTGACGAACGCAAGACCTATATCTGCCGTCGGAGTAAGAATCGAGTAGCCGGTCGACCA

ACGGAAGCGAAAGTGTCCGCGATGTTGATGAGCGTCGCCGGTTGTGGCGGCGGTGGC

Clone Rv284

:::::::::::::Rv284SP6.seq:::::::::::::

AGCTTCACCAGCGTGCCGATGCTGTTCGCNACACCTCCCTACTATGCGCAATTCGCCGACACGGGTGGCATCAACACGGGCGATAAGGTGGACATCGCTGGGGTGA

(SEQ ID NO. 343)

ACGTCGGGCTGGTGCGCTCGCTGGCAATCCGCGGCAACCGCGTGTTGATCGGATTCTCGTTGCCCGGCAAGACAATCGGGATGCAAAGCCGGGCAGCAATTCGCAC

CGACACCATTCTTGGCCGTAAGAACCTGGAAATCGAACCCCGCGGTTCGGAGCCGTTGAAACCCAACGGTTTCCTGCCGTTGGCGCAGAACACTACGCCATACCAA

ATCTATGACGCGTTCGTC

:::::::::::::Rv284T7.seq:::::::::::::

CTGCCGCGGTGGCGGTCAGCGCCTGGCAAGTCACCGCACCGCCGTCCGGTTCATCGGCAGGCTCCCCCGAAAAGGGCCCTGGCAACAGAAGGTGATCAATGAGCTC

(SEQ ID NO. 344)

CCGCAGACCTTCGCCGATCTGGGACCGACATACGTGAAGTTCGGCCAGATCATCGCGTCCAGCCCGGGAGCATTCGGTGAGTCGCTGTCGCGGGGAATTCCGCGGC

CTGCTCGACCGGGTGCCGCCCGCAAAAACCGACGAGGTGCACAAGCTCTTCGTCGAGGAACTCGGCGACGAGCCGGCCCGGCTGTTCGCCTCCTTCGAGGAAGAAC

CGTTCGCGTCTGCGTCCATCGCCCAAGTGCACTACGCGACCTGCGCAGCGGCGAAGAAGTGTGGTCAAGATCCACGGCCGGGCATCCGCCGCCGCGTTT

Clone Rv285

:::::::::::::Rv285SP6.seq:::::::::::::

GATCGTGCCGGCCCCCCGGCGGCAGTAGCAGATCAGCTCGTCGAAATCGCAACAACCAGTCCAGTCGATTTCCATACGGGCGCCGTCAATCAACTCTGCGAACATC

(SEQ ID NO. 345)

GCGATCGGCACCGGAAACCGGCGAGCCGCGTCAGCCAGCGCAACCAGCACCGGGATCGGATGAATCATCAATATTATCAAGTGATTTCCTGATGGCATCGAGCTCG

GTGATCTTGGTCTCGGGGGCCAGCTCGCCGTCGGCGACGTCGTCGATCCGGCGGCCGAGCGCATAGACCGCAAATAGTGCCGCTCGCTTTTCGCGCGGCAAGAGTC

GGATGCCGTAATATANGTTTCTGGCGGCCGTGCGCGTGATCNACTCGGTGATTCGATACGCCTGTTCATCTCGGTCATGCCGTCCTC

:::::::::::::Rv285T7.seq:::::::::::::

GGTGGCGCAATGACCGAAACCACCCCAGCCCCGCAAACCCCGGCGGCCCCGGCCGGGCCCGCACAATCGTTCGTGTTGGAGCGGCCCATCCAGACCGTTGGGCGCC

(SEQ ID NO. 346)

GTAAGGAGGCCGTGGTACGAGTGCGGCTGGTGCCCGGCACCGGCAAGTTCGACCTCAACGGCCGCAGCTTGGAGGACTACTTCCCAAACAAGGTGCACCAGCAGTT

GATCAAGGCACCCCTGGTCACCGTGGATCGGGTGGAAAGTTTCGACATCTTTGCCCACCTGGGCGGCGGCGGCCCGTCGGGTCATGGCCGGCGCGCTGCGCCTGGG

TATCGCCCGGGCATTGATTCTNGTATCGCCGGATGACCGGCCCGCGCTGAATAANGCCGGCTTCTTGACCGTGATCCACGCGCCACCGAACGCAAA

Clone Rv286

:::::::::::::Rv286SP6.seq:::::::::::::

CACAATAGATTACTCAAGCTTCGAACCAGCGGCCTTATCACGTATCCCCGCTGAGACCTTGACCCTTAGGGCCGAAGTGACTTCGCTGCTGCTATGCCGACACCCG

(SEQ ID NO. 347)

ATTTCCAGACGCTGCTGTTACACGACGGCCGGGCCGGTGGCCACCATCACGCTCAACCGCCCGGAACAGCTCAACACCATCGTCCCGCCCATGCCCGACGAGATCG

AGGCCGCTATCGGGTTGGCCGAGCGCGACCAGGACATCAAGGTCATCGTGCTGCGCGGTGCCGGCCGCGCCTTCTCCGGCGGTTACAACTTCGGCGGCGGGTTCCA

ACATTGGGGGCAT

:::::::::::::Rv286T7.seq:::::::::::::

TCAGGACGCTTATGGTTGGCAGATGGTCGCCCTGGCGTCGAATACGCGCGAGCGCATGAGCTCACCGGTTCGGAACAACGTATCGAAGAACGTCGCACTGCTGGCA

(SEQ ID NO. 348)

GATGGTATCTCCGATGTGGTTGTAATTTGTATCCCAACTCTAACTGTGCTATCGGATCAGCGTGAATATCGAGATATTGCGAATGCGATGACAGGCCGCCATTCGG

TTTATTCGCTTACGCTTCCCGGGTTCGATTCGTCTGATGCACTGCCGCAAAACGCGGATATGATTGTTGAAACCGTATCTAACGCAATTATTGATGTGGTAGGCGG

CAGCTGCCGTTTTGTGCTGTCGGGCTATTCATCGGGTGGGGGTGTTTGGCTATGCCCTCTGCTCCCAT

Clone Rv287

:::::::::::::Rv287SP6.seq:::::::::::::

CGCAGCTGTCGCCGATCTGGTCCGGAATACCTAGCTCCAGGTTCTGAGTGGAGATGAGTGCGGCCATCGAAGTGTTGTCAATGTACTCCAGGATGTCAGGTGCCAG

(SEQ ID NO. 349)

GCCGCTGGCGAGGATCTTGGGCACCGCCGCCATGACTTGGTCGAAGTCGGCGAACGGGGCGAGCACGCTGGCGTCGTGGTC

:::::::::::::Rv287T7.seq:::::::::::::

GTAGTTCGTTCATCCAAACACAGTGCGGTACCGGCTCAAGCGGATCACCGACTTCACCGGGCGCGATCCCACCCAGCCACGCGATGCCTATGTCCTTCGGGTGGCG

(SEQ ID NO. 350)

GCCACCGTGGGTCAACTCAACTATCCGACGCCGCACTGAAGCATCGACAGCAATGCCGTGTCATAGATTCCCTCGCCGGTCAGAGGGGGTCCAGCAGGGGCCCCGG

AAAAGATACCAGGGGCGCCGTCGGACCGA

Clone Rv288

:::::::::::::Rv288SP6.seq:::::::::::::

TCCGCTCGCTTCTCCGAGAGGTTGAGTGCCAACGCTCTGCCGATGCCCGAAGCCGGCCCCGGTGATGACGGCGACCTTGCCTTCGAATGAGCTCATTTGACTACTC

(SEQ ID NO. 351)

CCCGTGGTTGTCCCTGCGATTGGTGGAGGTGGCCGCGCAGCCTTGCCCCGAGGTCGGCGATCGCGTCTCGGGCTTCGGGGAGCAGACTGACCTGCAGATGGAAGTC

GTGCCACATGCCCGCGAACCGGCGATGCTCGATGCTTGTTTTCGAAGCGGCGCAGGCGGTTTCGATCTTGTCCGCGTCAACACNGATCGGATCGTCGCCCGCGGTC

TGCATGACGAATGGGCG

:::::::::::::Rv288T7.seq:::::::::::::

ATGGGAGGCCACCGATTACCATCTTGCACACACCGATTCCGGGCTATTGATGTCCACGTTCGGTCCGCGAACCGCGCTGTGGCTGCTGCTGGCCAAAGGCGGAGGC

(SEQ ID NO. 352)

GATACCGAAGTCAGTGCCCAAGCTTGGGTTCCACGCTCGCGCAGCCACGCCGTCACCTTTCCACGAGACCTCACCTGCCGATCCGAAATGGAATCGGCCGTGACGG

AATTGGCGCAGCGAACACTCAACGAGGTGGTGGCTTCGTCGCGAACCGTCACCCGAGTCGCGGTCACCGTGCGCACGGCGACGTTCTACACCCGCACCAAGATCCG

AAAGCTGCAAGCTCCCAGCACCGATCCCGACGTCATCACCGCTGCCGCCCGGCACGTTCTTGAACCTATTCGAGCTGGAATCGGCCGTCCGGTTGCTGGGAATTGC

NGTTAAGAACTGGGCCT

Clone Rv289

:::::::::::::Rv289SP6.seq:::::::::::::

GCTTTGCGCGCTTCTCCGAGAGGTTGGAGTGCCAACGCTCTGCCGATGCCCGAGCCGGCCCCGGTGATGACGGCGACCTTGCCTTCGAATGAGCTCATTTGACTAC

(SEQ ID NO. 353)

TCCCCGTGGTTGTCCCTGCGATTGGTGGAGGTGGCCGCGCAGCCTTGCCCCGAGGTCGGCGATCGCGTCGCGGGCTTCGGGGAGCAAACTGACCTGCAGATGGAAG

TCGTGCCACATGCCCGCGAACCGGCGATGCTCGATGCTTGTTTTCGAAGCGGCGCAGGCGGTTCGATCTTGTCCGCGTCAACGCAGATCGGATCGTCGCCCGCGGG

TCTGCATGAAGAAT

:::::::::::::Rv289T7.seq:::::::::::::

CTCACGCAGCCACGCCGTCACCTTTCCACGAAGACCTCACCTGCCGATCCGAAATGGAATCGGCCGTGACGGAAATTGGCGCAGCGAAACACTCAACGAGGTGGTG

(SEQ ID NO. 354)

GCTTCGTCGCGAACCGTCACCCGAGTCGCGGTCACCGTGCGCACGGCGACGTTCTACACCCGCACCAACATCCGAAAGCTGCAAGCTCCCAGCACCGATCCCGACG

TCATCACCGCTGCCGCCCGGCACGTTCTTGACCTATTCGAGCTGGATCGGCCCGTCCGGTTGCTGGGAGTGCGGTTAGAAACTGGCCTAGAAACCGGCGGGCACAC

CGCACCTGGGCGGGGN

Clone Rv28

:::::::::::::Rv28SP6.seq:::::::::::::

TGCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAAT

(SEQ ID NO. 355)

ACTCAAGCTTGATGCCGCCGAAACCGAGCGTGAGCACGCCGCCAGCCACCACNCGCGGGTCGGGCGCCGGGCCCGGGTCGCCANGCTGCTCCGCTCGGTGATGGCA

CGCCACCGCGACACCACCCGGCTGCGCTACGTCGAGCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAAGTCGAAGTCGATA

CCGATTGCGCATCCGCNGCCGCA

:::::::::::::Rv28T7.seq:::::::::::::

CAGGCATGCAAGCTTCACGTCCGTACGGCTCGGGTACGCTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCTGCATCTTCCATAGCCCGCCAC

(SEQ ID NO. 356)

ACCTTCAGTTGCTCACCGGAATCCAACCGGTAGAAGGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAACCCTCGGGTCCGGCCA

GCACTCCGCAGGCTTCGTCGGGGTGGTCGCGACGCGCATGGGCCACC

Clone Rv290

:::::::::::::Rv290SP6.seq:::::::::::::

GCTTGTCTATCGTCCCGGCCAGGTCCGGCCAGTCAAGGTCGAAGGCCAGTCCGGTCTCCTCTCCGACTACGGCCAAGAACTGGGCGACGGTGTCAGTGCAGACCAG

(SEQ ID NO. 357)

CGGAAACTGGTGGCGCCCTAGGCGAGCGACCGCCTCACAAACGGCGGTGACCGCGTTCTGGTCGTGCACCATCGAGCCGTGCCCAGCCCGGCCGCGTGCCGTCAGC

CGCATCCACTGGATGCCCTTCTCGGCGGTTTCAATCAGGTACAGGCGACGTTCGCCACCATCGTGCCGGGGCACGGTTAGCGAGAAACCGCCGACTTCACGATTGC

CTCGGTGATGCCGTCGAAACAGATCGGGCCT

:::::::::::::Rv290T7.seq:::::::::::::

GCGCGCCATGTTGAGGTTGTCCGACGGTGACGACGGTGAACCACAACTGTTTGACCTGTCCGCACACACCGTGTGGATCGGCGAGCGGACCCGACAAATCGATGGC

(SEQ ID NO. 358)

GCGCACATCGCGTTTGCCCAGGTGATTGCTAATCCGGTCGGGGTCAAGTTGGGCCCCAACATGACCCCGGAACTGGCCGTGGAGTACGTCGAGCGGCTCGACCCGC

ACAATAAGCCGGGCCGGCTGACTTGGTGAGCAGGATGGGCAACCACAAGGTCCGCGATCTGTTGCCACCGATCGTGGAGAACGTCCATGCCACCGGGCATCAGGTC

ATCTGGC

Clone Rv291

:::::::::::::Rv291SP6.seq:::::::::::::

TTGCCTTCCATGCCGAGCAAGGTCGACTCAGCGATGACGAATTGTTCTTCTTCGCGGGTGTTGCTGCTGGTTGCGGGCTATGAGAGCACTGCTCATATGATTAGCA

(SEQ ID NO. 359)

CATTGTTTCTGACGCTGGCCGACTATCCAGATCAGCTGACACTCCTTGCGCAGCAACCAGACCTGATCCCGCCGGCGATCGAGGA

:::::::::::::Rv291T7.seq:::::::::::::

CGACGCTGGGCCCAACTGCGACCACCAGGTCCTGGTATGGCAGGACATGGCCGGGTTCAGCGGCGCCAATACCG

(SEQ ID NO. 360)

Clone Rv292

:::::::::::::Rv292SP6.seq:::::::::::::

TAACGACTCGGGTCCAGCGACCGCGCCAACACNAACGGCCGGACNACGTGGGCCAGGGTCGCGGCCTCCCCTACAAACAGGATCCGTTGCCTGCGAACGACAGGCT

(SEQ ID NO. 361)

CCGGTGCGGCGTTGGGCGCCGTGCTCGTCCCAGCGTCCGGTCCCGGGTCGCCGGCGACGCTTGTTTCCTCCATACTCGCCCCCTAATCTCGAGGCAGCCCGTACCC

GCAGGCAACCTCCCAAAAATGCAATCCCCCAAAATGCAATGCGTCNAGCTATTTCTCACACCGACCGCTAGTTGCGGATCANAAATCCGTTGGGCGCGGA

:::::::::::::Rv292T7.seq:::::::::::::

CNTGGCGGTGGGTGCGGTGTCGAACACGACCACACTTCTTTGCGGTTCGGTGATCTCGACACCGGCCGCGAGCCGACCACCATGCGCGCGTAGATCGGCGATCAGC

(SEQ ID NO. 362)

GCGTCGGCTATCGCCTGGGTGCCGCCCACCGGAATCGGCCAGCCGACCGAATGGGCCAGCGTTGCCATCATCAGTCCGGCGCCGGCCGACACCAGTGACGGCAACG

GTGAAATCNCGTGGGCGGCAACGCCGGTGAACAACGCGCGGGCATCCTCGCCCGCCAGCGACCGCCAGGCAGGGGTGCCCTGGGCCAGCATCCGCAGCCCGAGACN

CAGGACCGANCCCAGTG

Clone Rv293

:::::::::::::Rv293SP6.seq:::::::::::::

GCTTTTCNGATCGCAGCGAGTCGTACCCGCGCCGGTCACCTTCGTGGATATCGCCGGCCTGGTCAAGGGGGCGTCCGAGGGAGCCGGGCTGGGTAACAAGTTCCTG

(SEQ ID NO. 363)

GCTCATATCCGCGAATGCNACGCCATTTGTCAGGTGGTGCGGGTGTTCGTCAACAACNACTTGACTCATGTCACCGGACGGGTCGATCCCCANTCCGACATTGAGG

TCGTCGANACCGAGCTGATCCTGGCANATCTGCAAACCCTGGAGCGGGCCACGGGCCGGCTGGAGAAGGAANCGCGCACCAACAAGGCGCGCAAGCCGGTCTACGA

CGCGGCACTGCGTGCCCAGCAGGTGCTCGACGCCGGCAANACGCTGTTCGCCGCGGGGGTGGATGCCG

:::::::::::::Rv293T7.seq:::::::::::::

GTCGTACGCCATTNGTCGGTGTGCGCATACCAGTACGACGCGCCGGGCACCTGACGCGGCGGCCGCGACCAGTCGGTGGCCATCGCCATCGTCTGCCACCCGGTCA

(SEQ ID NO. 364)

ACGGACGCACCTTCTCCTGGCCGACGTAGTGCGCCCACCCGCCGCCGTTGCGTCCCATCNATCCGGTCAACATGAGCAGCGCCAACACCGAGCGGTACATGACATC

GCTGTGGAACCAGTGACAGATTCCGCCGCCCATGATGATCATCGACCGTCCTCCGGATTCGGTCGCGTTGCGGGCGAAATTCCTTGGCAAACCGGATTGCCTGCGC

GGCCGGCACACCGGTGATCGACTCCTGCCAGGCCGGGGTGTTCTGCTGGGTTCGGTCGTGGTACCGGT

Clone Rv294

:::::::::::::Rv294SP6.seq:::::::::::::

GCGAGGCGGTATCGCTTCCCGTCGTACCGGCGACCGCCAGCCGAGAAGCTCGTTTTCCCAGTGTTGCTGGGGATTCTCACGCTGCTGCTGCNTGCGTGCCANACCG

(SEQ ID NO. 365)

CTTCCGCTTCGGGTTACAACGAGCCGCGGGGCTACGATCGTGCGACGCTGAANTTGGTGTTCTCCATGGACTTGGGGATGTGCCTGAACCGGTTCACCTACNACTC

CAAGCTGGCGCCGTCTCGTCCGCAGGTCGTTGCTTGCGATAGCCGGGAGGCCCGGATCCGCAATGACGGATTCCATGCCAACGCTCCGAGTTGCATGCGGATCGAA

TACNAATTGATCACCCA

:::::::::::::Rv294T7.seq:::::::::::::

TGGGTCTTGCCGGCGAGCCCAGCGAAGTCGCTAGCGTGGCCGTGTTTCTTGGCTTCGGATCTATCCTCGTTACATGACCGGCACCGTGTTGGACGTGACTGGCGGC

(SEQ ID NO. 366)

CGGTTCATATGACACCGAGATCATTGCCACGGTACGGCAATTCGTCAAGAAGGAAATCTTTCCCNATGCACCGGCCCTCGAACGTGGCAACAGCTACCCGCAAGAA

ATCGTCGATCGGCTGGGTGTTATTGGCTTGCTCGGTCGCCGGCTGCAAGGGTATCGACACCACCGAGTTCATTCTCGGGCGTGCCGGCGCATTCGAGCTGGCGGTG

CGCGCTGCCCAGCACCGTCATAAGTACTTGANGATGGTCAAACGTCGGACGAACCGCCACCACGTCGCTGCCGAACGG

Clone Rv295

:::::::::::::Rv295SP6.seq:::::::::::::

TAGATGCCCAAGCTTGCCNTTANAGACCTCGTCGACCAAGCACGGACGCGACCGTCGAAGGTGGCGAATCCGGGCTTGGCGTCNACCCGCGTAAGGCAGACCAGAT

(SEQ ID NO. 367)

GGTTCGCGGCACGGTCAACCTGCCACACGGCACTGGTAAGACTGCCCGCGTCGCGGTATTCGCGGTTGGTGAAAAGGCCGATGCTGCCGTTGCCGCGGGGGCGGAT

GTTGTCGGGAGTGACGATCTGATCGAGAGGATTCAGGGCGGCTGGCTGGA

:::::::::::::Rv295T7.seq:::::::::::::

TCTCCACGGCGTGGATCAAGGTACCGGCCGGGATGTTGCGCAATGGCAGGTTGTTGCCCGGCTTGATGTCTGCGTTAGCGCCGGATTCCACCACATCCCCTTGCGA

(SEQ ID NO. 368)

AAAGTCCGTTGGGTGCAATGATGTAGCGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCGTACTCGATGTGCGCGACCTTGGC

GTTGACACCATCTTTGTCATTGCGGCGAAAGTCGATCATCCGGTAAGCGCGCTTATGACCGCCGCCTTTGTGCCGGGTNGGTAATCCGGCC

Clone Rv296

:::::::::::::Rv296SP6.seq:::::::::::::

GCCCGGTTCGATCGGGCATGTCCGCAGTCGTCGTTACCGGAGGCGGTCGTGGCCGCGCTAATCGGCGTCGGCGCCGACAAGATGTGGGATATCCGCAATCGGGGCG

(SEQ ID NO. 369)

TCATCCCTGCGGGCGCGCTCCCCCGCGTCCGAGCCTTCGTCGACGCAATCGAGGCAAGTCACGACGCGGATGAGGGGCAGCAGTGAATTACAGCGAGGTCGAGCTG

TTGAGTCGCGCTCATCAACTGTTCGCCGGAAACAGTCGGCGACCGGGGTTGGATGCGGGCACCACACCCTACGGGGGATCTGCTGTCTCGGGCTGCCGACCTGAAT

GTNGGTGCGGGCANCGCCGGTATCNACTCCCGTGGAACACAGCCGGGGC

:::::::::::::Rv296T7.seq:::::::::::::

CTCGGCGTGGATATCGGTGTAGCCGGCGCCGGTGAANGTCGGCTCCTTACGTCCACTCGACAACAGCTCATAGCGATCCAACCAGTANGCAACCGCCTTCAGCAGT

(SEQ ID NO. 370)

ACAACCGCGCCGGCGAACACTGCGAGTTGAACGCGAGCTGCCTGGGTCAGCATGCCTCTGCCGGTTGTCAGCCGAAGGCCGCCGAACAGGTAATGCGTCAACAGGC

TCGCTAGAAACGCCAGAACCACGGCCACGAACAGCCAGTTCAGCACCGACCGGTAGAACGGCAGATCGAAGACGAAAAAACCCAATGTCATAGCCGAATTCGGGGT

CCACGATGCCAAAGGTGCCCCCGTGTACAACAACTGAACCTTCACCCA

Clone Rv29

:::::::::::::Rv29SP6.seq:::::::::::::

TCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTC

(SEQ ID NO. 371)

AAGCTTCACGTCCGTACGGCTCGGGTACGCTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGT

TGCTCACCGGAATCCAACCGGTAGAAGGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCAGCACTCCGC

AGGCTTCGTCGGGGTGGTCGCGACGCGCATGGGCCACCATCGCATTCACCAGGTCTGCGCGAATCACCAGCACGTAGACGGTTCCTTTCCTAAGCAACACCGAAGT

TTCAGGACCGAATGCTCCGGGAAACATGTCA

:::::::::::::Rv29T7.seq:::::::::::::

CAGGCATGCAAGCTTGATGCCGCCGAAACCGAGCGTGAGCACGCCGCCAGCCACCACGCCCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCGGTGA

(SEQ ID NO. 372)

TGGCACGCCACCGCGACACCACCCGGCTGCGCTACGTCGAGCCATACCGGGCGGAGCTCCATCCGCTCGGCCGCCAGTGTCCGGGCCCTC

Clone Rv2

:::::::::::::Rv2SP6.seq:::::::::::::

CCTGCATCCGGCTCGTATGTTGTGTGGAATTGTGANCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGA

(SEQ ID NO. 373)

ATACTCAAGCTTCCAATCCCCCTGCCCTGATACGCGTCGGCAACCGTGAACGCGATCTCGGCGACCGTCGGATCGGTTTCATCCCGCACAAAACGCGCGTCGGCTA

CGGGGTCGCTTCCGTCGGTCACCACCCAGACGAAGTGGTCGACGTAGTCGACTTCCGACAGGTAGTGCATCAACGCCGGACTGGGAACACNAGCCGACATGAACCG

TCGATACAGCGTCTCNCCGGAGAACTGGATGTGTCCGTGCACGGTCCGCTCGCGGTCACCGGGCAGCACGGGGCGTAACATCAGTTGAGTCCCGTCGGCAAGCCGT

ACCGGAATCGGGGAGACGA

:::::::::::::Rv2T7.seq:::::::::::::

CAAGATGATCGCCGGTGCCACCCCGATCCGTGCCTCGGTCAGCGCGAACGTGCTTTCCGGTCCGGCGACCACCATGTCGCACGCACCGACCAGGCCGAACCCGCCG

(SEQ ID NO. 374)

GCCCGCACATGCCCGTTGATGGCGCCGACCACCGGCAGCGGCGACTCGACGATGGCGCGCAACAGCGCCGTCATTTCCCGCGCCCGCGCCACCGCCATCCGGTACG

GATCACCACCACCACCGCCGGCCTCGCTGAGGTCCGCGCCGGCGCAGAACGTTCCGCCGGTATGCCCCAGCACGACCAGCCGCACCGCCGGATCTGCTTCGGCCGC

ACTCAGCCCTTGATGTAGTTGGCTGACCAGCGTGCTCGACAGCGCGTTGCGGTTGTGCGGAGAGTTCAGTGTCAGCCTGGCGAAGGGGCCGCCGCAGGCGGCCGGG

CCAGCGTAGTCGACGGGGCTG

Clone Rv301

:::::::::::::Rv301SP6.seq:::::::::::::

CTCAAGCTTCGATCGACAGTACTCCCGCCTTGGGTCTGGTCTTCGAGCTGGTCGGTCATGGTCGGACCTGCTGGTAGTGGGGATCTAACGCAACATGGTCGGGATT

(SEQ ID NO. 375)

CATCATGGTGTACCCGTGATACCCATTCGCAGCTGCCGGTGAAACCCCGCGATGCCGGGATTTCCAGCCGCACTAGGATGTCTAGCCGGCCAGCCGCTGCCGCCGG

ACTTCGGGATGTTCGGTATACCACCGATCGGCAATCTTGCNTATCCGCCGATGCTCGAACGCTAGCCACCCCAAACCAACCACTGTGACNACAATC

:::::::::::::Rv301T7.seq:::::::::::::

TGAATTTCCCGATCCCACAATCTCGGTTCAGATACAGGTCGCCATACCCCTTACTTCGGCAACGCTGGGCGGATTGGCCCTGCCGCTGCAGCAGACCATCGACGCC

(SEQ ID NO. 376)

ATCGAATTGCCGGCAATCTCGTTCAGCCAATCCATACCCATCGACATTCCGCCGATCGACATCCCGGCCTCCACTATCAACGGAATTTCGATGTCGGAGGTCGTGC

CGATCGATGTGTCCGTCGACATTCCGG

Clone Rv302

:::::::::::::Rv302SP6.seq:::::::::::::

TACTCAAGCTTGAACGCTGCGAGCGAGCCCATGTAGAGCGTTTGGTACCAAACCGATCGGTGGGCCAACTTGCCATGGGCTCACAGCGGCTATCGCGAGCGTGTAG

(SEQ ID NO. 377)

CCGATCATCGGCCAGGCGACGGTGGCCTGAGCGGCAGGGGTTGCCTTATCCATCCTCTTGCGGCATGGTTGCCGCAGGGAGTGCCGGTAAGTCTGGTCGGCAACCT

GGCCCGCTGCGGGTTGGGTTCGGATTCCCTCGGCTAGTAAGGTGCTCGCCTGGTGTTACAACGAATCGCTAGACAGCTCTTATCGGGAGTGGCCGTCGCGATCGTT

GCGCTGCCGCTGGCGATCGCGTTCGGCNTTACCGCCACCGGAACGTCCCAAGGTGCGCTCATCGGGCTCTACGGCGCCATCTTCGCCGGATTCTTCCCNGCCGTGT

TCGGTGG

:::::::::::::Rv302T7.seq:::::::::::::

GCGGTGTCTGAACTTCGCCCGTTCCCTCCAGCGCATTGAGCTTCAGCCCGACCGGCAGGTAGGGAGTCGGCATGCGGTCCTTCGCCCCGACCCCGCTGGCTAAATA

(SEQ ID NO. 378)

GCCACCCCCGAGCGCGGTCACGGTCTTTGCACCGGGACGACGGCATACCGGCAGCGCGAACATCGCCGCGGGCTGCAGCGTGAACGTCGAATACGAGTCGAACAGT

GTCGGCGCGTAAAAACCCGAGCCGGCGGTCGCTTCGGTAATCAACGGCTCCTGCGCAACCAGCTGCAANTCNCCGGTGCCACCGGCGTTGACAATCTTGATNTCGG

CGACCTCGCGCACCAN

Clone Rv303

:::::::::::::Rv303SP6.seq:::::::::::::

TACTCAGCTTCGGCTCAGGTGGTGCTGCTGGTAAAGTTCNCTGAACGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGGTACTGCCATCGAGACACTGGCGC

(SEQ ID NO. 379)

AGGCTATCGCACCCGTTATCGGCTACAAACAAATCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGAT

CGCCGTCAAGCNTGTGTGCCGCGGATTATCAGGACTGACCTCCTGGCTGACCGGCNTGTTTGGTCNCGATGCCTGGCGCCCGGCCGGCGT

:::::::::::::Rv303T7.seq:::::::::::::

CATCACCTGGTTCATGAAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCGGGTGCAGGTGCTCGGGCAGCTCGGC

(SEQ ID NO. 380)

CGCGACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACGAACGACGCCAGTCCGCTACGTAACCCCTCCGCGACTGTCCATGGACAACANCGCGTTCTC

CACCGACCGGGCCCGGGTGTGGGGTGTT

Clone Rv304

:::::::::::::Rv304SP6.seq:::::::::::::

CTCAAGCTTCCCGGCGGCCAGTACCGAAAGCGCGAACAGCTCGCGGCAGCCCACAACNTGCTGCGTCGGATTGCCGGCGGCGANATCAATTCCAGGCAGCTCCCGG

(SEQ ID NO. 381)

ACAATGCGGCTCTGCTGGCCCGCAACGAAGGACTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGCTTG

ATGCCCGGTCGGCAAGCCCGGCAGTTGCCAAACCCAGCGTGATCAGGCTCGGCTCGCGAGTTCGGCGAAGAAGTGGCTCGCCTGATCACCTACCATCGGCCAGGAT

CTGCGTGTCATCACNACGCTCGCCAAGGAGGTTGTTGTGGTGCT

:::::::::::::Rv304T7.seq:::::::::::::

GCCACGTTTCGCGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGCGGGTAATCGCCGACGGTGCCGGTTCGCGAGCCGAAGGTGACGACGCT

(SEQ ID NO. 382)

GATTGAATCGAGTTCCAGGTCCAGCGGGTGGCGCAGCAACGGCGCGAGCTCAACGACGTCAATCACGTTGTCGCTTTCTACGGTCACCGACCCGGTGACCGTAGTC

GCCCGGTGCGCTCGGCCGAGAAGTTGCACCGCCACCACCGCGACACCGTCTTGCACGCGGACGCCACCCCCGGATCGGTTGTTGGCCAAGGTAATTGGGTCATTCC

ATTTGACGGGACGCCGACCCCGCAGCCCCAGTACCGCCCACGACCACGCCGGCTGACCCCACCACTGTACGAACACCAAGGCGACGCCGACCA

Clone Rv306

:::::::::::::Rv306SP6.seq:::::::::::::

CTCAAGCTTGATGCCGCCTAAACCGAAGCGTGAGCACGCCGCCACCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCGGTGATGGCA

(SEQ ID NO. 383)

CGCCACCGCGACACCACCCGGCTGCGCTACGTCAAGCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAGGTCNAGGTCNATA

CCGATTTGCGCATCCGCAGCCGCACCCTGGACGACAGAACCGTGCCCTACGAGTGCTTGTCGGGCGGGGCCAAAGAACANCTTGGCATCCTGGCGCGATTGGCCGG

CGCGGTCCTGGTC

:::::::::::::Rv306T7.seq:::::::::::::

CTCGGGTACGCTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGTTGCTCACCGGAATCCAACC

(SEQ ID NO. 384)

GGTANAANGTCGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCAGCACTCCGCAGGCTTCGTCGGGGTGGTC

GCGACNCGCATGGGCCACCATCGCATTCACCAGGTCTGCGCG

Clone Rv307

:::::::::::::Rv307SP6.seq:::::::::::::

CTCAAGCTTCAATTCCTCCACGACGCGTTCCCAAATGAATTTCCCGATCCCACAATCTCGGTTCAGATACAGGTCGCCATACCCCTTACTTCGGCAACGCTGGGCG

(SEQ ID NO. 385)

GATTGGCCCTGCCGCTGCAGCAAACCATCGACGCCATCGAATTGCCGGCAATCTCGTTCAGCCAATCCATACCCATCGACATTCCGCCGATCGACATCCCGGCCTC

CACTATCAACGGAATTTCGATGTCGGAGGTCGTGCCGATCGATNTNTCCGTCNACATTCCGGNGGTCACCATCACCGGCACCAGNATCGACCCGATTCCGCTGAAC

TTCGACGTTCTCAGCAGCGCCGGAACCA

:::::::::::::Rv307T7.seq:::::::::::::

TTAACCCCCGTGGCCTCTACGCCGCCTNCGGGTCGAACATGCATCCCGAGCANATGCTCGAGCGCGCACCCCACTCGCCGATGGCCGGAACCGGCTGGTTACCCGG

(SEQ ID NO. 386)

GTGGCGGCTGACGTTCGGCGGCGAGGACATCGGCTGGGAAGGGGCGCTTGCCACCGTCGTCGAAGACCCAGATTCGAAGGTGTTCGTCGTGCTCTACGACATGACC

CCGGCGGACGAGAAGAACCTTGACCGGTGGGAAGGCTCCGAGTTCGGCATCCACCANAAGATCCGATGCCGCGTT

Clone Rv308

:::::::::::::Rv308SP6.seq:::::::::::::

CTCAAGCTTGATTTTGATCATCATGGATGATCATCACCCGAAGTGTGGTAGCCGCAGTGGTTATCGTGGGTACCGTCGTGCTTTCCATGGGCGCCTCTTTCGGGCT

(SEQ ID NO. 387)

TTCCGTATTGGTCTGGCAGGACATTCTGGGTATCGAGTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCCTGGCGGTGGGATCCGACTACAATCTGCTG

CTGATTTCCCGGTTGAAAAANGAAATTGGGGCCGGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGGGAGTGGTGACGGCTGCCGGCATGGTGTTCG

CCGTTACCATGTCGTTGTTTGTGTTCAGCGATTTGCGAATTATTGGTCAGAT

:::::::::::::Rv308T7.seq:::::::::::::

CGNCCAACCCGAATTGGTTTTCGGCGCCNTCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACCTCGATGCTGCCGCCATGGACGCG

(SEQ ID NO. 388)

GTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCNCNGGCGTTACCGCATCCCGTTGACCGGGCGGATCGCGGTGATCGTCGATGACG

GCATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCGATCGGCCCANACGACATCGTGGC

GAGATTCGCCGG

Clone Rv309

:::::::::::::Rv309SP6.seq:::::::::::::

CGTGACTGCCACCGGGGCCACTCCGCAGAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTG

(SEQ ID NO. 389)

TCNACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACNCAGCGGTTCCNCTGACCAATACGGTCGGTC

CCACGATGACCCANTACTACNTCATTCGCACGGANAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACC

AAACTTGAAGGTGATTGTTAACCTGGGG

:::::::::::::Rv309T7.seq:::::::::::::

TCGCTCAAGCGCNTGAGGCCGAANCGGCTGGTTACGACTCCCTGTTTGTGATGGACCACTTCTACCAACTGCCCATGTTGGGGACGCCCGACCAGCCGATGCTGGA

(SEQ ID NO. 390)

GGCCTACACGGCCCTTGGTGCGCTGGCCACGGCGACCGAGCGGCTGCAACTGGGCGCGTTGGTGACCGGCAATACCTACCGCAGCCCGACCCTGCTGGCAAAGATC

ATCACCACGCTCGACGTGGTTAGCGCCGGTCGAGCGATCCTCGGCATTGGAGCCGGTTGGTTTGAGCTGGAACACCGCCAGCTCGGCTTCGAGTTCGGCACTTTCA

GTGACCGGTTCAACCGGCTCGAAAAGGCGCTACANAT

Clone Rv30

:::::::::::::Rv30SP6.seq:::::::::::::

ATACTCAAGCTTCCGCTGGGGCCTGTTCAACCATGGCGATCCCGTTGGTCCCGGACATCCCGAACGAGGACACCGCGACCCNCTTCGGTGTGTGATCATTACCGTT

(SEQ ID NO. 391)

GGGCCACTGCGTAACCGCTTGCGGCACAAAGAGCCCGGTCTCGACGTCGGAAAGCTCATCGGGCACCCGATTGAAATGCAGCAGCGGCGGCACCACCCCGTGCCGC

AGTGACAGAATTGCCTTGATCAGCCCGACGGTCCCCGCCGATGCCGTGCTGTGCCCCATGTTGCTCTTGGCCGATCCAAGCGCGCAGGGGGTGCCCGCGCCATACA

CCCGCGCCAGGCTGCGGTACTCAATCGGGTCGCCGATTGGCGTACCGGTGCCGTGCGCCTCCACCACACCGACCGTTTCGGGCTG

:::::::::::::Rv30T7PEG.seq:::::::::::::

CAACAGCGTTCCAGCGGCATACCACCGCACATGCCGTGCACCCGGCGCCGGGCGGAGTCGCCGCATAACACANGTACACCTTGGGAATCGGTGTGCGCCAGGGATT

(SEQ ID NO. 392)

CNACCGCGGGGTGGGGCCGGCGATCGCGCGCCAGGTCGAGTTGGCGCCGACCGTGATNTCACCGCCGACGTAGTTGGCGTTGTGGTCCGCCATCCGCGCGGCGGGC

ACGGCGCGGGCCGCCACCACGATGTCACGGAAGCCGGGGGCGAACGCTCGACGACCTGGTTACCGTCTCNGTCGCNTCNANCGTGGACCCGACNGCACGTGGGCAT

ATGTCCANAACGGACGNGGCCGGTTTCNTCGATGCNGCCGGGGTCCGCGACNTGCGGACNCNCNGNCACACCATCCGCCAGTCCGCGTGGCGTCCCGCCGCGACTC

TGCCTCGGCCGCGCCA

Clone Rv310

:::::::::::::Rv310SP6.seq:::::::::::::

CTCAAGCTTTGNCGACGATCGGGCGATGTCGATGANAGGAAACCCCAGCGCACAACCGACNATTTTGGCGTAGCCGGCGGACNTCTGCTCGATTCCGATCACGTCG

(SEQ ID NO. 393)

GCGCTCGCATCGAGCATGGCGCCGGCGACGGCTAGCAGCGATCCGCCGTCGTCGAGGAACACGACACGAGCCGTACGCCCGGCCGTAAGCCGCGCCCAGGATTCGG

CGAAAAACCGTTCTACGTGGCGGGTGTACTGGGTGTCCAATGATTCGTGGGGTGCGTAGGCGTCGCTGCAATCGTCGACATAAATGCCGTCGGCCCGCATCGCGTC

AACAACTCCCGGGTGAGTGGAATANCACTTGCCGA

:::::::::::::Rv310T7.seq:::::::::::::

TCCAACGCGGTGACAGATTTGTCTATCCTGGACCTGACGGTGAGGTCGAAGTTTTCCAGGAATTCGGCAAAATCGGTAAGAGCCTGAAGAATTCGGTATCGCCGGA

(SEQ ID NO. 394)

CGAAATCTGCGACGCATACGGGGCAGATACGCTTCGGGTTTACGAGATGTCGATGGGGCCGCTGGAGGCTTCACGTCCATGGGCCACAAAGGATATTATCGGCGCG

TACCGTTTTCTGCAGCGGGTGTGGCGCTTGGTCGTCGACGAGCACACCGGCGAAACTCGGGTGGCTGACGGCGTGGAACTCGACATCGATACGCTACGGGCGTTGC

ACCGCACCATCGTCGGCGTGTC

Clone Rv311

:::::::::::::Rv311SP6.seq:::::::::::::

CTCGTCCTTGACTACGCCCAGTATCGAAANCCTCCTGTGCCGGTNCGCTAAACACCCGGCGGACACTCANACGGTGCTGGTGGTGCGGCATGGCACCGCGGGCAGC

(SEQ ID NO. 395)

AAAGCGCACTTCTCCGGGGACGACAGCAAGCGACCGCTAGACAAGAGGGGTCGTGCGCAGGCAGAAGCGTTGGTACCACAGCTGCTGGCGTTCGGCGCCACCGATG

TTTATGCCGCCGACCGGGTGCGCTGCCACCANACNATGGAGCCACTCGCCGCGGAACTGAACGTGACCATACACAACGAGCCCNCCCTGACCGAAGAGTCCTACGC

CAACAACCCCAAACGCGGCCGACACCGAGTGCTGCAGATCTTCG

:::::::::::::Rv311T7.seq:::::::::::::

GTATCGCCTCCNCCTTTGGCCACCAGCAGCCACAGCGCGGTTCGCGGACCGAACGTGGACATCAATAGCCCGGAATCGGTGTGTGCAAGTTGGTAAACGGTGTTGA

(SEQ ID NO. 396)

TCCCAAGCTTTGCCAGCCTTTTCGTAGTCTTGGGCCCCACACCCCACAGTGCTTCGACGGTACGGTCACCCATGATGGCCATCCAGTTGGCATCGGTGAGCTGATA

GATGCCAGCTGGTTTCGCCAACCCGGTAGCGATCTTGGCGCGCTGCTTGTTGTCACTGATACCTATCGAGCAAGACAGCCCGGTTTGCGACAAGATGACTTTTCGG

ATCTCTTCNGCGAACTTCCAATGGGGGTCTCCGGGANT

Clone Rv312

:::::::::::::Rv312SP6.seq:::::::::::::

CTCAAGCTTTTGGTCTAGCCGGCCGAGCACGATACGGGTGTCCTTGGCCACCGGCGGCGGCTGTCCGGGAAATGGCGGGTCCCCGGTGGTTTTGCTGANGANTGCT

(SEQ ID NO. 397)

GAACCGTAGTCGAAGTGGGCGGCGTCAGACTCCACCCAGCCAGCAGGCAGCGCGAAGCTGAATCCTCCAACCGGGTTGTCGATCCGGACAGGTTGGGGTGCGTTTG

GGGCAATGACAGGTGGCGGCGGTGCGTTCGGGTCGGCCGGCGGAGGTGCTGCGTTGGGATCNCCCGGCTGGGCATTCGGCNTNTTGGCGGCGGCCGGTGGTGGGGG

GGCAACANGTGTCCCGGTGCGGGTGGCGCTGC

:::::::::::::Rv312T7.seq:::::::::::::

ATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTA

(SEQ ID NO. 398)

CTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCAATACGGTCGGTCCCACGATGACCCAGTACTACATCATTCGC

ACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCT

ACGGCGACCCGGCCTATGGTTATTCGACCTCGCCGCC

Clone Rv313

:::::::::::::Rv313SP6.seq:::::::::::::

CTCAAGCTTGCAATGCGGGTCGGGATGCCCATGGTTGGAANATGGTCGCCCTGGCGTCNAATACGCGCGAGCGCATGAGCTCACCGGTTCGGAACAACGTATCGAA

(SEQ ID NO. 399)

AAACGTCGCACTGCTGGCAGATGGTATCTCCGATGTGGTTGTAATTTGTATCCCAACTCTAACTGTGCTATCGGATCAGCGTGAATATCGANATATTGCGAATGCG

ATGACAGGCCGCCATTCGGTTTATTCGCTTACGCTTCCCGGGTTCGATTCGTCTGATGCACTGCCGCAAAACGCGGATATGATTGTTGAAACCGTATCTAACGCAA

TTATTGATGTGGTAGGCGGCAGCTGCCGTTTTGTGCTGTCGG

:::::::::::::Rv313T7.seq:::::::::::::

CAAATACACGCCGGACGCACAGGCGGACATCGCCATCCCGAGCACACCCAAAACGGGATACAGGATGGAGGCCAACGCCACGGCCGCGCCCAGGATCACCAACCAC

(SEQ ID NO. 400)

ACCGGCTTGGTCAGCTTGTCGGCGGCGGTATAGGCATCGGGCCGCTGCAACGCAGCATGCACAAACGCGTACACCGCTGTCACCAAGACGGCGACCAGCAATACCA

GCATGACGGTACCCACGAGGTGGCTCACGCATTCAGACTATGCGGTTTGCATCCAACACG

Clone Rv314

:::::::::::::Rv314SP6.seq:::::::::::::

CTCGTCCTTCGGCCTCGCTGCAGGAGTGGGAGCCGCAGGGCTGGAAATCCGAAAAACGAGCCGGTGATCGCACTGTCGCCGATCGGCGCCGCACCTGGTTGGTGTT

(SEQ ID NO. 401)

ACGGATGAATCCGCAGCGAAATGTGGCTGCGGTGGCGTGTCGTGACTCGTTGGCGTCGACGCTGGTGGCAGCCACCGAGCGGTTGGTCCAGGATCTGGATGGGCAA

AGTTGTGCGGCCCGGCCGGTGACGGCCGATGAGCTGACCGAGGTCGACAGCGCCGTGTTGGCTGACTTGGAACCGACATGGAGTCGCCCCGGTT

:::::::::::::Rv314T7.seq:::::::::::::

GTCTAGNCCGCCGAACACGATACGGGTGTCATTGGCCACCGGCGGCGGCTGTCCGGGAAATGGCGGGTCCCCGGTGGTTTTGCTGAAGANTGCTGAACCGTAGTCG

(SEQ ID NO. 402)

AAGTGGGCGGCGTCAGACTCCACCCAGCCAGCAGGCAGCGCGAAGCTGAATCCTCCAACCGGGTTGTCGATCCGGACAGGTTGGGGTGCGTTTGGGGCAATGACAG

GTGGCGGCGGTGCGTTCGGGTCGGCCGGCGGAAGTGCTGCGTTGGGATCGCCCGGCTGGGCATTCGGCGTGTTGGCGGCGGCCGGTGG

Clone Rv315

:::::::::::::Rv315SP6.seq:::::::::::::

ACTCAAGCTTGAGATTGGCGTCAACGGGTGTCGGCACCGGCGTCCTGCAGTTGGTAGGCCTGCAGTTTGTGCATCAGGCCGATGCCGCGGCCCTCGTGGCCACGCA

(SEQ ID NO. 403)

TGTACANCACCACGCCGCGCCCCTCACGGGCGACCATCGCCAGCGCGGCGTCCAGCTGAGGCCCGCAATCGCAGCGGCGTGACCCAAACACATCGCCGGTCAAGCA

CTCCGAATGCACCCGGACCAGCACGTCG

TCACCGTCGGCGTTGGGCCCGGCGATCTCGCCGCGGACCAGCGCGACATGTTCCACGTCCTCGTAAATGCTGGTGTANCCGATGGCGCGAAACTCCCCATGACAAN

TCGGAATCCCGCGCCTCGGCGACCCCGCTCAATGTTGCTTCTCNTGCTTG

:::::::::::::Rv315T7.seq:::::::::::::

TCGACNAGCATTCTTGACNGTTGTTTTGGCTCGGCATGGTTAGCCAAGGTTCTGCGGTCCCACCAGATCATCTTGGTCCGGTAGCGCTCGTCCGGGTATGCTGCCG

(SEQ ID NO. 404)

CCGGGATTCTCGCTGCTATTACTCCCCCCGAAGAACGCCACCGGTCCAGCGCGTGGGCCGCCGCGGTCCCCATCACAAACTGAACCCCCAACAGGGGACATGCTTA

GCGGTAGGGCGCGCGCCAAGGCGGCAGCAATCGCATCACTGCGCTGCGCGTCACTATTAACCCAGCCGGACTTCACTTCCACGACCCCGAATGGCGCCCGGTCATT

GATCATCTTGCGCACCGCGGATAATCCGGGAT

TG

Clone Rv316

:::::::::::::Rv316SP6.seq:::::::::::::

ACCGGGGCCACTCCGCACAATCTGTACCCGACCAANATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCNACCCTCA

(SEQ ID NO. 405)

ACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCNGCGGTTCCGCTGACCAATACGGTCGGTCCCACNATGAC

CCANTACTACATCATTCGCACGGANAACCTGCCGCTGCTAAAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAG

GTNATTGTTNACCTGGGCTACGGCGANCCGGCCTNTGGTTATTCCACCTCNCCGCCCAATGTTTGCNACTCCCGTTCGGGGTTGTTCCCNNAAGGTCAACCC

:::::::::::::Rv316T7.seq:::::::::::::

CGCTCAAGCGCNTGAGGCCGAANCGGCTGGTTACGACTCCCTGTTTGTGATGGACCACTTCTACCAACTGCCCATGTTGGGGACGCCCGACCAGCCGATGCTGGAG

(SEQ ID NO. 406)

GCCTACACGGCCCTTGGTGCGCTGGCCACGGCGACCGAGCGGCTGCAACTGGGCGCGTTGGTGACCGGCAATACCTACCGCAGCCCGACCCTGCTGGCAAAGATCA

TCACCACGCTCGACGTGGTTAGCGCCGGTCGAGCGATCCTCGGCATTGGAGCCGGTTGGTTTGANCTGGAACACCGCCAGCTCGGCTTCGAGTTCGGCACTTTCAG

TGACCGGTTC

Clone Rv317

:::::::::::::Rv317SP6.seq:::::::::::::

CTCAAGCTTGCGTTCGATGAAGTAGTCGTCGGTCAGCGCCGCCTCTTCGAGCTCCTTGGCGATGCCCAGCAAGGAGTCATCGCCGCCGAGCTTGGCCAGGATCTTG

(SEQ ID NO. 407)

TCGGCCTGTTCCTTGACGATGCGGGCCCGCGGATCGTAGTTCTTGTAGACACGATGACCGAAACCCATCAATTTGACCCCGGCCTCGCGGTTCTTGACCTTGCGTA

CAAACTCGCTGACGTCGTCGCCGCTGTCGCGAATGCCCTCGAGCATCTCCAGGACAGCCTGATTGGCGCCGCCATGAAGCGGACCCCATAGTGCGTTGATGCC

:::::::::::::Rv317T7.seq:::::::::::::

GGTCAGGCCGAGCAGGCGCGAGGAACGACGAACCCAACAAGCCATGGTGGTTGGCGCCGTCGAGAGGTCGGCGGTCGCCACAACGGGAAGATCGCCTTGAGCGTCG

(SEQ ID NO. 408)

CTCGACCGCCGCCTCGAGTTGGGTCATAACGAAGTAGCTGATGCCGATCATGTCGACGTTTCCGTCGCATCAGCGTGCAGCGGCGACCCACTCNACGAGGTCTCGG

TGCCGCCGCGGCCAGGGCACCAGCAGTGACGAGTCCAGGCGCCGTCGGGCCAAGCAGTCGCGGTGCCANCCGTGGTGGGTCGGGCGATGGTTGGGTGTGCTCATTT

CGGGAACGCCA

Clone Rv318

:::::::::::::Rv318SP6.seq:::::::::::::

CTCGAAGCTTTTAACAGCATCAACCCCGCCCCGCACCAGCACCGACACNATGTCGATGCCATCGAGGTGAATGTCGAACTGGCGCAAACCATCGGCGACCGCGACCA

(SEQ ID NO. 409)

CCGGCAACATGGGTACCGGCGATTTCCGGTGCCAATGCCGACCCGACGGGCCGCTCTCACCGCAGGTGACCTCGATCACCGAGACCANCCGGCCGTTNTNNTCACG

CACCCCTACCGTGTCACGCCCAAAACGGCGCTGGTGGTCGATTGCCGGAGTGCACCCCNCACCCAGTGTCGTGCCCGGATCC

:::::::::::::Rv318T7.seq:::::::::::::

TGATGCCGCACCCGATCGACGGTCGTTGGTCGGGGTTGACTGGCCGCCCGGCGAAGCAGGGCGTCGACCGCGGCCCGGACGTCGGCGGCCGTCACCGGTCGGCCAT

(SEQ ID NO. 410)

TGCCCGGGCGGGAGTCGTCGAGCTGACCACGGTAGACAAGTCGGCGCTGGCCGTCGAAGACNAACGTGTCGGGTGTGCAGGCCGCGGAGAAGGCGCGGGCGACNTC

TTGGGTTTCGTCGTANAGATACGGGAACGTCCAGCCGTGGCGGCGGGCCTCGGCGACCATCTGATCGGGCCCGTCC

Clone Rv319

:::::::::::::Rv319SP6.seq:::::::::::::

TTTCGGGCGAGGCGGTATANCTTCCCNTCGTACCGGCGACCGCCAGCCGANAAGCTCGTTTTCCCAGTGTTGCTGGGGATTCTCACGCTGCTGCTGANTGCGTGCC

(SEQ ID NO. 411)

AAACCGCTTCCGCTTCGGGTTACAACGAGCCGCGGGGCTACNATCGTGCGACGCTGAAGTTGGTGTTCTCCATGGACTTGGGGATGTGCCTGAACCGGTTCACCTA

CNACTCCAAGCTGGCGCCGTCTCGTCCGCAGGTCGTTGCTTGCGATAGCCGGGAGGCCCGGATCCGCAATGACGGATTCCNTGCCANCGCTCCGAGTTGCNTGCGG

ATCGACTACNAATTGATCACCCANAACCATCGGGCGTNTTACTGCCTGAAGTACCTGGTGCGGGTCGGATACTGCTATCCGGCGGTGACAACCCCGGCAAGC

:::::::::::::Rv319T7.seq:::::::::::::

GTTTTGGCTCGGCATGGTTAGCCAAGGTTCTGCGGTCCCACCAGATCATCTTGGTCCGGTAGCGCTCGTCCGGGTATGCTGCCGCCGGGATTCTCGCTGCTATTAC

(SEQ ID NO. 412)

TCCCCCCGAAGAACGCCACCGGTCCAGCGCGTGGGCCGCCGCGGTCCCCATCACAAACTGAACCCCCAACAGGGACATGCTTAGCGGTAGGGCGCGCGCCAAGGCG

GCAGCAATCGCATCACTGCGCTGCGCGTCACTATTAACCCACCCGGACTTCACTTCCACGACCCCGAATGGCGCCCGGTCATTGATCATCTTGCGCACCGCGGATA

ATCCGGGATTGCCAGCCCATTCNACTACCGCATGCGAGTCATCGGCTGACCGCAGCGGTC

Clone Rv31

:::::::::::::Rv31SP6.seq:::::::::::::

TCGCCTAGGCGGGCTTCCCCTTCCGTCCGAGCNGTCAGAAGCTCCTATGACAATGCACTACCCGAGACNATCAACGGCCTATGCAATACCNAGCTGATCAAACCCG

(SEQ ID NO. 413)

GCAAGCCCTGGCGGTCCATCGAGGATGTCGAGTTGGCCACCGCGCGCTGGGTCGACTGGTTCAACCATCGCCGCCTCTACCGGTACTGCGGCGACATCCCGCCGGT

CTAACTCGACGCCGCCTCACTACGCTCAACGCCAGAGACCANCCGCCGGCTGACGTCTCAGATCAGAGAGTCTCCGGACTCACCGGGGCGGTTCATCCCCACTGTC

GATAGCGTCTGTGGATAACTTTGTCTGCA

:::::::::::::Rv31T7.seq::::::::::::::

GCGCGTNGAACTGATAGGTGCGGCCCGGCTCGAGCANGCCGGCCATTTGTTCGATGCGGTTACCGAAGATCTCTTCGGTGACCTGCCCGCCGCCGGCCAGCTCGGC

(SEQ ID NO. 414)

CCAGTGCCCGGCGTTGGCCGCCGCGGCGACAATCTTGGCGTCCACGGTGGTCTGGGTCA

Clone Rv321

:::::::::::::Rv321SP6.seq:::::::::::::

CTCAAGCTTCAATACAGAGTTATAAACTGTGATAATCAACCCTCATCAATGATGACNAACTAACCCCCGATATCAGGTCACATGACGAAGGGAAAGAGAAGGAAAT

(SEQ ID NO. 415)

CAACTGTGACAAACTGCCCTCAAATTTGGCTTCCTTAAAAATTACAGTTCAAAAAGTATGAGAAAATCCATGCAGGCTGAAGGAAACAGCAATAACTGTGACAAAT

TACCCTCAGTAGGTCAGAACAAATGTGACGAACCACCCTCAAATCTGTGACAGATAACCCTCAGACTATCCTGTCGTCATGGAAGTGATATCGCGGAAGGAAAAT

Clone Rv322

:::::::::::::Rv322SP6.seq:::::::::::::

CTCAAGCTTCGATCGACATTACTCCCGCCTTGGGTCTGGTCTCCGAGCTGGTCGGTCATGGTCGGACCTGCTGGTAGTGGGGATCTAACGCAACATGGTCGGGATT

(SEQ ID NO. 416)

CATCATGGTGTACCCGTGATACCCATTCGCAGCTGCCGGTGAAACCCCGCGATGCCGGGATTTCCAGCCGCACTAGGATGTCTAGCCGGCCAGCCGCTGCCGCCGG

ACTTCGGGATGTTCGGTATACCANCGATCGGCAATCTTGCGTATCCGCCGATGCTCGAACGCTANCCACGCCAAACCAACCACTGTGACNACAATCGCCACCACAC

CAAAGGTCATGCCCTCGGCGTGATGTCCGGTGCCGAAAGCCGCAAGAGCTCCGACGCCGCC

:::::::::::::Rv322T7.seq:::::::::::::

CATTCCCAATTGAATTTCCCNATCCCACAATCTCGGTTCAGATACAGGTCGCCATACCCCTTACTTCGGCAACGCTGGGCGGATTGGCCCTGCCGCTGCAGCANAC

(SEQ ID NO. 417)

CATCGACGCCATCGAATTGCCGGCAATCTCGTTCAGCCAATCCATACCCATCGACATTCCGCCGATCGACATCCCGGCCTCCACTATCAACGGAATTTCGATGTCG

GAGGTCGTGCCGATCGATGTGTCCGTCGACATTCCGGCGGTCACCATCACCGGCACCAGGATCGACCCGATTCCGCTGAACTTCGACGTTCTCAGCAGCGCCGGAC

CCATCAACATCTCGATCATCGACATTCCGGCGCTGCCGGGCTTTGGCAACTCGACCGAGCTGCCGTCGTCGGGCTTCTTCAACACCGGCGGCGGTGGCGGCT

Clone Rv327

:::::::::::::Rv327SP6.seq::::::::::::::

CTCAAGCTTTCGGCGGAGACGGACANNTTGCGAACATTGATGACAAAATAGAAATCATTGATGGTTTGAGTCACCAGGCCGATCAAGCCTTCGCCGAGCCAAATTC

(SEQ ID NO. 418)

CAATCAAGAGGCCCAAGCCCGTACCAATCAGCCCGGCAACGAGGGATTCCGTCATTATCAGCCAAAATAACTGCTCTCGGGTTACACCCAAACAGCGCAATATGGC

GAAAAACGGTCGCCGTTGCACGACATTAAATGTCACGGTATTG

:::::::::::::Rv327T7.seq:::::::::::::

AGCTTAACTGCTCCCTAATACCTGGGGCTGTGCCTGCGGTGTATGCACGGCATACGGACATCCNTCCCCTGAGACCCNCGGTCTAATCAGCCACGTGTCCACCATC

(SEQ ID NO. 419)

AGGGGTCAACCCCGGCCAAGGGCGACGGCACCCCAAGTTCGCCGACCGTTAACCTATTGCTGTGAGCTTCATTTGCTGCGAGCAAAACAGTTGGTCGGCCGTTAGG

AACTGAATTGACACTCAACCGATTTGGTGCCNCCGTAGGTGTCCTGGCTGCGGGTGCGCTGGTGTTGTCCGCGTGTGGTAACGACCACAATGTGACCGGGGGAGGT

GCAACCACTGGCCACGCGTCCGCGAATGTCTATTGCGGGGG

Clone Rv328

:::::::::::::Rv328SP6.seq:::::::::::::

CTCAAGCTTGGGGTGGCGCTGTCGGTCGGTGTGCTTGGCGGCGTCGGTATCAACACCGCCCACGAAATGGGGCACAAGAAGGATTCGCTGGAGCGGTGGCTGTCCA

(SEQ ID NO. 420)

AAATCACCCTCGCCCAGACCTGCTACGGGCACTTCTACATCGAGCACAACCGTGGCCATCACGTCCGGGTGTCCACACCGGAGGACCCGGCGTCGGCGCGGTTCGG

CGAAACGTTGTGGGAGTTCCTGCCCCGCAGTGTTATCGGCGGCTTGCGCTCGGCCGTTCATTTGGAGGCCCAACGGCTGCGTCGGCTCGGCGTCAGCCCCCT

:::::::::::::Rv328T7.seq:::::::::::::

GCACCAAGGCCCCACACGTCACCCTGTGACCTCCTGCGCCGACCCCGCCCGAGGTCCTGGCCGTTACCACCTGAACGGGCGAGCCGGGAGTCTGGTACGCATCGAA

(SEQ ID NO. 421)

CAAAGAGCAAGGTGCATGGGCGGAGTTGTTCCGCCACTTCGTCGATGACGGGGTCNATCCATTCGAGGTCCGTCGCCGCGTCGGTCGAGTGGCGGTCACACTCCAG

GTACTCGACCTCACAGACGAGAGGACTCGATCCCATCTAGGTGTGGACGAAACAGATCTTCTGTCCGA

Clone Rv329

:::::::::::::Rv329SP6.seq:::::::::::::

TCGCCTCCGCATATGGGTCGACGCCAAGCGGGTCCGGATTTCTGGGCTTCATCGCTCGCGCCGTCGCGACAAACAGCGCGGTCGAACCGACACTCGTTGTGATGTC

(SEQ ID NO. 422)

CCAGCTATCACCTTCGGTACGCACCCAATCGACCCTACNCGGCTATCTCAGCCGCGATCTCCAGGCTCCGCCGAGCCAGGTGCATCCCGGTCCGGATCCCACTAAC

CCGGCACCATTGGCGTCN

:::::::::::::Rv329T7.seq:::::::::::::

GTCCTCGAGTGCCGCCGTCGNCACNCCCAGCGCCCGCGCGGCCACTTGGATGCGACCCGTTTCAAGTCCCTTCATCATCTGCGAAAAGCCTTGACCCATGGCTCCG

(SEQ ID NO. 423)

CCCAGGATCGCCGAGACCGGCACCCGGAGGTTGTCGAACGACAGCTCGCAGGATTCGACGCCCTTGTAACCCAACTTCGGCAAGTCCCGCGACACCGTGAGTCCCG

GCCCGGGTTCGACGAGCACGATCGACATGCCTTGGTGCCGCGGTGTGGCGTTCGGGTCGG

Clone Rv32

:::::::::::::Rv32SP6.seq:::::::::::::

GGCATACCAATGTGGACTTCTGCTCACCCACGATATCCGTGGTCTGATCCGCTGCTGCGGCGGGCTGCNACCTGCNTCTCNGCGGCACCCGTNACTACATGGCNCG

(SEQ ID NO. 424)

CGCCGCACGCATACGTCGCGGCGGGACCCACTCCNACTGGTCGACGGTGCTGGCCGCGTGTCCGCANGTCCCNAACCCGGCCGCACCGACGAAACCGGCCGCCGTC

CGTTCTGGACCAACGCTCATGTGCCGTCGGGGTCCATGCTCGACGCCATCGAGACCGTAACCAGCGTCCTCGAGCGGTTCGCCTCCGGCTTCCGTGACATCTTCGT

GGCTGCTCGCGCCGTGCCGCCGCGCGGATGGTCGACCACAACGCCAACCACCTCGGCGGTGACATCACCGTCCGCGCCACTCGACCTGGCGCGCGATCGCGGCCC

:::::::::::::Rv32T7.seq:::::::::::::

GTGAGCAGACCTACGCCNCCTGGTTGCGCCAACTCGGTACCGATCATGGCGCGCNGCCTGTCGTCACCGATACCCAGCGAACAAGACAGCCCGGTCCGCGACAAGA

(SEQ ID NO. 425)

TGACTTTCCCGATCTCTTCGGCGACTTCCATGGGGTCGTCCGGAGTCCCGGGCGCCACCGCGAGGTAACCCTCGTCTCAGTCCCATACGCGACCGGGTATCCACGT

CGCGCAACAACGCCACCACCTCCCCAGACGCCNCGTTGTACGCGGCTGGGTTCCACNGCAATAAGTGGCCTCANGGCATCGTCCGGCGGCGGTCCNCAACGCA

Clone Rv330

:::::::::::::Rv330SP6.seq:::::::::::::

CTCAAGCTTGAGGTTAACTTTGAACGGATCGAGCTGGACGTTCGAGACGGTGATCGGGCCGAACCTGAATTGTCCGGTAATGCCCAACGCAAAAAGCAGGGTGGTG

(SEQ ID NO. 426)

GCCGGGGCGGTGAAACCGGCGTCGGCGGCACCGTCGAAATCTATGTGGATTGCCGGAATGGGGATGTCCGGCACGGCGAAACCGTAGTTCGCTTGTCCCGTGAGGC

CCAGGTGGATGGGGGGAAAGATCCTGGTGTCCGGGATAATAATGGGGCCGATGCCGCCGGTTGAAGTCCACTGGATCGGGAATTCCGGAATCTTGATCCGACGTTC

AGGCCGAACAGGCCCTC

:::::::::::::Rv330T7.seq:::::::::::::

CGGCGACGTCGCGATACGCCGAGCAGTTGGGAATCGCTCTGCAGCAAACCAATATTCTGCGCGACGTTCGAGAGGACTTTTTGAATGGACGGATCTACCTGCCGCG

(SEQ ID NO. 427)

CGACGAGCTGGACCGATTAGGCGTACGCCTCCGCCTGGACGACACCGGGGCACTCGATGACCCCGACGGACGGCTCGCGGCNCTGCTGCGGTTCAGTGCCGACCGC

GCCGCAGACTGGTNTTCGCTGGGACTGCGGCTGATTCCACACCTCGACCGCCGCAGCGCTGCCTGCTGTGCGGCCATGTCTGGCATCTACCGCCGTCAGCTCGCCT

TGATCAGAGCATCGCCGGCGGTCGTCTA

Clone Rv331

:::::::::::::Rv331SP6.seq:::::::::::::

CTATAAAATACTCAAGCTTGATGCCGCCGAAACCGAGCGTGAGCACGCCGCCAGCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCG

(SEQ ID NO. 428)

GTGATGGCACGCCACCGCGACACCACCCGGNTGCGCTACGTCNAGCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAGGTCN

AGGTCNATACCGATTTGCGCATCCGCAGCCGCACCCTGAACNACANAACCGTGCCCTACTATTGCTTGTCNGGCGGGGCCAAAAAACAGCTTGGCATCCTGGCCCN

ATTGGCCGGCGCGG

:::::::::::::Rv331T7.seq:::::::::::::

CTTCGGTCGCAGTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGTTGCTCACCGGAATCCAACCGGTAGAAGGT

(SEQ ID NO. 429)

CGGCGAGCGCTCGGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCAGAGCCCTCGGGTCCGGCCAGCACTCCGCAGGCTTCGTCGGGGTGGTCGCGACGCGCA

TGGGCCACCATCGCATTCACCAGGTCTGCGCGAATCNCCANCACGTANACNGTTCCTTTCCTAA

Clone Rv333

:::::::::::::Rv333SP6.seq:::::::::::::

CTGGCACCAAGGCCCCACACGTCACCCTGTGACCTCCTGCGCCGACCCCGCCCGAGGTCCTGGCCGTTACCACCGAACGGGCGAGCCGGGAGTCTGGTNCGCATCG

(SEQ ID NO. 430)

AACAAANAGCAAGGTGCATGGGCGGAGTTGTTCCGCCACTTCGTCGATGACGGGGTCNATCCATTCGAGGTCCGTCGCCGCGTCGGTCNAGTGGCGGTCACACTCC

AGGTACTCGACCTCACAGACNAAAGGACTCNATCCCATCTAGGTGTGGACNAAACAGATCTTCTGTCCGACNACTACACCACCACCCAGGCCATCGCCGCCGCCCG

CGATGCCAACTTCGACGCCGTACTGGCCCCGGCGGGGGGCGCTCCCCGGTTGTCAACACTTGCCGTGTTCNTTCACGCNCTGCCCCACATCCAACCCCAACG

Clone Rv334

:::::::::::::Rv334T7.seq:::::::::::::

GTTCTTGGGCCCATGCGGAGGTATCGCCGTTTCCACCACGCGGTCGGGGTGGCGTTGCATTAGCTCACCGATGGTGCGCTTGTGCAGGCCGCCGGGATACCCCGAG

(SEQ ID NO. 431)

TGCCGGTAAACCATCTTGTGCTGC

Clone Rv335

:::::::::::::Rv335SP6.seq:::::::::::::

CAATACTCAAGCTTGGCGTGCCGTTCCAACCCGAATTGGCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACNAGNACGTCGTCCGCGGGACACACCT

(SEQ ID NO. 432)

CGATGCTGCCGCCATGGACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGG

ATC

:::::::::::::Rv335T7.seq:::::::::::::

CNTCATGATGATCATCACCCGAAGTGTGGTAGCCGCAGTGGTTATCGTGGGTACCGTCGTGCTTTCCATGGGCGCCTCTTTCGGGCTTTCCGTATTGGTCTGGCAG

(SEQ ID NO. 433)

GACATTCTGGGTATCGAGTTGTACTGGATGGTGTTGGCGATGTCGGTGATCCTGCTCCTGGCGGTGGGATCCGACTACAATCTGCTGCTGATTTCCCGGTTGAAAG

AGGAAATTGGGGCCGGATTGAACACCGGAATTATCCGTGCCATGGCTGGTACCGGGGGAGTGGTGACGGCTGCCGGCATGGTGTTCGCCGTTACCATGTCGTTGTT

TGTGTTCAGCGATTTGCGAATTATTGGTCAGATCGGTACCAC

Clone Rv336

:::::::::::::Rv336SP6.seq:::::::::::::

ATACTCAAGCTTTTACGGTGATCGCNCATCACCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCG

(SEQ ID NO. 434)

GGTGCAGGTGCTCGGGCAGCTCGGCCGCNACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGANNAACGACGCCAGTCCGCTACGTNACCCCTCCGCGAC

TGTCCATGGACAACAGCGCGTTCTCCACCGACCGGGCCCGGGTGTGGGGTNTT

:::::::::::::Rv336T7.seq:::::::::::::

GCTGGTAGAGTCGCTGACCGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGCGCAGGCTATCGCACCCGTTATCGGCTAC

(SEQ ID NO. 435)

GAGCAAATCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGATCGCCGTCAAGCATGTGTGCCGCGGAT

TATCAGGACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTGGCG

Clone Rv337

:::::::::::::Rv337SP6.seq:::::::::::::

GCTTTCCGCCGATACCCGCCATGTCNCGCACATCCAGGACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAAGTGCGGATGATCGGGCCGCCTACGTCGTG

(SEQ ID NO. 436)

GTGTACCTCGTCGGTAACAACGAAACCGAAGCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACCGCACGGGGTGAAGGCCTATGTCA

CCGGTCCGGCANCACTCAATGCCGACCAGGCCGAGGCCGGANACAAAANTATCGCTAAGGTCACCGCGATCACNAGCATGGTGATCGCAGCAATGTTGCTAGTGAT

CTATCGCTCCGTAATTA

:::::::::::::Rv337T7.seq:::::::::::::

CTTCCAACCCGAATTGGCTTTCGGCGCCATCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACCTCGATGCTGCCGCCATGGACGCG

(SEQ ID NO. 437)

GTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGGATCGCGGTGATCGTCGATGACG

GCATCGCCACCGGAGCGACGGCCAAGGCGGCGTGCCANGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCGATCGGCCCA

Clone Rv338

:::::::::::::Rv338SP6.seq:::::::::::::

TACTCAAGCTTCGCGAGATCCGGATGGCACTCACGCTGGACAAGACCTTCACAAAATCTGAAATCCTGACCCGATACTTGAACCTGGTCTCGTTCGGCAATAACTC

(SEQ ID NO. 438)

GTTCGGCGTGCAGGACGCGGCGCAAACGTNCTTCGGCATCAACGCGTCCGANCTGAATTGGCAGCAAGCGGCGCTGCTGGCCGGCATGGTGCAATCNACCAGCACG

CTCAACCCGTA

:::::::::::::Rv338T7.seq:::::::::::::

CCCACGACTTTCTCCTCGATCAGTTGGATTTGTACGAAGAGGCAACGAAAGCAGTGATCCTCGGGATGGTCGACGCCTACATCGACCCGCCGTTCACGCCGCACAG

(SEQ ID NO. 439)

CCTGCTAGATGCGCTGGGCGAGCAGGTCCCACAGTTCGCCGCTAAGGCACGGCGTCTGTTCCCGTCCGGATCGCCATTCGGCCTCGGCGTCCTGCTCCCATTCGAT

CAATAGGGCTGGCAGCTCCGTCGGCAGGGGCCTACGCCTCACCCCGTCACG

Clone Rv339

:::::::::::::Rv339SP6.seq:::::::::::::

CTCAAGCTTATGCGCGCCGGCCGAGGTCTGCTCACGGCAACCCCTGAAGTTTAGGGGACNACCTACTCAGCGCAAAATTTCGCTAATGTGAGTCCGCCCCACCAGG

(SEQ ID NO. 440)

GGNANATCAACCCATGTCGATCATGATCTACCCGGATACCGGATTGGCGGTAGCGCCCACGATCGTCNAAATNTCCGCCTGAATCATCGGATAGCTGATCCGGCGT

CAACGCGTTTTGANTTCACCGCGCAACAGCCGCCAGGCCGGCCCGCANCGANCCGATCTCNTCGGGCCGCATGGGCCCCAATCTTNTCG

:::::::::::::Rv339T7.seq:::::::::::::

GTGTGTGGTGGAACCCATCTGAGCAGTGTGCCAAACCGGGGCAGACAGCTCCCAATTGACGTGAGCCCGCTCACTTGCTGGGTAAGCGTC

(SEQ ID NO. 441)

Clone Rv33

:::::::::::::Rv33SP6.seq:::::::::::::

CTTTACACTTCCTGCATCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTG

(SEQ ID NO. 442)

ACACTATAGAATACTCAAGCTTGGGCGTGACGGCCACCGGGGCCACTCCGCACCATCTGTACCCGACCAAGATCTAC

:::::::::::::Rv33T7.seq:::::::::::::

CAGGCATGCAAGCTTTAGCTGCCCGAATGCGTCACCCCGATGCGCCCAGATCGGGGCTTCGCAGATAAAGCACGAACAGGCGGGCAAAACGTCNATCTCGGAGCCG

(SEQ ID NO. 443)

GAAGGGCAATCAGCCGACCGTCGACGAACGACACCGGCGAGACCACTTAGGCAGTGACGGCCGGCCCGAACATTACGCGCTCGTTGATTAGGCGTTCGGTCTCGTC

CGCGGTCATGCCGAGCAGCTTGCGGCAGATCTGAACGCTGTCCTGTCCGGGCAGCGGCGCCGGGCGTTGGGGTGCCTGCCCGAATGTGACGAAACGGAGCCGGACC

CGTCTCGGCGGGCCGCGGACGGCGATCCGC

Clone Rv340

:::::::::::::Rv340SP6.seq:::::::::::::

CNCAAGCTTGCGGATGTTACCCCTGACAGCCTGAACTATGTCNAAACACACGGCACCGGAACGGTGTTGGGGGACCCCATCGANTTCGAGTCGCTGGCGGCCACTT

(SEQ ID NO. 444)

ATGGCCTGGGTAAAGGCCAGGGCNANAGCCCGTGCGCATTGGGGTCGGTCAAAACCAACATCGGCCACCTGGAGGCGGCCGCCGGTGTGGCTGGATNCATCAAGGC

GGTGCTGGCGGTGCAACGTGGGCACATTCCCCGCAACTTGCACTTCACCCGGTGGAACCCGGCCATCNACGCGTCGGCNACGCGGCTGTTCGTGCCNACCNAAAAC

CCCCCGTGGCCGGCGGC

:::::::::::::Rv340T7.seq:::::::::::::

GGAACCGGTAACCAGATCAGCTCGTCGACCTCACTGCCGGGGGTGAATTCCCCACCGGTGCTGCGCGCTGCCCAGTAGTGCACCTTCTTGACGCCTCGAAAAGGGG

(SEQ ID NO. 445)

AGTCGGTCGGGTAGGTCACCGTCAGGAGCCGCCTACCCAGGTTGGCGCNATAGCCGGTCTCCTCGAGTATCTCCCGCACCGCCCCCACCGGTGCGGTCTCACCCAN

ATCCACTTTGCCCTTGGGCAGCGACCAGTCGTCGTANCNGGGGCGGTGAATGACAACGATCTCGACCGGCCCTTCCN

Clone Rv341

:::::::::::::Rv341SP6.seq:::::::::::::

TACTCAAGCTTCAGAACAGGCCTGTTGTGGGCNCACCCGGCTCGCCGAGTTCTGCACGCACCGCCTCAAGTGCGGCCCGCACCGCCGGCATCTCCCGGTCACGCAG

(SEQ ID NO. 446)

GGCCGCGGCCCGCGCCGCAGCGACGGCGTGTTCGCGCAGTTCGCCGTCAATGATGCTGACCTGATCGGCCACCCGGGCGTTCTCGGCGTCGTCGCGTTCACTAATC

GCGGTGCTCAGCAGCGTCTCGACAGCCACCACCCGAGTGGCGACCAGCTGC

:::::::::::::Rv341T7.seq:::::::::::::

TAATGTCTTGCCAACGTCACCACAATCGCGATGAATTCAATCATGCCGCCCAGGGCGGCCAACCCAATGGTGGCCGCGAGCGGCAGCTCGATCGCAGCGCGGAGGT

(SEQ ID NO. 447)

TGCCGGCCGCCAGTTGATTCACGAACAGGGTGAGGTCATAGGCGGGCAGGATAGTGACGAAGGCAAGACCTATATCTGCCGTCGGAAGAAGAATCGAGTAGCCGGT

CGACACAACGGAAGCGAAAGTGTCCGCGATGTTGATGAGCGTCGCCGGTTGTGGCGGCGGTGGCGGC

Clone Rv343

:::::::::::::Rv343SP6.seq:::::::::::::

TACTCAAGCTTTCGTCAGTTCATCGCGCCAGCAGACCAACAAGAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGGC

(SEQ ID NO. 448)

GCGAACGACGCCAGCGACCACATTCAGCANATGGCCAGCGCGTGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCGTGATCGACATCGTCA

CCGCCGCACCACTGCCCGGCCTCGGGTTCACGCAGCCGTTGCCGCCCGCAGCGGANNATCACATCGCCGCGATCGCCCTGTTC

:::::::::::::Rv343T7.seq:::::::::::::

CCACCCGTGTAATTTGGGATGGGCNAAAAGGCNAAGCACCGCGTGGCCACGAACGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAAC

(SEQ ID NO. 449)

GTACGGCGTTTCAACACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGGTAGCACCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGG

TAGTCGCCGCCCGGGCGGCTACAGTCTGAAACGCGATGACCATCGATGTGTGGATGCAGCATCCGACG

Clone Rv344

:::::::::::::Rv344SP6.seq:::::::::::::

TCAAGCTTTAGCTGCCCGAATCCGTCANCCCGATGCNCCCAGATCGGGGCTTCGCANATAAAGCACNAACAGGCGGGCAAAACGTCNATCTCGGAGCCGGAAGGGC

(SEQ ID NO. 450)

AATCANCCGACCGTCNACAAACGACACCGGCGANACCACTTAGGCAGTGACGGCCGGCCCGAACATTACNCGCTCGTTGATTAGGCGTTCGGTCTCGTCCGCGGTC

ATGCCGAGCAGCTTGCGGCANATCTGAACGCTGTCCTGTCCGGGCAGCGGCGCCGGGCGTTGGGGTGCCTGCGGAATGTGACNAAACGGAGCCGGACCCNTCTCGG

CG

:::::::::::::Rv344T7.seq:::::::::::::

CCGGGGCCACTCCGCACAATCNGTACCNNACCAANATCTACACCATCGAATACGACGGCGTCGCCGANTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAA

(SEQ ID NO. 451)

CGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCGGAACAAATNGACGCNTCGGTTCCGCTGACCAATACGGTCGGTCCC

Clone Rv346

:::::::::::::Rv346SP6.seq:::::::::::::

NCTGGCCTTTGGTCCACACTAANACAATACTCAAGCTTCCGGCCGCAGAGCCGCCAACTCACGATATCGTTAACCGATATCCCGAGCCGATAGCTGGCGGGCTCGG

(SEQ ID NO. 452)

GTGGTGGCCAGCGGCGCTGCGACNAAAGGTGTGACCGTCATGAAACAGACACCACCGGCGGCCGTCGGCCGTCGTCACCTGCTCGANATCTCAGCATCCGCAGCCG

GTGTGATCGCGCTTTCGGCGTGTNGTGGGTCNCCGCCCGAGCCCGGCAAAGGCCGGCCCGACACAACCCCGGAAC

:::::::::::::Rv346T7.seq:::::::::::::

CATCTGCCCACCACACGGACCGCGGTGCGGACGCGGCTGACGCGCCTGGTGGTCAGCATCGTGGCCGGTCTGCTGTTGTATGCCAGCTTCCCGCCGCGCAACTGCT

(SEQ ID NO. 453)

GGTGGGCGGCGGTGGTTGCGCTCGCATTGCTGGCCTGGGTGCTGACCCACCGCGCGACGACACCGGTGGGTGGGCTGGGCTACGGCCTGCTATTCGGCCTGGTGTT

CTACGTCTCGTTGTTGCCGTGGATCGGCGAGCTGGTGGGCCCCGGGCCCTGGTTGGCACT

Clone Rv347

:::::::::::::Rv347SP6.seq:::::::::::::

GACAATACTCAAGCTTGACTGGCCACCCACCGGCATGACCACCGACAGGCCCGACTGGTCGTACCACTCGAACGCCGGGGTGTTGATGTCCCAGCCGCTGAANTCG

(SEQ ID NO. 454)

TCCTGCGCGCGCAGGCCGTCNAACAGGTACAGGGCGGGCGAATTGGCACCACCACTTTGGAATTGGACCTTGATGTCACGGCCCATCGACGGCGACGGCACCTGCA

GGTACTCCACCGGCAAGCCCGGCCGGGAAAATGCCCCCGCGGTCNCCGTGCCACCGACGGCGCCGANCAAACCCGACACTAGGGCCGCGCCNACGGCCCCGACCAC

NANTCNACGCGACATACCCGTGACGGCGCCACNAACCCTGTCAACA

:::::::::::::Rv347T7.seq:::::::::::::

CCTCCAACTCGGCGGGGAAGCGACNCCAGCCTACCGAGCTTGGAGTCCANGACGCCAGCGGCGGCGTCGGTCTGCGTCGTGGTGCCGCCGGGGTGGCGTTGGCTGG

(SEQ ID NO. 455)

CAACGATCTCCACCCAGCCGGTCGGGTTACCCACGATCTCGGCATANACGCGGGCCGAGGCCGGTGCGATACCGTATTGCGTCAATTGGGACGCGGTTGTGCATTC

GGCTAGCTCGGTTGCCACACCCGTCAGGGGTTCGACGTTGGCGGGTTCGGCGGGCCCCANCACCGCTGTCACCATGCCCGCCAAGCCGACCTGCGGCGCCACCAAC

TGCAGCACCANCATGTCGCCGTCGCGCGCCGCGATCACATGG

Clone Rv348

:::::::::::::Rv348SP6.seq:::::::::::::

CTCAAGCTTTTTGAGCGTCGCGCGGGGCANCTTCGCCGGCAATTCTACTANCGAGAANTCTGGCCCGATACGGATCTGACCGAANTCGCTGCGGTGCANCCCACCC

(SEQ ID NO. 456)

TCATTGGCGATGGCGCCGACNATGGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGCGACGCGGTAGGTGGTCAAGTCCGGTCTACGCTTGGGCCTTTGCGGAC

GGTCCCGACGCTGGTCGCGGTTGCGCCGCNAAAGCGGCGGGTCGGGTGCCATCAGGAATGCCTCNCCGCCGCGGCACTGCACGGCCAGTGCCGCGGCGA

:::::::::::::Rv348T7.seq:::::::::::::

CNCCAGCTTGATTGGTCTGGTTGCATTGGCCAGCTGCGCGAGCCTGGCTCACTTCAACTACGACGACCGCAAACAATTGCCGCCTTCGGATCCGAGTTCGGTTGGG

(SEQ ID NO. 457)

TACGCGGCAATGGAGCACCATTTCTCGGTGAATCAGACTATTCCTGAGTACTTGATCATCCACTCTGCACACGACCTGCGAACCCCGCGCGGCCTTGCCGACCTGG

AGCAGCTGGCGCAACGTGTGAGCCAGATCCCAGGCGTTGCCATGGTTCGCGGTGTGACCCGGCCAAACGGGGAAAC

Clone Rv349

:::::::::::::Rv349SP6.seq:::::::::::::

CAATACTCAAGCTTGACTGGGCCCGCACCTTCGGCGCCACCCACACCGTCAACGCCCGCGAAGTCNACGTCGTCCAGGCCATCGGCGGCCTCACGGATGGATTCGG

(SEQ ID NO. 458)

CGCGGACGTGGTGATCGACGCCGTCGGCCGACCGGAAACCTACCAGCAGGCCTTCTACGCCCGCGATCTCGCCGGAACCGTTGTGCTGGTGGGTGTTCCNACGCCC

GACATGCGCCTGGACATGCCGCTGGTCNACTTCTTCTCTCACGG

:::::::::::::Rv349T7.seq:::::::::::::

TCGACGGTTTGGCGGCCTTAAATGCACTGAGGTCGTCAATTGACCCCACAGCGGAAATGCCGACTATTCGCAGGCCTCCTTCGCCTTGGCTGCCGGAGAGGGGCTC

(SEQ ID NO. 459)

CGCGGGAACCGCATGCAGGTATATGACCTCGGTTTCTCGGGTGCTACCGCGTGCCTTGTNTANGATNANCTCGGCGTTGGAATTGTCCAGCCGGCCCAATTCATCG

AGCGCANATTCGTACACNTGGCCGGCGGCGACATACGCTTCACCGTGGATCTGCTCCACACGGACCGCCCTGTCGGGATCCTGCTCACGGGTAANGGAACTTACGT

GGCACTCGG

Clone Rv34

:::::::::::::Rv34SP6.seq:::::::::::::

GACCACGCCAGGCTAATCACGTGACGCTACCGAATACCCTNCCTAGTGGTGCAGGCTCCCGCTGGAAATGGCCCTGTACCAACTCGCGCACCGGTGCCAG

(SEQ ID NO. 460)

:::::::::::::Rv34T7.seq:::::::::::::

CGGCACCCGACCCCTTTGAGCCGTCCGCCGTGGCCGCGGTGGAACTGGCCGACGAGGGACTGATCGTGCTGGGCAAATTGGTCGATGGCACGCTGGCCGCCGATCT

(SEQ ID NO. 461)

GAAGGTCN

Clone Rv350

:::::::::::::Rv350SP6.seq:::::::::::::

CTCAAGCTTGCCGTTACCCCGACTTCCGGAGGGACACCATGAGCACCGCCAGCCGAGCACGAGGCCAAACTCCGCCGACGCAGGCCGGTTGGACTTGTCGTGCTGG

(SEQ ID NO. 462)

ACAAGGGGTTTAGCCGCCGAAGCAGTGACGTACATCGGCGAAAAGCAGTTCGCCTGTCGACCGACGGNGCNNACCGTGAGGCTAGGGAAGCGAGGAGCACATGGCC

GCCGACCCGCAATGTACACGCTGCAAGCAAACCATCGAACCCGGATGGCTATNCNTCACCGCCCATCGCCGCGGT

:::::::::::::Rv350T7.seq:::::::::::::

CATGTCGCGCACATCCAGGACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAAGTGCGGATGATCGGGCCGCCTACGTCGTGGTGTACCTCGTCGGTAACA

(SEQ ID NO. 463)

ACGAAACCGAAGCGTATGACTCGGTCCACGCGGTGCGGCACATGGTGGACACCACACCGCCACCGCACGGGGTGAAGGCCTATGTCACCGGTCCGGCAGCACTCAA

TGCCGACCAGGCCGAGGCCGGAGACAAAAGTATCGCTAAGGTCACCGCGATCACGAGCATGGTGATCGCAGCAATG

Clone Rv351

:::::::::::::Rv351SP6.seq:::::::::::::

ATACTCAAGCTTCGGTACGGTGGCGGGCCGTGCTGCTGGCCGCGGTCGCGGCGTGCGCGGCCTGCGGTCTCGTTTACNAGCTCGCGCTGCTGACACTGGCGGCNAG

(SEQ ID NO. 464)

CCTGAACGGCGGCGGGATCGTGGCCACCTCCCTGATCGTCGCGGGCTACATAGCCGCGCTGGGAGCAGGCGCCTTGCTGATCAAGCCGCTACTTGCACACGCGGCC

ATCGCGTTCATCGCCGTGGAGGCGGTGCTGGGCATCATCGGCG

:::::::::::::Rv351T7.seq:::::::::::::

TGTCAAGTCCTTTCAGATCTCNTTTTTATGACATGACTGGAGATCTGTCTAGATTGCAGCTCCTGTGAGCGTGGGTACCGGATTCAAGCCGGTCGGTCACGCCGCG

(SEQ ID NO. 465)

GTGGTACCGGCTTTGCGGCAGTGCTCGGCCTCGAGTTCGGCGATCGCGCGCGAAGTGCGTTCGCGCAGCAAGATCGCGGCCGTAATGCCGGCGATGACCGCGATGA

CCAGCGCGATCCAGGAGAACCGTTCCAACCAGTGCTGGGCGGCCATCCCGGCGAAGTAGACCAGTGCAGTGGTGCC

Clone Rv352

:::::::::::::Rv352SP6.seq:::::::::::::

CAATACTCAAGCTTCAAAACAGGCCTGTTGTGGGCGCACCCGGCTCGCCGAGTTCTGCACGCACCGCCTCAANTGCGGCCCGCACCGCCGGCATCTCCCGGTCACG

(SEQ ID NO. 466)

CAGGGCCGCGGCCCGCGCCGCANCGACGGNGTGTTCGCGCAGTTCGCCGTCAATGATGCTGACCTGATCGGCCACCCGGGCGTTCTCGGCGTCGTCNCGTTCACTA

ATCGCGGTGCTC

:::::::::::::Rv352T7.seq:::::::::::::

TACGCTGGCGCTGGAGGGAGCCANNTACAACATCCACGCCAATGCTCTTGCCCCGATCGCGGCGACCAGGATGACCCAGGACATCCTGCCGCCCGAAGTACTGGAA

(SEQ ID NO. 467)

AAGCTCACACCCGAGTTCGTCGCACCGGTGGTGGCCTACCTGTGCACCGAGGAGTGTGCCGACAACGCATCGGTGTACGTCGTCGGTGGTGGCAAGGTGCAGCGAG

TTGCGCTGTTTGGCAACGACGGCGCCAACTTCGACAAACCGCCGTCGGTACAAGATGTTGCGGCGCGGTGGGCCGAGATCACCGATCTGTCCGGTGCGAAAATTGC

TG

Clone Rv353

:::::::::::::Rv353SP6.seq:::::::::::::

GCTTTTCCCGTCCGTCNNCGCTCAACCGCGTGAGGCCGAAGCGGNTGGTTACGACTCCCTGTTTGTGATGGACCACTTCTACCAACTGCCCATGTTGGGGACNCCC

(SEQ ID NO. 468)

GACCAGCCGATGCTGGAGGCCTACACGGCCCTTGGTGCGCTGGCCACGGCGACCGANCGGCTGCNNNTGGGCGCGTTGGTGACCGGCAATACCTACCGCAGCCCGA

CCCTGCTGGCAAANATCATCACCACGCTCGACGTGGTTAGCGCCGGTCGAGCGATCCTCGGCATTGGAGCCGGTTGGTTTGANCTGGAAC

:::::::::::::Rv353T7.seq:::::::::::::

CNGCTTTTTAATGGCCTTGACNTGGGCGNGCCGGCCACCGGGGCCACTCCGCACAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACT

(SEQ ID NO. 469)

TTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCATTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGC

GGTTCCGCTGACCAATACGGTCGGTCCCAAGATGACCCAGTACTACATCATTCGCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGG

AACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTGATTGTTAACCTGGGCTACGGCGACCCGGCCTATG

Clone Rv354

:::::::::::::Rv354SP6.seq:::::::::::::

CTCAAGCTTGCCGGGAGGGTGCATGGCCGACTCGGATTTACCCACCANGGGGCGCCAACGCGGTGTCCGCGCCGTCNAGCTGAACGTTGCTGCCCGCCTGGAGAAC

(SEQ ID NO. 470)

CTGGCGCTGCTGCGCACCCTGGTCGGCGCCATCGGCACCTTCGAGGACCTGGATTTCGACGCCGTGGCCGACCTGAGGTTGGCGGTGGACGAGGTGTGCACCCGGT

TGATTCGCTCGGCCTTGCCGGATGCCACCCTGCGCCTGGTGGTCGATCCGCGAAAANACGAANTTGTGGTGGAGGCTTCTGCTGCCTGCGACACCCACNACGTGGT

GGCACCGGGCAGCTTTAGCTGGCAT

:::::::::::::Rv354T7.seq:::::::::::::

CCGACGCCGTCGTGGCCACCAACACCGCGACCAGCACCGTGACCCGGACCGGGGTGCCGCGCGAACCGGTCTTGGCCAATTGCCGCGGCACCAAGCCGTCGCGCGC

(SEQ ID NO. 471)

CATGGCGAACAGCACGCGGCATTGCCCGAGCATCAACACCATCACCACCGTGGTAAGCCCGGCCAGCGCGCCGACGGAGATGATGCCGCTGGCCCAGTACACCCCG

TTGGCCTGGAACGCGGTGGCCAGATTTGCCGGCCCGCGGCCCGGTACGGTCCGCAGTTGGGTGTATGGAACCATGCCCGACAGCACCACCG

Clone Rv355

:::::::::::::Rv355SP6.seq:::::::::::::

TTNACTGGCCTTTGGTCCACACTAGACAATACTCAAGCTTCCAGGACATCGTCATCGCGACCAAAACCGCGAGCTAGGTCGGCATCCGGGAAGCATCGCGACACCG

(SEQ ID NO. 472)

TGGCGCCGAGCGCCGCTGCCGGCAGGCCGATTAGGCGGGCAAATTAGCCCGCCGCGGCTCCCGGCTCCGANTACGGCGCCCCGAATGGCGTCACCGGCTGGTAACC

ACGCTTGCGCGCCTGGGCGGCGGCCTGCCGGATCAGGTGGTAAATGCCGACA

:::::::::::::Rv355T7.seq:::::::::::::

NGACGTCTTCCATCCGCGCGTCGTTTTGGCGGGTTGGCCACAGCAGCCCGCCGGTGACGGCGACGATGCTGGGCTGGTTGCGGCCCTGCGCCACCGCGGCTTGCAT

(SEQ ID NO. 473)

GCTGGTTGGCTGTCTTGGGACGATCCCGAAATAGTCCACGCGGATCTGGTGATTTTGCGGGCTACCCGCGATTACCCCGCGCGGCTCGACGAGTTTTTGGCCTGGA

CTACCCGCGTGGCCAATCTGCTGAACTCGCGGCCGGTGGTGGCCTGGAATGTCGAGCGCCGTTACCTA

Clone Rv356

:::::::::::::Rv356SP6.seq:::::::::::::

CTTCCTCCTGAGTACCNCCCGTNTACTTTGGGATGGGTAAAAAGGCGAATCNCCGTTTGGTCACGAACGCCGGGAGGGACAATCTCGGGCGGCTGGGGCCTCTCGC

(SEQ ID NO. 474)

GGGAANGCCCGAATGTACGGTGTCTCGACACTTCCCNTCCCCCTCCG

:::::::::::::Rv356T7.seq:::::::::::::

GAGCATCGGGACNTACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGGCGCGAACGACGCCNGCGACCACATTCAGCAGATGGCCAGCGCG

(SEQ ID NO. 475)

TGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCNTGATCNACATCGTCACCGCCGCACCACTGCCCGGCCTCGGGTTCACGCAGCCGTTGC

CGCCCNCAGCGGACGATCACNTCGCCGCGATCGCC

Clone Rv357

:::::::::::::Rv357SP6.seq:::::::::::::

TACTCATGANCATCCTTTAATCANNGCTTTGCGTTTTTTTATTAAATCTTGCAATTTACTGCAAAGCAACAACAAAATCGCAAAGTCATCAAAAAACCGCAAAGTT

(SEQ ID NO. 476)

GTTTAAAATAAGAGCANCACTACAAAAGGAGATAAGAAGAGCACATACCTCAGTCACTTATTATCACTAGCGCTCGCCGCAGCCGTGTAACCGAGCATAGCGAGCG

AACTGGCGAGGAAGCAAAGAAGAACTGTTCTGTCAGATAGCTCTTACGCNCA

Clone Rv358

:::::::::::::Rv358SP6.seq:::::::::::::

CTCAAGCTTCAGGTCAATGTGCNCCAAGCCCTGACGCTGGCCGACCAGGCCACCGCCGCCGGANACNCTGCCAAGGCCACCGAATACAACAACGCCGCCGAGGCGT

(SEQ ID NO. 477)

TCGCANCCCAGCTGGTGACCGCCGAGCANANCGTCAAAAACCTCAAGACGCTGCATGACCAGGCGCTTANCNCCGCANCTCAGGCCAAGAAGGCCGTCNAACGAAA

TGCGATGGTGCTGCACCANAAGATCGCCGAGCGAACCAAGCTGCTCAGCCNG

:::::::::::::Rv358T7.seq:::::::::::::

CATGGTGGCACTGTAGCGACGTGCTGCAATCAAGGTCATGCCCGACTCTGGTCAGCTCGGANCCGCTGACACCCCGCTAAGGCTGCTCAGCTCGGTGCATTACCTC

(SEQ ID NO. 478)

ACCGACGGCGAACTCCCCCAGCTTTACGACTATCCGGATGACGGCACCTGGTTGCGGGCGAACTTCATCATCAGCTTGGACGGCGGCGCTACCGTCGATGGCACCA

GCGGGGCGATGGCCGGGCCCGGCGACCGATTCGTCTTCAACCTGTTGCGTGAACTTGCCGACGTCATCGTGGTCGGCGTGGGCACCGTGCGCATTGAGGGCTACTC

CGGCGTCCGGATGGGTGTCGTCCAGCGCCAGCAC

Clone Rv359

:::::::::::::Rv359SP6.seq:::::::::::::

TACTCAAGCTTGCGGGTGATCGCCTTGGTCAACGGCACCGTGATCGGATCGGGGTCNACCGCACAAATGGACTGGAGCTTCGGCGAANTCATCGCCTATGCCTCGC

(SEQ ID NO. 479)

GGGGGGTGACGCTGACCCCGGGTGACNTGTTCGGCTCGGGCACGGTGCCCACCTGCACGCTCGTCTATCACCTCNGGCCACCGGAATCATTCCCGGGCTGG

:::::::::::::Rv359T7.seq:::::::::::::

GTTGGNGCCTCGTCGGCGAACAGTTCTCGCACGATTTCCGGATTAGCGGGACTGGTCACCAGTTGGGTATGCGGGAAGGCGCTGACGTTCGCCGCGATTAGCTGTT

(SEQ ID NO. 480)

TGATGGACGCGGTGGTGATGTTCTGATCACGGAACTGGCTGTAATAGCCCAGGGTCGCCACGCTTTCATCCGGGCCCGGACCCGGCGCACCGAGCGTGTCGCGCAG

GTATGCGACGTGATTTTCGCTGAAGTCCCCGTACCCGGAGAACT

Clone Rv35

:::::::::::::Rv35SP6.seq:::::::::::::

TGCTTCCGGCTCGTATGTTGTGTGGAATTGTGANCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAAT

(SEQ ID NO. 481)

ACTCAAGCTCCAGGTCAATGTGCGCCAAGCCCTGACGCTGGCCGACCAGGCCACCGCCGCCGGAGACGCTGCCTTTGTCACCGAATACAACAACGCCGCCGAGGCG

TTCGCAGCCCAGCTGGTGACCGCCGAGCAGAGCGTCGAAGACCTCAAGACGCTGCATGACCAGGCGCTTAGCGCCGCAGCTCAGGCCAAGAATGCCGTCGAACGAA

ATGCGATGGTGCTGCGGCATAAGATCGCCGAGCGAACCAAGCTGCTCAGCCAGCTCGAGCAGGCGAAGATGCACGAGCA

:::::::::::::Rv35T7.seq:::::::::::::

CAGGCATGCAAGCTTCGGAGGCAGACCCGTGCATGGTGGCACTGTAGCGACGTGCTGCAATCAAGGTCATGCCCGACTCTGGTCAGCTCGGAGCCGCTGACACCCC

(SEQ ID NO. 482)

GCTAAGGCTGCTCAGCTCGGTGCATTACCTCACCGACGGCGAACTCCCCCAGCTTTACGACTATCCGGATGACGGCACCTGGTTGCGGGCGAACTTCATCAGCAGC

TTGGACGGCGGCGCTACCGTCGATGGCACCAGCGGGGCGATGGCCGGGCCCGGCGACCGATTCGTCTTCAACCTGTTGCGTGAACTTGCCGACGTCATCGTGGTCG

GCGTGGGCACCGTGCGCATTGAAGGCTACTCCGGCGTCCGGATGGGTGTCGTCCATCGCCA

Clone Rv360

:::::::::::::Rv360SP6.seq:::::::::::::

TACTCAAGCTTGGGGTGGCGCTGTCGGTCGGTGTGCTTGGCGGCGTCGGTATCAACACCGCCCACGAAATGGGGCACAAGAAGGATTCGCTGGAGCGGTGGCTGTC

(SEQ ID NO. 483)

CAAAATCACCCTCGCCCANACCTGCTACGGGCACTTCTACATCGAGCACAACCGTGGCCATCACGTCCGGGTGTCCACACCGGAGGACCCGGCGTCGGCGCGGTTC

GGCNAAACGTTGTGGGANTTCCTGCCCCGCANTGTTATCGGCGGCTTGCGCT

:::::::::::::Rv360T7.seq:::::::::::::

GGCCATCGCCACCGCNCCGCGGCGAACGCTCAAAGGCACCTACTGGCACCAAGGCCCCACACGTCACCCTGTGACCTCCTGCGCCGACCCCGCCCGAGGTCCTGGC

(SEQ ID NO. 484)

CGTTACCACCGAACGGGCGAGCCGGGAGTCTGGTACGCATCGAACAAAGAGCAAGGTGCATGGGCGGAGTTGTTCCGCCACTTCGTCGATGACGGGGTCGATCCAT

TCGAGGTCCGTCGCCGCGTCGGTCGAGTGGCGGTCACACTCCANGTACTCGACCTCACAGACGAGAGGACTCGATCCCATCTAGGTGTGGACGAAACAGATCTTCT

GTCCGACGACTACACCACCACCCAGGCCATCGC

Clone Rv361

:::::::::::::Rv361SP6.seq:::::::::::::

GCTTGCGGGTGATCGCCTTGGTCAACGGCACCGTGATCGGATCGGGGTCNACCGCNCAGATGGACTGGANCTTCGGCGAANTCNTCGCCTATGCCTCGCGGGGGGT

(SEQ ID NO. 485)

GACCCTGACCCCGGGTGACNTGTTCGGCTCGGGCACGGTGCCCACCTGCACGCTCGTCAAGCACCTCNGGCCACCGGAATCATTCCCGGGCTGGCTGCACNACGGC

GACNTGGTCNCCCTCCAGGTCGAAGGGCTGGGCNAAACAANGCAGACCGTCCGGACAANCGGCACTCCTTTTCCGTTGGCTCTTCGGCCGAATCCGGACGCCNAAC

CCGACCGGCG

:::::::::::::Rv361T7.seq:::::::::::::

GTTCTCGCACGATTTCCGGATTAGCGGGACTGGTCACCAGTTGGGTATGCGGGAAGGCGCTGACGTTCGCCGCGATTAGCTGTTTGATGGACGCGGTGGTGATGTN

(SEQ ID NO. 486)

CTGATCACGGAACTGGCTGTAATANCCCAGGGTCGCCNCGCTTTCATCCGGGCCCGGACCCGGCGCACCGAGCGTGTCGCGCAGGTATGCGACGTGATTTTCGCTG

AAGTCCCCGTACCCGGAGAACTCGAACACGCTGAGGCGCTCGTCACCGTCGTNNCGGCGACCAAGCGCGGCGAGCAACTGCGCAAAATCGTTAAGANAGGTCGAAT

CGTTGAAATTCGGCACCACCTGCACC

Clone Rv363

:::::::::::::Rv363SP6.seq:::::::::::::

CACAAGACAATACTCAAGCTTCAGGTCAATGTGCNCCAAGCCCTGACGCTGGCCGACCAGGCCACCGCCGCCGGANACGCTGCCAAGGCCACCGAATACAACAACG

(SEQ ID NO. 487)

CCGCCGAGGCGTTCGCAGCCCAGCTGGTGACCGCCGAGCANANCGTCNAAAACCTCAAGACGCTGCATGACCAGGCGCTTANCGCCNCAGCTCAGGCCAAGAAGGC

CGTCGAACGAAATGCGATGGTGCTGCAGCANAANATCGCCGANCGAACCAAGCTGCTCAGCCAGCTCGAGCAG

:::::::::::::Rv363T7.seq:::::::::::::

CCACCCGTGCATGGTGGCACTGTAGCGACGTGCTGCAATCAAGGTCATGCCCGACTCTGGTCAGCTCGGAGCCGCTGACACCCCGCTAAGGCTGCTCAGCTCGGTG

(SEQ ID NO. 488)

CATTACCTCACCGACGGCGAACTCCCCCAGCTTTACGACTATCCGGATGACGGCACCTGGTTGCGGGCGAACTTCATCAGCAGCTTGGACGGCGGCGCTACCGTCG

ATGGCACCAGCGGGGCGATGGCCGGGCCCGGCGACCGATTCGTCTTCAACCTGTTGCGTGAACTTGCC

Clone Rv364

:::::::::::::Rv364SP6.seq:::::::::::::

GCTTTCCGCCGATACCCNCCATGTCCCGCACATCCAGGACTTCTGGGGGGATCCGCTGACAGCGGCGGGATCCCAAAGTGCGGATGATCGGGCCGCCTACGTCGTG

(SEQ ID NO. 489)

GTGTACCTCGNCGGTAACAACGAAACCGAANCGTATGACTCNGTCCACGCGGTG

:::::::::::::Rv364T7.seq:::::::::::::

CAACCCGANTTGGCTTTCGGCGCCNTCGGTGAGGACGGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACCTCGATGCTGCCGCCATGGACGCGGTCG

(SEQ ID NO. 490)

AACGCAAGCAGCTGATCGATCTACNACGCCGNGNGGAACGCTTCNGCCGCGGGCGTGACCGCNTCCCGTT

Clone Rv365

:::::::::::::Rv365SP6.seq:::::::::::::

GGGATGGGCAAAAAGGCGAAGCACCGCGTGGCCACGAACGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAACGTACGGCGTTTCAAC

(SEQ ID NO. 491)

ACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGGTAGCACCCTGGCCGGGCGATGATCTGCCAGCGTCCCCGCGGGTAGTCGCCGCCCGG

GCGG

:::::::::::::Rv365T7.seq:::::::::::::

CAGCAGACCAACAAGAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGGCGCGAACGACGCCAGCGACCACATTCAGC

(SEQ ID NO. 492)

AGATGGCCAGCGCGTGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCACGGTT

Clone Rv366

:::::::::::::Rv366SP6.seq:::::::::::::

CTCAAGCTTGACTGGCCACCCACCGGCATGACCACCGACAGGCCCGACTGGTCGTACCACTCGAACGCCGGGGTGTTTGA

(SEQ ID NO. 493)

:::::::::::::Rv366T7.seq:::::::::::::

TTGGTGCCCGGAATGGCGAGTCCCATTTANTCGCTGATTTGTTTGAACAGCGACGAAACCGGTGTTGAAAATGTCGCCTGGGTCGGGGATTCCCTCTCCAAGCAAG

(SEQ ID NO. 494)

AGTAACTGGCCCCAAATAAAGTTACTCGTCGTCTTGCAAAGACCGCTACCCGATGCCATTTATGTGTTTCCTTACGCTCNNNNTTCCGGTGCGCCATCATTATCTG

CACCTTTGCACTGCACATTGAGCTTAGCAGCGCTCG

Clone Rv367

:::::::::::::Rv367T7.seq:::::::::::::

GAATTNGCTTTCGGCGCCATCGGCCCAGGACCGCGTGCGGGTGCTCAACGACGACGTCGTCCGCGGGACACACCTCGATGCTGCCGCCATGGACGCGGTCGAACGC

(SEQ ID NO. 495)

AAGCAGCTGATCGAGCTACAACGCCGCGCGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGGATCGCNGTGATCGTCGATGACGGCATCGCCA

CCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCGGTCCCGATCGGCCCAGACGACATCGTGGCGAGATTCGC

CGGGTACGCCGATGAAGTGGTGT

Clone Rv368

:::::::::::::Rv368SP6.seq:::::::::::::

TAAAGCTTTCGTCAGTTCATNGNGCCCCCGGACCAACAAAAGCATCGGGACATACGGAGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCTGACGGCGCN

(SEQ ID NO. 496)

AACGACGCCAGCGACCACATTCAGCAGATGGCCAGCGCGTGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCGTGATCNACATCGTCACCG

CCGCACCACTGCCCGGCCTCGGGTTCACGCAGCCGTTGCCGCCCGCAGCGGACGATCACNTCGCCGCGATCGCCCTGTTCGGGAATCCCTCGGGCCGCGCTGGCGG

GCTGATGAGCGCCCTGACCCCTCAATTCGGGTCCAANACCATCNACCTCTGCAACAACGGCGACCCGATTTGTTCGGACGGCAACCGGTGGCGANCGCACCT

:::::::::::::Rv368T7.seq:::::::::::::

CCGGGAGGGACCATCNCGGGCGGCTNCGGCTTCTCTCCGGAAGGTTCTANNGTNNNGCGTTTCNACNCTTCCCGTCGCCCTGCGACCGCCGAACATTCGGGGTATG

(SEQ ID NO. 497)

GNNGCANCCTGTNAGCATCCNGGCCGGGC

Clone Rv369

:::::::::::::Rv369SP6.seq:::::::::::::

CTCAAGCTTCCGCATCAGATCGCTATAGAACCGGTGCGCGTCCCCACCGAGTGGCTGGTCGCCTTCCAGCACGATCGTTACCGCGTTATCGGAATCAAACTCNCCG

(SEQ ID NO. 498)

AACACCTGACCAACGCGCTTGATCGCCTGAATCGATGCGGCGTCGCTGGGGCTCATCGATACCGAGTGTGCTTTTCCGACCACTTCCAGTTGCGGTACGGCGAGAT

TGACAAAGGCGGTGAAGCCCAGCCAGAGCAGGACGATCACCNCCGCAAACCGGCGGATTTGCCCG

:::::::::::::Rv369T7.seq:::::::::::::

GCTTGGCAGCCTGCGGCTGGGCGCCCTNGAGCTCTTCGATCTGGATCTCCGGACTCGAGATGCTCACTTGCCCGGCCGTGGACGTACCCATTGCGGCCGGGACCCC

(SEQ ID NO. 499)

AGCGCCCCAGGTGACCAGCGAGTTGGGCTGCACGCTGACCGGCCCGTCGGGGTCGACGCCGGTAACGGTCAGCAGCTCCGANGTCCNNCTGATCCCGACCGCAGCT

GCCAATGCGCGGCTGGCAGCCGACGTGGATGTGCCGGGGCCTAGATCGCGGGGCAGCAGCGAGACCGCGTCACCGACGGTCATCACCTTGCCGAGTTTNGGCCTGC

CGCAN

Clone Rv36

:::::::::::::Rv36SP6.seq:::::::::::::

GCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTNCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATCTAGGTGACACTATAGAATA

(SEQ ID NO. 500)

CTCAAGCTTGAGCCATCGGGCTATCAGCTGGTTGATGTCCCG

:::::::::::::Rv36T7.seq:::::::::::::

CAGGCATGCAAGCTTGTCGTCTATCACATCCGACCACCAACCGCCCGACGGCTCGGCAGAACGCCTCCGCATATGGGTCGACGACCAGCGGGTCGGACTTCTGGGC

(SEQ ID NO. 501)

TGCCAGCGCTCGCGCCGTCGCGACAAACAGCGCGGTCGAACCGACACTCCTTGTGATGTCCCACCTATCACCTTCGGTACGCACCCAATCGACCCTACGCGGCTAG

CTCAGCCCCGATCTTCCAGAGCTCCGCCCG

Clone Rv370

:::::::::::::Rv370SP6.seq:::::::::::::

GCTTTTTGAGCGTCGCGCGGGGCGGCTTCCCCGGCAATTCTACTAGCGAGAAGTCTGGCCCGATACGGATCTGACCGAAGTCGCTGCGGTGCAGCCCACCCTCATT

(SEQ ID NO. 502)

GGCGATGGCGCCGACNATGGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGCGACGCGGTAGGTGGTCAATTCCGGTCTACGCTTGGGCCTTTGCGGACGGTCC

CGACGCTGGTCGCGGTTG

:::::::::::::Rv370T7.seq:::::::::::::

CGANCCTGTTCGACGGCTACCTGAATCACCCCGATNCCACCGCCGCGGCGTTCGACGCCGACAGCTGGTACCGCACCGGCGACGTCGCGGTGGTCGACGGCAGTGG

(SEQ ID NO. 503)

GATGCACCGCATCGTGGGACGCGAGTCGGTCGACTTGATCAAGTCGGGTGGATACCGGGTCGGCGCCGGTGAAATTGAAACGGTGCTGCTCGGGCATCCGGACGTG

GCGGAGGCGGCAGTCGTCGGGGT

Clone Rv371

:::::::::::::Rv371SP6.seq:::::::::::::

NAAGCTTTGTCACACCAAGTGTTTCNACCAGNCGCTCCATCCGGCGAAGTGGATACTCCCAGCAGGTAGCAGGTCGCCACCACGCTGGTCAGTGCGCGTTCAGCTC

(SEQ ID NO. 504)

GCTTGCGGCGCTGCAGCAGCCAGTCCGGGAAATAGCTGCCCTGGCG

:::::::::::::Rv371T7.seq:::::::::::::

CGCTGGNCGCCGGCGCTGGGCTGCGGTAACCAATTACCACAACACTTTTCGGTAGCCGAACAGCGGCGCGTACCAGCGAAATGGCACAGCCACCGCAGTCGCCGAC

(SEQ ID NO. 505)

ATCCCGCGAAGATGTGGCAGATTTTCGTGCGGTCGAGCCGGCGAAGGCCTAGCGTCATTGTTGCCTGGCAAGGTTGCTGGGCCCGG

Clone Rv373

:::::::::::::Rv373SP6.seq:::::::::::::

CTCAAGCTTCTTCTGCCCCTTGCCGTTNCGGATNACATCCCGCAGCGACTCGGCTTCGGCGTCGATGTCGAAGTTCTCGATCAGCTTCTGGATCGACTCCGCGCCC

(SEQ ID NO. 506)

ATGGCACCGGTGAAGTACTCGCCGTAGCGGTCGACNAGTTCGCGGTAGAGGTTTTCGTCNACNATCAGCTGCTTGGGCGCCANCTTGGTGAAAGTGCTCCAAATGT

CCTCCAACCGGTCCAGCTCACGCTGCGCGCGGTCACGGATCTGGCGCATCTCGCGCTCGCCGCCGTCGCGAACTTGCGCCGCGCATCGGCCTTGGGGCCC

:::::::::::::Rv373T7.seq:::::::::::::

GTTCACACCTACCTACTATGCCNCAATTCNCCGACACGGGTGGCATCAACACGGGCGATAAGGTGGAAATCGCTGGGGTGAACGTCGGGCTGGTGCGCTCGCTGGC

(SEQ ID NO. 507)

AATCCGCGGCAACCGCGTGTTGATCGGATTCTCGTTGCCCGGCAAGACAATCGGGATGCAAAGCCGGGCAGCAATTCNCNCCNACACCATTCTTGGCCGTAAGAAC

CTGGAGATCGAACCCCGCGGTTCGGAGCCGTTGAAACCCAACGGTTTCCTGCCGTTGGCGCANACCACTACGCCATACCAAATC

Clone Rv374

:::::::::::::Rv374SP6.seq:::::::::::::

CTCAAGCTTTACGCCGACGCCGGCCTACACAACACCAAGGAAACGATTGCCTACTGCCGAATCGGGGAACGGTCCTCGCACACCTGGTTCGTGTTGCGGGAATTAC

(SEQ ID NO. 508)

TCGGACACCAAAACGTCAAGAACTACGACGGCAGTTGGACAGAATACGGCTCCCTGGTGGGCGCCCCGATCGAGTTGGGAAGCTGATATGTGCTCTGGACCC

:::::::::::::Rv374T7.seq:::::::::::::

TCCCNCATGGGATAACGGGTTTAGATTTCNACAACGGCACCGTGTTTCTCAACAAGCCGGTCATCAGCTGGGCCGGCGACAACGGTATCTACTTCACCCGCTTTCG

(SEQ ID NO. 509)

CCCGTACAAGAAAAACCACTAGGCCACCATCGAGTCCAAGAACAACCACCTGGTCCGCAAGTACGCGTTCTACTACCGCTATGACACCGCCGAGGAACGCGCCGTG

CTCAACCGGATGTGGAAGCTGGTCAACGACCGCCTCAACTACCTCACCCCGACCATCAAACCGATC

Clone Rv375

:::::::::::::Rv375SP6.seq:::::::::::::

CTCAAGCTTGGGTGTTGCCGATCACCGGAAGCCNCATGATCAGCCACGTTTCGCGCCGCCCGGCATACGGCGGCGTACCGATCTCCGCGTCATACACCCGCGGGTA

(SEQ ID NO. 510)

ATCGCCGACGGTGCCGGTTCGCGAGCCGAAGGTGACAACGCTGATTGAATCNAGTTCCANGTCCAGCGGGT

:::::::::::::Rv375T7.seq:::::::::::::

TNAACAGCTCGCGGCAGCCCACGACCTGCTGCGTCGGATTGCCGGCGGCGAGATCAATTCCAGGCAGCTCCCGGACAATGCGGCTCTGCTGGCCCGCAACGAANGA

(SEQ ID NO. 511)

CTCGAGGTCACCCCGGTGCCCGGGGTCGTGGTGCACCTGCCGATCGCACAGGTTGGCCCACAACCGGCCGCTTGATGNNNNGTCGGCAAGCCCGGCAGTNGCCAAA

CCCAGCGTGATCANGCTCGGCTCGCGAGTTCGGCGAANAAGTGGCTCGCCTGATCACCTACCATCGGCCANGATCTGCGTGTCA

Clone Rv376

:::::::::::::Rv376SP6.seq:::::::::::::

GCCANCCGGCTTGGCGTCGACTCCCGTTCNGCACATCATACGGTCCCCGGTACTGTCCAACTGCGCCGGTGCGCTAGCCAAACGTCACGACTCTCAGTGATCCCAG

(SEQ ID NO. 512)

TTCGTGATCCGGCCGGTGGCGCCGCTGCGGCGGGGGCTNATNTACTTCGGACTNATTATCTCATCCAAAGGACACCGGGCCGGTGGCTGGAATCCCATGGTGCGAT

CGGCCACACAN

:::::::::::::Rv376T7.seq:::::::::::::

CCGACCTGGTATCTTCCGATAGCGCGCGTTGATATCCGGTCTGATCTCCTGCCCTTAACGCCGGATCTCAGCAGGTCCCCATGCAAAGATCCGAGGTGTCCCNGAT

(SEQ ID NO. 513)

CTAGGGGTCCTCGTCCTCCAGATGATGGAGCAAGTCGGCCC

Clone Rv377

:::::::::::::Rv377SP6.seq:::::::::::::

CTCAAGCTTCGGCTCAGGCGGCGCTGCCGGTAACGTCGCTGACCGGTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCAAGACACTGGCGCA

(SEQ ID NO. 514)

GGCTATCGCACCCGTTATCGGCTACAAACAAATCGCGGTATGC

:::::::::::::Rv377T7.seq:::::::::::::

CATCACCTGNTTCATGAACTGGAAGCACCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCAGCCTCTCGTCGGCGGTCGGGTGCAGGTGCTCGGGCAGCTCGGCC

(SEQ ID NO. 515)

GCGACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACGAACGACGCCAGTCCGCTACGTAACCCCTCCGCGACTGTCCATGGACAACAGCGCGTTCTCC

ACCGACCGGGCCCGGGTGTGGGGTGT

Clone Rv378

:::::::::::::Rv378SP6.seq:::::::::::::

AGCTTAGCTTCCCGCCCCGGCAATAGGGCTCCAGCTCATCCGGTGTGACCAGATAGGGGCCCAGGGTGATACCGCTGTCTTTGCCCTTGGCCTGTCCGATGCGCAG

(SEQ ID NO. 516)

CTGGCCCTCCAGCATCTGCAGGTCCCGTGCGGACCAGTCGTTGAAAATGGTATAGCCGATGATCGACCG

:::::::::::::Rv378T7.seq:::::::::::::

CCNGAACAGAAGCGGNGGTTCCTACCGCGGTGTGCGGCCGGCGCGATATCGGCCTTTTTACTAACCGAACCCGATGTGGGCTCCGATCCGGCGCGCATGGCATCGA

(SEQ ID NO. 517)

CGGCGACGCCGATCGATGACCGCCAGGCTTACCACCTT

Clone Rv379

:::::::::::::Rv379SP6.seq:::::::::::::

CTCAAGCTTGCGCGACTCGACAAGCATTCTTGACAGTTGTTTTGGCTCGGCATGGTTAGCCAAGGTTCTGCGGTCCCACCAGATCATCTTGGTCCGGTAGCGCTCG

(SEQ ID NO. 518)

TCCGGGTATGCTGCCGCCGGGATTCTCGCTGCTATTACTCCCCCCGAAGAACGCCACCGGTCCAGCGC

:::::::::::::Rv379T7.seq:::::::::::::

GCNAGGCGGTATAGCTTCCCGTCGTACCGGCGACCGCCAGCCGAGAAGCTCGTTTTCCCAGTGTTGCTGGGGATTCTCACGCTGCTGCTGAGTGCGTGCCAGACCG

(SEQ ID NO. 519)

CTTCCGCTTCGGGTTACAACGAGCCGCGGGGCTACGATCGTGCGACGCTGAAGTTGGTGTTCTCCATGGACTTGGGGATGT

Clone Rv37

:::::::::::::Rv37SP6.seq:::::::::::::

GTGTGGAACCGTGAGCGGATAACAATTTCACACAGGAAACAGCTNTGACCTTGATTACGCCAAGCTATTTAGGTGAGGCTATATTAATACTCAAGATTGCGGTCGA

(SEQ ID NO. 520)

GCACATCGGCCCAAGAACCGCCGAAGGCACGGCGGAACGCCTGCGGCACATGGGGCGACGACCAGCGGGTCGGACTTCTGGGCTGTCCAGCCGGATCGCGCCGTCG

CGA

:::::::::::::Rv37T7.seq:::::::::::::

CACTGTCAGTACATATGCGCCGCTCCTCCTCATCGCTGCGCTCGGCATCGTCGCCGGCGGTCATGGCGTCACCCTACCCAAGCCGAACGCGAAACGAGAACGTGTT

(SEQ ID NO. 521)

CCATTATTAGGGTGTGAGCACCAATACCAGATTGCTCACCAGGAACTCACGCAGCACCGGGACGGATGTCAGCCACCACGCCCATCTGGGGTGGTAGCGGGGAAAT

ACGGCTAACGCGGCTCCGGTGCCGGCAGCCCAGCGCAGACCCTCGGCGGCGGACACGGCAAACAACGACGACCCATAGTTGTTCTTTGCCGGATGGCCGTGTTTGC

GGACATATCGGGCGGCGGCGCGGGCGCCGCCGAGGTAGTGGCTGAGGCCCATCTCGTGCCCGCCGAATGGCCCCAGCCAAACCGTGTA

Clone Rv381

:::::::::::::Rv381SP6.seq:::::::::::::

CTCAAGCTTTTACGGTGATCGCGCATCACCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCGCAACATGAGCCANCCTCTCGTCGGCGGTCGGGT

(SEQ ID NO. 522)

GCAGGTGCTCGGGCAGCTCGGCCGCGACAGCCGCCTGACCCTGAAACCAGCTTCCATATCCCGCGACNAACGAC

:::::::::::::Rv381T7.seq:::::::::::::

CTCAGAAGCCGCTAGCTGGTAGAGTCGCTGACCGGTGCACGTGGCGNCAATGTGCGCTGCCGGTTCGCG

(SEQ ID NO. 523)

Clone Rv382

:::::::::::::Rv382SP6.seq:::::::::::::

CTCAAGCTTGCGCTCATCAAGCGCGAACAGCAGGGCGGTCGGCTGGTCGCCATGACGGGTGACGGGACCAATGACGCACCCGCGCTCGCGCAAGCCGATGTCGGGG

(SEQ ID NO. 524)

TGGCNATNAATACCGGCACCCAGGCGGCCCGGGAAGCCGGCAACATGGTCNATCTCCACTCC

:::::::::::::Rv382T7.seq:::::::::::::

ACTTCTATTTCGACTGGTGTGCTGTGGCGCGATCCGACTGCCGGCGTGGTCAAGGCCGGCCAGTTGTGGGATNCCACAGGCAC

(SEQ ID NO. 525)

Clone Rv383

:::::::::::::Rv383SP6.seq:::::::::::::

GCTTGTCGTATTCCGTGGCACTGTCAGACATATGCGCCGCTCCTCCTCATCGCTGCGCTCGGCATCGTCGCCGGCGGTCATGGCGTCACCCTACCCAAGCCGAACG

(SEQ ID NO. 526)

CGAAACGAGAACGTGTTCCATTATTAGGGTGTGAGCACCAATACCAGATTGCTCACCAGGAACTCAC

:::::::::::::Rv383T7.seq:::::::::::::

CGATATTCGTCGGCCGCGTTGTCTCGACTGGGTCGCGT

(SEQ ID NO. 527)

Clone Rv384

:::::::::::::Rv384SP6.seq:::::::::::::

GACCTCGGCCACCAAGCCGGACGCGACCGTCGAGGTGGCGATCCGGCTTGGCGTCGACCCGCGTAAGGCAGACCAGATGGTCCGCGGCACGGCCANCCTGCCACAC

(SEQ ID NO. 528)

GGCACTGGTAAGACTGCCCGCGTCGCGGCN

:::::::::::::Rv384T7.seq:::::::::::::

CCGGAAGTCTAGGGGACGACCTACTCAGCGCAAAATGTCGCTAATGTGAGTCCGCCCCACCAGGGCAGATCAACCCATGTCGATGATGACCTACCCGGATACCGGA

(SEQ ID NO. 529)

TTGGCGGT

Clone Rv385

:::::::::::::Rv385SP6.seq:::::::::::::

AGCTTCAGTTCCTCCACGACGCGTTCCCAAATGAATTTCCCGATCCCACAATCTCGGTTCAGATACAGGTCGCCATACCCCTTACTTCGGNAACGCTGGGCGGATT

(SEQ ID NO. 530)

GGCCCTGCCGCTG

:::::::::::::Rv385T7.seq:::::::::::::

CCGCCTACGGGTCGAACATGCATCCCGAGACCGATGCTCGAGCGCGCACCCCACTCGCCGATGGCCGGAACCGGCTGGTTACCCGGGTGGCGGCTGACC

(SEQ ID NO. 531)

Clone Rv386

:::::::::::::Rv386SP6.seq:::::::::::::

GCGGCTGGTTACGACTCCCTGTTTGTGATGGACCACTTCTACCAACTGCCCATGTTGGGGACGCCCGACCAGCCGATGCTGGAGGCCTACACGGCCCTTGGTGCGC

(SEQ ID NO. 532)

TGGCCACGGCGACCGAGCGGCTGCAACTGGGCGCNTTGGTNACCGGCAATACCTACCGCAGCCCGACCCTGCTGGCAAAGATCATCACCACGCTCGACGTGGTTAG

CGCCGGTCGAGCGATCCTCGGCATTGGAGCCGGTTGGTTTGAGCTGGAACACCGCCAGCTCGGCTTCGAGTTCGGCACTTTCAGTGACCGGTTCAN

:::::::::::::Rv386T7.seq:::::::::::::

GCCTTTCCGCACAATCTGTACCCCAGGACCNTCTAAAAAATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACTTTGTGTCGACCCTCAACGCCA

(SEQ ID NO. 533)

TTGCCGGCACCTACTACGTGCACTCCAACTACTTCATCCTGACGCCGGAACAAATTGACGCAGCGGTTCCGCTGACCANTNNTGTCGGTCCCACGATGACCCAGTA

CTACATCATTCGCACGGAGAACCTGCCGCTGCTAGAGCCACTGCGATCGGTGCCGATCGTGGGGAACCCACTGGCGAACCTGGTTCAACCAAACTTGAAGGTGATT

GTTAACCTGG

Clone Rv387

:::::::::::::Rv387T7.seq:::::::::::::

GCAGACCAACAAGATGCATCGGGATCATACGCCGTCAACTACCCGGCCAACGGTGATTTCTTGGCCGCCGCCCAC

(SEQ ID NO. 534)

Clone Rv388

:::::::::::::Rv388SP6.seq:::::::::::::

CTCAAGCTTGCCAAAGAGACCTCGTCCACCAAGCNGGACGCGACCGTCNAGGTGGCGATCCGGCTTGGCGTCCACCCGCGTAAGGCANACCANATGGTTCGCGGCA

(SEQ ID NO. 535)

CGGTCAACCTGCCACACGGCACTGGTAANACTGCCCGCGTCGCGGTATTCGCGGTTGGTGAAAAGGCCGATGCTGCCGTTGCCGCGGGGGCGGATGTTGTCGGGAG

TGACAATCTGATCGANAGGATTCAGGGCGGCTGGCTGGAATTCGATGCCGCGATCGCGACACCGGATCAGATGGCCAAAGTCGGTCNCATCGCTCGGGTGCTGGGT

C

:::::::::::::Rv388T7.seq:::::::::::::

CCACGGCGTGGATCAAGGTACCGGCCGGGATGTTGCGCAATGGCAGGTTGTTGCCCGGCTTGATGTCGGCGTTAGCGCCGGATTCCACCACATCCCCTTGCGAAAG

(SEQ ID NO. 536)

TCCGTTGGGTGCAATGATGTAGCGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCNTACTCGATGTGCGCGACCTTGGCGTTG

ACACCATCTTTGTCATTGCGGCGAAAGTCGATCATCCGGTAAGCGCGCTTATGACCGCCGCCTTTGTGCCGGGTGGTAATCCGGCCATGCGCGTTGCGTC

Clone Rv389

:::::::::::::Rv389SP6.seq:::::::::::::

GGCGGCTGCGTCGGCGAGATGATCGCCCGGTGCCACCCCGATCCGTGCCTCGGTCAGCGCCAACGTGCTTTCCGGTCCGGCGACCACCATGTCGCATGCGCCGAC

(SEQ ID NO. 537)

:::::::::::::Rv389T7.seq:::::::::::::

GCAATCGCCTTGGCGGTCGCCGGGTTGTCACCGGTGATCATCNCGGNGCGGATGCTCATNCGGCGCATTTCGTCNAATCGTTCCCGTATGCCCACCTTGACGATGT

(SEQ ID NO. 538)

CCTTCATATGGACCACGCCGATGGCCCNCGCGCTNCTG

Clone Rv38

:::::::::::::Rv38SP6.seq:::::::::::::

CCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCA

(SEQ ID NO. 539)

AGCTTCCACATCGGTATGCCAAAGCATTGCGCCGCTATCGATTTCGCGCTGGCATCGCCAAGGTGGACTTCTTGCTCAGCGACGAGATCCCGTGGTCGGATCCGCG

GCTGCGGCGGGCTGCGACCCTGCATCTCGGCGGCACCCGTGACCAGATGGCGCGCGCCGAGGCAGACGTCGCGGCGGGACGCCACGCCGACTGGCCGATGGTGCTG

GCCGCGTGTCCGCACGTCGCCGACCCCGGCCGCATCGACGAAACCGGCCGCCGTCCGTTCTGGACCTATGCCCACGTGCCGTCGGGGTCCACGCTCGACGCGACCG

AGACCGT

:::::::::::::Rv38T7.seq:::::::::::::

CGCGTCCACCGCAGCGTGAGATTGGTGGCGCCATTCGTCGTGGTGTAGCTGCTGTTGGCGGCGTCGCCGTATTGTGCGGGCCAGCCTTGTGCGGGGGCCGCTTCTA

(SEQ ID NO. 540)

CCCACGAGTCGGCACTTCCGCAACCGCCCAGCTCGACCGCGATTACGGCGGCCGCAACGGCCGCCGGAAGGCGTCTCGCAAGCGCCTTATCCTTTCGCAGGTTCCC

AGATCCTTCCGCTACGTGGGTCGCTCATCGGCGGGCCCGGCCGAATGAGTACAGGTGAGGGTAACCGCTACAAATGAAGTTGGTCAGTGCTGGCCAACTGTGTAAT

GGTTGCCCGGCTCGGGTCACCACGTACATTCTGGCAAGGCGGGCGAGATTCGGTTCCTCGCGTCCTTGGCCGGTGGCGGTTCCCGGTTGTCCGTGGGCGTGTCGTG

TACGTGGTGTAAGTGTCGTGAACTCCTCAGTTTGGGCT

Clone Rv390

:::::::::::::Rv390SP6.seq::::::::::::

CTCAAGCTTGCGCTGGATCTGGCGGCTGAGCCTGTTCTTGGGCAACATGCCGAGGGATCGCCTTTTCCACCACGCGGTCGGGGTGGCGTTGCATTAGCTCACCGAT

(SEQ ID NO. 541)

GGTGCGCTTGTGCAGGCCGCCGGGATACCCCGAGTGCCGGTAAACCATCTTGTGCTGCAGTTTGTCGCCGCTGATGGCGACCTTGTCGGCGTTGATCACNATGACN

AAGTCACCGCCATCGACATTGGGGGCGAACGTCGGCTTGTGCTTGCCGCGCAGCAGGTTGGCCGCCGCGACGGCAAGGCGGCCAANCACCACGTC

:::::::::::::Rv390T7.seq:::::::::::::

TTTGGGATGGGCAAAAAGGCGAAGCNCCGCGTGGCCACGAACGCCGGGAGGGACAATCTCGGGCGGCTAGGGCTTCTCGCGGGAAGGCCCGAACGTACGGCGTTTC

(SEQ ID NO. 542)

AACACGTCGCGTCGCCCTCCGACCGCGAACATTCGGGGATGGCAGCAACCTGGTAGCACCCTGGCCGGGCGATGATCTGCAGCGTCGCCGCGGGTAGTCGCCGCCC

GGGCGGCTACAGTCTGAAACGCGATGACCATCGATGTGTGGATGCAGCATCCGACGCAACGGTTCCTACACGGCGATATGTTCGCCTCGCTGCGCCGGTGGACCGG

TGGGTCTATCCCGGA

Clone Rv391

:::::::::::::Rv391SP6.seq:::::::::::::

CTCAAGCTTCGTCATAAGACCATGGTGCGCTTTCTTTCACCCGTCCANAGTCGGGGGCATCCGCACCGGCTCGCATCGCATCATCCTCCCACGACGGGCCGCTCAT

(SEQ ID NO. 543)

CAGCTTGGGCCATTTCAATGTACTTGATACCCCGCGCTGCGGGTAGGCCACTGCNACAATTCAAACACGGTGTCACACGGTGAATANTGTCNANATGGGCTCTGAT

CAACCGTCNCAAACCCGGTTTC

:::::::::::::Rv391T7.seq:::::::::::::

GAATTCTGCGTGCACCGCTATGGGTTGCAGCAGCGGCTGGCGCCGCACACCCCACTGGCCCGGGTGTTTTCGCCCCGAACCCGGATCATGGTGAGCGAAAAGGAGA

(SEQ ID NO. 544)

TTCGCCTGTTCGATGCTGGGATTCGCCACCGCGAGGCCATCGACCGATTACTCGCCACCGGGGTGCGAGAGGTGCCGCAGTCCCGCTCCGTCGACGTCTCCGACGA

TCCATCCGGCTTCCGCCGTCGGGTGGCGGTAGCCGTCGATGAAATCGCTGCCGGCCGCTACCACAAGGTGATTCTGTCCCGTTGTGTCGAAGTGCCTTTCGCGATC

GACTTTCCGTTGACCTACCGGCTGGGGCGTCTGCACAACACCCCGGTGAGGTCGTTTTTGTTGCAGTTGGGCGGAATCCGTGCTCTGGGTTACAGCCCCGAACTCG

TCNCGGCGGTGCGCGC

Clone Rv392

:::::::::::::Rv392SP6.seq:::::::::::::

GCAGTTGGGAATCGCTCTGCAGCAAAGGANTATTCTGCGCGACGTTCGAGAGGACTNTTTGAATGGACGGATCTACCTGCCGCGCGACGAGCTGGACCGATTAGGC

(SEQ ID NO. 545)

GTACNCCTCCGCCTGGACGACTCCGGGGCACTCGATGACCCCGACGGACGGCTCGCGGCACTGCTGCGGTTCANTGCCNACCGCGCCGCANACTGGTATTCGCTGG

GACTGCGGCTGATTCCACACCTCGACCGCCGCAGCGCTGCCTGCTGTGCGGCCATGTCTGGCATCTACCGCCGTCNGCTCGCCTTGATCAGACCATCGCCGGCGGT

CGTCTACCATCGGCGAATCTCTCTGTTCGGGACTGAANAANGCCCAAGTGGCGGCGGCAGCACTGGNCTCTTCGGTAACCTGCNGACCGCCCATTGGACCGCTACC

G

:::::::::::::Rv392T7.seq:::::::::::::

TTGATCTGGACGTCTGAGACGGTGATCGGNCCGAACCTGAATTGTCCGGTAATGCCCAGCGCAGAAAGCANGGTGGTGGCCGGGGCGGTGAANCCGGCGTCGGCGG

(SEQ ID NO. 546)

CACCGTCGAAGTCGATGTGGATTGCCGGAATGGGGATGTCCGGCACGGCGAAGCCGTAGTTCGCTTGTCCCGTGAGGCCCANGTGGATGGGGGGAAGGATCGTGGT

GTCCGGGATGATAATGGGGCCGATGCCGCCGGTTGAAGTCCAGTGGATCGGGAATTCGGGAATCGTGATGCCGACGTTCAGGCCGAACAGGCCCTCCAAGTTGCCT

CGCCACNAGATGCCGTTGCTGAAGTTGCCCGACATGAGGGCGCCGGTGTCCACATTGCCCGAATTGGCGACGCCGGTGTTGGC

Clone Rv393

:::::::::::::Rv393SP6.seq:::::::::::::

CACGTAGGCGCCGTCCATAAATNACTCCGCCGCGCTTCGCACATCCTCGTANCGATCCTTGGCGAGCAGGTCAACCGGGCGCTGCCCGTCNAGGAGCCGGTTTTTG

(SEQ ID NO. 547)

GCGTGCAGCCACTGGCCGACACCTCGGGGGGTAAGCGAATCCGAGAGCAGGAGGACNAGGTCACGAANCTGCGCCAGCCGGTCGTACCGCTCAGGGCGGATGTCGC

CGGTCCGCCACCCGCGTACCGCCCGATCGGACACCTGTATGACCGCGGCGACNTCGACCTGGGTGACGCCGAAGGGTTTCAGGGCATCNACNATCTCGCTGGCCTC

GACCGCCCGGTCCAGGGTGACCGCCATCGTGGTTCCTCCGCAACTTCCGGTTCTACTACCGTAAACGCTACCG

:::::::::::::Rv393T7.seq:::::::::::::

CGGGGAACGGTCCTCGCACACCTGGTTCGTGTTGCGGGAATTACTCGGACANCAAAACGTCAAGAACTACGACGGCAGTNGGACAGAANACGGCTCCCTGGTGGGC

(SEQ ID NO. 548)

GCCCCGATCGAGTTGGGAAGCTGATATGTGCTCTGGACCCAAGCAAGGACTGACATTGCCGGCCAGCGTCGACCTGGAAAAAGAAACGGTGATCACCGGCCGCGTA

GTGGACGGTGACGGCCAGGCCGTGGGCGGCGCGTTTCGTGCGGCTGCTGGGACNCCTCCGACGAGTTCACCGCCGGGAGGTCGTCGCGTCGGCCACCGGGCGAATT

TCCGGTTCTTCGCCGCGCCCCGGGATCCTGGGACCGCNGGCGCGCGCTGTT

Clone Rv396

:::::::::::::Rv396SP6.seq:::::::::::::

CTCAAGCTTTGTCCGACAAGCGTTCCCGGGCGGTCAGCAAGCGAACGTCGGTTGGCCCACTGCGGGTCGATATTGCCGCCAGGGA

(SEQ ID NO. 549)

:::::::::::::Rv396T7.seq:::::::::::::

CGTCAGCACGGCGACGTCGCGNTACGCCGAGCAGTTACACAATCGCTCTGCAGCAAACCAATATTCTGCGCGACGTTCGAGAGGACTTCTTGATTGGACTG

(SEQ ID NO. 550)

Clone Rv39

:::::::::::::Rv39SP6.seq:::::::::::::

CTGCATCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAA

(SEQ ID NO. 551)

TACTCAAGCTTCGCGCAGCGGCGGGTTGACCCGGTTCACGCCGTCATAGCTGGCCAATCTGGCATCGTCGATCANCATGTGGTGGGGGGTGACCTCGGCGGTGATC

GAAATACCCTGGTCCTTATCCCATTTCAGGATTTCGACGGTGCCCGCGGCCGACGCGTGACAGATGTGCACCCGGGCGCCGGCGTCACGGGCCAGCAAGGCGTCGC

GGGCGACGATCGATTCCTCGGCGGCCCGCGGCCATCCCGCCAGGCCCAGCCGCGCCGCCATGGGTCCCTCGTGCGCGACGGCGCCGACCGTCAGCCGGGGCTCCTC

GGCGTGCTGGGCGATCAGCACGCCCAAACCGGTG

:::::::::::::Rv39T7.seq:::::::::::::

CCGACGCGCACTACGTGCTGGTGTCCACCCGCGACCCGCACCGGCACGAGCTACGCAGCTACCGCATCGTCGATGGCGCTGTCACCGAGGAACCTGTCAATGTCGT

(SEQ ID NO. 552)

CGAGCAGTACTGAACCGTTCCGAGAAAGGCCAGCATGAACGTCACCGTATCCATTCCGACCATCCTGCGGCCCCACACCGGCGGCCAGAAGAGTGTCTCGGCCAGC

GGCGATACCTTGGGTGCCGTCATCAGCGACCTGGAGGCCAGCTATTCGGGCATTTCCGAGCGCCTGATGGACCCGTCTTCCCCAGGTAAGTTGCACCGCTTCGTGA

ACATCTACGTCAACGACGAAGACGTGCGGTTCTCCGGCGGCTTGGCCACCGCGATCGCTGACGGTGACTCGGTCACCATCCTCCCCGCCGTGGCCGGTGGGTGAGC

GGACACATGACACGATACGACTCACTGTTGCATGCCTTG

Clone Rv3

:::::::::::::Rv3SP6.seq:::::::::::::

TGCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAAT

(SEQ ID NO. 553)

ACTCAAGCTTGCCGGGAGGGTGCATGGCCGACTCGGATTTACCCACCAAGGGGCGCCAACGCGGTGTCCGCGCCGTCGAGCTGAACGTTGCTGCCCGCCTGGAGAA

CCTGGCGCTGCTGCGCACCCTGGTCGGCGCCATCGGCACCTTCGAGGACCTGGATTTCGACGCCGTGGCCGACCTGAGGTTGGCGGTGGACGANGTGTGCACCCGG

TTGATTCGCTCGGCCTTGCCGGATGCCACCCTGCGCCTGGTGGTCGATCCGCGAAAAGACGAAGTTGTGGTGGAGGCTTCTGCTGCCTGCGACACCCACGACGTGG

TGGCACGGGCAGCTTTAGCTGGCATTCCT

:::::::::::::Rv3T7.seq:::::::::::::

GGAAACACCGNCGCCGTCGTGGCCACCAACACCGCGACCAGCACCGTGACCCGGACCGGGGTGCCGCGCGAACCGGTCTTGGCCAATTGCCGCGGCACCAAGCCGT

(SEQ ID NO. 554)

CGCGCGCCATGGCGAACAGCACGCGGCATTGCCCGAGCATCAACACCATCACCACCGTGGTAAGCCCGGCCAGCGCGCCGACGGAGATGATGCCGCTGGCCCAGTA

CACCCCGTTGGCCTGGAACGCGGTGGCCAGATTTGCCGGCCCGCGGCCCGGTACGGTCCGCAGTTGGGTGTATGGAACCATGCCCGACAGCACCACCGATACCGCG

ACGTAGAGAAGGGTCACGACCCCCAGCGACGCGAGAATCCCTCGAGGGACGTCTCGTTGAGGACGCTTGGTCTCCTCGGCCATGGTGGCCACGATGTCAAACCCGA

TAAACGCGAAGAACACGATCGATGCCCGGCCAGCACGCCGTA

Clone Rv40

:::::::::::::Rv40SP6.seq:::::::::::::

CCTGCTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGA

(SEQ ID NO. 555)

ATACTCAAGCTTGTCCTCGGGCGTGGCCTCGGCCAAGAAATCGTCGACGCCGGCCTCCTGTGCAATCGCCTTGGCGGTCGCCGGGTTGTCACCGGTGATCATCACG

GTGCGGATGCTCATTCGGCGCATTTCGTCGAAGCGTTCCCGTATGCCCACCTTGACGATGTCCTTCAGATGGACGACGCCGATGGCCCGCGCGCTGCTGTTATCGG

TCCATTCCGCAACGACTAGGGGTGTCCCCCCGCCGGAGCTGATGCCGTCGACAATGGCACCCACCTCCTCAGTGGGGTGGCCACCGTGATCGCAAAACCACTTCAT

CACCGCAGCCGCGGCACCTTGCGGATCCGAACGGATGCGCTC

:::::::::::::Rv40T7.seq:::::::::::::

TTCGTTCGATGGCGCCGCCCCGGCTACGGTTTGACCTGTGGGTGTCGAATTGGGGTCAAATTCCGAGGTCGGCGCGCTAAGAGTGGTCATCCTGCACCGCCCGGGG

(SEQ ID NO. 556)

GCCGAACTGCGCCGGCTCACACCGCGCAACACCGACCAGCTGCTGTTCGACGGCCTGCCCTGGGTATCCCGCGCGCATGACGAGCACGACGAATTCGCCGAGCTGC

TGGCTTCCCGCGGTGCGGAAGTGCTGTTGCTGTCGGACCTGTTGACTGAGGCACTACATCACAGCGGGGCCGCCCGCATGCAGGGGATCGCCGCTGCCGTCGACGC

ACCGCGGCTGGGACTGCCGCTGGCGCAAGAACTTTCGGCCTACCTGCGTATCTCGACCCAAGCANGTTGGCGCATGTGCTGACGCCGGCATGACTTCAACGAACTC

CCNTCCGACACGCCGAACGAAGTGTCGTTGGTGTTGCGTATGC

Clone Rv412

:::::::::::::Rv412SP6.seq:::::::::::::

GCGGCGAGTGTGGTGGGTGCCGAACACGAATCCAACGACGCACTGGCGGAGAGATACCACTTGCTGTACTGGAAGCACGTGCTGATGATCTCCCGTGGAATGTGCC

(SEQ ID NO. 557)

TCGCCGCCGTCTATCGAAAACAGTGAGCATGCTGCG

:::::::::::::Rv412T7.seq:::::::::::::

CAACCGCGCTCGGCGCGTCTGGGCCTTCCGCCGGCTCCGCCGACAATTCTATCTCTGGATCAGCGGGGCTCTCCGGGCCGGCCTCCGCGAACTCAACAGGCCGCGC

(SEQ ID NO. 558)

CTTCCGGCCGAAACATTCCCTAGCCATATATGATCGCACCTCGATACACGATCTGGCGGCAACACCGCAAAGCGTCCGACGGGCCCAACCTCCGCAATTCAGGTAT

CCGGG

Clone Rv413

:::::::::::::Rv413SP6.seq:::::::::::::

GAAGGTCGGCGAAGGTGTGGCTGGNTGCCGATCACGAATCCAATGATGCAGTGGTCGGAAGATATTAGCCACTTGCTGTTCTGGAGACAGGTGCTGATGATCTCCC

(SEQ ID NO. 559)

GTGGAATGTCCCTCGACTCCGTCTATCGAAATCTGTGAACA

:::::::::::::Rv413T7.seq:::::::::::::

TCCTGCGCTCTGGGCCATTCTCGGGTCTGCCGACAATTCTATCTCTGGATCTGTGGGGCTCTCTTGGCCGGCCTCNGCGATCTCTTCANGGCGCGCCTTCCGGCCG

(SEQ ID NO. 560)

AAACATTCCCTATCCATATATGATCGCACCTCTATACACCGTTTGGCGGCAACACCGCAAAGTGTCTGTCG

Clone Rv414

:::::::::::::Rv414SP6.seq::::::::::::

AGCTTTACGCTGGCGTATCAGCGTTGGGGCCGCTGCCATTTCGGTCGCCCAACGCGTTGCCAGCTCCCTGCGCTGTCAGGGCTTGCGCGCCAAACTGGCCACCGCA

(SEQ ID NO. 561)

ACAAACTTGGCTGAGCTTGATC

:::::::::::::Rv414T7.seq:::::::::::::

CTCTATCTGGCGTCACATTCGCAATCTTTAGATTGCAGATATCGATAAAATCACCCGCGCGACAAGACCGCCATGTCATCCTTTCGATGTTATTTCGCCGGCCTGG

(SEQ ID NO. 562)

GGAAAGCGCAACGACGTTGCCTACACGTTCCGCCGT

Clone Rv415

:::::::::::::Rv415SP6.seq::::::::::::

AGCTTTNCCTTGCATCTGCACCCCGATCCACGTCAGCCACGTCGGCGTTCTCCACCAAGAAGTTGCGGGCATTCTCCTTGCCCTGGCCGAGCTGCTCGCCCTCGTA

(SEQ ID NO. 563)

GGTGAACCAGGCACCCGACTTGCGGATGAGGCCCTGATCCACACCCATGTCGATCAGCGAGCCCTCCCTGCTGATTCCCTTGCCGTAGAGGATGTCGAACTCGGCC

TGCTTGAAGGGGGGCGAACAGTTGTGCACGACAACCCCTTCGGCGACGAGGGTGTGCAGTTCCTCGACCTCGAGGTCGAACGTTCGTGCCCGCCGCGTTGGCAGCA

CTTCTCGGATCACGGAATAGCGGANTTCTTCCGCCAGCATGTCGTGCAGGAATTTGTCATCCAGGGCATCCGCGAGCGCCTGCACGCG

:::::::::::::Rv415T7.seq:::::::::::::

ACTGTCNAGGGAATGCTTCGCAGCATCTACCTGCAGTCGCTTGTGCATAAGCGGACGGCCCNACCTGTTCGTGTTCCGGGACACCAGACGCGGGAGCACCGGCAGT

(SEQ ID NO. 564)

ACGGCGAAAGGTTTGAGCGGAAGGAGTTGCGCAAATCGGGGCGCCCCAACACCCGTCCGCAAGACGCGGTCAACGACCTGTTTCAGGCGATCAGGGTCACCGACTC

ACCTGCACTGAGAACAAGCGATCTGCTGATCTGCCAGAAGATGGACATGAATGTCCACGGCAAGCCTGATGGCCTGCCGCTCTTCCGGGAATGTTTGGC

Clone Rv416

:::::::::::::Rv416SP6.seq:::::::::::::

TGAATTATGATCCCGACACAACTGCATCANTTTAGCCGCGTCGNGATGCTATCCGCCGACGGTTTGGANCNGGTCCGTGTCGTTCGTGTTGATCTCACCCGAAGTT

(SEQ ID NO. 565)

GTGTCCGCCGCCGCCGGGGATCTAGCGAACGTGGGATCGACAATCAGCGCCGCCAACAAGGCGGCAGCGGCTGCGACCACGCAGGTGCTGGCCGCGGGCGCCGATN

AGGTGTCAGCGCGCATCGCGGCGCTGTTTGGTATGTACGGCCTGNAATATCCGGCGATCAGTGCGCAAGTTGCCGCGTATCACCANCAGTCCGTGCAG

:::::::::::::Rv416T7.seq:::::::::::::

AACGGGGACCNCAAGAAACCATTCAANAACGAGGGGTCGTCACCAACGTCGAAACCGACGGTTGCCAGCCGGCCCACGATATTGCGTGCTCGAGGGTCCGCTGTAC

(SEQ ID NO. 566)

CCTCACCGAACGTGAGTCCCACACCGCGGAGGCGGGCGACTCTGGCGTCGTTAGCAGCCGAGCTCAAGGTGTCCCGCACCACTGTCTCGAATGCTTTTAACCGACC

GGATCAGCTCTCCGCCGATCTACGTGAACGAGTGCTTGCCACGGCCAAGCGACTGGGCTATGCCGGACCGGATCCGGTGGCGCGATCGTTGCGGACCCGCAAAGCC

GGTGCGGT

Clone Rv417

:::::::::::::Rv417SP6.seq:::::::::::::

AGCTTTGGAGCCNCNCCGANCCNCCGGTACGCCCCGCCACCGCCGTACCCGGCACCCGACCCCTTTGAGCCGTTCGCCGTGGCCGCGGTGGANCTGGCCGACGAGG

(SEQ ID NO. 567)

GACTGATCGTGCTGGGCAAAGTGGTCGATGGCACGCTGGCCGCCGATCTGAAGGTCGGCATGGAGATGGAGCTGACGACCATGCCGCTGTTCGCCGACNACGACGG

TGTGCAGCGCATCGTCTACGCGTGGCGGATCCCATCGCGCGCCGGCGACNATGCANAGCGCANCGATGCTGAGGAGCGGCGCCGATGAGGATGAGCGCGCCGGAAC

CCGTTTACNTCCTGGGTGCCGGTATGCACCCGTGGGGGAAATGGGGTAATGACTTC

:::::::::::::Rv417T7.seq:::::::::::::

TTCTCNCATCGTTCGTACTNNGATGGGACGCTGCTGCCCGAGGCGATCCTGGCCAACCGGCTCTCGCCGGCGCTGACCTTCGGCGGGGCGAACCTGAACTTCTTTC

(SEQ ID NO. 568)

CGATGGGCGCTTGGGCCAAACGTACCGGGGCTATCTTCATTCGGCGTCAGACGAAAGATATTCCCGTCTACCGCTTCGTATTACGTGCTTACGCCGCGCAGCTGGT

GCAAAACCATGTCAACCTCACCTGGTCGATCGAAGGGGGTCGGACCAGAACGGGCAAGCTACGGCCACCGGTGTTCGGGATCCTGCGTTACATCACCGATGCGGTC

GACGAAATCGACGGTCCCGAAGTGTATTTGGTGCCGACCTCGATCGTGTACGAACAGCTGCACGAAGTGGAAGCCATGACCACCGAAGCCTATGGCGCCGTGAA

Clone Rv418

:::::::::::::Rv418SP6.seq:::::::::::::

TTCTTCCGGGTACCGCTGATCGGCGGCACCATCACGCACCCGGTGCAGGGCGAGGCGGCCGCCGGTGTGGTGTTGCTACGGCCGGCCAGCCCGGGTACCGGTGTGA

(SEQ ID NO. 569)

TCGCCGGTGGTGCGGCCCGCGCGGTGCTGGAATGTGCGGGGGTGCACGACATCTTGGCCAAGTCGCTGGGCAGTGACAACGCGATCAATGTGGTGCACGCCACCGT

GGCCGCGCTCAAGCTGCTGCACCGTCCGGAGGAGGTGGCGGCGCGCCGCGGTTTGCCAATAGAAGACGTCCCCCCGGCCGGGATGCTG

:::::::::::::Rv418T7.seq:::::::::::::

GTCGAAAGTGACCATCTCTACCTTGAGTGCCATACCGCCCGACCCTATGCCTCGGATAGCTCGGCGGAAAGAAACGCTTGCAGTGCCGCCGAATAGGCGGCTACGT

(SEQ ID NO. 570)

CGTGAGCGCCCATCAACTCTCGCGCGGAGTGCATCGCCAGCTGGGCGGCGCCGACGTCGACCGTGGGGATTCCGGTGCGCGCCGCGGCCAACGGCCCGATCGTCGA

CCCGCACGGCAGATCGGCGCGATGTTCGTAACGCTGCATAGGCACTCCCGCGCGCTGGCAGGCCAGTTGCGAAACGCCCCCGCCGGGTGCCTTCCGTCGGTTGGCT

TTACCGCAAATTTGGGGTTGCCCCT

Clone Rv419

:::::::::::::Rv419SP6.seq:::::::::::::

AAAGCCACGGAAACGATTGCCTACTGCCGAATCGGGGAACGGTCCTCGCACACCTGGTTCGTGTTGCGGGAATTACTCGGACACCAAAACGTCAAGAACTACGACG

(SEQ ID NO. 571)

GCAGTTGGACAGAATACGGCTCCCTGGTGGGCGCCCCGATCGAGTTGGGAAACTGATATGTGCTCTGGACCCAAGCAAGGACTGACATTGCCGGCCAGCGTCTACC

TGGAAAAA

:::::::::::::Rv419T7.seq:::::::::::::

TTTCGCCACCGCNAGGTCGTGCGCGTTCCAGAAAAGCGTGGTTTCGCCGGGCGCGAGGATTCGACGGTCCAACTGACCAGCCGGTCCCGCCACCCGTTAGGCAGGA

(SEQ ID NO. 572)

TCGCGGTGTCTATATGTTCGCCCTCGGCATAAACGCCATTGCTGCGGTGAAAATCGGACATCTCGCCGATTGCCACGTCTACATGATCCGCTTTGTCCCGCGCCGG

GTCGTTGACAAACGCGATGTCNGCCTCCTGGGAAGCGGTGGC

Clone Rv41

:::::::::::::Rv14SP6.seq:::::::::::::

TCGCCAAGTGGATTCGTGCTCACCNACGAGATCCGTGGTCGGATCCGCNGCTGCGGCGGGCTGCGACCCTGCATCTCGGCGGCACCCGTGACCAAATGGCGCGCGC

(SEQ ID NO. 573)

CGAAGCAGACGTCTCGGCGGGACGCCACGCCGACTGGCCGATGGTGCTGGCCGCGTGTCCGCNCGTCNCCGACCCCGGCCGCATCNACCAAACCGGCCGCCGTCCG

TTCTGGACCTATCCCACGTGCCNTCGGGGTCCACGCTCGACGCGACCGANAACGTAACCAGCGTCCTCGANCGGTTCGCCCCCGGCTTCCGTGACATCGTGGTGGC

GGCCGCGCCGT

:::::::::::::Rv41T7.seq:::::::::::::

GTACCGTCACCATGATCGCCCCCATCGGCATCGGTGAGCTGATAGATCCCAGCCGGTTTCGCCAACCCCGGAGCGATCTTGGCGCGCTGCTNGTNGTCNCTGANAC

(SEQ ID NO. 574)

NTAGCCACCAACAGAGCCCGGTGTGCGACAAGANGACTGATCGGATCTCTCCGGACACNTCGAGGGGGTCNTCAGGAGNCCGGGCGCCACCCCGAGGTAAGCCTCC

GCCCAGCCTCACACCGCGACCGGGTATCNCAAGTCGCGCAATAANCCCACCACCTCCTCGGACCCCACGTTGTATGCGGCTGGGT

Clone Rv42

:::::::::::::Rv42SP6.seq:::::::::::::

ATACTCAAGCTTAGACCTCACTGATGTGGCGGGACGCGGGAGATAACCGCGGTTCGAGCCGTTCAACAGTGGTGGTTCCCACACCAGTTGTTTGCCTTTGCGAAGT

(SEQ ID NO. 575)

AAAGCGATTCGATTTGCTCGAAAAGAGGGCTGGCTGCTCGTGAGGGACATCCATGGCCGATACCTCAGCGATCTCAACGGTCAAGCGACTGCATGTTTGGCGCAAG

GTATCGCTAAGCATAGGTTCGTGACGGATTTGACAGCAAGAGCTTTCCAAAGATTGCTGTCCACATANTGATTCGCATCTCTACACCTCTTCGCCGGTGCTGTCAA

GAGCCATTCGAATCAGTTATCTCGCTCGTGCTTGGAANAAATTTTCCCAGCCTGCGTTGGACAAACCGCGTCGCCAAAGCGGT

:::::::::::::Rv42T7.seq:::::::::::::

AGCTTCCCGAGAAACAGTGCATTCCCTAAGCAGCCCGTTGTCACGCCGATGAGTGAAGAGTGCACGCAATCGCCGGAATCCGGCAAAGCCCTGCACAAGCGAAATC

(SEQ ID NO. 576)

AACCCGGAGGCTGACAAGGCAACGTCGGTGATCCGTACCGCCTGGTTGGACAAACGGCAGAAGGCGGCCTCGTCCGGTCCATCTACGCCGAGCACACTGGTGATAG

CGCGCATCGGCATCGGTGCGGCCACGGTGGAGACGACGTCCGCGGGCGTCTGGGTCAGTAACCCGCCGACCAGTTCTCGGGCAAGCTGGTCGACCATCGGGCGCCA

CGTCTCCAACGCGCCACGCGCCATACCTGGTGCCAGTTGCTTGCGCATCCGGGTGTGCGCCGGCGGATCGGACGTCGCAGAAACGCAGCCACCCCGTGAGAAGTGA

CCCACGGCGCTGGACACGTGTCTGGTTAC

Clone Rv43

:::::::::::::Rv43SP6.seq:::::::::::::

CGGCCGGGATGTGCGCAATGGCAGGTTGTCGCCCGGCTTGATGTCGGCGTTAGCGCCGGATTCCACCACATCCCCTTGCGAAAGTCCGTTGGGTGCAATGATGTAN

(SEQ ID NO. 577)

CGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCGTACTCGATGTGCGCGACCTTGGCGTTGACACCATCTTTGTCATGGCGGC

GAAAGTCGATCATCCGGTAAGCGCGCTTATGACCGCCGCCTTTGTGCCNGGTGGTAATCCGGCCATGCGCGTTGCGTCCACCGCGACCGTGCAGCGGGCGCACCAG

CGACNTCTCCGGGGTTGACCGGGTGATCTCGGCGAAATCAGATACGCTGGCGCCGCGACGACCAGGCGTCGTGGGCTTGTACTTGCGAATTGCCATGGTCTAATCA

GGTCTTTCTCTCACCTCTCGTCGCCGGGCTAGGGCGCATTGCCTGCTCCT

:::::::::::::Rv43T7.seq:::::::::::::

TAGCGGTGTAACCAACTCCCGGGTCACCACCCGCAAACCTCTTGCGGCAACAGCACCGTCGACGCGTCAACCGGGCTGCCCGGAATCCTGTGGATGGGCATCGAGT

(SEQ ID NO. 578)

GCATGGTCACGACGTCCCCGACGCGGCCGGTGGCAACGACAAGTGGCCCGGATGCACCACAAATGACGGCCGCACACCGGTGGGGACGGCCAGCACGAGAGCCGTG

TCGCCGAAGTCGACGCTAATGCCGTAGGCATTGGCCGTCACAACAGGCGACGCCCCGCGTACCACCGAGTCCACGGNGGTTGGGCGGTCTCCTCGGCCAACCAGGC

GTGAACCCGGCGGATCCGAATGCAGCAAGACCCGTGGGC

Clone Rv44

:::::::::::::Rv44-2ndSP6.seq:::::::::::::

CCATTGGTCGGTGTGCGCATACCANTACNACGCGCCGGGCACCTGACGCGGCGGCCGCAACCATTCGGTGGCCATCGCCATCGTCTGCCACCCGGTCAACGGACGC

(SEQ ID NO. 579)

ACCTTCTCCTGGCCGACCTAGTGCGCCCACCCGCCGCCGTTGCGTCCCATCGATCCGGTCAACATGAGCAGCGCCAACACCGAGCGGTACATGACATCTGCTGTGG

AACCAGTGACANATTCCGCCGCCCATGATGATCNTCGACCGTCCTCCGGATTCGGTC

:::::::::::::Rv44-2ndT7.seq:::::::::::::

GCCGGCCTGGTCAAAGGGGCGTCCGAAGGANCCGGGCTGGGTAACAAGTTCCTGGCTCATATCCGCGAATGCGACGCCATTTGTCAGGTGGTGCGGGTGTTCGTCG

(SEQ ID NO. 580)

ACGACNACGTGACTCATGTCACCGGACGGGTCGATCCCCAGTCCGACATTGAGGTCGTCGAGACCGAGCTGATCCTGGCAGATCTGCAAACCCTGGAGCGGGCCAC

GGGCCGGCTGGAGAANGAAGCNGCACCAACAAGGCGCGCAAGCCGGTCTACGACCCGGC

Clone Rv45

:::::::::::::Rv45SP6.seq:::::::::::::

GATCCACTGACCACGATGACATATCGAAATGCTCGACGATTCCGATGGCGATCAAGGCCACGATGCCCTGGCCGTTGGGCGGTATCTGGTGGATGGTGTACCCGCG

(SEQ ID NO. 581)

GTAGGTTCCCGTGATCGTGTCGACCCAGTCCACGCGATGGGCGGCGAGGTCGTCGGCACGCATCACCCCGCCGTNTGCCGCCGAGTGCGCCTCGAGTTTGGCGGCC

AGCTCTCCCCGGTAGAACTCTCACCGTTGGTCGCCGCGATCTTCTCTANCGTCGCCGCGTGGTCAGGAAAGGTAAACAGCTCACCGGGTTTCGGCGCTCGTCCGCC

GGGCATGAACGCATCTGCGAATCCGGGCTGGGATGCGAACAACGGACCTGTGCCG

:::::::::::::Rv45T7.seq:::::::::::::

TCTACTGCCGAATCGGGGAACGGTCCTCGCCCACCNGGTTCGTGTTGCCGGAATTACTCAGGACACCGAAACGTCGAGAACTACGAGCGGAGTTGGACANAATACC

(SEQ ID NO. 582)

GCTCCCNGGTGGGCGCCCCCATCGANTTGGGAAGCNGAAATGTGCTCTGGACCCCACCCAAGAATGACATTGCCGGCCGCCCTCCAACTGGAAATAGAAACNGTGA

TCACCCGCCGCGTTCTTGGAAGGAATGGCATGCCCTGGGCCGGGCGTTCCTTCCGCTGCCGGACTCCTCCCACCAATTCACCGCCGAAGGCGTCCCGTCTGC

Clone Rv46

:::::::::::::Rv46SP6.seq:::::::::::::

ATACTCAAGCTTCTGTCACCGAAATCCCGCATGGGATAACGGGTTTAGATTTCGACAACGGGACCGTGTTTCTCAACAAGCCGGTCATCAGCTGGGCCGGCGACAA

(SEQ ID NO. 583)

CGGTATCTACTTCACCCGCTTTCGCCCGT

:::::::::::::Rv46T7.seq::::::::::::

CTGGCTCAAGCGCTCGGCGCGCAGGTGAACTCGGACCGGCTCGACGTCGCCGAACGCGAGGCGGTGCTGGCCCACGCCGACGCCGTCGTCGCACATATCGGCACCG

(SEQ ID NO. 584)

TGCACAAGTCTACAACAACGCCGGCATCGCGTACAACGGCAACGTCGACAAGTCGGAGTTCAAGGACATCGAGCGCATCATCGACGTCGACTTCTGGGGCGTCCTC

CACGGGCCC

Clone Rv47

:::::::::::::Rv47SP6.seq:::::::::::::

CCGCCCTCCGCATTATGGGTCAAGAACCATCGGGTCGGACTTCTGGGCTTCCAACGCTCGCGCCGTCCCN

(SEQ ID NO. 585)

:::::::::::::Rv47T7.seq:::::::::::::

CCGTGGCACTGTCAGACATATGCGCCGCTCCTCCTCATCGCTGCGCTCGGCATCGTCGCCGGCGGTCATGGCGTCACCCTACCCAAGCCGAACGCGAAACGAGAAC

(SEQ ID NO. 586)

GTGTTCCATTATTAGGGTGTGAGCACCAATACCAGATTGCTCACCAGGAACTCACGCAGCACCGGGACGGATGTCGGCCACCACGCCCATCTGGGGTGGTAGCGGG

GAAATACCGCTAACGCGGCTCCGGTGCCG

Clone Rv48

:::::::::::::Rv48SP6.seq:::::::::::::

TACTCAAGCTTGTCCAAATATCGAAGCGTCGGGTCGCGAGGCTCGGTCGGCAGCTCCAGCAAAACCCGCTCCACCCCTAGATGCCGGTATCCCTCAAGGTCTTTAT

(SEQ ID NO. 587)

CCGCCGCTTCACCCCACTGGCACACGGTCACCGGCACGTCGCCCCCGGCCATGGCGCGCAACCGCTGAAGCGGACCCGACAGCCGCTGCGGTGATGGACTGATCGC

GATCCACCCGGCATTGAGCCGGGCTATCCGCGGGAAGTTCGCCGGTCCCCCGCCCACATACAGCGGAGGATAGGGCTTTGTCACCGGCTTCGGCCAGCAGTAGATC

GGATCGAAGTCCACATATGTCCCATGGAATTCCGCCTGCTCCTGCGTTCAGATCTCGATTATCGCGCGCAACCGCTCATCGATCACACGTCCGCGCACCGCAGGGT

CCACACCATGGTTGGCGACTTCTTCGCGCAACCAGCCACACCCACGCCGAAACGAAACCGTCCCTGCG

:::::::::::::Rv48T7.seq:::::::::::::

CAGGCATCGAAGCTTGGCCAACTCCTCATCGGACTTGAAGGTGCCGTCCTCGTTGGCGGCCCTGCTCCACGGCACGTTGATGGCACCAGGAATGTGTCCGGGCCGC

(SEQ ID NO. 588)

TGGCTTTGTTCCTGCGGCAGGTGCGCGGGGGCCAGGATCTTGCCGGAGAACTCGTCGGGAGAGCGCACGTCGATGAGGTTCTTGACGTTGATGGCCGCCAGGACCT

CGTCGCGGAATGCCCGAATCGTGTTATCCGGCGGGGANGCGGTGTAGGAAGTCACCGGCCGGCTGACCGGGTCGCTGGACAGCGGGCGTCCGTCGAGCTCC

Clone Rv49

:::::::::::::Rv49SP6.seq:::::::::::::

ATACTCAAGCTTCAAAACAGGCCTGTTGTGGGCGCACCCGGCTCGCCGAGTTCTGCACGCACCGCCTCAAGTGCGGCCCGCACCGCCGGCATCTCCCGGTCACGCA

(SEQ ID NO. 589)

GGGCCGCGGCCCGCGCCGCAGCGACGGCGTGTTCGCGCAGTTCGCCGTCAATGATGCTGACCTGATCGGCCACCCGGGCGGTCTCGGCGTCGTCCCGTTCACTAAT

CGCGGTGCTCAGCAGCGTCTCGACAGCCACCACCCGAGTGGAGACCAGATGCNCCACCACGGACCGCAGCGATGCCAGTCACCTCACCCGTCC

:::::::::::::Rv49T7.seq:::::::::::::

CAGGCATGCAAGCTTTGCAGTTGCTGAGTAATGTCGGCCAACGTCACCACAATCGCGATGAATTCAATCATGCCGCCCAGGGCGGCCAACCCAATGGTGGCCGCGA

(SEQ ID NO. 590)

GCGGCAGCTCGATCGCAGCGCGGAGGTTGCCGGCCGCCAGTTGATTCACGAACAGGGTGAGGTCATAGGCGGGCAGGATAGTGACGAAGGCAAGACCTAGATCTGC

CGTCGGAAGAAGAATCGAGTATCCGGTCGACACAACGGAAGCGAAAGTGTCCGCGATGTTGATGAGCGTCGCCGGTTGTGGCGGCGGTGGCGGCGGTAGCACCGTC

CGCACATACCGCGGGAACGCGGGCATCCGAATTTGGGGCAGGGTGTTCAAGGCGGCTGGCAACTCACCATGAATCT

Clone Rv4

:::::::::::::Rv4SP6.seq:::::::::::::

CCGGCTCGTATGTTGTGTGGAATTGTGACCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCA

(SEQ ID NO. 591)

AGCTTGGCCGCAGGGCCGAGTCGATTGGTCGCGGTCGCCTCGACAGTTAGCTTATGCAATGCTAACTTCGGGGCAAAGTTCAGGCGGATCGGCCGATGGCGGGCGT

AGGTGAAGGAGACAGCGGAGGCGTGGAGCGTGATGACATTGGCATGGTGGCCGCTTCCCCCGTCGCGTCTCGGGTAAATGGCAAGGTAGACGCTGACGTCGTCGGT

CGATTTGCCACCTGCTGCCGTGCCCTGGGCATCGCGGTTTACCAGCGTAAACGTCCGCCGGACCTGGCTGCCGCCCGGTCTGGTTTCGCCGCGCTGACCCGCGTCG

CCCATGACAGTGCGACCCTGNACCGGGCTGGCC

:::::::::::::Rv4T7.seq:::::::::::::

GTGTGCTGTCAATTCAGAGCTGAGCCTGATGCACTCAACTTACTGAGCATGCTAACGCTGGTCGTGCGGGTCTTGTTCCCGCGTGTCGGCAGGGCACACGCTCGGG

(SEQ ID NO. 592)

GCGTAGCTGGGAGAGGCCCCGGTCAAGCCCGGAGAGCAGTGCTCAGTCCGCCAGCTTGACCGACTTTCGATGAGAACGCGCTTCTCGCCGTATTGAACTGGCGTGC

TGACGGTCGCTGAGCAGCGCTCGCCGAGTGCGGCCGCTGATTCTTTCATCGAGCCAGGAGGCGCATTCGTGTTCGGCCGCCTGCGGGTCGGCCCCATCGTCGACGC

GATCCGTCACCCACTCCTCGATCAGGTCTGCCTCATCGAACGGGCCAACGGTGCTGTCGGAGTAAGTGTGCGTGGGCACGCGAGCCGGGTGCTGTGGTACACCCAC

CGTTGCATGAACAA

Clone Rv50

:::::::::::::Rv50SP6.seq:::::::::::::

ATACTCAAGCTTCACCAGGCGCCGGCGGGCCGCGGCGCCAAGCCAGGCAGCCGCGCTCGGCGCGTCGGGGCCTTCCGCCGGCTCGGCCGACAGTTCGATCTCTGGA

(SEQ ID NO. 593)

TCGGCGGGGCTCTCCGGGCCGGCCTCGGCGACCTCAGCGGGCCGCGCCTTCCGGCCGAACCATTCCCTAGCCATAGATAACCGCACCTCAATGCACGGTTTGGCGG

CAACCCGG

:::::::::::::Rv50T7.seq:::::::::::::

AGCTTCCGTCACGACCCGCCCTCGCCGGTGCCGGCGCCATCGGTCATCGGATCTCATGACGACGTCACGTAGGCCCGCTAGCCGCGAGCGGGCGCGGTCAACTGGC

(SEQ ID NO. 594)

GAGGCGGCGGCGACGTGACTGAGCTGGCCGAGCTGGACCGGTTCACCGCGGAACTACCGTTCTCGCTCGACGACTTTCAGCAGCGGGCTTGCAGCGCGCTGGAACG

CGGCCACGGTGTTGCTGGTGTGCGCGCCGACCGGCGCTGGCAAGACGGTGGTCG

Clone Rv51

:::::::::::::Rv51SP6.seq:::::::::::::

ATACTCAAGCTTGCCGGGACCGCGGAACAGAACCGGCGGTTCCTACCGCGGTGTGCGGCCGGCGCGATATCGGCCTCCCGACTAACCGAACCCGATGTGGGCTCC

(SEQ ID NO. 595)

:::::::::::::Rv51T7.seq:::::::::::::

ACGTTGGCTCTGCCGGAACGTATTTCCAGCGGCACGCATTCGGCGTGGGTGCCGGGCGCCGAGTTGCGTCGCTGGGATCACGCAGCAGTCGCCGGCGGCTGCCGTC

(SEQ ID NO. 596)

GGGCTATGAATTGCACCGAGCCGGAAAATCCNCAC

Clone Rv52

:::::::::::::Rv52SP6.seq:::::::::::::

ATACTCAAGCTTGTCGTATTCCGTGGCACTGTCAGACATATGCGCCGCTCCTCCTCATCGCTGCGCTCGGCATCGTCGCCGGCGGTCATGGCGTCACCCTACCCAA

(SEQ ID NO. 597)

GCCGAACGCGAAACGAGAACGTGTTCCATTATTAGGGTGTGAGCACCAATACCAGATTGCTCACCAGGAACTCACGCAGCACCGGGACGGATGTCAGCCACCACCC

CCATCTGGGGTGGTAGCGGGGA

:::::::::::::Rv52T7.seq:::::::::::::

CGTTGGTAGCCCGATATGCATAGTGTATCTTACTGAACATGATTTCCATTATGGAGCCCGGGGTGCCGGCAGCGCGAACGGTGCGCCGTCAGACGCGGGCGGCACT

(SEQ ID NO. 598)

GACCAGGGTGTTGCGGGCGAACATCGGCCCGGCTTCGGATTCCGGTCCGGGTACCGGGCGACCCACCGCTTCGAGGTC

Clone Rv53

:::::::::::::Rv53SP6.seq:::::::::::::

ATACTCAAGCTTGGCCAACTCCTCATCGGACTTGAAGGTGCCGTCCTCGTTGGCGGCCCTGCTCCACGGCACGTTGATGGCACCAGGAATGTGTCCGGGCCGCTGG

(SEQ ID NO. 599)

CTTTGTTCCTGCGGCAGGTGCGCGGGGGCCATGATCTTGCCGGAAAACTCGTCGGGAGAGCGCACGTCGATGAGGTTCTTGACGTTGATGGCCGCCAGGACCTCGT

CGCGGAATGCCCGAATCGTGTTATCCGGCGGGGAGGCGGTGTATGAGGTCACCGGCCGGCTGACCGGGTCGCTGGACAGCGGGCGTCCGTCCAGCTCCCACTTCTT

GCGGGCGCCGTCCAACNACTTGACTTCTCCTGG

:::::::::::::Rv53T7.seq:::::::::::::

ATATCTTAAGCGTCGGGTCCCGAGGCTCGGTCGGCAGCTCCAGCAAAACCCGCTCCACCCCTAGATGCCGGTATCCCTCAAGGTCTTTAGCCGCCGCTTCACCCCA

(SEQ ID NO. 600)

CTGGCACACGGTCACCGGCACGTCGCCCCCGGCCATGGCGCGCAACCGCTGAAGCGGACCCGACAGCCGCTGCGGTGATGGACTGATCGCGATCCACCCGGCATTG

AGCCGGGCTATCCGCGGGAAGTTCGCCGGTCCCCCGCCCACATACAGCGGAGGATAGGGCTTTGTCACCGGCTTCGGCCAGCAGTAGATCGGATCGAAGTCCACAT

ATGTCCCATGGAATTCCGCCTGCTCCTGCGTCCAGATCTCGATTATCGCGCGCAACCGCTCATCGATCACACGTCCGCGCACCGCAGGGTCCACACCATGGTTGGC

GACTTCTTCGCGCA

Clone Rv54

:::::::::::::Rv54SP6.seq:::::::::::::

ATACTCAAGCTTGTCGCGGTAAACCCGCAGCAGGGCGGTGGGTGCGGTGTCAAAAACAACCACACTTCTTTGCGGTTCGGTGATCTCGACACCGGCCGCGAGCCGA

(SEQ ID NO. 601)

CCACCATGCGCGCGTAAATCGGCGATCAGCGCGTCGGCTATCGCCTGGGTGCCGCCCACCGGAATCGGCCAGCCGACCGAATGGGCCAGCGTTGCCAGCATCAGTC

CGGCGCCGGCCGACACCAGTGACGGCAACGGTGAAATCGCGTGGGCGGCAACGCCGGTGAACAACGCGCGGGCATCCTCGCCCGCCAGCGACCGCCAGGCAGGGGT

GCCCTGGGCCAGCATCCGCAGCCCGAGACGCAGGACCGAGCCCAGTGCAGTAGGCAAAGACCGCTTGTCGGAGACATGAACTCCACGACCGT

:::::::::::::Rv54T7.seq:::::::::::::

AGCTTATTGAACCGCGGGTCGCAGGCAAAGTGGACCTCATAACGACTCGGGTCCAGCGACCGCGCCAACACGAACGGCCGGACGACGTGGGCCAGGGTCGCGGCCT

(SEQ ID NO. 602)

CCCCTACAAACAGGATCCGTTGCCTGCGAGCGACAGGCTCCGGTGCGGCGTTGGGCGCCGTGCTCGTCCCAGCGTCCGGTCCCGGGTCGCCGGCGACGCTTGTTTC

CTCCATACTCGCCCCCTAATCTCGAGGCAGCCCGTACCCGCAGGCAACCTCCCAAAAATGCAATCCCCCAAAATGCAATGCGTCGAGCTATTTCTCACACCGACCG

CTAGTTGCGGATCAGAAATCCGTTGGGCGCGGAAGTCCAGCCGAATTTGTTCTCCCGCTCCGCATCATGCTTGTAATCGTTTGGAAATTCATCCTCATATGCCTCG

ATCGCTTCATAGGGTCCAGGCCAAACCGGGCA

Clone Rv55

:::::::::::::Rv55SP6.seq:::::::::::::

CTTCCGGCTCGTATGTTGTGTGGAATTGTGAGCGGATAACAATTTCACACAGGAAACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATAC

(SEQ ID NO. 603)

TCAAGCTTGGCCACCTCGCGGTGTGTGGTGGAACCCATCTGAGCAGTGTGCCAAACCGGGGCAGACAGCTCCCAATTGACGTGAGCCCGCTCACTTGCTGGGTAAG

CGTCG

:::::::::::::Rv55T7.seq:::::::::::::

TAGCGCCCCCTCCCGGGCGGAGCTCCACGGCGTGGATCAAGGTACCGGCCGGGATGTTGCGCAATGGCAGGTTGTTGCCCGGCTTGATGTCGGCGTTAGCGCCGGA

(SEQ ID NO. 604)

TTCCACCACATCCCCTTGCGAAAGTCCGTTGGGTGCAATGATGTAGCGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCGTAC

TCGATGTGCGCGACCTTGGCGTTGACACCATCTTTGTCATTGCGGCGAAAGTCGATCATCCGGTAAGCGCGCTTATGACCGCCGCCTTTGTGCCGGGTGGTAATCC

GGCCATGCGCGTTGCGTCCACCGCGACCGTGCAGCGGGCGCACCAGCGACTTCTCCGGGGTTGACCGGGTGATCTCGGCGAAATCAGATACGCTGGCGCCGCGACG

ACCAAGCGTCGTGGGCTTGTTCTTGCGAATTGCATGTCTAATCAGGTCTTTCTC

Clone Rv56

:::::::::::::Rv56SP6.seq:::::::::::::

TGAAACTAATATAATACTCAAGCTTGCCAAAGAAGACCTCGTCGACCAAGCAGGACGCGACCGTCGAGGTGGCGATCCGGCTTGGCGTCGACCCGCGTAAGGCAAAC

(SEQ ID NO. 605)

CAGATGGTTCGCGGCACGGTCAACCTGCCACACGGCACTGGTAAGACTGCCCGCGTCGCGGTATTCGCGGTTGGTGAAAAGGCCGATGCTGCCGTTGCCGCGGGGGG

CGGATGTTGTCGGGAGTGACGATCTGATCGAAAGGATTCAGGGCGGCTGGCTGGAATTCGATGCCGCGATCGCGACACCGGATCAGATGGCCAAAGTCGGTCGCAT

CGCTCGGGTGCTGGGTCCGCGCGGCCTGATGCCCAACCCGAAAACCGGCACCGTCACCGCCGACGTCGCCAAGGCCGTCGCGGACATCAAGGGCGGCAAGATCAAC

TTCCGGGTTGACAAGCAGGCCAACCTGCACTTCTC

:::::::::::::Rv56T7.seq:::::::::::::

GCTGAGCTCCACGGCGTGGATCAAGGTACCGGCCGGGATGTTGCGCAATGGCAGGTTGTTGCCCGGCTTGATGTCGGCGTTAGCGCCGGATTCCACCACATCCCCT

(SEQ ID NO. 606)

TGCGAAAGTCCGTTGGGTGCAATGATGTAGCGCTTCTCCCCATCGAGATAGTGGAGCAACGCAATCCGTGCGGTACGGTTCGGGTCGTACTCGATGTGCGCGACCT

TGGCGTTGACACCATCTTTGTCATTGCGGCGAAAGTCGATCATCCGGTAAGCGCGCTTATGACCGCCGCCTTTGTGCCGGGTGGTAATCCGGCCATGCGCGTTGCG

TCCACCGCGACCGTGCAGCGGGCGCACCAGCGACTTCTCCGGGGTTGACCGGGTGATCTCGGCGAAATCAGATACGCTGGCGCCGCGACGACCAGGCGTCGTGGGC

TTGTACTTGCGAATTGCCATGTCTAATCAGGTCTTTCTCT

Clone Rv57

:::::::::::::Rv57SP6.seq:::::::::::::

ATACTCAAGCTTGTTGGTGACCTCGCCGGCGAACAGTTCTCGCACGATTTCCGGATTAGCGGGACTGGTCACCAGTTGGGTATGCGGGAAGGCGCTGACGTTCGCC

(SEQ ID NO. 607)

GCGATTAGCTGTTTGATGGACGCGGCGGTGATGTCCTGATCACGGAACTGGCTGTAATAGCCCAGGGTCGCCACGCTTCCATCCGGGCCCGGACCCGGC

:::::::::::::Rv57T7.seq:::::::::::::

GATGATCGCCGGTGCCACCCCGATCCGTGCCTCGGTCAGCGCGAACGTGCTTTCCGGTCCGGCGACCACCATGTCGCACGCACCGACCAGGCCGAACCCGCCGGCC

(SEQ ID NO. 608)

CGCACATGCCCGTTGATGGCGCCGACCACCGGCAGCGGCGACTCGACGATGGCGCGCAACAGCGCCGTCATTTCCCGCGCCCGCGCCACCGCCATCCGGTACGGAT

CACCACCACCTCCGCCGGCCTCGCTGAGGTCC

Clone Rv58

:::::::::::::Rv58SP6.seq:::::::::::::

ATACTCAAGCTTGCCGCAATCGAAACCAACCTGTTTGTGCCGCAAGAAATTACGCCGTGGCCCGGCGCCGATCAAGAAACGCCCCGGCGCGCGGCGGTGTCGTCGT

(SEQ ID NO. 609)

ATGGCATGACGGGCACCAATGTGCACGCCATTGTCGAGCAGGCACCGGTGCCAGCCCCCGAATCCGGTGCACCAGGCGACACCCCGGCCACACCCGGTATCGACGG

CGCGCTGCTGTTCGCGCTGTCGGCCAGCTCGCAGGACGCGCTGCGGCAAACCGCCGCGCGGCTGGCCGATTGGGTCT

:::::::::::::Rv58T7.seq:::::::::::::

TTGGCGGGTTGGCCACANCANCCCGCCGGTGACGGCGACGATGCTGGGCTGGTTGCGGCCCTGCGCCACCGCGGCTTGCATGCTGGTTGGCTGTCTTGGGACGATC

(SEQ ID NO. 610)

CCGAAATAGTCCACGCGGATCTGGTGATTTTGCGGGCTACCCGCGATTACCCCGCGCGGCTCGACGAGTTTTTGGCCTGGACTACCCGCGTGGCCAATCTGCTGAA

CTCGCGGCCGGTGGTGGCCTGGAATGTCCANCGCCGTTCACCTACGTGACCTTGATGGGATCCGGGGGNT

Clone Rv59

:::::::::::::Rv59SP6.seq:::::::::::::

NCGTGGACACCGGTGTCGANCGCCACCAGCCGCATGTCTGCANGTCNATTCCGTCCTCGGCAACATCTTGAATGCCGAGCAGCGCCTGGGCGTGATCGGCAACCGG

(SEQ ID NO. 611)

GGATGACCGCTCGCCGATCCGCTCGACAATCCCGGCGGCACGTGACATGCCGGCGGACGGCTCGACGAGCTGGAACTTCAGCGACGACGATCCGGAATTGATCACC

AGCACGGTGCTACTCATGGACCCCTGCGCCTGAATCCCGTGATGGCCACGGTGTTGACTATTCGTCGACAGTGCACCCGAGATAGTCTTCACGGCTGCGT

:::::::::::::Rv59T7.seq:::::::::::::

CATGTATTGCCGTGCTCACGGCGCCACGCTCGATGGTTTCTCGAAGTCTCCGGGCTGGTGTACAGCTTCTCGTTGATCTCGTTCGCCACGCCGTCCTCTTCCCGCC

(SEQ ID NO. 612)

GACGACCCGATCTCGATCTCCANAATGATCTTGGCGGCCGCCGCCGCCTTGAGCAGCTCCTGGGCGATGGCCAGGTTCTCATCGATGGGCACTGCCGACCGTCCCA

CATGTGCGACGGAACAAAGATGTCACCTTGCTCACGCGTGCGCNAGATCNCANAAGGGCCGGACATACTGTCNACTTGTCCTTGGGCAGTGGTCCGTGTCAGCCCA

CGTGACGGGTACTTGGCGCGATAACGTGGTG

Clone Rv5

:::::::::::::Rv5SP6.seq:::::::::::::

GCCACCACGACCCGGCCGTAACTCTGCTCACGGAAATGCGGCCAGGCCGCGCGTAGCACGTGGTATCCGCCATAAAGGTGCACCTTAAGCACGGCGTCCCAATTCT

(SEQ ID NO. 613)

CGAACGACATCTTGTGGAAGGTGCCGTCGCGCAAGATCCCGGCGTTGCTCACCACACCGTGCACGGCGCCGAATTCGTCAAGCGCGGTCTTGATGATGTTCGCTGC

GCCGTCCTCGGTGGCGACGCTGTCCTTAGTTGGCGACCGCCCGGCCCCCCTTGTCGCGAATCTCGGCGACGACCTCATCGGCCATCGCCGAACGGCGCCCGTGCCC

GTCGCGGGCGCCACCGAGGTCGTTGACCACGA

:::::::::::::Rv5T7.seq:::::::::::::

CAGGCATGCAACCTTTGTCCACACGGCGTCTACTCCGTGCAAGGTCCGACCGCTTCCACGTCCCGCCGTGACGGTGCTCCATCTCCCTCAGCAACGCGTGAAGTGG

(SEQ ID NO. 614)

TCCGATCCCGCGGCTTCAGG

Clone Rv60

:::::::::::::Rv60SP6.seq:::::::::::::

GTTGAGACGCAACCAGCGCACAACGACGATTTGGCGTAGCGGCGGACGTCTGCTCGATTCGATCACGTCGCGCTCGCATCGAGCATGGCCCGCGACGCTACACGAT

(SEQ ID NO. 615)

CGCCGTCGTCGATGACACGACCGAGCCGTACGCCGGCCGTAAGCCGCGCCAGGATTCGGCGAAAAACGTCTACGTGGCGGGTGTACTGGGTGTCGAATGATTCGTG

GGGTGCGTATGCGTCCTGCAATCGTCGACATAGATCCGTCGCCGCATCGCGTCGACAACTCCGGGTGAGTGGAATACACTTGCCGATCACGCGACGTGCGCGGATC

GATGCCGACCGAAATACGACCACATGGCTCTTGTTGCNCAGTGTTGGCGGCATCAAATACCCTCAGTGCCGTCCGAC

:::::::::::::Rv60T7.seq:::::::::::::

TTNCCGCCTTNACGCCTACTCCNAGACGATGCTCGACGCGTGTGAGCACACGGCGCTGCTGTAGACGGCACGGCGCAGCTGGATCGCGCTTGGTGCACCCAAGCCT

(SEQ ID NO. 616)

CTACGCGCGTCGCTGCGTCGTCATCGGGTACCGAACATATTCCGGTCGTTGCGCAGAGTGTGCATGTGCGGCTCTTGTGAACGAACATAGCAAAGCGTATATGTCT

GTGGCGGCTCTGCAGATATCGCGATAATACGTATATACATAAGGTGGCGCGCGATCTATCGGTATATCCGTTATGGCGGACGTGCGTGAGCGTGAGTCGCGGCGCA

TCGCGCACTTCGCGATCGCGTGACTGGTCCTCGCGACTGCGCGCATGCGTAGC

Clone Rv61

:::::::::::::Rv61SP6.seq:::::::::::::

GGTGATGACGCACTTGCTTCGAATGAGTCATTGACTACTCCCGTGGTTGTCCTGCGATGGTGGAGTGCCGCGCAGCCTTGCCCGANGTCGCGATCGCGTCGCGGGC

(SEQ ID NO. 617)

TTCGGGGAGCAGACTGACCTGCAGATGGAAGTCGTGCCACATGCCCGCGAACGGCGAGCTCGATGCTTGTTTTCGAAGNGCGCANGCGGTTTCGATCTTGTCCGCG

TCAACGCAGATCGGATCTCGCCGCGGTCTGCATGACGATGGGCGCAGGCCCGCTCATGTCCCGTAGACGGGGAGATACGGGCAGCCGCGGATCGAGACCTACGTAG

CGCGGCGCCCATCGTGCCATCGACGAAGAATGACGGATCGCGCAGCGCCGTCGCGTCGCTTCGATGTCACGCGAGATCGCCACGGCAGATCAGCGATGCGCGGGC

:::::::::::::Rv61T7.seq:::::::::::::

CGGTACGCCGGCAACAAACGCCTTGTGACGAGCGCGTCCGAGCGGTCATCGGCCTCCACCGTCATGCACAGCTCCTTCTCCAGGTCTACGCCGACGTCGCGGTCCA

(SEQ ID NO. 618)

CATTGGTGAGCTTGGCGAATGCCTCGGCAACCTCGTCGAAATGCGCCTCCGCGTCCGCATCGAAGGTCGCCATGTCAAAGATCAACTCGACGTAGTAGCTAGTTAC

CGCATCAGGTCAGTGTTTGCTGGCCTCGGAGTCCGGCCGAACAATGGCCATTTCCCGCGACTCTAGAATCCAGTCATCGTCTCGGTGACGACGCCTTGCCGATCAC

ATAGCTCGACCGGATCGGAGAGAATCTGGTTCTCGT

Clone Rv62

:::::::::::::Rv62SP6.seq:::::::::::::

ATACTCAAGCTTAAGCGCAGCAGTACCGGCGGTGCCTGGGCATCCCAGCAAAACGGGGAGCTCAACGAACGATTCCTGAACGAAGGGTCGTCCACCAACCTCCAAA

(SEQ ID NO. 619)

CCGAACGGTTGCCAGCCCCGGC

:::::::::::::Rv62T7.seq:::::::::::::

GCAAGTCCGCTCAATGTGGTTGTGATCACANGACTACGTCGCCTCAATCAGCTCAAACGTCACCCCGTGGCGTGCTGCGCAGCATGAAGGTCGGCGCCCGCACGAT

(SEQ ID NO. 620)

GTGGGCGAAGCAACAGGTAATAACTGGTCGGCATGGGTCAACCCTCATTGGGCCGTTGCGGATCGGGTGCACGCCCGGAGTGCCGGTCGAACTCAACACCGCCTTC

ACCGATCTTTTCGTCGAAAATGGCGGTCGTGTCGGGGTATACGTCCGCGATCCCACGAGGCGGAATCCGCTGAGCCGCACTGA

Clone Rv63

:::::::::::::Rv63SP6.seq:::::::::::::

ATACTCAAGCTTCGCGCCCTCAAGCGGCTGAAGGTGGTTCCGGCGTNCCAACNGTCGGGCAACTCGCCGATGGGCATGGTGCTCGACNCCGTCCCGGTGATCCCGC

(SEQ ID NO. 621)

CGGAGCTGCGCCCGATGGTGCAGCTCGACGGCGGCCGGTTCGCCNCGTCCGACTTGAACGACCTGTACCGCAGGGTGATCAACCGCNACNNANNGNTGAAAAGGCT

GATCGATCTGGGTGCGCCGGAAATCATCGTCAACAACNAGAANCGGATGCTGCNGGAATCCGTGGACGCGCTGTTCGACAATGGCCGCCGCGGCCGGCCCGTCACC

GGGCCGGGCAACCGTCCGCTCAAGTCGCTTTCCGATCTGCTCA

:::::::::::::Rv63T7.seq:::::::::::::

TGCGCATGGCAGTTGTTGCCGGCTTGAGTCGCGTTAGCGCGGATTCCACCACATCCCTTGCGAAGTCGTGGGTGCAATGATGTAGCGCTTCTCCCATCGAGATAGT

(SEQ ID NO. 622)

GGAGCAACGCAATCCGTGCGTACGTTGGGTCGTACTCGAGTGCGCANCTTGGCGTTGACACCATCTTTGTCATTGCGGCGAAGTCGATCATCCGGTAAGCGCGCTT

ATCGACGCCGCCTCTGTGCCGGGTGGTAATCCGGCCATGCGCTTGCGTCCACCGCGACGTGCAGCGGGCGCACACCGACTTCTCCGGGTGACGGGTGATCTCGGCG

AATCAGAACCTGGCGCGCGACACAGCGTCGTGGCTGTACTTGC

Clone Rv64

:::::::::::::Rv64SP6.seq:::::::::::::

TGGGTGATCAGATACTGGCTAGTTGGTCGGGTGGGGTGATCGAAGATCGCGGTGGCCGGCAGCGTTACTGCGGTGACGCTGTTAAGCGGTTACGTACTCCACGGCA

(SEQ ID NO. 623)

CTCAANGAATTANATCCCGAATCGGCAAACCCTGGCCAGCGTCGAGTCCGCAGCGCCGTCGCGCCCCCCACCGCTGCGGCATGCTCACATACCACCTCGATCGCTG

CGGGAGTTGCTCGTCGGCCGACCGACCGGCCAGCCGGGCGGCAAACCGGAGGACCCAAGATTCAGCACCACCATCGCTAGCCCGATCTGGCCGCGCGTGG

:::::::::::::Rv64T7.seq:::::::::::::

TCGTAGCGGTTGCGACCANTCCGCGGACAGCTCCGCCACGCGACGGGTCGGGATCACCGCGGTCAAACCACCGAGCGGCGAGGATCTCTGGCCGTCGACGTGACCG

(SEQ ID NO. 624)

CGCACGGCCGCGGTGATGGCCAGTCCCGACCGCCGTTCCACTTGGCGTACGCGCTGGATGTGTTGTGCCGCAACGGAATCCCACCTCAATTATGACCTCGTTGTGG

GCGAGCGCGGTATCGTACGCCCGACCAGGAATCGTCGATGCTATCTCACGTCACCGAAGGCCTCTCCCAGCACACCGCATCCAGAACGTGCACACNGTCGACATGT

CTCGGCGGATCCGCCTGCAGAACGAACGCCANGTGCGCTGTGCGACACGGGTCGCGATCACCGCTCGCACGCGGAGATCGGCACACGCGCAGCGCATCGATCATAA

TCTCTCGATGCGGTCTCCACCACCGAACAG

Clone Rv65

:::::::::::::Rv65SP6.seq:::::::::::::

ATACTCAAGCTTCGCTGAGGTGGTGGGGCACGATCACGTCACCGCACCGCTGTCGGTGGCGCTGGATGCCGGCCGGATCAACCACGCGTACCTGTTCTCTGGGCCG

(SEQ ID NO. 625)

CGTGGCTGCGGAAAGACGTCGTCAGCGCGTATCCTGGCNCGGTCGTTGAACTGTGCGCAGGGCCCTACCGCCAACCCGTGCGGGGTCTGCGAATCCTGCGTTTCGT

TGGCGCCCAACGCCCCCGGCAGCATCGACGTGGTAGAGCTGGATGCCGCCAGCCACGGCGGCGTGGACGACACCCGCGAGCTGCGGGACCGCGCGTTCTATGCGCC

GGTCCACTCACGGTACCGGGTATTTATCGTCGACGAGGCGCACATGGT

:::::::::::::Rv65T7.seq:::::::::::::

GCACTCACGCTGGTACAAGACCTTCACAAAATCTGAAATCCTGACCCGATACTTGAACCTGGTCTCGTTCGGCAATAACTCGTTCGGCGTGCAGGACGCGGCGCAA

(SEQ ID NO. 626)

ACGTACTTCGGCATCAACGCGTCCGACCTGAATTGGCAGCAAGCGGCGCTGCTGGCCGGCATGGTGCAATCGACCAGCACGCTCAACCCGTACACCAACCCCGACG

GCGCGCTGGCCCGGCGGAACGTGGTCCTCGACACCATGATCGAGAACCTTCCCGGGGAGGCGGAGGCGTTGCGTGCCGCCAAGGCCGATCCGCTGGGGGTACTGCC

GCAGCCCAATGAGTTGCCGCGCGGCTGCATCGCGGCCGGCGACCG

Clone Rv66

:::::::::::::Rv66SP6.seq:::::::::::::

ATACTCAAGCTTGTATAAAAAGATCGGTGAGCGCATCGATTCGCTCCGCCGGGTTTGCCGCTGCGGCGGCGGAGCTGCCGTGACCGTCTATTTGGGTGATCAGATA

(SEQ ID NO. 627)

CTGGGCTAGTTCGGTCGGGGTGGGGTGATCGAAGATCGCGGTGGCCGGCAGCGTTACTGCGGTGACGGCTGTTAAGCGGTTACGTACCTCCACGGCACTCAAGGAA

TTAAATCCCGAATCGGCAAACGCCTGGCCAGCGTCGAATCCGGCAGCGCCGTCGCGCCCCAGCACCGCTGCGGCATGCTCACATACCACCTCCATCGCTGCGGCGA

ATTGCTCGTCGGCCGACCGACCGGCCAGCCGGGCGGCAAACCCGGAAGA

:::::::::::::Rv66T7.seq:::::::::::::

CCTCATCATATGCCGATAGAGCTCTACATATTCAGGAGATCACCATGGCTCGTGCGGTCGGGATCGACTCGGGACCACCAACTCCGTCGTCTCGGTTCTGGAANGT

(SEQ ID NO. 628)

GGCGACCNGGTCGTCGTCGCCAACTCCGGAGGGCTCCAGGACCACCCGTCAATTGTCGCGTTCGCCCGCAACGGTGAGGTGCTGGTCNGCCAGCCCGCCAAGAACA

GGCAGTGACCAACGTCGATCGCACCGTGCGCTCGGTCAAGCGACCATGGGCAGCGACTGGTCCATAGAGATTGACGCAAGAAATACACGCCCGGAGATCTCGCCGC

ATTCTGATGAACTGAACGCGACCCGAGGCTACTCGGTGANGACATNACGACGCGTTATCACACCCCGCCTNCTTCAATGACCCCACGTCNGGCACCAAGGACCCGG

CAATCGCGGCTCACTTGNGCGATNGTCNACAACCAACGCGNCGCCTGGCTACGGGCTCAACAAGGCANAAGACACAATCCGCTCTCGATTGGTG

Clone Rv67

:::::::::::::Rv67SP6.seq:::::::::::::

ATACTCAAGCTTATCGAGGCGGCGCATACCGAAGCGTGGGAAATCCAGACCGAATACCGCGACGTGCTGGACACTTTGGCCGGCGAGCTGCTGGAAAAGGAGACCC

(SEQ ID NO. 629)

TGCACCGACCCGAGCTGGAAAGCATCTTCGCTGACGTCGAAAAGCGGCCGCGGCTCACCATGTTCGACAACTTCGGTGGCCGGATCCCGTCGGACAAACCGCCCAT

CAAGACACCCGGCGAGCTCGCGATCGAACGCGGCGAACCTTGGCCCCAGCCGGTCCCCGAGCCGGCGTTCAAGGCGGCGATTGCGCATGCTACCCAAGCCGCTGAG

GCCGCCCGGTCCGACCCGGCCAAACCGGGCACGGCGCCAACGGTTCGCCCGCCGGCACCACCGGTCCGGTGACCGCAGTACGGTCCCCCCAGCCTGACTACCGTGC

CCCGGCGGGCT

:::::::::::::Rv67T7.seq:::::::::::::

TGGCCGGGCTGGTAGCCCGCGTATGGCAAGGTTCCGCTCAATGTGGTTGTGATGCAGCAGGACTACGTTCGCCTCAATCAGCTCAAACGTCACCCCCGTGGCGTGC

(SEQ ID NO. 630)

TGCGCAGCATGAAGGTCGGCGCCCGCACGATGTGGGCGAAGGCAACAGGTAAGAACCTGGTCGGCATGGGTCGAGCCCTCATTGGGCCGTTGCGGATCGGGTTGCA

GCGCGCCGGAGTGCCGGTCGAACTCAACACCGCCTTCACCGATCTTTTCGTCGAAAATGGCGTCGTGTCCGGGGTATACGTCCGCGATTCCCACGAGGCGGAATCC

GCTGAGCCGCAGCTGATCCGGGCTCGCCGCGGCGTGATCCTGGCCTGTGGTGGTTTCGAGCATAACGAGCAGATGCGAAT

Clone Rv68

:::::::::::::Rv68SP6.seq:::::::::::::

GTCCAGTCAAGCATCGGTCCTCTCCGACTACGCCAAGANTGGCGACGTGTCAGTGCANACAGCGGANATGGTGGCGCCTATGCGTCGACGCTCACAAACNGCGGTG

(SEQ ID NO. 631)

ANCGCGTTCTGGTCGTGCACCATCGAGCCGTGCCAGCCCGGCCGCGTGCCGTCAGCCGCATCCACTGGATGCCTTCTCGGNGTTTCAATCANGTACANGCGACGTT

CGCCACCATCGTGCCGGGGCACGGTTAGCGAGAAACCGCCGACTTCACCGATTGCCTCGGTGATGCCGTCGAACAGATCGGGCCTATTGTCGACAGCCAGTGTGAT

NCGTATTTGCCGCCGTGCTCCTCGTCGCAACGATGCGAACACAGATCCGTGGNGGACGATAGCGGCTGACAANGTGGGGGCAACACAATCACATGCCACATTTCTT

CATTTCACGCCCACAACCCAGACTTCGTCTCGATGNGCCG

:::::::::::::Rv68T7.seq:::::::::::::

CACGCGGTCTGGCCCGATCCGAAGATCCCTTTGCCGGCGTGGCGGCTCTGCTCGGCGGTGTTGTACACTTCTCGAACACCTCGGCACCGACACCACCACCGTNGCT

(SEQ ID NO. 632)

TGAACACCGCCAACATCGGCAGCAGATCTTGATGGTCCTGGTGAATCCCACGGTGACTTTGGAGTGGAAGGCGCCATACTGATCGCCGCGCCAGCACATGAGCTAG

CGGCAGGAAAACCAGCAGCCGCTCACCTTGCGCAGCAGCGTCNGGTGATATGCCTGGCGCCCTTAATCTCGTGAACCAGTTGGATTGGGTCAACTGGCAGCCTTGG

GTCTCCGGTGGTGCCGANGTGTANATAAGCTCCCGGGTCCGTCAACGTANTGCGCAGGCGGCGGTTACTCGGCGGGTCAACGAGCCCCGCTCGTGAGCNATCAGCC

TTTGGACCGAACGGGATTCATACTCCGCAGGCGGCCCTCCGAAATCGGCACATGTCCTTTGATCGTTCGCAACAN

Clone Rv69

:::::::::::::Rv69T7D3.seq:::::::::::::

GGCCATGTCACATCGGTGGTACAGGTAAACCGCGCCGTGTGCGCGGTCTCGGAGATCAGAACGTGGTCGCAGTTGAACCGCGGGCTTTCAGCCAGTCGCGATAATC

(SEQ ID NO. 633)

GGCGGAAGTCGGCGCCTGCCGCCCCAACTAGCGCGACTCGCCACCTAGCACACCGATGGCGAAGGCCATGTNTCCGGCCACGCCGCCGCGGTGCATCACCAAGTCA

TCGACTAGGAAGCTAAGCGACANCTTGTGCAGGTGTTCGGGCAGTAGCTGCTCGGAAAATCGGCTGGAAACCGCATCAAATGGTCGGTCCAATCGAACCGGTTACC

CGATCGTCACAAAAATCTCGTCCT

Clone Rv6

:::::::::::::Rv6SP6.seq:::::::::::::

GGGTCTACAACCACCGGGTCTGACTTCTGGGCTTCCACCGCTCGCGCCGTCGCGACAAACAGCGCGGTCGAACCGACACTCGTTGTGATGTCCCAGCTATCACCTC

(SEQ ID NO. 634)

CGGTAGGCACCCAATCGACCCTACCCGGCTATCTCACCCCCGATCTCCAGGCTCCGCCGATCCATGCGCATCCCGGTCCGGATCCC

:::::::::::::Rv6T7.seq:::::::::::::

CAGGCATGCAAGCTTGTCGTATTCCGTGGCACTGTCAGACATATGCGCCGCTCCTCCTCATCGCTGCGCTCGGCATCGTCGCCGGCGGTCATGGCGTCACCCTACC

(SEQ ID NO. 635)

CAAGCCGAACGCGAAACGAGAACGTGTTCCATTATTAGGGTGTGAGCACCAATACCAGATTGCTCACCAGGAACTCACGCAGCACCGGGACGGATGTCAGCCACCA

CGCCCATCTGGGGTGGTAGCGGGGAAATACGGCTAACGCGGCTCCGGTGCCGGCAGCCCAGCGCAGACCCTCGGCGGCGGACACGGCTAACAACGACGACCCATAG

TTGTTCTTTGCCGGATGGCCGTGTTTGCTGACATATCGGGCGCGGCGCCGGCGCCGCC

Clone Rv70

:::::::::::::Rv70SP6D2.seq:::::::::::::

NCTACGCTGCTGAATGTTGTGCGCCGGAGGANCTCAAGACCCACGCGGTTGTACGCGGACNTGCGACATGTTCAACCGCCGGA

(SEQ ID NO. 636)

:::::::::::::Rv70T7D3.seq:::::::::::::

CTAACCAACAAGCCATGGTGGTTGGCGCCGTCGAGAGGTCGGCGGTCGCCACAACGGGAAGATCGCCTTGAGCGTCGCTCGACCGCCGCCTCGAGTTGGGTCATAA

(SEQ ID NO. 637)

CGAAGTACTGATGCCGATCATGTCGACGTGTCCGTCGCATCAGCGTGCAGCGGCGACCCCTCGACGAGCCTCGGTGCCGCCGCGGCCAGGGCACCAGCTGTTTTAG

CGCATTGTGCTCCGCCGGTAATAAAGGANGTCGGTCGCCTCCGCTGCTGTGGTTGCGGAATAACATCTTCCCTTCCTGCAACAGGATGAGAATGGTTTTAATTGCT

C

Clone Rv71

:::::::::::::Rv71SP6.seq:::::::::::::

CTAAGCTTTCGGGTCCGCCGCCACTAGTACCGCGTTGCCGGCCCCGCCGACCTAGAATCTTCCGCCCATTGCCGTTTCCTCCCGCCGCCGGGTT

(SEQ ID NO. 638)

:::::::::::::Rv71T7.seq:::::::::::::

TCTGGTGCCGGGTGTGCCGACGGGTCCGTCCGCCTCTGCTTCAGTGATTCTGTGATGCGACCGGCAACGTCCTCGTTGTTCGGTGTCTATGTGGTCCGTCTCTCCT

(SEQ ID NO. 639)

TGTTCCGCATACGATT

Clone Rv72

:::::::::::::Rv72SP6D2.seq:::::::::::::

GCGATCGNTNACCACAAGGGCGCAACCGTTCGCGCGTCGACTGAACGTGCTGCCGCCTGGAGAACTGGCGCTGCTGCCACCTGGTCGGCGCATCGGCACTTCGAGG

(SEQ ID NO. 640)

ACTGGATTTCGACGCGTGGCCCGACCTGANGTNGGCGGTGGACNNGTGTGCACCCGGTTGATTCCTCGGCCTTGCCGGGATGCCACCTGCGCCTGGTGGTCGAT

:::::::::::::Rv72T7D3.seq:::::::::::::

CGTGACCGGACGGGGTGCCGCGCGAACCGGTCTTGGCCAATTGCCGGGGACTGGGGCTGGAGTATAAAGCGGGCCTGTTGCCGGAAGATAAAGTCAAAGCGGTGAC

(SEQ ID NO. 641)

CGAGCTGAATCAACATGCGCCGCTGGCGATGGTCGGTGACGGTATTAACGACCGCCAGCGATGAAAGCTGCCGCCATCGGGATTGCAATGGGTAGCGGCACAGACT

GGCGCTGGAAACCGCCGACGCACATTAACCATAACCACCTGCGCGGCTGGTGCAAATGATTGAACTGGCACGNCCACTCACGCCAATATCCGCCAGAACATCACTA

TTGCGCTGGG

Clone Rv73

:::::::::::::Rv73SP6.seq:::::::::::::

ATACTCAAGCTTCTTACCCANAGCATGAACCCCGCCGTCCAATGCCGCCACCGTGGTGCTGTCGGCCGGCCGGGTGCGGGCACAATCGCCGAGTTCGGCGAACAGA

(SEQ ID NO. 642)

TCCTCGAAGGTCTTCACGGCCAGCGATTGTTGCACGTGTCAGCCAGCCAAGTCACGGTGGTTTGACGCCACACGTTCGCCACCGCCGCGCCGCGCATTAGGGCATC

CTAATATAGGTTAGGCTACCCTANTTATTCCTGTGGTCNAAGGAGGCAGCCGAACGTGACCTTCCCGATGTGGTTCGCAGTTCCGCCGGAAGTGCCGTCAGCATGG

CTGTCCACCGGCATGGGCCCCGGTCCGCTGCTGGCCGCGGCCAGGGCGTGGCACGCGCTGGCCGCGCAATACACCGAAATTGCAACGGAACTCGCAAGCGTGCTCG

CTGCGGTGCAGGCAACTCGTGGCAGGGGCCCAGCGCCGACGGTTCGTCNTCCCCATCAACCGTTCCGTATTGGCTAACCACCTGCACGGTGGCACCGCACAACGCC

GCCACAAACGCGCCCCGGTATAC

:::::::::::::Rv73T7.seq:::::::::::::

GGCCGAACTTAATCGGTTGTTGGCGGCTGCCGAGTTGGGTCACTCGGGGGGTGTGCACTGGCACATGGTGGGCCGGATTCAACGCAACAAAGCCGGGTCGCTGGCT

(SEQ ID NO. 643)

CGCTGGGCGCACACCGCTCACTCGGTGGACAGCTCGCGGTTGGTGACCGCGCTGGATCGGGCGGTTGTTGCGGCGCTGGCCGAACACCGTCGTGGCGAGCGGCTGC

GGGTTTACGTCCAGGTCAGCCTCGACGGTGACGGATCCCGGGGCGGCGTCGACAGCACGACGCCCGGCGCCGTAGACCGGATTTGCGCGCAGGTGCAGGAGTCAGA

GGGCCTCGAACTGGTCGGGTTGATGGGCATTCCGCCGCTGGATTGGGACCCGACGAAGCCTTTGACCGGCTGCAATCGGAGCACAACCGGGTGCGTGCGATGTTCC

CGCACGCGATCGGTCTGTCGCGGGCATGTCCAACAACTTGAAATCCCGTCAACATGGTCGAC

Clone Rv74

:::::::::::::Rv74SP6.seq:::::::::::::

GCTTCCCCTGATACTCGACCAGCCCCACTCGGGCCAATACGTGAATGTCCTAGCATTTTTCACCCGTTCACGGGCTAGTCGAGTAGTAGACGATTGATTAGCCTGA

(SEQ ID NO. 644)

ACGTACCTCCGACGGCCAGCTGACGAACGGGTTTGACGGA

:::::::::::::Rv74T7D3.seq:::::::::::::

TCAGCTGTCTGTAGAAGGGCTGGCGATACTGTGCACTGTCTGATATCGCNNCGTNGTGGGACTATNCAGNCCATNANGATGCGGTTCNGNNNNTGCAGAGNATCCT

(SEQ ID NO. 645)

GGNACACATNCGGTTCACGTTAATCANCATCGCGANTTNCTNCGTNTTCGATTANTTCTGCTAACGNNTCTNNNAGTGCCTGCGGGTCGACTCTAGAG

Clone Rv75

:::::::::::::Rv75SP6D2.seq:::::::::::::

NCTCTGCCGGGCNAGAGCGCAGAGTCGGACGGCTTCGTCGATCGTGAAGCGACCNTGCGATGANCAGATATCGNTNACACTGCTCANAAACTTCGGATCATCGNTG

(SEQ ID NO. 646)

ATACACAGGCCAACGGGTAGCGGTTGTCCAACCGCTTCGTCAACGANATGGGATCGTGACGANCCTACGCTCGCAGGATATGTCGCNGACCNGNTCTAGANAN

:::::::::::::Rv75T7D3.seq:::::::::::::

CACTTCATGCTCGTGCGTTGGCNTCGATTTGCNCGAGNGGTTAGCTCCTCGAGTGNGTGACGTATCACTCCGGCNGACTANCCGTATCNGCGTCCCGCACCGGTCA

(SEQ ID NO. 647)

ACTGGTCTAGCCACACCGGGGAGAATNCNGCAGGCCNGCTATCGACCNATCACGGCTTGTCGNNAAGATAGNCAGCC

Clone Rv76

:::::::::::::Rv76SP6.seq:::::::::::::

ATACTCAAGCTTGCCAACCGCCACCCTGCATCCGGGGGGCGAGCACTGCTCCGCCGACCAGTACGAACCAACCTGCGGTGCCCAGGCCATTGACAATGTGCTGGTC

(SEQ ID NO. 648)

GGCGCCCGCGAGTTCTAGCACAGCAACGCCGCGGCCACCACAGGGGCG

:::::::::::::Rv76T7.seq:::::::::::::

CGGTCGGTGTGCTTGGCGGCGTCGGTATCAACACCGCCCACGAAATGGGGCACAAGAAGGATTCGCTGGAGCGGTGGCTGTCCAAGATCACCCTCGCCCAGACCTG

(SEQ ID NO. 649)

CTACGGGCACTTCTACATCGAGCACAACCGTGGCCATCACGTCCGGGTGTCCACACCGGAAGACCCGGCGTCGGCGCGGTTCGGCAAAACTTTGTGGGATTTCCCG

CCCCCCC

Clone Rv77

:::::::::::::Rv77SP6.seq:::::::::::::

AATACTCAAGCTTCGCGGAGGTGGTGGGGCAGGAGCACGTCACCGCGCCGCTGTCGGTGGCGCTGGATGCCGGCCGGATCAACCACGCGTACCTGTTCTCTGGGCC

(SEQ ID NO. 650)

GCGTGGCTGCGGAAAGACGTCGTCAGCGCGTATCCTGGCGCGGTCGTTGAACTGTGCGCAGGGCCCTACCGCCAACCCGTGCGGGGTCTGCGAATCCTGCGTTTCG

TTGGCGCCCAACGCCCCCGGCAGCATCGACGTGGTAGAGCTGGATGCCGCCAGCCACGGCGGCGTGGAGCAACCCCGCGAGCTGCGGGACCGCCC

:::::::::::::Rv77T7.seq:::::::::::::

GATGGCACTCACGCTGGACAAGACCTTCACAAAATCTGAAATCCTGACCCGATACTTGAACCTGGTCTCGTTCGGCAATAACTCGTTCGGCGTGCAGGACGCGGCG

(SEQ ID NO. 651)

CAAACGTACTTCGGCATCAACGCGTCCGACCTGAAATTGGCAGCAAACCGGCGCTGCTGGGCCGGGCATGGTGCAATCCGAACAAGCACGCTCAACCCGTACACCA

ACCCCGAAGGGCCGCTGGCCCGGCGGAACCTTGTCCTCCA

Clone Rv78

:::::::::::::Rv78SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTCTGGGCGTCGTGGTGCCCGGCCTGCCGGTGCAGGAACTGGATTTTA

(SEQ ID NO. 652)

CTGCCATCTCTCGCGACCCTGAGGTGGTCCAGGCTTACAACACCGACCCACTCGTGCACCACGGACGGGTTCCGGCCGGGATTGGCCGCGCGCTGCTGCANGTGGG

CGAGACCATGCCGCGGCGANCACCGGCATTGACCGCGCCGCTGCTAGTGCTGCACGGCACCGATGACCGGCTGATCCCCATCGAAGGCAGCCGTCGCCTGGTCNAA

TGTNTNGGATCNGCCGACGTGCANCTGAANGANTATCCCCGGCTGTNCCACNAGGTGTTCAACGAACCGGANCGCAACCAAGTG

:::::::::::::Rv78T7.seq:::::::::::::

CAAGGCATACGCCAAGACCCAAGGGATCGCAGTCACCTCCGTCAACGGCCTGGTCGCCGGCCACGGGTCCGTGCAGGAGACGTGGCTGGCCATGCAAAGCGCCGCC

(SEQ ID NO. 653)

GCCTTATCAGGAACGCCCCGGCTTGTCGGCTTTTCCTGCATCGACACATTTCCGGAGGTGTTGTGGTTGGCGCANCGCGCGAGACAGGCCTGGGATGGCGTGCGCA

TCGTCATCGGGAATGCGATGGCAACACTGAACTACGAGCGCATCCTGCGCCAGCATGACTGTTTCGACTACGTCGTCGTTGGCGACGGGGANGTAGCGTTCACCAA

GCTGGCCTTGGCCCTGGCGAATGACCTGCGGTTGACGACTCCCGGGACTAACCCGCCGTANTGAGCAAGGACAGATTCTGCGCACACCCTCCTCGCTGGTCGACCT

TGACA

Clone Rv79

:::::::::::::Rv79SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTGCCGGTGATCTGGGTGGCCAACTCGGCGGGCACCATCTCCATCACG

(SEQ ID NO. 654)

ACNGCAAACGCTCCGGCTTCGGCGACAGCGATCGCGTCTGCGATNGTTTGTTCGGCGGCGTCTCCGCGGCCCTGCACCCGGAAGCCGCCCAAGGTGTTGACNCTTT

GCGGGGTGAAGCCGATGTGTGCCATCACCGGGATNCCCGCCGCGGTCAGACANGCGATTTGCTCGGCCACCCGCTCACCGCCCTCGANCTTGACNGCATGTGCGCC

GCCGTCCTTGAAGAAACCGGTGGCGGNGGCAACCC

:::::::::::::Rv79T7.seq:::::::::::::

CGTTGAGATCCAGCTGCGCACTGTGCAGCGCCTCGGTGGTCTGCTCGGCCTGCCGGGATAACTCGTTGAGCTTGGCCAGCGCGTCGTCGGCCGGATCAGCCAGCAC

(SEQ ID NO. 655)

ATTCGCGGCCAGGACGCCGGAGGAGACGGTGAAGCTCGCAAAGAAACCTATGGCGGACCGCATGATTACACGCGCGATCAACCACCTCTGGTCGAGCCTCAAAATT

TGCTTCCTTAAACGGGCCATCGACGGATGACGTCGAGCTGGTTTAGGTCTCAAACAGGTTACGAAACGATCTCGGAATTGTCCAAAAGGGGAAGTTAAGAAAATGG

ATAGATTTCTACCATTTCGCTGTGGACGATCGTACTTCTGCTATAGGGCTCCAGGGGCATCGACACGCAACGACCTTACGCGACACCGGATCCGCGCTGGCGGCGG

AACGGCACCANGCGCAACCGAAGGGCCAATCCGACATCGG

Clone Rv7

:::::::::::::Rv7SP6.seq:::::::::::::

ATACTCAAGCTTATCTAGGCGCCAGCTTGATTGGTCTGGTTGCATTGGCCAGCTGCGCGAGCCTGGCTCACTTCAACTACAACAACCGCAAACAATTGCCGCCTTC

(SEQ ID NO. 656)

GGATCCGAGTTCGGTTGGGTACGCGGCAATGGANCACCATTTCTCGGTGAATCAGACTATTCCTGAGTACTTGATCATCCACTCTGCACACGACCTGCGAACCCCG

CGCGGCCTTGCCGACCTGGAGCAGCTGGCGCAACGTGTGAGCCANATCCCAGGCGTTGCCATGGTTCGCGGTGTGACCCGGCCAAACGGGGAAACCCTTGAACAGG

CCCGGGCGACATACCAAGCCGGCCAAGTTGGCAACCGGCTGGGCGGCGCGTCGCGAATGATCGATGAGCGCACCGGCGACCTGAATCGGCTGGCATCGGGTGCCAA

CCTGTTGGCCGACAATCTCGGTGACTTCGCGGTCAAGTCAGCCGGGCCGTTGCGGGTGTCCGCAGCCTTGTCCAGCCCCTCGCTTACTCCA

:::::::::::::Rv7T7.seq:::::::::::::

CAGGCATGCAAGCTTTTTGAGCGTCGCGCGGGGCAGCTTCGCCGGCAATTCTACTAGCGAGAAGTCTGGCCCGATACGGATCTGACCGAAGTCGCTGCGGTGCAGC

(SEQ ID NO. 657)

CCACCCTCATTGGCGATGGCGCCGACGATGGCGCCTGGACCGATCTTGTGCCGCTTGCCGACGGCGACGCGGTAGGTGGTCAAGTCCGGTCTACGCTTGGGCCTTT

GCGGACGGTCCCGACGCTGGTCGCGGTTGCGCCGCGAAAGCGGCGGGTCGGGTGCCATCAGGAATGCCTCACCGCCGCGGCACTGCACGGCCAGTGCCCGCGGCGA

TTCAGCCATCGGGACATCATGCTCGCTTCATACTCCTCGACCAGTCGGCGGAACAGCTCGATTCCCGGAACGCCCACGCATGGTG

Clone Rv80

:::::::::::::Rv80SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTGTAGAAAAAGATCGGTGAGCGCATCGATTCGCTCCGCCGGGTTTGC

(SEQ ID NO. 658)

CGCTGCGGCGGCGGAGCTGCCGTGACCGTCTATTTGGGTGATCAGATACTGGGCTAGTTCGGTCGGGGTGGGGTGATCGAAGATCGCGGTGGCCGGCAGCGTTACT

GCGGTGACAGCTGTTAAGCGGTTACGTATCTCCACGGCACTCAAGGAATTAAATCCCGAATCGGCAAACGCCTGGCCAGCGTCNAGTCCGGCAGCGCCGTCNCGCC

CCAGCACCGCTGCGGCATGCTCACATACCACCTCGATCGCTGCGGCGANTTGCTCGTCNGCCGACCGACCGGCCANCCGGGCGGCAAACCCNGAAGACCCAAGAAT

TCATCACCACCATCGCTAGC

:::::::::::::Rv80T7.seq:::::::::::::

CCTTCTTGACACCCACCTCGCCATCGACCTTGAGCACTCCGTCGTAGTTGGTGAACATGTGACCGGCGATCGGGCGGGTGAACGCGTACTGGGTGTCGGTGTCGAC

(SEQ ID NO. 659)

GTTCATCTTCACCACGCCGTAGCGCAGCGCCTCCTCGATCTCCGACTTAAGCGAACCCGAGCCGCCGTGGAACACGAAATCNAACGGCTTGGCGTCNGCCGGCAGT

CCGAGCTTGGCCGCCGCCACCTGTTGCCCTTGCGCAAGGATGTCNGGGCGAANCTTGACGTTGCCGGGCTTGTANACGCCATGCACGTTGCCGAACGTCNCGGCCA

GCANGTATTTGCCGTGCTCACCGGCGCCCANCGCCTCGATGGTTTTCTCGAAGTCCTCCGGGCTGGTGTACAGCTTCTCGTTGATCTCGTTCGCCACGCCGTCCTC

TTCGCCGCCGACG

Clone Rv81

:::::::::::::Rv81SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTGGAAAGGAGATCCCCGGGAACCTGGTGGCAACCCCGCCATTGGGGT

(SEQ ID NO. 660)

TGTTGGGATTGCCGATCAGCGTGAANGAAAGCTCGTCTGGAGACAGCGGGTCGGCCGAAGCCGCAAGATTGGCCATCACTAGTGACGANATCGTGGCGCTCTGCGA

GTANCCNAAGACAGTGACGTTGTTNCCGGCGGCAATTTGCTGCCGAATCGCACTTTCGAGAATGACNGCACCCTGCGCCACCGANGAATCNAAAGTGAGGTTCTTG

ATCACGACCACCGGGTNGAGCCCTTGGGGCGTGAAGANCGCCTGCGCNATAACACCCGGGACGCTGCCACTCATGTNCAGCGCGTTCGCGANCTCNACATATCT

:::::::::::::Rv81T7.seq:::::::::::::

TCCTGGTGATCGANGGCCGCGGTTCCGGCCGAAAATCCGGTTCGGGTTCGGGTCGCGGTTCCAACTTGANCGCGGTCCGCAGCTGATTCACCGTGGCAACGCCGGC

(SEQ ID NO. 661)

CAACTGCGCATAATGCGCATCCGAACCCTCACCCGCCCGCCCCGCGATCACCCCAACCTGATCCAACGACAACCGCCCCTCCCGCATACCCCGGGCGCAGCGCGGA

AACTCCGGCAACCGCCGCGCCACCGTGGCGATCGTGTGGGCGTTGCCTGACGAACANCCCATCTTCCAGGCCACCAACCCCGCCACCGACCGCGCCCCCGTCACAC

CCCACAACCCGTCGCGATCCAGCTCAGCCACGATCTCCACAATGCGCCCATCAATCGCATTGCGCTGAACGGGCAACTCCGCCAACTCCTCCAA

Clone Rv82

:::::::::::::Rv82SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAGATCTGGTACCCATCCGTGATACATTGAGGCTGTTCCCTGGGGGTCGTTA

(SEQ ID NO. 662)

CCTTCCACGAGCAAAACACGTAGCCCCTTCAGAGCCAGATCCTGAGCAAGATGAACAGAAACTGAGGTTTTGTAAACGCCACCTTTATGGGCAGCAACCCCGATCA

CCGGTGGAAATACGTCTTCAGCACGTCGCAATCGCGTACCAAACACATCACGCATATGATTAATTTGTTCAATTGTATAACCAACACGTTGCTCAACCCGTCCTCG

AATTTCCATATCCGGGTGCGGTAGTCGCCCTGCTTTCTCGGCATCTCTGATAGCCTGAGAAGAAACCCCAACTAAATCCGCTGCTTCACCTATTCTCCAGCGCCGG

GTTATTTTCCTCGCTTCCGGGCTGTCATCATTAAACTGTGCAA

Clone Rv83

:::::::::::::Rv83SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATAGAATACTCAAGCTTANCGCCACCTCCCGGGCGGAACTCCACGGCGTGGATNAAGGTACCG

(SEQ ID NO. 663)

GCCGGGATGTTGCGCAATGGCAGGTTGTTGCCCGGCTTGANGTCCGCGTTAGCGCCGGATTCCACCACATCCCCTTGCGAAANTCCGTTGGGTNCNATGATGTNNC

GCTTCTCCCCNTCNANATAATGGANCAACGCNATCCGTGCGGTACGGTTCGGGTCNTACTCCATGTNCGCGACCTTGGCGTTGANACCATCTTTGTCATTGCGGCG

AAAGTCNATCATCCGGTNAGCNCGCNTATGANCGCCGCCTTTGTGCCGGGTGGTAATCCGGCCATGCGCNTTGCGTCCACCGCGAACGTGCAACGGGGGCNCCAAC

GANTTCTCCNGGGTTGAACCGGTNATCT

:::::::::::::Rv83T7.seq:::::::::::::

TGTGTGTGGTGGTAACCCATCTGAGCAGTGTGCCAAACCGGGGCAGCCAGCTCCCAATTGACGTGAGCCCGCTCACTTGCTGGGTAAGCGTCG

(SEQ ID NO. 664)

Clone Rv84

:::::::::::::Rv84SP6.seq:::::::::::::

AACAGCTATGACCATGATTACGCCAAGCTATTTAGGTGACACTATANAATACTCAAGCTTGCGGGTNATNGCCTTGGTCAACGGCACCGTGATCGGATCNGGGTCT

(SEQ ID NO. 665)

ACCGCACACATNGACTGGAGCTTCGGCGAANTCATCGCCTATGCCTCGCGGGGGGTGACGCTGANCCCNGGTGACNTGTTCNGCTCNGGCACGGTGCCCACCTGCA

CGCTCNTCNAACACCTCANGCCACCGGAATCATTCCNGGCTGGCTGCACGANAGCGANNTTGTCNCCCTCCAAAGTCTAAAGGCTGGGCGANANAAGCANAACGTC

CCGACNAACGGCACTCCTTTTCCNTTTGCTCTTC

:::::::::::::Rv84T7.seq:::::::::::::

GAAATCATTGATGGTTTGAGTCACCAGGCCGATCAAGCCTTCGCCGAGCCAAATTCCAATCAAGAGGCCCAAGCCCGTACCAATCAGCCCGGCAACGAGGGATTCC

(SEQ ID NO. 666)

GTCATTATCAGCCAAAATAACTGCTCTCGGGTTACACCCAAACAGCGCAATATGGCGAAAAACGGTCGCCGTTGCACGACATTAAATGTCACGGTATTGTAGATTA

AAAAGATACCCACCAACAANGCAATCAAACTGAGAGCGGTTAAATTGACCGTAAAAGCGTCCGTCATCTGTTTGACNGTGTCCCGTTGGGTATCCGACGTTTCCAT

ACGCACACCGGCCGGCAGTCTTTGTTGGATGCGTNTTGCAATGGCCTCATCTTTGATGATCAAATCGATGTNGCTCAGTCTTCCGGGCATATGGAACAACTCTTGG

GCCGTGGAAATATCAGCAATGATA

Clone Rv85

:::::::::::::Rv85SP6.seq:::::::::::::

CTTTCGCCCAGGCCGGCGCGGATGTCCTCATCGCTTCACGAACATCATCCGAGCTTGACGCTGTCGCCGAACAGATCCGCGCTGCCGGCCGCCGCGCCCACACCGT

(SEQ ID NO. 667)

TGCCGCCGATCTGGCCCATCCCGAGGTGACCGCGCAGCTGGCTGGTCAGGCCGTCGGAGCTTTCGGGAAGCTCGACATCGTCGTCAACAACGTTGGCGGCACCATG

CCCAACACGCTGCTAAGCACCTCGACCAANGACCTCGCGGACGCCTTCGCCTTCAACGTGGGCACCGCCCACGCGCTGACCGTCGCGGCGGTGCCGTTGATGCTGG

AACACTCCGGCGGCGGCAGCGTGATCAACATCAGCTCCACCATGGGCCGGCTGGCGGCGCGGGGTTTC

:::::::::::::Rv85T7.seq:::::::::::::

TGTGGGCTCCGATCCGGCGCGCATGGCATCGACGGCGACGCCGATCGATGACGGCCAGGCTTACGAGCTTGAGGGTGTGAAGTTGTGGACCACCAACGGTGTGGTA

(SEQ ID NO. 668)

GCGGACCTGCTAGTGGTTATGGCGCGGGTACCGCGCAGTGAAGGGCNCCGAGGGGGAATCANCGCCTTTGTCGTCGAGGCTGATTCGCCCGGGATCACCGTGGAGC

GGCGCAACAAGTTCATGGGACTGCGTGGCATCGAAAACGGCGTGACCCGGCTTCNTCGCGTCAGGGTGCCCAAAGACAACTTGATCGCANGGAAGCGACGGTCTGA

AGATCGCGCTGACCACACTCAACGCCGGACGGCTGTCCCTACCGGCGATCCAACCGGAGT

Clone Rv86

:::::::::::::Rv86SP6.seq:::::::::::::

GAGCTGGCCGAGCTGGACCGGTTCACCGCGGAACTACCGTTCTCGCTCGACGACTTTCAGCAGCGGGCTTGCAGCGCGCTGGAACGCGGCCACGGTGTGCTGGTGT

(SEQ ID NO. 669)

GCGCGCCGACCGGCGCTGGCAAGACAGTGGTCGGCGAGTTCGCCGTGCACCTGGCGCTGGCGGCCGGCAGTAAATGTTTCTACACCACGCCGCTGAAAGCCCTGAG

CAACCAAAAGCACACCGATCTCACAGCACGCTACGGCCGTGACCAGATCTGGCTGCTGACCGGTGACCTGTCNGTCAACGGCAACCGCCGGTGGTGGTGATGACCA

CCGAAATGCTGCGCAACATGCTCTAC

:::::::::::::Rv86T7.seq:::::::::::::

GATCTCTGGATCGGCGGGGCTCTCCGGGCCGGCCTCGGCGACCTCAGCGGGCCGCGCCTTCCGGCCGAACCATTCCCTAGCCATAGATGACCGCACCTCGATGCAC

(SEQ ID NO. 670)

GGTTTGGCGGCAACGCGGCAAGGCGTCNGTCGGGCCCAGCCGCGGCAATGCGGGTACCCGGGAGCGCGGGTCNGTANACCANCGCTGGACTGCGTCGCGCGGTGCG

TCNACNTCAAAGTCCCCGGCGTCCCATATCGCGTATGACGCGGGCGCGCCCGGCACCANGGGTGCCGATCCGGCCGTCTCGAACACCACCGGCCCGCCAGCCGCCG

CGGGTCCGGCAGCNAACCCGCCCGCGCCGATACCCGCTGCCCGCGTGCGTGATTGACCGCCGCGCGCACGCTGGCCANGGATCAAAGCCCGTG

Clone Rv87

:::::::::::::Rv87SP6.seq:::::::::::::

GGACGCGTAGCCCGCCAGGCCGGTCAGGGTGCCCTTCCAGTCCACGCCGCTGTGGTCGGCGAACCGCTTATCTTCAATCGAGACGATCGCCAGCTTCATCGTGTTG

(SEQ ID NO. 671)

GCGATCTTGTCCGAGGGCACCTCGAACCGGCGCTGCGAGTNCAGCCACGCGATCGTGTTGCCCTTCGCGTCGACCATCGTCGATACCGCAGGCACTTGCCCCTCGA

GCAGCTGGGCCGAGCCGTTGGCAACGACCTCAGANGCACGATTGGACATCAGCCCTAGCCCGCCTGCGAACGGGAACGTCAGCGCAGTGGCGACGACACTGGCCAA

CAGACAGCACCCAGCCAGCTTCAGAACGGTGATCGCGGCCGGGAAGCGCTCGGGCATGCGTNCTACAGTAGCGACCTCCTGTCACTCCACGTGCCGCTCGGTCCAA

TAGAATCTTTCCGCGGGCGGGTGAATCTCTGCNGGATCGGGGCNGGCGC

:::::::::::::Rv87T7.seq:::::::::::::

GCTCGTTGCCGGCGGCGATCTCGTCGAGCTCGTCTTCCATCGCCGCGGTGAAGTCGTAGTCGACGAGCCGACCGAAATGCTGCTCGAGCAGACCGGTTACCGCGAA

(SEQ ID NO. 672)

CGCCACCCATGACGGCACCAGTGCACTGCCCTTCTTGTGCACGTNGCCGCGATCCTGGATGGTCTTGATGATCGACGANTAGGTCGACGGGCGGCCGATGCCCAGC

TCCTCGAGCGCTTTGACCAGCGACGCCTCNGTGTNNCGGGCCGGCGGGTTGGTGGCATGGCCGTCTGGGGTCAACTCGACNATGTCCAACCGTTGACCCGGGGTCA

GATGGGGCAGTCGCCGCTCGGCATCGTCAGCCTCGCCGC

Clone Rv88

:::::::::::::Rv88SP6.seq:::::::::::::

GTCTTTCGATGGCTGCTTCTTCGGCGCTGACGCTGGCGATCTATCACCCCCAGCAGTTCGTCTACGCGGGAGCGATGTCGGGCCTGTTGGACCCCTCCCAGGCGAT

(SEQ ID NO. 673)

GGGTCCCACCCTGATCGGCCTGGCGATGGGTGACGCTGGCGGCTACAAGGCCTCCGACATGTGGGGCCCGAAGGAGGACCCGGCGTGGCAGCGCAACGACCCGCTG

TTGAACGTCNGGAANCTGATCGCCAACNACACCCNCGTCTGGGTGTACTGCGGCAACNGCAAGCCGTCGGATCTGGGTGGCAACAACCTGCCGGCCAAGTTCCTCG

AGGGCTTCGTGCGGACCATCAACATCAAGTTCCAAGACGCCTACAACGCCNGTGGCGGCCACAACCGCGTGTTCGACTTCCCGG

:::::::::::::Rv88T7.seq:::::::::::::

GCCAGGTCGAGGTCCCATGCGCGTGGGCCATTGATGCTGATCGCCAGGACGTCAAANATTTGGTCCGGCGTCAGCTGGGCGAAAAACGTGGGCCCCAGGACTTGCC

(SEQ ID NO. 674)

CGGAGCTGCCCGGGTTCCCGTCGCGCAGCTCGGCGGCCCCGGTCAGAAANAAATTGCGCCAGGTCGCACACTCCGCGCCGTANGCCAGCTGCTCCAGGGTGTCGGC

ATAGAGCCCGCGGGCCGCAGCGTGCTCGCTGTCGGCGAACACCGCATGGTCGAGAAGCGTTGCCGCCCAACGGAAATCACCTGCGTCNAANGCTTCGCGGGCCAAC

TCCAGCACTCGGTCGATG

Clone Rv89

:::::::::::::Rv89SP6.seq:::::::::::::

NAAACGTTCCGGCTTNGGTGCCGGGCGCTTATTTGCGTCTCTGGGATCACNCTCAGTCGCCGGCGGCTGCCGTTGGGCTATNANTTGCACCGANCCGGAAAATCCG

(SEQ ID NO. 675)

CACNANAACTGCNAGTAGCGGCCTGCAGAANTGCATCCTCGGCGAANCNGACTACCGGTGGACANCNACAAGCGCCGCCGAACAACGCACTGGCCCGAGGGATNGG

CGTCTATCGGCCCCGCCCGTCGAACTNGGAACAGACNGTGCGGTTCTACCGTGATCTGGTGGGAATGCTCNACCANACCTTCCCNANNGCTACGGAACNACGGCGC

GATATTCNGCCNTCCCANCTCGAGCCTGACNCTNGATATCGTCGANNCTCACCATCNCGATCNGCTGTGCCGGTNTTGCTCGGACTN

:::::::::::::Rv89T7.seq:::::::::::::

CGAACGACGAACNCCNCAAGCCATGGTGGTTGGCGCCGTCAAAAGGTCCGCGGTCGCCACTACTGGAAAATCGCCTTGAGCGTCNCTCGACCNCCGCCTCGAGTTG

(SEQ ID NO. 676)

GGTCNTAACGAAATACCTGATGCCGATCANGTCNACGTCTCCGTCGCNNCAACGTGCAGCGGCGACCCACTCTACNANGTCTCGGTNCCGCCNCGGCCAGNGCACC

ACCAGTGACNAATCCNTGCGCCNTCGGGCCNAGCANTCCCGGTGCNACCGNGGTGGGTCCGGCGATGGTNGGGTGTNCTCNNTACNGGAACGCCAGCGCNATCANC

ATCGGCANACTCNCGTCGATGTGCCGCGGCGCAACCATCCCCCACAATGATCNGGTGCGTCTGATCAGGCN

Clone Rv8

:::::::::::::Rv8SP6D.seq:::::::::::::

TTAGGCGTGACGGCCACCGGGGCCACTCCGCACAATCTGTACCCGACCAAGATCTACACCATCGAATACGACGGCGTCGCCGACTTTCCGCGGTACCCGCTCAACT

(SEQ ID NO. 677)

TTGTGTCGACCCTCAACGCCATTGCCGGC

:::::::::::::Rv8T7D4.seq:::::::::::::

CGTCACCCCGATGCGCCCAGATCGGGGCTTCGCAGATAAAGCACGAACTGGCGGGCAAAACGTCGATCTCGGAGCCGGAAGGGCAATCAGCCGACCGTCGACGAAC

(SEQ ID NO. 678)

GACACCGGCGAGACCACTTAGGCAGTGACGGCCT

Clone Rv90

:::::::::::::Rv90SP6.seq:::::::::::::

CTTTTCNCGATGTCTCATGATNCCNANGGAGAACNNTGCNANCNCNGCCGCTGACNTNGCNCACCGCTNTGGCNGNGGTGACATTGGTGGTGGTTGCGGGCTGCNA

(SEQ ID NO. 679)

CGCCCGACTCGANGCCGANCCATNTNTTGCGGCCGACCGCNTNTCGTCTCNACCGCANNCCCNATCTCNGCCGCNCCCGGTGGANCTACNGCTNCTTCGCCATCTC

TCGCCNATGGCTCCNGCGNNTCGCNCAACGTNTGGTTTGGTNANCTGCCTACCTGGTCNT

:::::::::::::Rv90T7.seq:::::::::::::

GCTGCGCCAGTCGTTCGGTGCGGTCATGCCGTTGGACCNACCATCGGAGTTAGTTGCCGAACCGCGGACCACCGCAAGCACCCGGTCCTGGTCGCGCACCGCGTCG

(SEQ ID NO. 680)

GCCAACCGCTTGAGCACCACCACGCCGCAGCCCTCGCCGCGCACGAATCCATCCGCGTTGGCGTCNAANCTGTNGCATCGGTCGGTCGGTGACAGCGCCGACCACT

TGGACAGCGCGATGGCGGTGAACGGTNANTAGGTGACCTGCCNCCNCGCCCGCCAATGCCCACCTCCGCTTCACNCATGCGAATGGTCTGACACGCCNAGTGAATT

GCCACCAGCGACAACAAAAATCGGTATCTNCNGCGACGGCGGACACGCNATCCCNACTGATACTCGATCCGCCCCACCGCTTGNANCTCCGGGTTCCNGTGCTCAT

GTACCNTCATGTCGGTCTGCGCNCGATATTGACGATCGTGTTTCCCACGANNANAGANCCTCATCACGCCGGTTCGAGTGCCG

Clone Rv91

:::::::::::::Rv91SP6.seq:::::::::::::

CTGTGTGCGGNCGGCGCGATATCGGCCTTTTTACTAACCGAACCCGATGTGGGCTCCGATCCGGCGCGCATGGCATCTACNGCGACGCCGATCGATGACGGCCAGG

(SEQ ID NO. 681)

CTTACGAGCTTGAGGGTGTGAANTTGTGGACCNCCAACGGTGTGGTAGCGGACCTGCTANTGGTTATGGCGCGGGTACCGCGCAGTGAANGGCACCGAGGGGGAAT

CANCGCCTTTGTCGTCTANGCTGATTCTCCCGGGATCACCNTGGAGCGCNCCNCNANTTCATGGGACTGCGTGGCATCCAANACGGCGTGACCGGCTTCATCCNTC

NGGGTGCCCAAAGACAACTTGATCNGCNNGGAAGCGACGTCTGAANATCGCGCTGATCNCACTCAACGCCGGACGCTGTCCTACCGGCGATCGCACCGGANTTGCC

AANCGGCGCTNANNATNCGCGNGAATGNCCGTCCACNANTGCATGG

:::::::::::::Rv91T7.seq:::::::::::::

TGGGGTGCCGGGCGCCGAGTTGCGTCCCTGGGATCACGCAGAGTCGCCGGCGGCTGCCGTTGGGCTATGAATTGCACCGAGCCGGAAAATCCGCANCAAAACTGCG

(SEQ ID NO. 682)

AGTAGCGGCCTGCAGAAGTGCANCCTCGGCGAAACGGAGTACGGTGGACAACGAAAAGCGCCGCCGAACNACGCACTGGCCCGAGGGATTGGCGTCAATCGGCCCC

GCCCGTCGAACTTGGAAGANACANTGCGGTTCTACCGTGATCTGGTGGGAATGCTCCAACNNACCTTCNCCGAAAGCTACGGAAGCNACGGCGCGATNTTCGGCCT

TCCCAGCTCGACCTGACGCTGGAAATCG

Clone Rv92

:::::::::::::Rv92SP6.seq:::::::::::::

NGGCNGGGAAGTTAATGCCCTACTGGTTCNATGCTCNCACNTCNCCNGTGACNNCCTGCNCCGACCCGCCGAGGTCCTGNCCGTNACCACCGANCNGGCGATCCGG

(SEQ ID NO. 683)

GACTCTNGTACGCATCCAACANNGANCAACGTGCACGGGCGGAGTNGTNCCGCCACTTCGNCNATGACGGGGTCGATCCNTTCGACGTCCGTCGCCGCGTCGGTCG

AGTGGCGGTCACNCTCCNNGTACTCGACCNCACNGACGAGAGGACTCGANCCCATCTACGTGTGGACGAAACANATCTTCTGTCCNACGACTACACCACCACCCAG

GCCATCGCCGNCGCCCGCGANGCCCCTTCGACGCCNTACTGGTCCNGNGGNGGCGCTCTCCGGTTGTCTNNCNCNTGNCGTGTTCCTTCACNCACTGCCCNACATC

GANCCCGAGCNATNCNANGTCCGTCAATC

:::::::::::::Rv92T7.seq:::::::::::::

GGACACTGTTCGCGTGCCCCTCGTCAAAGCCGGAGTGGTCGTGCTGCGCCGGACCCGACCCGACCTTCAGCGGGGGTTCACAGCTCCGTGGGTGCCGTTACTTCCG

(SEQ ID NO. 684)

ATCGCCGCAGTGTGCGCGTGCCTGTGGCTGATGCTGAACCTCACCGCGTTGACTTGGATCCGGTTCGGGATCTGGCTGGTGGCCGGAACCGCGATTTATGTCNGCT

ACGGGCGCCGGCACTCGGCGCATGGCCTTCGGCAAGCNCNANANAACGCGACCCGGAGGTGTTGAACTAGCTTCGCCGCGTATTTACAAATTGCNTTATATGTCTA

CACATAAGACGCAAACTGCTCTATTGTCAANTCCCANCGTGGTGTGGCNCATGAAGATGTTTGG

Clone Rv94

:::::::::::::Rv94SP6.seq:::::::::::::

TCCTTCTCGGTATCGGTTTGGGCTGTCACCANCAGTTGGTAGTTCTTCACGTNCTGTTGTTCGAGCGTCNAGCCGTCGCGCGTGTCNANGTCNCCGGACGCGTATC

(SEQ ID NO. 685)

CCGCCAGGCCGGTCANGGTGCCCTTCCANTCCACGCCGCTGTGGTCGGCGAACGCTNATCTTCAATCGAGACCATCGCCAGCTTCATCNTGTTGGCGATCTTGTCN

NACGGCACCTCNAACCGGCGCTNCTAGTACNCCACNCNATCNTGTTNCCTTCNCGTCNACATCCTCGATNCCNCNTGCACTTTCCCTCGANCNCCTGGGCCGAGCC

GTTGGCANTNACCTCNGAGCCCCATTGGACATCANCCCANCCCGCCTGCGAACGGGAACGTCAGCNCNCTGGCGACAACCTGGCCAACAN

:::::::::::::Rv94T7.seq:::::::::::::

CACNCCGTGATCGCNAGCCCCNGTAGAAATNGTTGAGCCAGTTGGTGCGGCGCTCGTTGCCGGCGGTNATCTCGTCGAGCTCNTCTTCCATCGCCGCGGTGAAGTC

(SEQ ID NO. 686)

GTACTCGACNCGCCGACCNAAATGCTGCTCNAGCAGACCGGTTACCNNNAACNCCNCCTCNTGACNGCACCAGTGCNCTGCCCTTCTTGTGCACGTACCCGCNATC

CTGGATGGTCTTGATGATCNACTANTNTGTCGACGGGCGGCCGATGCCCATCTCCTCNAGCGCTTTGACCAGCGACNCCTCGGTGTATCGGGCCGGCGGGTTNGTG

GCATGGCCGTCTGGGGTCANCTCNACNATNTTCANCCGTTGACCCGGGGTCACA

Clone Rv95

:::::::::::::Rv95SP6.seq:::::::::::::

TGGCCTTCTTGNCANGGGCNNACATNNGCTATNGCGAGCGTGTAACCGATCATCNTCCNGGCGACTGTGGCCTGANCGGCAAGGGTNGCCTNATTCNTCCTCCTGN

(SEQ ID NO. 687)

GGCATGGTTNCCACACGGAATGNCGGTAAGTCTGGTCGGCAACCTGGCCCGCTGCGGGTTGGGTTCGGATTCGCTCGGCTANTAAGGTGCTCGCCTGGTGTNACNA

CTAATCNCNATATACNCTTANCGGGAGTNGNCGTCCCGATCCTNGCCCTGCCGCNGGCGATCNCGTTCGCANCACCGCCACCGGAACTCNCAANGTGCGCTCATCG

GGCTCTACGCGCCATCTTCCCCGGATTCTTCGCGGCNGNGTNCCGNGGGACCCCGGACTGTGACNGGCCCAACGGCTCATCATCG

:::::::::::::Rv95T7.seq:::::::::::::

CCGGATAGCGGTGTCTGAACTTCGCCCGTTCCCTCCANCGCATTGAGCTTCAGCCCGACCGGCAGGTNNGGAGTCGGCATGCGGTCCTTCGCCCCGACCCCGCTGG

(SEQ ID NO. 688)

CTAAATANCCACCCCCGAGCGCGGTCACGGTCTTTGCACCGGGACGACGCATACCGGCAGCGCGAACATCNCCGCGGGCTGCAGCNTGAACGTCCAATACCANTCN

AACAGTGTCCGCGCGTNAAAACCCGANCCGGCGGTCGCTTCNGTAATCAACGGCTCCTGCGCAACCAGCTGCAAGTCGCCGGTGCCACCGGCGTTGACGATCTTCA

TGTCTGCGANCTCGCGCACCAGCTCGACGGCCCGGGCA

Clone Rv96

:::::::::::::Rv96SP6.seq:::::::::::::

CCTCCCGACCACATACAGGCAAAGTAATGGCATTACCGCGAGCCATTACTCCTACGCGCGCAATTAACGAATCCACCATCGGGGCAGCTGGTGTCGATAACGAAGT

(SEQ ID NO. 689)

ATCTTCAACCGGTTGAGTATTGAGCGTATGTTTTGGAATAACAGGCGCACGCTTCATTATCTAATCTCCCAGCGTGGTTTAATCAGACGATCGAAAATTTCATTGC

AGACAGGTTCCCAAATAGAAAGAGCATTTCTCCAGGCACCAGTTGAAGAGCGTTGATCAATGGCCTGTTCAAAAACAGTTCTCATCCGGATCTGACCTTTACCAAC

TTCATCCGTTTCACGTACAACATTTTTTAGAACCATGCTTCCCCAGGCATCCCGAATTTGCTCCTCCATCCACGGGGACTGAGAGCCATTACTATTGCTGTATTTG

GTAAGCAAAATACGT

Clone Rv9

:::::::::::::Rv9SP6.seq:::::::::::::

CTTCACNTCCGTACGGCTCGGGTACGCTTCGGTCNCATTGTGCGAGTGATAGATGACGACCGGGACCTCGTCGGCATCTTCCATAGCCCGCCACACCTTCAGTTGC

(SEQ ID NO. 690)

TCACCGGAATCCAACCGGTANAAGGTCGGCGANCGCTCNGCATTGGTCATCGGGATATGCCGCTCGGGACGGTCANAGCCCTCGGGTCCGGCCAGCACTCCGCAGG

CTTCGTCGGGGTGGTCGCGACGCGCATGGGCCACCATCGCATTCACCAGGTCTGCGCGAATCACCAGCACGTANACGGTTCCTTTCCTAAGCAACACCGAANTTTC

AGGACCCGAATGCTCCGGGAAACATGTCACGGTAGGTCGGTATTCCGGCTACCGGCTGANCATTGAGCACGCCGGCCAGCACCGCACGAACCAGGCAATCAGCCGC

CGCCGCACCCGACCGCGG

:::::::::::::Rv9T7.seq:::::::::::::

CAGGCATGCAAGCTTGATGCCGCCGAAACCGAGCGTGAGCACGCCGCCAGCCACCACGCGCGGGTCGGGCGCCGGGCCCGGGCCGCCAGGCTGCTCCGCTCGGTGA

(SEQ ID NO. 691)

TGGCACGCCACCGCGACACCACCCGGCTGCGCTACGTCGAGCCATACCGGGCGGAGCTACATCGGCTCGGCCGCCCAGTGTTCGGGCCCTCTTTCGAGGTCGAGGT

CGATACCGATTTGCGCATCCGCAGCCGCACCCTGGACGACAGAACCGTGCCCTACGAATTGCTTGTCGGGCGGGGCCAAAGAACAGCTTGGCATCCTGGCGCGATT

GGCCGGCGCGGCGCTGGTCGCCAAGGAAGACCCGTTCCGGTGCTGAT

TABLE 4

End sequences of the polynucleotide inserts cloned in the named

recombinant BAC vectors contained in the I-2049

M. bovis

strain Pasteur

genomic DNA library.

RvXXXSP6 corresponds to the SP6 endsequence of the clone RvXXX;

RvXXXT7 corresponds to the T7 endsequence of the clone RvXXX.

RvXXXIS 1081 corresponds to a region located close to a copy of the IS1081

repetitive sequence (Insertion element)

The character <<->> denotes an uncertain base residue.

Clone X0001

::::::::::X0001SP6.seq::::::::::

AAG-

TCGGGTTTCCACACGCGCGGTTTGACCCTAGTCATATGTAATCATGTGTACCATGTGCGGGCGCTTTTCGACGGC

CGCGAACCACCGGA-ATTTCCTGTGATTTCACTGCATGCGTACCATCTGGCACAATTGAGCA-TTGTCT-TCGCGG

TGGTCGG-CGGGTTGCGTGCCGCCTGCTGCGA-ATGCACCA-TAAGCCCGAACCCACCGGCTTGGTGACCACCGC

ACGCTGCGTGTGGGGGGTAACCACTCCGCGACCCCAAGGATGGTCATTTCCAATGAACCGGCTGGACTTCGTCC

A-A (SEQ ID NO. 692)

::::::::::X0001T7.seq:::::::::::

GTCGCGGTTCGATCGACCCGATCTTCACCTCGTAACCTCGATGCTTAGCAGGATCCAGCTTGACCGCGTTTGGCT

CTACCCACTCTTTGAGTGGCGCCGTCGCCTGTGCCCCATCGGTGTTCATGACGAACGCTTCGAAAGACTTCCTCT

TGTGAGCCGGAATGTCTGCGTAAAGAAGTTCCATGTCCGGGAAGTAGACCCGGTCGCCCTCCACGTGGTACTCC

TTCGAGGTCCGCTTCTCGCCGGATCCGATAAACACCGGCCCCAGGCACCGCAGCGTGAGTTCGAACGGCTTCAG

GTAGGTGTTCATGCGGCGGACTCCGGGAGTGCGAGAAATAGCGGTCGCGCGTAGCTGTAGACCGGATGGTTTCC

GCCCAGGCTGACGTCGAAGATGCCTCCTTGGAAGGGGCGCGA (SEQ ID NO. 693)

Clone X0002

::::::::::X0002SP6.seq::::::::::

AACTCAAGTTTTTACGGTGATCGCGCATCACCTGGTTCATGAACTGGAAGCAGCGCAGCGCTTCCTTTTCGGCCG

CAACATGAGCCAGCCTCTCGTCGGCGGTCGGGTGCAGGTGCTCGGGCAGCTCGGCCGCGACAGCCGCCTGACC

CTGAAACCAGCTTCCATATCCCGCGAC-

AACGACGCCAGTCCGCTACGTAACCCCTCCGCGACTGTCCATGGACAACAGCGCGTTCTCCACCGACCGGGCCC

GGGTGT (SEQ ID NO. 694)

::::::::::X0002T7.seq::::::::::

GTGCAGGTTTCGACAATGTGGTGCCGGTTCGGCGGCTACGTGCCATCGAGACACTGGCGCA-GCTATCGCACCC

GTTATCGGCTGCGAGCAAATCGCGGTATGCGTTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCA

CGACGGAAAGACGCAGATCGCCGTCAAGCATGTGTGCCGCGGATTATCAGGACTGACCTCCTGGCTGACCGGCA

TGTTTGGTCGCGATGCCTGGCGCCCGGCCGGCGTGGTCGTGGTCGGCTCGGATAGCGAGGTCAGCGAATTCTCG

TGGCAGCTCGAAAGGGTCCTGCCGGTGCCGGT (SEQ ID NO. 695)

Clone X0003

::::::::::X0003SP6.seq::::::::::

TTCGAGTCATGCGCCCGCCTCGACCACGAA-ATGCACGTCGGGTTCGATCGACCCGATCTTCACCTCGTAACCTC

GATGCTTAGCAGGATCCAGCTTGACCGCGTTTGGCTCTACCCACTCTTTGAGTGGCGCCGTCGCCTGTGCCCCAT

CGGTGTTCATGACGAACGCTTCGAAAGACTTCCTCTTGTGAGCCGGAATGTCTGCGTAAAGAAGTTCCATGTCC

GGGAAGTAGACCCGGTCGCCCTCCACGTGGTACTCCTTCGAGGTCCGCTTCTC (SEQ ID NO. 696)

::::::::::X0003SP6.seq::::::::::

GTCATGTGTACCATTTGCGGGCGCTTTTCGACGGCCGCGAAACACCGGAGATTTCCTGTGATTTCACTGCATGCG

TACCGTCTGGCACAATTGAGCAGTTGTCTGTCGCGGTGGTCGGCCGGGTTGCGTGCCGCCTGCTGCGAGATGCA

CCAATAAGCCCGAACCCACCGGCTTGGTGACCACCGCACGCTGCGTGTGGGGGGTAACCACGCCGCGACCCCA

AGGATGGTCATTTCCAATGAACCGGCTGGACTTC-TCAACAA (SEQ ID NO. 697)

Clone X0004

::::::::::X0004T7.seq::::::::::

AACAGCGCGGTTGAACTGATAGGTGCGGCCCGGCTCGAGCAGGCCGGGCCATTTGTTCGATGCGGTTACCGAAA

GATCTCTTCGGTGACCTGCCCGCCGCCGGCCAGCTCGGCCCAGTGCCCGGCGTTGGCCGCCGCGGCGACGATCT

TGGCGTCCACGGTGGTCGGGG (SEQ ID NO. 698)

Clone X0006

::::::::::X0006T7.seq::::::::::

GCATCTGGGCTGGCGGTGGTTCGCCGCTCCGAAGCCGTCGAACACCATCGCCAGCGCGGCTTCCACATCAACGA

CCATTTCGGCCAGCTTGCGGCGCATCAGCGGCTTGTCGATGAGCGCCCCACCGAATGCCCGCCGCTGCCCGGCG

TA-CACAGCGATTCGACCAGCGCGCGGCGCGCGTTGCCGAGGGCGAACGAAGCGGTGCCCAACCGCAATCTGTT

GGTCAGCTCCATCATGCGGGTGAGTCCCTTGCCG (SEQ ID NO. 699)

Clone X0007

::::::::::X0007SP6.seq::::::::::

ATCGGTTTCCAGCAACAGCCGATCGACGGCTTCGCCCA-GGCCGCTCCCGGGCGACCCGACCATTGCTGTCGCC

GCGTAACGCCATCACGGATGACGCGCAGTTCGTCGCTGTCTAGCTCCACCATCGCCTGCACACCGGCGGCCAG-

ACCCATTGGCCGTCGCACTCGTA-

AGCAGGTAATCCTCGTCGACGGACTCGGTAACCACCGCCGCCAGCTCCGCTGCCAGGTCGGCGGGGTTGACACC

GGCGGGCATCGGGATGGACGACGACGCGGTGCTGACGGCGCCTGTC (SEQ ID NO. 700)

::::::::::X0007T7.seq::::::::::

AGCGGTTTCCCA-GCGATGTGCTGTGAGCGCCGCACCACCAGCGCCGACGCTAAGGATGGAACGCACGGCAT

CTTCTGACGCGTAACCGCGTTGTGATCGCGAGCTGAGGAGACGGTATGGGGGAGGGTTCTCGGAGGCCATCTGG

GATGTTGATGTCTGTCGATCTTGAGCCGGTGCAACTCGTCGGCCCGGACGGTACGCCGACGGCCGAACGCCGCT

ACCACCGTGACCTTCCTGAGGAAACGCTGCGTTGGCTCTACGAGATGATGGTGGTCACCCGCGAGCTGGATACC

GAATTCGTCAATCTGCACG (SEQ ID NO. 701)

Clone X0008

::::::::::X0008SP6.seq::::::::::

CAAGCTTCCACAGGTAGGGATCGAGGAACAGCGCGTTGAACTGATAGGTGCGGCCCGGCTCGAGCAGGCCGGC

CATTTGTTCGATGCGGTTACCGAAAATCTCTTCGGTGACCTGCCCGCCGCCGGCCAGCTCGGCCCAGTGCCCGG

CGTTGGCCGCCGCGGCAACGATCTTGGCGTCCACGGTGGTCGGGGTCATGCCCGCGAGCAGGATCGGCGAGCG

GCCGGTCAGCCGGGTGAACTTCGTCGAAAGCTTGACCCTGCCGTCGGGGAGGCGAACCACGGTCGGTGCGTAN

CTCCACCAAGCCCGGGCAACCTCGGGGGTGGCGCC (SEQ ID NO. 702)

::::::::::X0008T7.seq::::::::::

TGGACCTCATGACAACGCGGCGGCGATTACCCCCGCTACCGCCAGCAGCATGACGGCGGTAGCGAACACCGCC

GGATGCAGCGCAGGTGCGTCGATGTGCTCACGGAATCGCCCCGGCACCGCGATCTCGAGGATCACCAGTGCCAC

CCCCTGCAGCGCGACACCGACGATTCCGTACACCGCCACGCCGATCAGGCCCTGGGCCAGCTGGCGTATATGGC

GGCGATGGTGACGATGGCCAGCGCCACATACATTGTGGCGGCCAGAACCACGGCGTTGGGGCGGCGGTCGATG

AACACTAGGCGACGCAGATCGCCCGGGGTCAACAGGTTGACCATCAGAAAGCCTGCGA (SEQ ID NO. 703)

Clone X0009

::::::::::X0009SP6.seq::::::::::

TTTGGTGCGGCCGGCAATCAACTTC-

GCTC-CAGCGGTITCCCAGGCGGGATGTGCTGTGAGCGCCGCACCACCAGCGCCGACGCTAAGGATGGAACGCA

CGGCATCTTCTGACGCGTAACCGCGTTGTGATCGCGAGCTGAGGAGACGGTATGGGGGAGGGTTCTCGGAGGC

CATCTGGGATGTTGATGTCTGTCGATCTTGAGCCGGTGCAACTCGTCGGCCCGGACGGTACGCCGACGGCCGAA

CGCCGCTACCACCGTGACCTTCCTGAGGAAACGCTGCGTTGGCTCTACGATATGATGGTGGTCACCCG

(SEQ ID NO. 704)

::::::::::X0009T7.seq::::::::::

CGCCCAGGGCCGCTCCCGGGCGACCCGACCATTGCTGTCGCCGCGTAACGCCATCACGGATGACGCGCAGTTCG

TCGCTGTCTAGCTCCACCATCGCCTGCACACCGGCGGCCAGGACCCATTGGCCGTCGCACTCGTAGAGCAGGTA

ATCCTCGTCGACGGACTCGGTAACCACCGCCGCCAGCTCCGCTGCCAGGTCGGCGGGGTTGACACCGGCGGGC

ATCGGGATGGACGACGACGCGGTGCTGACGGCGCCTGTCGCGACGCTGAGCTCGGACACAGCTAGTAAATGTA

GCCTAACCTACTTAATGGGTCGCAGCCCCCCGGGGTCGTCGCATGTCCAACGTTGCTCGACTGGAAGAAAATGC

TCGTCGGGGAGCAAATGGCACC (SEQ ID NO. 705)

Clone X0010

AATACTCAATCCTTGATCGGTTTCCAGCAACAGCCGATCGACGGCTTCGCCCAGGGCCGCTCCCGGGCGACCCGA

CCATTGCTGTCGCCGCGTAACGCCATCACGGATGACGCGCAGTTCGTCGCTGTCTAGCTCCACCATCGCCTGCA

CACCGGCGGCCAGGACCCATTGGCCGTCGCACTCGTAGAGCAGGTAATCCTCGTCGACGGACTCGGTAACCACC

GCCGCCAGCTCCGCTGCCAGGTCGGCGGGGTTGACACCGGCGGGCATCGGGATGGACGACGACGCGGTGCTGA

CGGCGCCTGTCGCGACTCTGAGCTCGG (SEQ ID NO. 706)

::::::::::X0010T7.seq::::::::::

GGATGTGCTGTGAGCGCCGCACCACCAGCGCCGACGCTAAGGATGGAACGCACGGCATCTTCTGACGCGTAACC

GCGTTGTGATCGCGAGCTGAGGAGACGGTATGGGGGAGGGTTCTCGGAGGCCATCTGGGATGTTGATGTCTGTC

GATCTTGAGCCGGTGCAACTCGTCGGCCCGGACGGTACGCCGACGGCCGAACGCCGCTACCACCGTGACCTTCC

TGAGGAAACGCTGCGTTGGCTCTACGAGATGATGGTGGTCACCCGCGAGCTGGATACCGAATTCGTCAATCTGC

AGCGCCAGGGGGAAGCTGGCGTTGTACACGCCCTGTCGCGGGCAGGAAGCCGCGCAGGTGGGTGCGGCGGCTT

GCCTACGCAAAACCGACTGGTTGTTCCCC (SEQ ID NO. 707)

Clone X0012

::::::::::X0012SP6.seq::::::::::

ATCACGACAACAGCGACGGTGTGTCGGATCAGCGGCCCCCGTTGCCGGGCAATGTTGAGGCGTTTCTGCGTCTG

GTTGAGGCCGGCTGGGAC-

CCGAGGTGGCTCGTCGGCCACATGGGCAGCACACCACCGTGGTGATGCATCTAGACGTGCAGGACCGTGCCGCT

GGCCTGCA (SEQ ID NO. 708)

::::::::::X0012T7.seq::::::::::

GCGGCTACGTGCCATCGAGACACTGGCGCAGGCTATCGCACCCGTTATCGGCTGCGAGCAAATCGCGGTATGCG

TTCTTGAGCATGAGTCGGCGACCGTCGTCATGGTCGACACCCACGACGGAAAGACGCAGATCGCCGTCAAGCAT

GTGTGCCGCGGATTATCAGGACTGACCTCCTGGCTGACCGGCATGTTTGGTCGCGATGCCTG

(SEQ ID NO. 709)

Clone X00013

::::::::::X0013T7.seq::::::::::

TACAAGCGGCACCTCGCCGGTGAACTGACCGTTCGCACGCTGCGCACCGCCGCCGGGCGCGTGCTCGGCGCGC

CGGCGGCCCCCGAGGCCTGAGAGGGGAACCAACCATGCAGGTGAACATGACGGTAAACGGCGAGCCCGTCACC

GCCGAGGTCGAACCCCGGATGCTGCTGGTCCATTTTCTCCGTGATCAGCTGCGGCTCACCGGAACTCACTGGGG

CTGTGATACCAGCAACTGCGGGACATGCGTGGTGGAGGTCGACGGCGTGCCGGTGAAATCCTGCACGATGCTCG

CCGTGATGGCCTCCGGGC (SEQ ID NO. 710)

Clone X0014

::::::::::X0014T7.seq::::::::::

AGCGGCTGGTTACGACTCCCTGTITGTGATGGACCACTTCTACCAACTGCCCATGTTGGGGACGCCCG-

CC-TCCGATGCTGGAAGCCTACACTGCCCTTGGTGCGCTGGCC-C-GACCGAGCGGCTGCAACTGGGCGC-

TTGGTGAC-GCCAATACCTACCGCACCCC-ACCCTGCTGG-CAAA

ATCATCACCACGCTCGACTTGGTTAGCGCCGGTCGACGATCCTCGGCATTGGAACCGGTTGGTTT-

(SEQ ID NO. 711)

Clone X0015

::::::::::X0015SP6.seq::::::::::

ACGCGCGCCGATCATATCTGCTATGGATGTACAATTCAGCTCTTGCTGTTATACCAGTATATGGTGTACTATTTG

ATCTATGCTGACGTGTGAGATGCGGGAATCGGCCCTGGCTCGACTCGGCCGGGCTCTGGCTGATCCGACGCGGT

GCCGGATTCTGGTGGCGTTGCTGGATGGCGTTTGCTATCCCGGCCAGCTAGCTGCGCACCTCGGGTTGACCCGA

TCGAATGTGTCCAACCATCTGTCGTGTTTGCGGGGCGGGCTGGTA-

TCCCAACCTATGAGGGCCGGCAGGTTCGGTAT (SEQ ID NO. 712)

::::::::::X0015T7.seq::::::::::

CCGCGCTGCTGCTGACGTCGGTCGAACGTGCGACACGTCTGCGAATACCGGCCGAACGCTGGGTITATCCACAG

GCTGGCACCGACGCCCACGACACACCGGCCGTCGCCGACCGCCACCGACTGCATCGGTCGACGGCCATTCGGAT

CGCCGGTGCCCGGGCGCTGGAACTGGCTGGGCTGGGGCTCGATGACATCGAATACGTCGACCTGTATTCGTGCT

TTCCCTCCGCTGTCCAAGTCGCCGCAATCGAACTCGGCCTGGACACCGACGATCCTGCCCGCCCGCTGACCGTC

ACCGGGGGCCTGACCTTCGCCGGCGGGCCGTGGAGCAATTACGTCACGCACTCCAT (SEQ ID NO. 713)

Clone X0016

::::::::::X0016SP6.seq::::::::::

CAGGCGTGCAATGACCTGCACTGCGCCGGA-A-TCCCTAACCCACTAAACCGGGGCCGCTCACAAGCCGTGCAGC

TCGGTCAGCGTCAGGTGCGCGACCAGGAA-

TAAATGAGCAGACCCGTGCCGTCAACGATGGTGGCGATCATCGGCCCCGAAACGATGGCCGGGTC

ATGCGCAACTTCTTCAGCAGCGGCGGAAGGACGGCACCACCAGCGAC-ACCACACCACGAT

(SEQ lD NO. 714)

::::::::::X00016T7.seq::::::::::

GCGAA-CACTTCGTCAACTTCCAGGGCTGCCCGCACCAAGTATTTCGACGAGTATTTCCGTCGGGCCGCCGCCGC

CGGCGCGCGGCAGGTGGTCATCCTGGCGGCGGGGCTGGACTCGCGCGCGTACCGGCTGCCTTGGCCCGACGGG

ACCACGGTTTTTGAGCTGGACCGCCCGCAGGTCCTTGATTTCAAGCGCGAGGTGCTCGCCAGCCACGGTGCCCA

ACCGCGCGCCCTGCGCCGCGAGATCGCCGTCGACCTGCGTGACGATTGGCCACAAGCCTTGCGGGACAGTGGTT

TCGATGCGGCTGCACCGTCGGCATGGATTGCCGAAGGGCT (SEQ ID NO 715)

Clone X0017

::::::::::X0017SP6.seq::::::::::

TTGGGC-TTGCCC-CAATA-GGCCCCAATCAAAAGCCGAGCAGGTGGAACCTA-CGCATTCGCCTC-TCGT-TGTGC

ACCCGAGCCATCGCACGCGCGGGAATTCCCGGAT-TC-CCGTATTCTCCGGCGGCCGGGCTAACCCATCCCA-GCC

GAACGGTTGGCTC-TGCCGTGGGTCCCGTGTTGGCCGATCGGGGCGTCACCGGGGGTGCTCGGGTGCGG

TGACCATGGC-AACTGCCCC-ATGGGCCGACCCTGGTGCAGATAAACCTG (SEQ ID NO. 716)

::::::::::X0017T7.seq::::::::::

TGGTGGAGGTCCCCACCAA-ACCCGGCCGTAACTCTGCTCACGGAAATGCGG-CAGGCCGCGCGTAGCACGTGGT

ATCCGCCATAAAGGTGCACCTTAAGCACGGCGTCCCAATTCTCGAACGACATCTTGTGGAAGGTGCCGTCGCGC

AAGATCCCGGCGTTGCTCACCACACCGTGCACGGCGCCGAATTCGTCAAGCGCGGTCTTGATGATGTTCGCTGC

GCCGTCCTCGGTGGCGACGCTGTCGGTA-TTGGCGACCGCCCGGCCCCCCTTGTCGCGAAATCTCGGCGACGAC

CTCATCGGCCATCGCCGAACCGGGCCCCCG (SEQ ID NO. 717)

Clone X0018

::::::::::X0018SP6.seq::::::::::

GCCGGCCAAACTGGCCGGCGGGGTTGCTGTC-TCAAGGTGGGTTCCGCCACCAA-ACC

CACTCAAGGATCGCAAGGAAAGC-

TCAAGGATGCGGTCGCGGCCGCCAAGGCCGCGGTCAAGGAGGGCATCGTCCCTGGTGGGGGA-CCTCCCTCATC

CACCAGGCCCGCAAGGCGCTGACCGAACTGC-TGCGTC-C-GACCGGTGACAA-GTCCTCGGTGTCCACGTGT-CTC

CGAAGCCCTTGCCGCTCCGTTGTTCTGGATC-CC-CCAAC-CTGGTTGGACGGCTC

GTGGTGGTCAACAAGGTCAGCGAGCTACCCGCCGGGCATGGGCTGAACGTGA (SEQ ID NO. 718)

Clone X0018

::::::::::X0018T7.seq::::::::::

CGAACCT-

AATTGTCCTGTAATGCCCAGCTCACCAA-GCATGGCTGGTGGCCGGGGCGGTGAAGCCGGCGTCTGCGGCACCG

TCCAACTC-ATGTGGAT-GCCGGAATGGGGATGTCCGG-ACGGCGAATCCGTA-

TTCGCTTGTCCCGTGAGGCCCAGGTGGATGGGGGGAAGGATC-TGGTGTCCGGGATGAT

ATGGGGCCGATGCCGCCGGTTGAAGTCCACTGGATCGGGAATTCGGGAATCGTGAT

CCGACGTTCAGGCCGAAC (SEQ ID NO. 719)

Clone X0019

::::::::::X0019SP6.seq::::::::::

CTAACGGAATGAAAGCCCTGGTGGCCGT-TCGGCGGTGGCCGTCGTCGCACTGCTCGGTGTATCTTCCGCCCAAG

CTGATCCCGAGGCGGATCCCGGCGCAGGTGAGGCCAACTATGGTGGCCCCCCAAGTTCCCCACGTCTTGTCGAT

CACACCGAATGGGCGCA-

TGGGGAATTCTGCCCAGCCTCCGGGTCTACCCGTCCCAAGTTGGGCGTACA-CTCCCGCCGCCTCGGGATGGCC

GCTGCCGACCCGGCCTGGGCC-AGGTTCTCGCGCTGTCACCGGAAGCCGACACTGCCGGC (SEQ ID NO. 720)

::::::::::X0019T7.seq::::::::::

CCGCGGGACAC-CCTC-ATGCTGCCGCCATGGACGCGGTCGAACGCAAGCAGCTGATCGAGCTACAACGCCGCG

CGGAACGCTTCCGCCGCGGGCGTGACCGCATCCCGTTGACCGGGCGGATCGCGGTGATCGTCGATGACGGCATC

GCCACCGGAGCGACGGCCAAGGCGGCGTGCCAGGTCGCCCGGGCGCACGGTGCGGACAAGGTGGTGCTGGCG

GTCCCGATCGGCCCA-ACGACATCGTGGCGAAGATTCGCCGGGTACGCCGATGATGTGGTGTGTTTGGCGACGC

CGGCGTTGT (SEQ ID NO. 721)

Clone X0020

::::::::::X0020T7.seq::::::::::

CTCTGGGACCGGCCACGGTGCC-CCGGCGTTCCCGGACGTGCTGCGCCAGGTGTCCGGCGGCCGCGTGCATGGT

GTTCCCGGATCGGCCGCTGGCCAGAGCCCACCGGTGAATCTGGCGCCTGGCCGACCACCGTGCGCCGTAGGCTT

GCGATCGTGCAGCGCTGGCGTGGCCAGGACGAGATCCCGACGGATTGGGGCAGATGCGTGCTCACCATCGGGG

TATTTGACGGCGTGCACCGCGGGCACGCCGAACTGATCGCGCACGCGGTCAAAGGCGGC (SEQ ID NO.722)

Clone X0021

::::::::::X0021SP6.seq::::::::::

AATACTCAAGCTTTCGTCAGTTCATTGCGCCAGCAGACCAACAA-AGCATCGGGACATACGGA-TCAACTACCCG

GCCAACGGTGATTTCTTGGCCGCCGCTGACGGCGCGAACGACGCCAGCGACCAC-TTCAGCAAATGGCCA-CGCG

TGCCGGGCCACGAGGTTGGTGCTCGGCGGCTACTCCCAGGGTGCGGCCGTGATC-ACATC-TCACCGCCGCACCA

CTGCCCGGCCTCGGGTTCACGCAGCCGTTGCCGCCCGCAGCGGAC-

ATCACATCGCCGCGATCGCCCTGTTCGGGAATCCCTC-GGCCGCGCTGGCGGGCTGATTAAC

(SEQ ID NO. 723)

::::::::::X002lT7.seq::::::::::

TGCCGCGGATTTGGCTGGGTGCCCAATATTCAGAATCGGGCCTTTCTTTTTGCGCGACAATAAGGTCACAGTAAA

CCCTCGTTTTGTGAGATGCGGCCCGGGCCGGGCGAA-TCGACCTCGAGTGAATGGATCTCGAGTGAATGGACAG

GGCATCGCCTACGAGTCGCATCCCCATCCAACAGACCGGTGCTCTTGCATCGGACCCTGAAGGTCCCGCACGGA

GGGTGTGGTTGCCGGCGCGGGGTCACGGTGCGGTAGCGACGTAGTGTTTGAACGAATTTCTTGATGCTCCAACC

TGTITGGTGTTCAATCCAGTTCT (SEQ ID NO. 724)

Clone X0175

...X0175SP6...

AA-CTTGCGCGCTCGGCCGGGTC-AGCATCCAGCTGCTCGGCAAGGAGGCCAGCTACC-TCGCTGCGTATGCCCA

GCGGTGAGATCCGCCGGGTC-ACGTCCGCTGCCGCGCGACCGTCGGCGAAGTGGGCAATGCCGAGCAGGCAAAC

ATCAACTGGGGCAAGGCCGGTCGGATGCGGTGGAAGGGCAAGCGCCCGTCGGTCCGGGGCGTGGTGAT-AACC

CGGTC-ACCACCCGCACGGCGGTGGTGAGGGTAAAACCTCCGGCGGCCGTCACCCGGTTAGCCCGTGGGGCAA

(SEQ ID NO. 725)

...X0175...

A-TCGAAAGTGACCATCTCTACCTTGAGTGCCATACCGCCCGACCCTATGCCTCGGATAGCTCGGCGGAAAGAAA

CGCTTGCAGTGCCGCCGAATAGGCGGCTACGTCGTGAGCGCCCATCAACTCTCGCGCGGAGTGCATCGCCAGCT

GGGCGGCGCCGACGTCGACCGTGGGGATTCCGGTGCGCGCCGCGGCCAACGGCCCGATCGTCGACCCGCACGG

CAGATCGGCGCGATGTTCGTAACGCTGCAThGGCACTCCCGCGCGCTGGCAGGCCAGTGCGAACGCCGCCGCG

GTGCGTCCG (SEQ ID NO. 726)

References

Altschul, S. F., W. Gish, W. Miller, E. W. Myers, and D. J. Lipman. 1990. Basic local alignment search tool. J. Mol. Biol. 215:403-10.

Balasubramanian, V., M. S. Pavelka, Jr., S. S. Bardarov, J. Martin, T. R. Weisbrod, R. A. McAdam, B. R. Bloom, and W. R. Jacobs, Jr. 1996. Allelic exchange in Mycobacterium tuberculosis with long linear recombination substrates. J. Bacteriol. 178:273-279.

Barany F., 1991, Proc. Natl. Acad. Sci. USA, 88:189-193.

Bensimon, A., A. Simon, A. Chiffaudel, V. Croquette, F. Heslot, and D. Bensimon. 1994. Alignment and sensitive detection of DNA by a moving interface. Science. 265:2096-2098.

Bergh, S., and S. T. Cole. 1994. MycDB: an integrated mycobacterial database. Mol. Microbiol. 12:517-534.

Bimboim, H. C. and J. Doly. 1979. A rapid alkaline extraction procedure for screening recombinant plasmid DNA. Nucleic Acids Res. 7:1513-1523.

Burg J. L. et al., 1996, Mol. and Cell. Probes, 10:257-271.

Cai, L., J. F. Taylor, R. A. Wing, D. S. Gallagher, S. S. Woo, and S. K. Davis. 1995. Construction and characterization of a bovine bacterial artificial chromosome library. Genomics. 29:413-425.

Canard, B., and S. T. Cole. 1989. Genome organization of the anaerobic pathogen Clostridium perfingens. Proc. Natl. Acad. Sci. USA 86:6676-6680.

Chu B. C. F. et al., 1986, Nucleic Acids Res., 14:5591-5603.

Chuang S. et al., 1993. Global regulation of gene expression in Escherichia coli. J. Bact., 175(7): 2026-2036.

Chuang, S., D. L. Daniels, and F. R. Blattner. 1993. Global regulation of gene expression in

Escherichia coli

. J. Bacteriol. 175:2026-2036.

Cole, S.T., R. Brosch, K. Eiglmeier, T. Garnier, S. V. Gordon, C. Churcher, D. Harris, K. Badcock, D. Basharn, D. Brown, T. Chillingworth, R. Connor, R. Davies, K. Devlin, T. Feltwell, S. Holroyd, S. Gentles, K. Jagels, J. McLean, S. Moule, L. Murphy, K. Oliver, J. Osborne, J. Parkhill, M. Quail, M-A. Rajandream, J. Rogers, S. Rutter, K. Seeger, J. Skelton, R. Squares, S. Squares, J. Sulston, K. Taylor, S. Wlitehead and B. G. Barrell. 1997. Genome Sequence of Mycobacterium tuberculosis H37Rv. Microbial Comparative Genomics, 2:174.

Collins, D. M., and D. M. Stephens. 1991. Identification of an insertion sequence, IS1081, in Mycobacterium bovis. FEMS Microbiol. Lett. 67:11-15.

Cousins D. et al., 1998, 36(1): 168-170.

De Wit D. et al., 1990, J. Clin. Microbiol., 28: 2437-2441.

Dear, S., and R. A. Staden. 1991. Sequence assembly and editing program for the efficient management of large projects. Nucleic Acids Res. 19:3907-3911.

Duck P. et al., 1990, Biotechniques, 9:142-147.

Guateli J.C. et al., 1990, Proc. Natl. Acad. Sci. USA, 87:1874-1878.

Kievitis T. et al., 1991, J. Virol. Methods, 35:273-286.

Kim, U. J., B. W. Birren, T. Slepak, V. Mancino, C. Boysen, H. L. Kang, M. I. Simon, and H. Shizuya. 1996. Construction and characterization of a human bacterial artificial chromosome library. Genomics. 34:213-218.

Kwoh D.Y. et al., 1989, Proc. Natl. Acad. Sci. USA, 86:1173-1177.

LandegrenU. et al., 1988, Science, 241:1077-1080.

Liu, Y. G., and R. F. Whittier. 1995. Thermal asymmetric interlaced PCR: automatable amplification and sequencing of insert end fragments from P1 and YAC clones for chromosome walking. Genomics. 25:674-681.

Lizardi P. M. et al., 1988, Bio/technology, 6:1197-1202.

Matthews J.A. et al., 1988, Anal. Biochem., 169:1-25.

Michalet, X., R. Ekong, F. Fougerousse, S. Rousseaux, C. Schurra, N. Hornigold, M. Vanslegtenhorst, J. Wolfe, S. Povey, J. S. Beckmann, and A. Bensimon. 1997. Dynamic molecular combing—stretching the whole human genome for high-resolution studies. Science. 277:1518-1523.

Misumi, D. J., D. L. Nagle, S. H. McGrail, B. J. Dussault, Jr., J. S. Smutko, H. Chen, O. Charlat, G. M. Duyk, C. Ebeling, L. Baldini., G. A. Carlson, and K. J. Moore. 1997. The physical and genetic map surrounding the Lyst gene on mouse chromosome. Genomics. 40:147-150.

Pavelka, M. S., Jr., and W. R Jacobs, Jr. 1996. Biosynthesis of diaminopimelate, the precursor of lysine and a component of peptidoglycan, is an essential function of Mycobacterium smegmatis. J. Bacteriol. 178:6496-6507.

Philipp, W. J., S. Nair, G. Guglielmi, M. Lagranderie, B. Gicquel, and S. T. Cole. 1996a Physical mapping of Mycobacterium bovis BCG pasteur reveals differences from the genome map of Mycobacterium tuberculosis H37Rv and from M. bovis. Microbiology. 142:3135-3145.

Philipp, W. J., S. Poulet, K. Eighneier, L. Pascopella, V. Balasubramanian, B. Heym, S. Bergh, B. R. Bloom, W. R. Jacobs, Jr., and S. T. Cole. 1996b. An integrated map of the genome of the tubercle bacillus, Mycobacterium tuberculosis H37Rv, and comparison with Mycobacterium leprae. Proc. Natl. Acad. Sci. USA. 93:3132-3137.

Poulet S. et al., 1995, Arch. Microbiol., 163: 87-95.

Ross BC, 1992, J. Clin. Microbiol., 30: 942-946.

Sambrook, J., E. F. Fritsch, and T. Maniatis. 1989. Molecular cloning: a laboratory manual, 2nd ed. Cold Spring Harbor Laboratory, NY: Cold Spring Harbor. N.Y.

Sanchez-Pescador R., 1988, J. Clin. Microbiol., 26(10):1934-1938.

Segev D., 1992, in <<Non-radioactive Labeling and Detection of Biomolecules>>. Kessler C. Springer Verlag, Berlin, New-York, 197-205.

Sheng, Y., V. Mancino, and B. Birren. 1995. Transformation of Escherichia coli with large DNA molecules by electroporation. Nucleic Acids Res. 23:1990-1996.

Shinnick T. M. et al., 1987, J. Bact., 169(3): 108-1088.

Shizuya, H., B. Birren, U. J. Kim, V. Mancino, T. Slepak, Y. Tachiiri, and M. Simon. 1992. Cloning and stable maintenance of 300-kilobase-pair fragments of human DNA in

Escherichia coli

using an F-factor-based vector. Proc. Natl. Acad. Sci. USA. 89:8794-8797.

Spargo C. A. et al., 1996, Mol. and Cell. Probes, 10:247-256

Stone B. B. et al., 1996, Mol. and Cell. Probes, 10:359-370.

Trieselman B.A. et al., 1992. Transcriptionnally active regions in the genome of the archaebacterium Haloferax volcanii. J. Bact., 174: 30-34.

Trieselmann, B. A., and R. L. Charlebois. 1992. Transcriptionally active regions in the genome of the archaebacterium Haloferax volcanii. J. Bacteriol. 174:30-34.

Urdea M. S. et al., 1991, Nucleic Acids Symp. Ser., 24:197-200.

Urdea M. S., 1988, Nucleic Acids Research, 11: 4937-4957.

Van Soolingen D., 1993, J. Clin. Microbiol., 31: 1987-1995.

Willets, N., and R. Skurray. 1987. Structure and fimction of the F-factor and mechanism of conjugation. In Escherichia coli and Salmonella Typhimurium: Cellular and Molecular Biology (F.C. Neidhardt, Ed) Vol.2 ppl 10-1 133, Am. Soc. Microbiol., Washington, D.C.

Woo, S. S., 3. Jiang, B. S. Gill, A. H. Paterson, and R. A. Wing. 1994. Construction and characterization of a bacterial artificial chromosome library of Sorghum bicolor. Nucleic Acids Res 22:4922-4931.

Zimmer, R., and A. M. V. Gibbins. 1997. Construction and characterization of a large-fragment chicken bacterial artificial chromosome library. Genomics. 42:217-226.

743

1

12732

DNA

Mycobacterium tuberculosis

1
acctgcgctt gcagagatca aatagggcgc atgggtcagc atagtacagg tcgtcgcgca 60
tctttgatgc atcggaataa gatgtcaggc aattaaaaga gaagccacgg cgactcgcgg 120
cattcagcat gtcgagcgtc gcttcgatgt gagcgcacca ttccgtgtcc aacgatttca 180
gacgaacatt gaatattcca ctcgcgacgc tatagtccgc ctcccgatct atgcgcgccg 240
cgcagatgaa gtctgcgttc gcccgacctt cgaaacgtag tgcggccgcg cgcaccattt 300
cgggggagac gtcgatgccg gtgtaatcag ttttgaagcc acgcgcatct aggtagtcca 360
gtagagcccc atagccacag cctagatcgt tgatcgaaaa tgggtccgcc gcattgacaa 420
tgcgcaccag ctggtcaaag cgcaacgcct gcccggcttc gccgttccaa tcgacgccgc 480
gcgggtgccg tgtgcttcga gtttcgatgc gtagtaacgg gccacgtcag cgagcatggt 540
cgttgcgtct tccgccatga agctgcctca cgatttgtgt gtgtgggcgt cggtgcgtgg 600
gtccgagact ataccttcaa cagttgcatg ccgaggctgc ggcgggcaat gacccaaaaa 660
cccgccggca cggttcgccg agcaaggaag cgtggagacg atagataatt tcactggcga 720
cagtacctca aatagtccgg agcctcggct ccgacgttaa agagcagatc cagaatcgac 780
acggcgggct cgaaccctcc ccacaattgc ttataatcgc ggtagccgtc ataatcgaac 840
caagttaccc ggatgctaag ttcgtcgaac acgcgctcat cgacatacga acgggctgag 900
gggccagaga catattcggt cgctgcggcc tgttggcaga ggttggccag tctctcggtc 960
ttgccgtcgg ctaattcgta gtcccacgaa tttgccagtc gcgtgctgat accgagataa 1020
ctgcaaatcg cattcaatag acgcctgttg agtaaggaaa gattcgtgtg ctgttcttcg 1080
aggtaaatcg gcgcgagcca gtcagcgatc tccgcaaaat gagcggccgc gctgtagttg 1140
aattctagtg cccgccagtg cgctttcgcc caatcggtgc cgtcgatcag cgtctcacgt 1200
atcttttgat ggaaacgtcc cttcacctgg acgggaacag ttatccactg taacccctgg 1260
ctcgttttga tccgatttct gtttcgccaa tcacgcttgg tatattgcat gtcatcatag 1320
atgatgaatt catcgacgaa tgcaatcagg tcaaaatatc ctcgccaagg tatgtaattt 1380
gattgaacaa tcgcgacttt cttcaacgcg gtgtctccaa tttagaataa caaatacgtc 1440
gcgcccgcga cagctccgct ggagcgagtt caagcgattc tgcgacatat tcaatatggt 1500
gctcgggaag gccaggatgg gccgcgaccc ggggcgtccg gtgcgcgatg aacgtcgcat 1560
cgtctcctgt gagataattg catccgatca tatagggctg gctgcggcta ggttgctggc 1620
aaaaagatat cgcggccgat ccgtttctgg ttttgtcttg atgatcaaat ccgcttccgt 1680
tcacgagatc gattcctggt cttcccccag cgtcgcgatg tcgataggtg tcgcgctttg 1740
ttcgtacccg cactacgcgg cggcgagaac ctcgccaccg aatcgggatt ggggggagga 1800
taccactcgg tcgaggcccg tcaccggcct tctagcgggt tgaccatcag tgtttgcagg 1860
gccctatccc ggtatggcgc accacgggat cggcagcgtt ccggttgctg gcgtggtacc 1920
tcgttgtggc gccgtggtcc atgtcgattg agtgcgtgga tcagtgtaaa ccgttgcgcg 1980
ccatgttctg taggcactgg ttcgggttgt ggttaggctg cacggttggc aggttaccaa 2040
ccactgagcc cctgggcgga tgtgagctcg gactccgcct atggggtgta attttggcag 2100
attgggccgg gtccccgtgg tgaggactcc tcaaccggat tgggtaagca tgaggtggtg 2160
ctggcagcgg tgtcctggtc gctctcccga gtaggcccgt tgtgactgtc atgtgggcga 2220
gcgggtttgc gcgcgtagga gacgatgatt actacgcacg tgaccaacca caagaacggt 2280
gcccatgtca ccgtggtgaa aacgagtggc gtggtaccga ctaccccttt ggctcccagc 2340
tgtccataga gcggcacgta gaacggctgg cccgggaccg cgacgttgac gatgctcagc 2400
gccacggcca aactcacgca gacgccgacc gcgcggcggc ggtctccatg ggctgcgagt 2460
tggtcgaata tcccagcacc aggaggcccg ttggggtctc gggctaccag tgcagcgatt 2520
ggcaagacga aaacgagata gtagaaggcg acgtccgcgg gggagaaggt ggcggtggcg 2580
agcaacacaa tccccaccat gacaggcggg atacggcgtc cgagcgccag cacggcgacc 2640
acgactatga ctaggacagc aaacccgatc tgcgttcgcg gaccagtgag gaaaccctct 2700
gggatcttgc ccgattgata gttcttgatg ctatcgggga tcagcaggag tgccttgcca 2760
aaggacacgt tccgcgggtc tcgaagccct ccgaacgaac tattgaactt gatgatgccg 2820
tggatcgact gtgcgatcgt ccccgggaag cctcgtggcc acaacagaaa ggctgcgata 2880
ttggacacca ccacgccggt gatcccgata ccagcccacc gccattgtcg agccgccaac 2940
aacaccacgc cgagaacgac gaactgcggc tttaccagga cggccaagat caccgtgatg 3000
gtggcgaggc cccaccgctg tcgggacaac gccacgaagt aagccagcgc gatcggtacc 3060
acgaaccctg tcgagttgcc tcgatcgatg accccccacg ccgggatggc cgcggcgccc 3120
agtgtcacga agatgaccac tcgctccaga ccacgtgccc cccgggccgc ccagatggcg 3180
ggagatatga ccgccatcgt tagggcgacc aggtaacaga tcagccccaa gcgcggcgca 3240
cccagccaat ggctgggtag tccgaaaatc gcatacggta tgcgggcggg ggcccatgca 3300
gcaaccgcgg tcggctggta atcggcgggt agcgagatca ggtagtccgc gggattgggt 3360
tgaatcccgg cggcggcgac catggcgtag tcgctgaagc agtgccgacc gatattcatg 3420
ccccaatcaa gccaacagtc cccagggact accaaaagag tggaaaagac gtcgaccgcg 3480
taccactgac tgagggcgta cgccgtcgcc gccgaaatca ccgacgccag caggatggtg 3540
ccgagcatga gggtgcgctc ggattgggag ccgatcgccc agagccgctc ccggctcgcg 3600
gtcacggcac cgcgcaacac ctccgggggt cgcttcatct ggattctcct cggttctgcg 3660
cgaaacggta gcagagcgcc atggttgcca acgcggtcgc cgggcagtct agaccggatc 3720
ttcctcgtgg caaccgacaa caggacgtcg ttgccgaaag ggcgctgggc accgacatct 3780
aggatgaacc cacagccacg ccccgacgtt atgccatggc gaagagcgac cggcaggagc 3840
gggaacccag tgaagcgagc gctcatcacc ggaatcacag gaccggacgg ctcgtatctc 3900
gctaagctcc cgctgaaggg atatgtggcc gctggtagcc cggccgaggt ctatttctgc 3960
tgggcgacac ggaattatcg cgaattgtat gggttgctcg cggtcaacag catctggttc 4020
aatcacgaat caccgcgtca cggcgagaca ttcatgactc gtaatcctgc accatatcgc 4080
ggtcggcaac gaggcgctga tcgatgcgca gacgctgatg cgccggccca cccggatagg 4140
tatcagtatt ggggcgttcc ggccagcgta cgaggcgtga tcgaccgcgc aatgggtgtt 4200
tgcgttgagt aataatctga accgtgtgaa cgcatgcatg gatggattcc ttgcccgtat 4260
ccgctcacat gttgatgcgc acgcgccaga attgcgttca ctgttcgata cgatggcggc 4320
cgaggcccga tttgcacgcg actggctgtc cgaggacctc gcgcggttgc ctgtcggtgc 4380
agcattgctg gaagtgggcg ggggggtact tctgctcagc tgtcaactgg cggcggaggg 4440
atttgacatc accgccatcg agccgacggg tgaaggtttt ggcaagttca gacagcttgg 4500
cgacatcgtg ctggaattgg ctgcagcacg acccaccatc gcgccatgca aggcggaaga 4560
ctttatttcc gagaagcggt tcgacttcgc cttctcgctg aatgtgatgg agcacatcga 4620
ccttccggat gaggcagtca ggcgggtatc ggaagtgctg aaaccggggg ccagttacca 4680
cttcctgtgc ccgaattacg tattcccgta cgaaccgcat ttcaatatcc caacattctt 4740
caccaaagag ctgacatgcc gggtgatgcg acatcgcatc gagggcaata cgggcatgga 4800
tgacccgaag ggagtctggc gttcgctcaa ctggattacg gttcccaagg tgaaacgctt 4860
tgcggcgaag gatgcgacgc tgaccttgcg cttccaccgt gcaatgttgg tatggatgct 4920
ggaacgcgcg ctgacggata aggaattcgc tggtcgccgg gcacaatgga tggtcgctgc 4980
tattcgctcg gcggtgaaat tgcgtgtgca tcatctggca ggctatgttc ccgctacgct 5040
gcagcccatc atggatgtgc ggctaacgaa gaggtaatga catggcgcaa gcgacatcgg 5100
gcattcgcgc ggcactttcg caacctgctg tgtatgaggc gtatcagcgg attgcgggcg 5160
ctaaaagcgg gcttgcgtgg atcacaaccg accccatcca gtcgttgcca ggcatgcgta 5220
ctctcgacct cggttgctgg ccagcggtga tacacagctc cccgccagtg gacgtgacat 5280
gtacgagaga cggcatgagc gcggaatgtg cgaccgtgcc gtcgagatga ccgacgtcgg 5340
cgctacggca gcccccaccg gacctatcgc gcggggcagc gtcgctcggg tcggcgcggc 5400
gaccgcgttg gccgttgcct gcgtctacac ggtcatctat ctggcggccc gcgacctacc 5460
cccggcttgt ttttcgatat tcgcggtgtt ttggggggcg ctcggcattg ccaccggcgc 5520
cacccacggc ctcctgcaag aaacgacccg cgaggtccgc tgggtgcgct ccacccaaat 5580
agttgcgggc catcgtaccc atccgctgcg ggtggccggg atgattggca ccgtcgcggc 5640
cgtcgtaatt gcgggtagct caccgctgtg gagccgacag ctattcgtcg aggggcgctg 5700
gctgtccgtg gggctactca gcgttggggt ggccgggttc tgcgcgcagg cgaccctgct 5760
gggcgcgctg gccggcgtcg accggtggac acagtacggg tcactgatgg tgaccgacgc 5820
ggtcatccgg ttggcggtcg ccgcggcagc ggttgtgatc ggatggggtc tggccgggta 5880
cttgtgggcc gccaccgcgg gagcggtggc gtggctgctc atgctgatgg cctcgcccac 5940
cgcgcgcagc gcggccagcc tgctgacgcc cgggggaatc gccacgttcg tgcgcggtgc 6000
cgctcattcg ataaccgccg cgggtgccag cgcgattctg gtaatgggtt tcccagtgtt 6060
gctcaaagtg acctccgacc agttaggggc aaagggcgga gcggtcatcc tggctgtgac 6120
cttgacgcgt gcgccgcttc tggtcccact gagcgcgatg caaggcaacc tgatcgcgca 6180
tttcgtcgac cggcgcaccc aacggcttcg ggcgctgatc gcaccggcgc tggtcgtcgg 6240
cggcatcggt gcggtcggga tgttggccgc agggcttacc ggtccctggt tgctgcgtgt 6300
tggattcggc cccgactacc aaactggcgg ggcgttgctg gcctggttga cggcagcggc 6360
ggtagctatc gccatgctga cgctgaccgg cgccgccgcg gtcgcggccg cactgcaccg 6420
ggcgtatttg ctgggctggg tcagcgcgac ggtggcgtcg acgctgttgc tgctgctgcc 6480
gatgccgctg gagacgcgca ccgtgatcgc gctgttgttc ggtccaacgg tgggaatcgc 6540
catccatgtg gccgcgttgg cgcggcgacc cgactgattt gtgccccagg tcgacaaatc 6600
acgccgtctc gtcagtgagc actccgtcct cgggtccgat ccttccagga gacgttgcaa 6660
cctgatttgg ctcaaattgg tgcgcaccga gggtcgggca catcgtaggg tcgcaacagt 6720
cacatgtgtc actgcaccgg gcgacacccg atgtcccggc tctcagcgac agctgtctga 6780
cctgtggttt tgttcccaag ttggtcgtgg ctgtgcggga ttggaggtgg cgtgggggtc 6840
gcgtcgtatg gattctcctc ctcggttccg cgcgaaacgg ccgcaggcgc aatggtcacc 6900
aacttggccg cggtggagtc tagcctcaca ttttcctggt cgcccccgac aaccaggagg 6960
tcgctgcaga acgggcgttc cctacccaca tctactatga agcgacagcg gcgccccgct 7020
gtgatggctg agcatgaccg acagaggcgg gaagacagtg aagcgagcgc tcatcaccgg 7080
aatcaccggc caggacggct cgtatctcgc cgaactgctg ctggccaagg ggtatgaggt 7140
tcacgggctc atccggcgcg cttcgacgtt caacacctcg cggatcgatc acctctacgt 7200
cgacccgcac caaccgggcg cgcggctgtt tctgcactat ggtgacctga tcgacggaac 7260
ccggttggtg accctgctga gcaccatcga acccgacgag gtgtacaacc tggcggcgca 7320
gtcacacgtg cgggtgagct tcgacgaacc cgtgcacacc ggtgacacca ccggcatggg 7380
atccatgcga ctgctggaag ccgttcggct ctctcgggtg cactgccgct tctatcaggc 7440
gtcctcgtcg gagatgttcg gcgcctcgcc gccaccgcag aacgagctga cgccgttcta 7500
cccgcggtca ccgtatggcg ccgccaaggt ctattcgtac tgggcgaccc gcaattatcg 7560
cgaagcgtac ggattgttcg ccgttaacgg catcttgttc aatcacgaat caccgcggcg 7620
cggtgagacg ttcgtgaccc gaaagatcac cagggccgtg gcacgcatca aggccggtat 7680
ccagtccgag gtctatatgg gcaatctgga tgcggtccgc gactgggggt acgcgcccga 7740
atacgtcgaa ggcatgtggc ggatgctgca gaccgacgag cccgacgact tcgttttggc 7800
gaccgggcgc ggtttcaccg tgcgtgagtt cgcgcgggcc gcgttcgagc atgccggttt 7860
ggactggcag cagtacgtga aattcgacca acgctatctg cggcccaccg aggtggattc 7920
gctgatcggc gacgcgacca aggctgccga attgctgggc tggagggctt cggtgcacac 7980
tgacgagttg gctcggatca tggtcgacgc ggacatggcg gcgctggagt gcgaaggcaa 8040
gccgtggatc gacaagccga tgatcgccgg ccggacatga acgcgcacac ctcggtcggc 8100
ccgcttgacc gcgcggcccg ggtctacatc gccgggcatc gcggcctggt cgggtccgcg 8160
ctgctacgca cgtttgcggg cgcggggttc accaacctgc tggtgcggtc acgcgccgag 8220
cttgatctga cggatcgggc cgcgacgttc gacttcgttc tcgagtcgag gccgcaggtc 8280
gtcatcgacg cggcggcccg ggtcggcggc atcctggcca acgacaccta cccggccgat 8340
ttcctgtcgg aaaacctcca gatccaggtc aacctgctgg atgccgccgt ggcggcgcgg 8400
gtgccgcggc tgctgttcct gggctcgtcg tgcatctacc cgaaactcgc cccgcagccg 8460
atcccggaga gcgcgctgct caccggtccg ttggagccga ccaacgacgc gtacgcgatc 8520
gccaaaatcg ccggcatcct tgcggtccag gcggtgcgcc gccaacatgg cctgccgtgg 8580
atctcggcga tgcccaccaa cctgtacggg ccaggcgaca acttttcgcc gtccggctcg 8640
catctgctgc cggcactcat ccgccgctat gacgaggcca aagccagtgg cgcgcccaac 8700
gtgaccaact ggggcaccgg cacgccccga cgggagttgc tgcacgtcga cgacctggcg 8760
agcgcatgcc tgtatctgct ggaacatttc gacgggccga cccatgtcaa cgtgggaacc 8820
ggcatcgacc acaccatcgg cgagatcgcc gagatggtcg cctcggcggt aggctatagc 8880
ggcgaaaccc gctgggatcc aagcaaaccg gacggaacac cacgcaaact gctggatgtt 8940
tcggtgctac gggaggcggg atggcggcct tcgatcgcgc tgcgcgacgg catcgaggcg 9000
acggtggcgt ggtatcgcga gcacgcggga acggttcggc aatgaggctg gcccgtcgcg 9060
ctcggaacat cttgcgtcgc aacggcatcg aggtgtcgcg ctactttgcc gaactggact 9120
gggaacgcaa tttcttgcgc caactgcaat cgcatcgggt cagtgccgtg ctcgatgtcg 9180
gggccaattc ggggcagtac gccaggggtc tgcgcggcgc gggcttcgcg ggccgcatcg 9240
tctcgttcga gccgctgccc gggccctttg ccgtcttgca gcgcagcgcc tccacggacc 9300
cgttgtggga atgccggcgc tgtgcgctgg gcgatgtcga tggaaccatc tcgatcaacg 9360
tcgccggcaa cgagggcgcc agcagttccg tcttgccgat gttgaaacga catcaggacg 9420
cctttccacc agccaactac gtgggcgccc aacgggtgcc gatacatcga ctcgattccg 9480
tggctgcaga cgttctgcgg cccaacgata ttgcgttctt gaagatcgac gttcaaggat 9540
tcgagaagca ggtgatcgcg ggtggcgatt caacggtgca cgaccgatgc gtcggcatgc 9600
agctcgagct gtctttccag ccgttgtacg agggtggcat gctcatccgc gaggcgctcg 9660
atctcgtgga ttcgttgggc tttacgctct cgggattgca acccggtttc accgaccccc 9720
gcaacggtcg aatgctgcag gccgatggca tcttcttccg gggcagcgat tgacgcgccg 9780
gcgcgtcaat ctatttcgac attcgcgtga agacgttttc ccagaatcga ctgttgtagg 9840
cgtagaactc ccggccgcgt aggtaggcat gtgatattcg ccttcccccg aacgggtagc 9900
ggcgatgaag gtcgcccatg cggcgcagat caccgaagac cgcgcttggt tcccggtgcg 9960
agccgacgcc cgtggtgtcg aactcgcaca gcacacaccg aatcgtgacc ggctcgcata 10020
ccagcgcggc ccgcaatatg aattcctggt cggcggcgat cccgaaatca aggtcgtagc 10080
caccgatctt ggccaccagc gatgatccga agaacgatgc ttgatgcgga acaacctgct 10140
tgccggccag gaatttgcgc aggctgaaag gtatcgggcc gcgcacccga tcgagcccga 10200
cgagacgatc catcccgaag ccccacaatt cggacaccgg tcccttgccg gatagcgcct 10260
ccacggcctg ggctaccacg tcgggcccgg aaaaacgatc ggcggagtgc aagaaccaca 10320
acagatcacc cgatgcgtgc gcgatgccct ggttcatcgc gtcgtaccgc ccgccgtcgg 10380
gctcggactg ccaatacgcg aagcctggtt cacacccgga caggtatgcc accacgtcgt 10440
cgccgctgcc accgtcgatt acgatgtgct cgatgcgtcc ccggtagcgt tgcgcccgca 10500
cacttttcac cgtgcgctgc aacccgtcga ggtcgttgaa cgagatcgtt atcaccgaga 10560
cggtcggagc agacgtcacc gagttcccct aggttgctgg cggcgattgt ggatcaccgg 10620
gtcttgatac cgatgaaggt gcctcgaaga ttcgccgcat aggaacctcc gagcaacgac 10680
tcggcgatgc ttggttccaa gttgtcgtac tcctccatca ccaggtcgac gccgacgtct 10740
ttgatggcct gaagtaggtg ctcgcgttga atccagaatg accggcgatt gtcccaggac 10800
gcccattttg cggtgtcgcg ctggccaaac gagcggtcgt cggaaaactc ggtaaaccac 10860
ctaccgggaa gtccctcatg ttcggtgggc gccgagagca tgaacttcac cggcgccggc 10920
cgccgcagca accgatcggt caattgtcgt gccgtcgtgg gcaaccggag ccatttatcg 10980
ctccggttga tgatcgagaa gtgcgtctgg agaatcagca gcttgttcgt taccgacgag 11040
agggtttcca ggtattgctt cggattctcc aggtggtaga agaggccgca gcagaagacg 11100
gtatcgaaga gcccgtggtt ggcgatgttg agggcgttgt cgtggacgaa ccggagattc 11160
ggcaggttgg tcttcgattt gatgtagttg caggccgcca tgttcagctc gcgaacctcg 11220
atcccgagga cctgaaatcc catgcgcgcg aacccgaccg cgtacccgcc ttccaagcag 11280
ccgacatcgg ccaggcgtag gtggctcttg tccccgggaa agacggtttc cagaatcccg 11340
cgcgccgaga tgaaccagga cgattcgtct aacgtgcgcg aggactccgg tatcgtcaag 11400
gttccgtcgt cgaggcgaac gttgtgggcg gtgaattgta ccgcgccggc cgaatgttcc 11460
tgtgccatca cttggttagc cccttcggct ggtcctgggt ttgtcgacat ggtcaggctc 11520
gacagccgcg tcggagccgg gagggccaca catccacgag ccccctgcgg ctcggcgtcg 11580
cggcggcgag cttgcgccac tgggtcttga gccgccgcgc gggtgtcgcc ccgcggtgct 11640
gcagcgccag catggcgatc cggggatggc gcgcgatggt ttcctgcagc gcggcgcgcc 11700
cctccgggcc tggaacgttg gcgatctggc gaaggatcca gtcggccatg acggcgatga 11760
gctcctcgcg cgcggggtct cccgggaaca ggtcgagcat cgcgtcaaac gtcgccgcat 11820
gccccggacc ctgcgtcaac cagaactttg gcgggtccac cacctggttg tgccacatgc 11880
cttgggcgtg gcggcgatac acggccatgg tgtcgggcaa catggcgatg tcgccatgca 11940
ccgcgtgccg gacgtgcaga taccagtcca ggggcatgac gtcggcagga atgtcgtcgt 12000
agcgctcgag gcgacggtac acggccgagt tggtctggat gaagttcatc aagatcaacg 12060
catccaggct caagttgccc cgcacccgaa ccggggggaa cttcgagtcc ttggcatggc 12120
cgtcctccca tatcactcgg acgggatgga agcacaccgt cgtcttgggg tgccggtcga 12180
ggaatgcgac ctgtttgctt agcttcagcg gatcgatcca gtagtcgtcc gcctcgcaca 12240
acgcgacgta ctcgccgcga gcggccgaca gggcgccggt caggttccca ttgaggccga 12300
ggttttcggt cctgaagatc ggccggaaca cgtgcgggta ccgctcggcg tactcacgga 12360
tgatcgccgg ggtggcatcg gtcgacgcgt cgtcggcgac gatgatctcc accgggaagt 12420
cggtttgctg gtcgagaaag ctgtcgaagg cctgacgggc gtagcccgcc tggttgtgag 12480
tggtcgagac gatgctcacc ttggggcaaa gctggggact caccgtcggc ccttttcctg 12540
cgcggccgca agggtattgc gatggcgaac gtgaatcgcc tgtgcccgcc ggccgtcggc 12600
cgtcgtggcc tggtggtcgg cggacgtacg gcacacgctg gcgaagtata gcgagggtgc 12660
actgacgttg ggctcgaacc gcgtggcgcg cggtgtgggc gcaccgtctc gagtcggtgc 12720
tggttggctc gc 12732

2

289

DNA

Mycobacterium tuberculosis

2
atactcaagc ttgccgcaat cgaaaccaac ctgtttgtgc cgcaagaaat tacgccgtgg 60
cccggcgccg atcaagaaac gccccggcgc gcggcggtgt cgtcgtatgg catgacgggc 120
accaatgtgc acgccattgt cgagcaggca ccggtgccag cccccgaatc cggtgcacca 180
ggcgacaccc cggccacacc cggtatcgac ggcgcgctgc tgttcgcgct gtcggccagc 240
tcgcaggacg cgctgcggca aaccgccgcg cggctggccg attgggtct 289

3

278

DNA

Mycobacterium tuberculosis

3
ttggcgggtt ggccacacac ccgccggtga cggcgacgat gctgggctgg ttgcggccct 60
gcgccaccgc ggcttgcatg ctggttggct gtcttgggac gatcccgaaa tagtccacgc 120
ggatctggtg attttgcggg ctacccgcga ttaccccgcg cggctcgacg agtttttggc 180
ctggactacc cgcgtggcca atctgctgaa ctcgcggccg gtggtggcct ggaatgtcca 240
cgccgttcac ctacgtgacc ttgatgggat ccgggggt 278

4

1280

DNA

Mycobacterium tuberculosis

4
ccgacccaga cactgaccgg gcgaccgctg atcggcaacg gcacccccgg ggcggtcggc 60
agcggggcca ccggggcccc cggtgggtgg ctgctcggcg acggcggggc cggcgggtcc 120
ggcgcggcgg gctcgggcgc gcccggcggg gcgggcgggg ctgccgggct gtggggtacc 180
ggcggggccg gcgggatcgg cggagccagc accgtactcg gcggcaccgg cgggggaggc 240
ggggtcggtg ggctgtgggg cgccggtggg gccggcgggg ccggtggaac cggccttgtt 300
ggtggcgacg gcggggccgg tggggccggc gggaccggcg gactgctggc cgggctgatc 360
ggtgccggcg gaggtcacgg cgggaccggc gggctcagca ctaatggcga cggcggggtt 420
ggcggggccg gcgggaatgc cggaatgctc gccgggccgg gcggcgccgg cggagccggc 480
ggtgacggcg aaaacctgga caccggtggg gacggcgggg ccggcggtag cgcagggctg 540
ctgttcggca gcggcggcgc cggcggcgcc ggcggatttg gtttcctcgg tggggacggc 600
ggggccggtg gcaacgccgg gctgctgttg tccagcggcg gggccggcgg gttcggcggg 660
ttcggcaccg ccggtggggt cggtggggcc ggcggcaatg ccggctggct gggcttcggc 720
ggggccgggg gcatcggcgg aatcggcggt aacgctaacg ggggcgccgg tgggaacggc 780
ggcaccggcg gtcagttatg gggtagcggc ggcgccggcg tcgaaggcgg cgcagcctta 840
agcgtcggcg acaccggcgg ggccggtggc gtcggcggca gcgccgggct gatcggcacc 900
ggcggcaacg gcggcaacgg cggcaccggc gccaacgccg gcagccccgg aaccggcggc 960
gccggcgggt tgctgctggg ccaaaacggg ctcaacgggt tgccgtagcc gggcggcacg 1020
gcatggcttc cgggcgtcaa ccactcgccg gtgatgcaga tcggctgcgg agcgggccgc 1080
caaaatgggg gccgccgcgc caggtatctc ggcgaagatc cccggcgctc gagcgctttg 1140
tcagaggccc gtcgcgggtc gtcgtgacga cggctatccg ggcggtgcgg gtttcgcggc 1200
gcgccctgtg cccggcaccg ccgcccgttt gtcggcaacg ccgccgcgac ccgtgagccg 1260
tccagcagct ggcgcctgcg 1280

5

127

DNA

Mycobacterium tuberculosis

5
gggcatcggc ggaatcggcg gtaacgctaa cgggggcgcc ggtgggaacg gcggcaccgg 60
cggtcagtta tggggtagcg gcggcgccgg cgtcgaaggc ggcgcagcct taagcgtcgg 120
cgacacc 127

6

434

DNA

Mycobacterium tuberculosis

6
aatactcaag cttgcccagc cgtcgatgac aagaaatatg tccgcaaaag actcagcggc 60
cgactttgct cgcagctggc ggtaccgcgc caccgattct atgccgtggt cgcggaaaaa 120
tgcctcccga aatcgcacgg ccgactccag ttcggcgagc atccgcgatg ccagctgcgg 180
ctgcgccctg ccggccacgg cacccacatg cggcagttcg tccacctggg ccagcgcccc 240
gccgccgaat tccaaacaat agaactgcac ccggcccgca tcgtgggtaa cagccaacgc 300
catgatcagc gtccgcagcg cggttgactt gcccgtttgc ggtgcaccta cgaacgcgac 360
attgcctgcg gccccggaca agtcgatcgt gcgcggcacc cgtgactgct ctaacgggcg 420
attgaaattc cgat 434

7

332

DNA

Mycobacterium tuberculosis

7
ccacccgtgt aatttgggat gggcaaaaag gcgaagcacc gcgtggccac gaacgccggg 60
agggacaatc tcgggcggtt agggcttctc gcgggaaggc ccgaacgtac ggcgtttcaa 120
cacctcgcgt cgccctccga ccgcgaacat tcggggatgg cagcaacctg ctggcaccct 180
ggccgggcga tgatctgcag cgtcgccgcg ggtagtcgcc gcccgggcgg ctacactctg 240
aaacgcgatg accatcgatg tgtggatgca gcatcccgac gcaacggttc ctacaccgcg 300
atatgttcgc ctcgctgccc cggtggaccg gt 332

8

354

DNA

Mycobacterium tuberculosis

8
aatactcaag ctttccgccg atacccgcca tgtcgcgcac atccaggact tctgggggga 60
tccgctgaca gcggcgggat cccaaagtgc ggatgatcgg gccgcctacg tcgtggtgta 120
cctcgtcggt aacaacgaaa ccgaagcgta tgactcggtc cacgcggtgc ggcacatggt 180
ggacaccaca ccgccaccgc acggggtgaa ggcctatgtc accggtccgg cagcactcaa 240
tgccgaccag gccgagggcg gagacaaaag tatcgctaag gtcaccgcga tcaccaacat 300
ggtgatcgca gcaatgttgc tagtgatcta tcgctccgta attaccgcgg ttct 354

9

353

DNA

Mycobacterium tuberculosis

9
gtgccgttcc aacccgaatt ggctttcggc gccatcggtg aggacggcgt gcgggtgctc 60
aacgacgacg tcgtccgcgg gacacacctc gatgctgccg ccatggacgc ggtcgaacgc 120
aagcagctga tcgagctaca acgccgcgcg gaacgcttcc gccgcgggcg tgaccgcatc 180
ccgttgaccg ggcggatcgc ggtgatcgtc gatgacggca tcgccaccgg agcgacggcc 240
aaggcggcgt gccaggtcgc ccgggcgcac ggtgcggaca aggtggtgct ggcggtcccg 300
atcggcccag acgacatcgt ggcgagattc gccgggtacg ccgatgaggt ggt 353

10

279

DNA

Mycobacterium tuberculosis

10
aatactcaag ctttcggcgg aaacggacac attgcgaata ttgatgacaa aataaaaatc 60
attgatggtt tgagtcacca ggccgatcaa gccttcgccg agccaaattc caatcaagag 120
gcccaagccc gtaccaatca gcccggcaac gagggattcc gtcattatca gccaaaataa 180
ctgctctcgg gttacaccca aacagcgcaa tatggcgaaa aacggtcgcc gttgcacgac 240
attaaatgtc acggtattgt agattaaaaa gatacccac 279

11

376

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

11
tgctcccgaa acctgggggt gtgcctgctc tgtatgcacg gcatacggac atccttcccc 60
tgagacccgc ggtcgaacca gccacgtgtc catcatagng ggtcaacccc ggccaagggc 120
gacggcacgc caagttcgcc gaccgttaac ctagtgctgt tagcttcatt tgctgcgatc 180
aaaacagctg gtcggccgtt aggaactgaa ttgaaactca accgatttgg tgccgccgta 240
ggtgtcctgg ctgcgggtgc gctggtgttg tccgcgtgtg gtaacgacga caatgtgacc 300
gggggaggtg caaccactgg ccaggcgtcg gcaaaggtcg attgcggggg gaagaagaca 360
ctcaaagcca gtgggt 376

12

393

DNA

Mycobacterium tuberculosis

12
atactcaagc tttgccgacg agcgggcgat gttgatgacg ggaaacccca gcgcacaacc 60
gacgattttg gcgtagccgg cggacgtctg ctcgattccg atcacgtcgg cgctcgcatc 120
gagcatggcg ccggcgacgg ctagcagcga tccgccgtcg tcgaggagca cgacacgagc 180
cgtacgcccg gccgtaagcc gcgcccagga ttcggcgaaa aaccgttcta cgtggcgggt 240
gtactgggtg tcgaatgatt cgtggggtgc gtaggcgtcg ctgcaatcgt cgacatagat 300
gccgtcgggc cgcatcgcgt cgacaactcc gggtgagtgg aatagcactt gccgatcacc 360
gcgacgttgc gcggatgagg ccgaacccga ata 393

13

272

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

13
tcctatgtcc ctgccgagca ngtgatcgaa cgcggtgaca gatttgtcta tcctggacct 60
gacggtgagg tcgaagtttt ccaggaattc ggcaaaatcg gtaagagcct gaagaattcg 120
gtatcgccgg acgaaatctg cgacgcatac gggggcatat acgcttcggg tttacgagat 180
gtcgatgggg ccgctggagg cttcacgtcc atgggccaca aaggatgttg tcggcgcgta 240
ccgttttctg cagcgggtgt ggcgcttggt cg 272

14

286

DNA

Mycobacterium tuberculosis

14
atactcaagc ttgattccgc cgaaaccgac cgtgagcacc ccgccagcca ccacgctcgg 60
gtcgggcgcc gggcccgggc cgccaggctg ctccgctcgg tgatggcacg ccaccgcgac 120
accacccggc tgcgctacgt ctaaccattc caggcggagc tacatcagct cggccgccca 180
gtgttcgggc cctctttcca ggtcgaagtc tataccgata tgcgcatccg cagccgccac 240
cctggagaac agaacgatgc cctactaatg cttgtctggc ggggcc 286

15

357

DNA

Mycobacterium tuberculosis

15
ggtacgcttc ggtcgcagtc tgcgagtgat gcatgacgac cgggacctcg tcggcatctt 60
ccatagcccg ccacaccttc agttgctcac cggaatccaa ccggtagaag gtcggcgagc 120
gctcggcatt ggtcatcggg atatgccgct cgggacggtc agagccctcg ggtccggcca 180
gcactccgca ggcttcgtcg gggtggtcgc gacgcgcatg ggccaccatc gcattcacca 240
ggtctgcgcg aatcaccagc acgtagacgg ttcctttcct aagcaacacc gaagtttcag 300
gacccgaatg ctccgggaaa catgtcacgg taggtcggta ttccggctac cggctga 357

16

83

DNA

Mycobacterium tuberculosis

16
ggcgtcaacg gtgtcggaac ccgcgtcaag caattggtag gcctgcagtc tgtgaatcag 60
gccgacgctg tggccgccgc ggc 83

17

383

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

17
ggctngcgta cccggtaccg gccgcgggcc taccacgtgc cggaactgga agcgcagtaa 60
gccctcaacg cgccaccgct ttggcccgcg cgcccggcgt aggcgcatcg gcggtggccg 120
tggggcggcg cactgcgacc tcaccagcgg ctttcgagct ttgttcgatc aaccggccag 180
catggtcgan gatgcattcg agaccatatt cgaaattggt ttcatcgggg gccccgatcc 240
gatgccccct cccagttgcg tgagcaanca gcggagtcnt cgcgggatcg atggccacgg 300
ggtgttcaat ggcggatggt ccgctgcccg ccgactggct cttgcgggag aaccgatcta 360
gcaccaccga tccgcgcacg tng 383

18

603

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

18
cgtaatntcg cgcacancca ngacttctgg ggggatcngc tgacagtggt nggatcccaa 60
attgcggatg atcgggccgc cnacgtcgtt gtgtacctcn tcngtcacaa cnaanccgaa 120
ncgtatgact cggtccacgc ggtgcggcac atggtggaca ccacaccgcc accgcncggg 180
gtgaaggcct atgtcaccgg tccggcaaca ctcaatgccg accaggccga ngccggacac 240
nanagtatcn ctaacgtcac cgcgatcacg agcatggtga tcgnncaatg ttnctantga 300
tctatcgctc cgtaattacc gcggttctcg tcttgatcat ggtcgcancg aactccggcg 360
caatccgcgg attcatcgnc ttgctcgccg atcacatatt ttcagccttt cacattgcaa 420
cnaacctgct cgtctcatgg ngatgcggcg acacggacta ccgatatcat gctcgccgtt 480
acacaatcnc gccacgccgc gaagacngga aacgcttcta cacaatnttc ncgggacgcc 540
actnaacttg gttcnggttt gacattgccg cgcatgtntg cccagctttg ccggctcccc 600
tta 603

19

190

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

19
tgaatttccc gatcccacaa tctcggttca gatacaggtc gccatacccc ttacttcggc 60
aacgctgggc ggattggccc tgcngctgca gcanaccatc gacgccatcg aattgccggc 120
aatctcgttc agccaatcca tacccatcga cattccgccg atcgacatcc cggccttcnc 180
cctttaacgg 190

20

506

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

20
aacagctatg accatgntta cgccaagcta tttaggtaac actatanaat actcaagctt 60
ttacggtgat cgcgcatcac ctggttcatg aactggaagc agcgcancgc ttccttttcg 120
gccgcaacat gagccagcct ctcgtccgcg gtcnggtgca ggtgctcggg cagctcggcc 180
gcgacagccg cctgaccctg aaaccagctt ccatatcccg cgacnaacna cnccagtccg 240
ctacgtaacc cctccgcgac tgtccatgga caacagcgcg ttctccaccg accgggcccg 300
ggtgtggggt gtttcggcga ccggcagcca ggtggtccac actgccgacg ggcgccgcga 360
gccgttcacc gaccaagccg ccgaacaagt ccgcccgatc gcatactcca accggttgcg 420
gtactgcagg tcagctggcg tacctcctcn tcncgctcgg cgaagtcttg ctccancacg 480
tcgcagaacg gcaaggaaca cgttca 506

21

388

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

21
gaccgnncca tgtttccaca atgtggtgcc agtncggngg ctacgtgcca tcnanacact 60
ggcgcaggct atcgcacccg ttatcngcta cgaacaaatc ncggtatgcg ttctttanca 120
tgagtcggcg accgncgatc atggtcgaca cccacgacng aaatacgcag atcgccntcn 180
agcntgtgtg ccgcggatta tcangactga cctcctggct gaccggnntg tntggtcgcg 240
atgcctggcg cccggccggc gtgntcgtgg tcggctcgga tagcgaagtc agctaattct 300
cgtggcagct cgaaagggtc ctgccggtgc cggtctttgc gcaaaccatg cncatgttac 360
ggtccctcgg gtgcggcctg gcggcggc 388

22

138

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

22
gggatgggcg ggcccgctaa actcttcgtg ttccactaac tccgggaggg ncaatctcgg 60
gccgttatgg ctcacgtcgc gtcgccctcc gaccgcgaac attcggagtt ggcagcaacc 120
tggtagcacc ctggccgg 138

23

142

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

23
nccgtcgttg acaagtaaat atgtccgcaa aagtctcagc ggccgacttt gctcgcaggt 60
ggcggtaccg cgccaccgag tcgatgccgt ggtcgcggaa gaatgcctcc cgaaatcgca 120
cggccttccc nntttaaacg ga 142

24

441

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

24
tttaggtgac actatagaat actcaagctt ttggtctagc cggccgagca cgatacgggt 60
gtcattggcc accggcggcg gctgtccggg aaatggcggg tccccggtgg ttttgctgat 120
gagtgctgaa ccgtantcga agtgggcggc gtcagactcc acccanccag caggcagcgc 180
gaagctgaat cctccaaccg ggttgtcnat ccggacaagt tggggtgcgt ttggggcaat 240
gacaggtggc ngcggtgcgt tcgggtccgc cggcggaagt gctgcgttgg gatcncccgc 300
tgggcattcg gcntttttgc ggcggccggt ggtngggggg caacaggtnt cccngtgcgg 360
gtggcgctca acggtcnacg gcgcaagccg ccgttgttgg taccnggggc gctggctccg 420
gatcgcgttg gcggtcnccg g 441

25

453

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

25
ctacaccatc gaatacgacg gcgtcgccna ctttccgcgg tacccgctca actttgtgtc 60
gaccctcaac gccattgccg gcacctacta cgtgcactcc aactacttca tcctgacgcc 120
ggaacaaatt gacgcagcgg ttccgctgac caatacggtc ggtcccacga tgacccagta 180
ctacatcatt cgcacggana acctgccgct gctagagcca ctgcgatcgg tgccgatcgt 240
ggggaaccca ctggcgaacc tggttcaacc aaacttgaan gtgattgtta acctgggcta 300
cngcgacccg gcctatggtt attcnacctc nccgcccaat gttgcgactc cgttcgggtt 360
gttcccanaa gtcnncccgg tcgtcatcgc cgaanctctc ntcccgggac ccacagggaa 420
tcngcnattt cncctacaaa tcanccacct cca 453

26

228

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

26
gcatgatcgg ccacctttcg ggccgcccgg catacggcgg cgtaccgatc tccgcgtcat 60
acacccgcgg gtaatcgccg acggtgccgg ttcgcgagcc gaaggtgacg actctgattg 120
aatcgagttc caggtccagc gggtggcgca ccaacggcgc gagctcaacg acgtcaatcn 180
cgttgtcgct ttctacggtc accgaccctg gtgaccgtag ttcncccg 228

27

357

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

27
gacactatag aatactcaag cttgccaacc gccagcctgc atccggcggc gancactgct 60
ccgccgacca gtacgaacca acctgcggtg cccaggccat tgacgatgtg ctggtcggcg 120
cccgcgagtc cgcgcaccat caacgccgcg ggcaccacca nggcggcccc accctgcacg 180
gcgacgatca ttccggcgcc gctcacggcg ggcggggctc gaacangcac agcatcaacg 240
tngtcacccg gccgtgaccg gcccgcatcg tcacaccacc caagcccatt gccgtcctcc 300
tcaacngggc gacccggccc gcatcgtcac acggnctaag gccattgccg tcctcct 357

28

384

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

28
tcggcgccat cggcaccttc gaggacctgt atttcgacgc cgtggccnac ctgaggttgg 60
cggtggacna agtgtgcacc cggttgattc gctcggcctt gccggatgcc acccngcgcc 120
tggtggtcga tccgcnaana gacaanttgt ggtggangct tctgctgcct gcgacaccca 180
cnacgtggtg gcaccgggca gctttagctg gcatgtcctg accgcgctgg ccgacnactc 240
cagacnttcc acnaanggtc gccnncccaa tgtnccgnan tgtctccggn tccctttacc 300
ncccaatggg cngnttccac nggttacggg ccccntnccg gcgggtctnc ctcccaanct 360
accaaatacg cccgacnttc cgga 384

29

266

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

29
atactcaagc ttttatggtg atcgcgcatc acctggttca tgaactggaa gcagcgcagc 60
gcttcctttt cggccgcaac atgagccagc ctctcgtcgg cggtcgggtg caggtgctcg 120
ggcagctcgg ccgcgaacag cccggcttga accctgaaaa ccngctttcc atatcccgcg 180
acgaaagaac gccagttccg ctacttaacc cctccgcgaa ccgtccatgg acaacagcgc 240
gttctccacc aaccgggccc gggtgt 266

30

423

DNA

Mycobacterium tuberculosis

30
tcggctcagg ccgcgctgct ggtagagtcg ctgaccggtg caggtttcga caatgtggtg 60
ccggttcggc ggctacgtgc catcgagaca ctggcgcagg ctatcgcacc cgttatcggc 120
tacgaagcaa atcgcggtat gcgttcttga gcatgagtcg gcgaccgtcg tcatggtcga 180
cacccacgac ggaaagacgc agatcgccgt caagcatgtg tgccgcggat tatcaggact 240
gacctcctgg ctgaccggca tgtttggtcg cgatgcctgg cgcccggccg gcgtggtcgt 300
ggtcggctcg gatagcgagg tcagcgaatt ctcgtggcag ctcgaaaggg tcctgccggt 360
gccggtcttt gcgcaaacaa tagcgcaggt tacggtcgcg cggggtgcgg cctggcggcg 420
gcc 423

31

455

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

31
caagctattt aggtgacact atagaatact caagcttcgc gtctacgccg gcccggagca 60
tccgcacagc gctcagcagc cggttccgta cganctcaag caggtggcgc aatgaccgaa 120
accaccccag ccccgcaaac cccggcggcc ccggccgggc ccgcacaatc gttcgtgttg 180
gagcggccca tccanaccgt tgggcgccgt aaggangccg tggtacgaat gcggctggtg 240
cccggcaccg gcaagttcga cctcaacggc cgcagcttgg angactactt cccaaacaag 300
gtgcaccagc agttgatcaa ggcacccctg gtcaccgtgg atcgggtgga aagtttcgac 360
atctttgccc acctgggcgg cggcggccgt ccggtcaggc cgggcctgcc ctgggtatcg 420
cccgggcatt gattctggta tccccngaag aaccg 455

32

371

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

32
cggttggcca ccgcttctgc ggtgccgccg ccgtcgacaa tgaccgtgtc gtccttgctg 60
accaccacgc gtcgggccga gcccagcacc tccaagccca cctcgcgcag caccatgccg 120
gcgtcggggt tgaccacctg gccacccgtc accaccgcca ggtcctcaag gaaacgcctt 180
acggcggtca ccgaagtacg gccccttgac cgcgaccgct ttcaacgtct tgcgaatcgc 240
gttgacgacc agcgtcgcca acgcttcgcc ctccacgtct tcagccacga tcagtagtgg 300
cttacccgtt cctgcaacct tttccagcaa tggcaacaga tcgggaagcg anctgatctt 360
gtcttggtgc n 371

33

320

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

33
ccaagctatt taggtgacac tatagaatac tcaagctttt ggctgggtcg ccttcgaatt 60
cngcgtgcac cgctatgggt tgcancagcg gctggcgccg cacaccccac tggcccgggt 120
gttttcgccc cgaacccgga tcatggtgag cgaaaaggan attcncctgt tcgatgctgg 180
gattcgccac gccaaggcat ctancgatta ctctccncgg ggtgggaaaa gtgcccaatc 240
cccctccctc caactttccn aacaatcatt ccggttccnc cntccggttg gnggtaaccn 300
nccaataaaa cccctgcccg 320

34

383

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

34
gcccgcncat ggccaatccc cgaagacatc attggccagt ggccgggcgc taacaggttc 60
cagcccccca ccantgccgc tcgaacatgc ggtgcaaccc attcgcaggc cggcagggaa 120
agcaccgcgg aagccgcaaa gggctgcagt tccgcgccca ataatgtcgt ccgcaaccag 180
atgcgctcna aaaccncncc ggcagtcagc gcacccgacg cgangtcgaa agacgtcntc 240
agcgcgccca catggggtgc caatcggcac ggcaggtatg ccgcgcgcaa cccgagcgcg 300
tggtgcatgc ccacggtccg cangangcgc ancacccgcc aatgccgaan cccacgaaac 360
atcgggcgca tccaccttca acc 383

35

275

DNA

Mycobacterium tuberculosis

35
atactcaagc ttgcccagcc gtcgatgaca agaaatatgt ccgcaaaaga ctcagcggcc 60
gactttgctc gcagctggcg gtaccgcgcc accgagtcga tgccgtggtc gcggaagaat 120
gcctcccgaa ttcgcacggc caattccatt ccgggaagca tccgcaatgc cagctgcggt 180
tgccccctgc cggccacggc acccacttgc ggcattgcgt ccacctgggc cagcgccccg 240
ccgccaaatt ccaaacaata aaaattgcac ccggc 275

36

322

DNA

Mycobacterium tuberculosis

36
ccacccgtgt attttgggat gggcaaaaag gcgaagcacc gcgtggccac gaacgccggg 60
agggacaatc tcgggcggct agggcttctc gcgggaaggc ccgaacgtac ggcgtttcaa 120
cacgtcgcgt cgccctccga ccgcgaacat tcggggatgg cagcaacctg gtagcaccct 180
ggccgggcga tgatctgcag cgtcgccgcg ggtagtcgcc gcccgggcgg ctacagtctg 240
aaacgcgatg accatcgatg tgtggatgca gcatccgacg caacggttcc tacacggcga 300
tatgttcgcc tccctgcccc gt 322

37

167

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

37
ctgcccatgt ttggggacgc ccgaccagcc gatgctggag gcctacacgg cccttggtgc 60
gctggccacg gcgaccgagc ggctgcaact gggcgcgttg gtgaccggca atacctaccg 120
cagccngacc cctntcncaa naggatnttg ttcgccggac cccnctc 167

38

287

DNA

Mycobacterium tuberculosis

38
ccgactttcc gcggtacccg ctcaactttg tgtcgaccct caacgccatt gccggcacct 60
actacgtgca ctccaactac ttcatcctga cgccggaaca aattgacgca gcggttccgc 120
tgaccaatac ggtcggtccc acgatgaccc agtactacat cattcgcacg gagaacctgc 180
cgctgctaga gccactgcga tcggtgccga tcgtggggaa cccactggcg aacctggttc 240
aaccaaactt gaaggtgatt gttaacctgg gctacgcgac cgccttt 287

39

322

DNA

Mycobacterium tuberculosis

39
atactcaagc tttgtcacac caagtgtttc gaccaggcgc tccatccggc gagtggatac 60
tcccagcagg tagcaggtcg ccaccacgct ggtcagtgcg cgttcagctc gcttgcggcg 120
ctgcagcagc cattcgggga aatacctgcc ctggcgcagc tgggggatcc caacttcaat 180
ggttgcggca cgggtgtcaa attcacggtg gcggtagccg ttgccctaat tggaccgctc 240
atcgctgctt tcgcggtacc ccgccccgca cagggcttcg gcttcagccc ccatcagggc 300
ggcaataaac ttcaagagca cc 322

40

471

DNA

Mycobacterium tuberculosis

40
gaggcagctt cgccggcaat tctactagcg agaagtctgg cccgatacgg atctgaccga 60
agtcgctgcg gtgcagccca ccctcattgg cgatggcgcc gacgatggcg cctggaccga 120
tcttgtgccg cttgccgacg gcgacgcggt aggtggtcaa gtccggtcta cgcttgggcc 180
tttgcggacg gtcccgacgc tggtcgcggt tgcgccgcga aagcggcggg tcgggtgcca 240
tcaggaatgc ctcaccgccg cggcactgca cggccagtgc cgcggcgatg tcagccatcg 300
ggacatcatg ctcgcgttca tactcctcga ccagtcggcg gaacagctcg attcccggac 360
cgcccagcgc attggtgatg gaatcggcga acttggccac ccgctgggtg ttgacatcct 420
cgacggtggg caattgcgcc tcggtaagct ttgccgcgta gccttttcat c 471

41

247

DNA

Mycobacterium tuberculosis

41
atactcaagc ttcactgaca agggacgaat tcgtcggccg cctgttcgac tgggtggtgg 60
ccgagctggt cgccaccact caggccgcgg tcacggcggt accggcgcgg gagcaaactc 120
gcgcgggcat ggccaacttc ttgcggacca tcaccgcaga cgcccgcttc ggacccctgc 180
tgtccaccac acagttggcc aacgcattaa tcacccgcaa gcttgcggaa tccaccgccc 240
tgttcgc 247

42

325

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

42
tccatcaccc gatgtggcng gagcactgcc atgtcgatct caactaccac ctccggccgt 60
ggcggttgcg cgccccgggg ggtccgcgcg aactcgacga ggcggtcgga gaaatcgcca 120
ncaccccgct gaaccgcgac cacccgctgt gggagatgta cttcgttgag gggcttgcca 180
accaccggat cgcggtggtt gccaaaattc accatgcgtt ggctgacggt gttgcctcgg 240
caaacatgat ggcacggggg atggatctgc cgccgggacc ggaggtcggc cgctatgtgc 300
ctgaccccgc tcctaccaag cggca 325

43

221

DNA

Mycobacterium tuberculosis

43
agctttgcag ttgctgagta atgtcggcca acgtcaccac aaccgcgatg aattcaatca 60
tgccgcccag ggcggccaac ccaatggtgg ccgcgagcgg cagctcgatc gcagcgcgga 120
ggttgccggc cgccagttga ttcacgaaca gggtgaggtc ataggcgggc aggatagtga 180
cgaaggcaag acctccatct gccgtcggaa gaagtatcga g 221

44

285

DNA

Mycobacterium tuberculosis

44
agcttcagaa caggcctgtt gtgggcgcac ccggctcgcc gagttctgca cgcaccgcct 60
caagtgcggc ccgcaccgcc ggcatctccc ggtcacgcag ggccgcggcc cgcgccgcag 120
cgacggcgtg ttcgcgcagt tcgccgtcaa tgatgctgac ctgatcggcc acccgggcgt 180
tctcggcgtc gtcgcgttca ctaatcgcgg tgctcagcag cgtctcgaca gccaccaccc 240
gagtggcgac cagctgctcc accacggacc gcagcgatgc ccgtc 285

45

179

DNA

Mycobacterium tuberculosis

45
atactcaagc ttcagttcct ccacgacgcg ttcccaaatg aatttcccga tcccacaatc 60
tcggttcaga tacaggtcgc catacccctt acttcggcaa cgctgggcgg attggccctg 120
ccgctgcacc aaaccatcaa cgccttcaaa ttgccggcaa tctcgttcag ccaatccat 179

46

315

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

46
gctctacgcc gcctacgggt cgaacatgca tcccgagcag atgctcgagc gcgcacccca 60
ctcgccgatg gccggaaccg gctggttacc cgggtggcgg ctgacgttcg gcggcgagga 120
catcngctgg gaaggggcgc ttgccaccgt cgtcnaagac ccaaattcga aggtgttcgt 180
cgtgctctac gacatgaccc cggcggacga gaagaacctt gaccggtggg aaggctccga 240
gttcggtatc caccagaaga tccgatgccg cgtggagcgc atttcctcgg acaccacaac 300
gggatcccgt cctcg 315

47

285

DNA

Mycobacterium tuberculosis

47
atactcaagc ttgccaaaga gacctcgtcc accaagcagg acgcgaccgt cgaggtggcg 60
atccggcttg gcgtcgaccc gcgtaaggca aaccagatgg ttcgcggcac ggtcaacctg 120
cccacaccgg cactggttaa gaactgcccg cgtcgcggtt ttcgcggttg gtgaaaaggc 180
caatgcctgc gtttgccgtg ggggcggatg ttgtcgggag tgacaatctg atcaaaagga 240
ttcagggcgg ttggctggaa ttcaatgccg caatcgcgac accgg 285

48

369

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

48
ccacggcgtg gatcaaggta ccggccggga tgttgcgcaa tggcaggttg ttgcccggct 60
tgatgtcggc gttagcgccg gattccacca catccccttg cgaaagtccg ttgggtgcaa 120
tgatgtagcg cttctcccca tcgagatagt ggagcaacgc aatccgtgcg gtacggttcg 180
ggtcgtactc gatgtgcgcg accttggcgt tgacaccatc tttgtcattg cggcgaaagt 240
cgatcatccg gtaagcgcgc ttatgaccgc cgcctttgtg ccgggtggta atccggccat 300
gcgcgttgcg tccaccgcga cgtgcagcgg gcgcaccagc gacttctccg gggttgaccg 360
ggtnatctc 369

49

461

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

49
gcagcatgac ggcggtagcg aacaccgccg gatgcagcgc aagtagcgtc gatgtgctca 60
cggaatcgcc ccggcaccgc gatctcgang atcaccagtg ccaccccctg cagcgcnaca 120
ccgacgattc cgtacaccgc cacgccgatc aggccctggg ccatctgatt ggagctggcg 180
tanatggcgg cgatggtgac gatggccagc gccacataca ttgtggcggc cagaaccacg 240
gcgttggggc ggcggtcgat gaacactagg cgacgcagat cgcccggggt caacaggttg 300
accatcagaa agcctgcgac tagcacggcg gcgccactag gaagtacaag aangtggcca 360
ccaccccatg caggatcggg gtaaggctga tggtcccgaa atcgactccg gcctaataca 420
tgactctctc ctttgcgtca tcgccttact tgtgcgcgga a 461

50

127

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

50
gggacacacc tcgatgctgc cgcnatggac gcggtcgaac gcaagcagct gatcgagcta 60
caacgccgcg cggaacgctt ccgccgcggg cgtgacgcat cccgttgacc ggccggancn 120
ctctcta 127

51

305

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

51
tgggcgcctc tttcggcctt cccnntttaa acgnagcang acattctggg tatcgagttg 60
tactggatgg tgttggcgat gtcggtgatc ctgctcctgg cggtgggatc cgactacaat 120
ctgctgctga tttcccggtt gaaagaggaa attggggccg gattgaacac cggaattatc 180
cgtgccatgg ctggtaccgg gggagtggtg acggctgccg gcatggtgtt cgccgttacc 240
atgtcgttgt ttgtgttcag cgatttgcga attattggtc agatcggtac caccatcgcc 300
ttccc 305

52

449

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

52
ccgatcggcg ccgcanctgg ttggtgttnc ggatgaatcc gcagcgaaaa tgtagctgcg 60
gtggcgtgtc gtgactcgtn ggcgtcgacg ctcgtggcag ccaccgancg gttggtccag 120
gatctggatg ggcaaagttg tgcggcccgg ccggtgacgg ccgatgagct gaccgaggtc 180
gacagcgccg tgttggctga cttggaaccg acatggagtc gccccggttg gcgtcacctc 240
aagcatttca atggttatgc gaccagtttt tgggttacgc cgtcagacat cacgtcggag 300
acttggatga gctgtgtctg ccagatagcc ccgaatcggg acgaccgtgg tcacggtgcg 360
tctgaccact cgggtcgggt cgcccgcgct atcggcatgg gtgcgtnatc acagcgacac 420
gcgcctgccc aaggangtnc ggncggacc 449

53

160

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

53
cgggttgcgg atccacgcgt gcgggttgtc agcagctacg gcactgaacc gcgcccacag 60
ctcgccgatc cgctttcggt ggttctcgat cgactcgccg taggcgatgc gcagcgcctg 120
ctcgaatatc gggtacacgt aggccggcct tcccncttta 160

54

308

DNA

Mycobacterium tuberculosis

54
cttgattttg atcatcatga cgatcatcac cctaattttg ctacccgcac tggttatcgt 60
gggtaccgtc gtgctttcca tgggcgcctc tttcgggctt tccgtattgg tctggcagga 120
cattctgggt atcgatttgt actggatggt gttggcgatg tcggtgatcc tgctcctggc 180
ggtgggatcc gactacaatc tgctgctgat ttcccggttg aaaaaggaaa ttggggccgg 240
attgaacacc ggaattatcc gtgccatggc tggtaccggg ggagtggtga cggctgccgg 300
catggtgt 308

55

460

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

55
ggggatccct agatcgacct gcaggcatgc aagcttggcg tgtcgttcca acccgaattg 60
gctttcggcg ccatcggtga ggcgggacac acctcgatgc tgccgccatg gacgcggtcg 120
aacgcaagca gctgatcgag ctacaacgcc gcgcggaacg cttccgccgc gggcgtgacc 180
gcatcccgtt gaccgggcgg atcgcggtga tcgtcgatga cggcatcgcc accggagcna 240
ctgtcaaggc ggcgtgccag gtcgcccggg cgcacggtgc ggacaaggtg gtgctggcgg 300
tcccgatcgg cccagacgac atcgtggcga gattcgncgg gtacgccgat gaggtggtgt 360
gtttggcgac gccggcgtng ttcttcgccg ncgggcangg ttaccgcaac ttcacccaga 420
cctccgacga cgaggtggtg gcgtctcctg gatcgtgctc 460

56

299

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated as
“n”

56
aaggctgcag gtcgaagcgg ntggttacga ctccctgtgt gtgatggacc agttctacta 60
tctgcgtcta cacggccctt ggtgcgctgg ccacggcgac cgagcggctg caactgggcg 120
cgttggtgac cggcaatacc taccgcagcc ccgaccctgc tggcaaagat natcaccacg 180
ctcgacgtgg ttagcgccgg tcgagcgatc ctcggcattg gagccggcgg gtttgaactg 240
gaacaccgcc agctcggctt cgagtccggc acttccagtg accggttcaa ccggctcga 299

57

373

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

57
ctttccgcgg tacccgctca actttgtgtc gaccctcaac gccattgccg gcacctacta 60
cgtgcactcc aactacttca tcctgacgcc ggaacaaatt gacgcngcgg ttccgctgac 120
caatacggtc ggtcccacga tgacccagta ctacatcatt cgcacggaga acctgccgct 180
gctacagcca ctgcgatcgg tgccgatcgt ggggaaccca ctggcgaacc tggttcaacc 240
aaacttgaag gtgattgtta acctgggcta cggcgacccg gcctatggtt attcgacctc 300
gccgnccaat gttgcgactc cgttcgggtt gttccagang tcagcccggt cgtcatcgcc 360
gacgctctcg tcn 373

58

338

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

58
cggtcatagc cctcgggtcc ggccagcact ccgcaggctt cgtcggggtg gtcgcgacgc 60
gcatgggcca ccatcgcatt caccaggtct gcgcgaatca ccagcacgta gacggttcct 120
ttcctaagca acaccgaagt ttcacgaccc gaatgctccg ggaaacatgt cacggtaggt 180
cggtattccg gctaccggct gagcattgag cacgccggcc agcaccgcac gagccaggca 240
atcagccgcc gccgcaccga tcgcggtgac cagctgagtc tccggagaca atgcggccgg 300
cacgccggnc tccggcggca ccgctacngc gcccgtgg 338

59

374

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

59
gtgatggcac gccaccgcga caccacccgg ctgcgctacn tcgagccata ccgggcggag 60
ctacatcggc tcggccgccc agtgttcggg ccctctttcg aggtcgaggt cgataccgat 120
ttgcgcatcc gcanccgcnc cctggacgac agaaccgtgc cctacgagtg cttgtcgggc 180
ggggccaaag aacagcttgg catcctggcg cgattggccg gcgcggcgct ggtcgccaag 240
gacgacgccg ttccggtgct gatcgacgac gcgctggggt tcaccgatcc ggagcgacta 300
tcaagatggg ggaggtctct gacaccatcg gccccnacgg acatgtgatc gtgccgacgt 360
gcagtcccac cccg 374

60

448

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

60
gcgaaagtcc gttgggtgca atgatgtagc gcttctcccc atcgagatag tggagcaacg 60
caatccgtgc ggtacggttc gggtcgtact cgatgtgcgc gaccttggcg ttgacaccat 120
ctttgtcatt gcggcgaaag tcgatcatcc ggtnngcgcg cttatgaccg ccgcctttgt 180
gccgggtggt aatccggcca tgcgcgttgc gtccaccgcg accgtgcagc gggcgcacca 240
gcgacttctc cggggttgac cgggtgatct cggcgaaatc agatacgctg gcgccgcgac 300
gaccaggcgt cgtgggcttg tncttgcgaa ttgncatgtc taatcangtc tttctctcac 360
gctctcgtcg ccgggctagg ccgcattgcc ctgctcctcc tcatcgcttc gctctgcatc 420
gtccccgggc taagcccgtg ccccgaaa 448

61

356

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

61
gatggttcgc ggcacggtca acctgccaca cggcactggt aagactgccc gcgtcgcggt 60
attcgcggtt ggtgaaaagg ccgatgctgc cgttgccgcg ggggcggatg ttgtcgggag 120
tgacgatctg atcgagagga ttcagggcgg ctggctggaa ttcgatgccg cgatcgcgaa 180
caccggatca gaatggccaa agtcggtcgc atcgctcggg tgctgggtcc gcgcggcctg 240
atgcccaacc cgaaaaccgg caccgtcacc gccgactccc catggcgtcc cggatatcaa 300
gggccggcaa atcaacttcc cggttgatca gcaaggcaac ctgcctccnc ctccgg 356

62

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

62
atactcaagc ttcgtcataa gaccatggtg cgctttcttt cacccgtcca gagtcggggg 60
catccgcacc ggctcgcatc gcatcatcct cccacgacgg gccgctcatc agcttgggcc 120
atttcaatgt acttgatacc ccgcgctgcg ggtaggccac tgcgacaatt caaacacggt 180
gtcacacggt gaatagtgtc gagatgggct ctgatcaacc gtcgcaaacc cggtttcgca 240
tcaatagcgg aatcccaccg ggttgcatgg aggctgctga ccttggaaaa caaaattttt 300
tcattacaac aaaacaaccg ccncggaaac tttgca 336

63

489

DNA

Mycobacterium tuberculosis

63
cgaattcggc gtgcaccgct atgggttgca gcagcggctg gcgccgcaca ccccactggc 60
ccgggtgttt tcgccccgaa cccggatcat ggtgagcgaa aaggagattc gcctgttcga 120
tgctgggatt cgccaccgcg aggccatcga ccgattactc gccaccgggg tgcgagaggt 180
gccgcagtcc cgctccgtcg acgtctccga cgatccatcc ggcttccgcc gtcgggtggc 240
ggtagccgtc gatgaaatcg ctgccggccg ctacctgcaa ggtgattctg tcccgttgtg 300
tcgaagtgcc tttcgcgatc gactttccgt tgacctaccg gctggggcgt cggcacaaca 360
ccccggtgag gtcgtttttg ttgcagttgg gcggaatccg tgctctgggt tacagccccg 420
aactcgtcac ggcggtgcgc gccgacggag ttgttatcac cgatccgttg gccgtaccgc 480
gccttgggc 489

64

448

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

64
tcagactcca cccagccagc aggcagcgcg aagctgaatc ctccaaccgg gttgtcgatc 60
cggacaggtt ggggtgcgtt tggggcaatg acaggtggcg gcggtgcgtt cgggtcggcc 120
ggcggaggtg ctgcgttggg atcgcccggc tgggcattcn gcgtgttggc ggcggccggt 180
ggtggggggg caacaggtgt cgccggtgcg ggtggcgctg cagcggtcga cggcggcgaa 240
gcggccgttg tgggtaccgg gggcgctggc tccggatcgg cgttggcggt cgcgggcacc 300
gcaacggtca ccaagctggc gctggccatc gccgcgatag ccagtgccgc caatcgtccc 360
ttgcgacgtg tcaagtnggg gtccacctga tgcatggcca aagaacctac cgtgttaacg 420
gcncaacnca aggaccgcgc cggtcgcn 448

65

346

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

65
tttccgcggt acccgctcaa ctttgtgtcn accctcaacg ccattgccgg cacctactac 60
gtncactcca actacttcat cctgacgccg gaacaaattg acgcagcggg tccgctgaac 120
aattcggtcc gtcccacgaa agaaccagtt ttncntcttt cncacggaga acctgccgct 180
gctagagcca ctgcgatcgg tgccgatcgt ggggaaccca ctggcgaacc tgtgtttcaa 240
ccaacactta gagtgtaatt gtaaacctgg gctaggggaa accggctcta gtttttccac 300
cntctccgcc ccntgtttcg aatactccgt tcgggttgtc cccaaa 346

66

277

DNA

Mycobacterium tuberculosis

66
gcttccggct cgtatgttgt gtggaattgt gaccggatac caatttcaca caggaaacag 60
ctatgaccat gattacgcca agctagttag gtgacactat acaatactca agcttgccgg 120
ctggtgggcc gaccacttcg atggcacgac ccgtgaactg ctgcccggcc aattcttctt 180
ggtcgcccgg accgatggac cgcggctggg attccagaag gtgcccgatc ccgcccctgg 240
gaaaaaccgc gtgcacctct acttcacgac caacgac 277

67

434

DNA

Mycobacterium tuberculosis

67
ccgatcgact gatgcgccga caaccacgcc ccaacaactg gaatgaaccg tcgtgaccat 60
catcagcacg cggttgtagg cgacttgcga catgttcaac ccgccgtact cggacggaat 120
cttcaaaccg aaacagccca gctcggccag gcctttcacg tactcgtcgg ggatctgggc 180
accacgctcg aggacgctgc cgtccacggt gtctaggaat tcccgcagtt tgaccagaaa 240
cgcctcggtt cgggcctcct cggcgtccga cggcttggga aatgggtgta tgagccctac 300
gggaaaccgg cccacaaaga gttctttggc gaaggacggt ttatcccaac cactttcgcg 360
agattcctcg gcaagggccc gcgcttgctc ctcggtgacc tgagtttgct gtgccatcgc 420
cgcctcctcc ctga 434

68

465

DNA

Mycobacterium tuberculosis

68
tgcatccggc tcgtatgttg tgtggaattg tgagcggata acaatttcac acaggaaaca 60
gctatgacca tgattacgcc aagctattta ggtgacacta tagaatactc aagcttttac 120
ggtgatcgcg catcacctgg ttcatgaact ggaagcagcg cagcgcttcc ttttcggccg 180
caacatgagc cagcctctcg tcggcggtcg ggtgcaggtg ctcgggcagc tcggccgcga 240
cagccgcctg accctgaaac cagcttccat atcccgcgac gaacgacgcc agtccgctac 300
gtaacccctc cgcgactgtc catggacaac agcgcgttct ccaccgaccg ggcccgggtg 360
tggggtgttt cggcgaccgg cagccaggtg gtccacactg ccgacgggcg ccgcgagccg 420
ttcaccgacc aggccgccga gcaagtccgc ccgatcgcat actcc 465

69

463

DNA

Mycobacterium tuberculosis

69
gggggcgctg ctggtatagt cgctgaccgg tgcaggtttc gacaatgtgg tgccggttcg 60
gcggctacgt gccatcgaga cactggcgca ggctatcgca cccgttatcg gctacgagca 120
aatcgcggta tgcgttcttg agcatgagtc ggcgaccgtc gtcatggtcg acacccacga 180
cggaaagacg cagatcgccg tcaagcatgt gtgccgcgga ttatcaggac tgacctcctg 240
gctgaccggc atgtttggtc gcgatgcctg gcgcccggcc ggcgtggtcg tggtcggctc 300
ggatagcgag gtcagcgaat tctcgtggca gctcgaaagg gtcctgccgg tgccggtctt 360
tgcgcaaacg atggcgcagg ttacggtcgc gcggggtgcg gcctggcggc ggccagagca 420
cgagttcacc gatgcgcagc tagtggcgac agcgtcagcc aac 463

70

447

DNA

Mycobacterium tuberculosis

70
tgcttccggc tcgtatgttg tgtggaattg tgagcggata acaatttcac acaggaaaca 60
gctatgacca tgattacgcc aagctattta ggtgacacta tagaatactc aagcttccgt 120
acaggtcgcc tccaacacgg cggggaagcg acaccagcct accgagcttg gagtccagga 180
cgccagcggc ggcgtcggtc tgcgtcgtgg tgccgccggg gtggcgttgg ctggcaacga 240
tctccaccca gccggtcggg ttacccacga tctcggcata gacgcgggcc gaggccggtg 300
cgataccgta ttgcgtcaat tgggacgcgg ttgtgcattc ggctagctcg gttgccacac 360
ccgtcagggg ttcgacgttg gcgggttcgg cgggccccag caccgctgtc accatgcccg 420
ccaagccgac ctgcggcgcc accaact 447

71

460

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

71
cggcatgacc accgacaggc ccgactggtc gtaccactcg aacgccgggg tgttgatgtc 60
ccagccgctg aagtcgtcct gcgcgcgcag gccgtcgagc aggtacaggg cgggcgagtt 120
ggcaccacca ctttggaatt ggaccttgat gtcacggccc atcgacggcg acggcacctg 180
caggtactcc accggcaagc ccggccggga aaatgccccc gcggtcgccg tgccaccgac 240
ggcgccgacc agacccgaca ctagggccgc gccgacggcc ccgaccacga gtcgacgcga 300
catacccgtg acggcgccac gaaccctgtc aacaagctgc attcttgctt ccctcatcct 360
catctcaacg catccatgca tgtttgggcg catcctgaat tangtcagac tgcaggcgct 420
gggccggcag tgctcgtgta tcaaccacaa cttcgggcgt 460

72

404

DNA

Mycobacterium tuberculosis

72
ttccaaccct aattggcttt cggccccatc cgtgaggacg gggtgcgggt gctcaacaac 60
aacgtcgtcc gcgggacaca cctctatgct gccgccatgg acgcggtcca acgcaagcag 120
ctgatcgagc tacaaccccg cgcggaacgc ttccgccgcg ggcgtgaccg catcccgttg 180
accgggcgga tcgcggtgat cgtcgatgac ggcatcgcca ccggagcgac ggccaaggcg 240
gcgtgccacg tcgcccgggc gcacggtgcg gacaaggtgg tgctggcggt cccgatcggc 300
ccaaacgaca tcgtggcgag attcgccggg tacgccgatg aggtggtgtg tctggcgacg 360
ccggcgttgt tcttcgccct cgggcagggt taccgcaact tcac 404

73

465

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

73
caggcatgca agctttccgc cgatacccgc catgtcgcgc acatccagga cttctggggg 60
gatccgctga cagcggcggg atcccaaagt gcggatgatc gggccgccta cgtcgtggtg 120
tacctcgtcg gtaacaacga aaccgaagcg tatgactcgg tccacgcggt gcggcacatg 180
gtggacacca caccgccacc gcacggggtg aaggcctatg tcaccggtcc ggcagcactc 240
aatgccgacc aggccgaggc cggagacaaa agtatcgcta aggtcaccgc cgatcacnag 300
catggtgatc gcagcaatgt tgctagtgat ctatcgctcc gtaattaccg cggttctcgt 360
cttgatcatg gtcggcatcg actcggccaa tccgcggatt catcgccttg ctcgccgaac 420
acaacatttt cacctttcac atttgcacca acctgctctt ctcat 465

74

387

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

74
cactactcaa gctctctcnt cattaccacc cctgtaattt gggatgggca aaaaggcgaa 60
gcaccgcttg gccacnaacg ccgggaggga caatctcggg cggctatggc ttctcccggg 120
aaggccccaa cgtacggcgt ttcaacacgt cgcgtcgccc tccgaccgcg aacattcggg 180
gattggcacc aacctgntac caccctggcc gggcgatgat ctgcagcgtc gccgcgggta 240
gtccccgccc gggcggctac agtctgaaac cccgatgacc atcgatgtgt ggatgcagca 300
tccgacgcaa cggttcctac acggcggata tgttctcctc gctgcgccgg tggaccggtg 360
ggtctatccc ctgaaaccga catcccn 387

75

445

DNA

Mycobacterium tuberculosis

75
caggcatgca agctttcgtc agttcattgc gccagcagac caacaagagc atcgggacat 60
acggagtcaa ctacccggcc aacggtgatt tcttggccgc cgctgacggc gcgaacgacg 120
ccagcgacca cattcagcag atggccagcg cgtgccgggc cacgaggttg gtgctcggcg 180
gctactccca gggtgcggcc gtgatcgaca tcgtcaccgc cgcaccactg cccggcctcg 240
ggttcacgca gccgttgccg cccgcagcgg acgatcacat cgccgcgatc gccctgttcg 300
ggaatccctc gggccgcgct ggcgggctga tgagcgccct gacccctcaa ttcgggtcca 360
agaacatcaa cctctgcaac aacggcgacc catttgttcg gacggcaacc ggtggcaacg 420
cacctaagct acttgcccgg gatga 445

76

345

DNA

Mycobacterium tuberculosis

76
gtttatgcac tggttaggtg tttccatgag tttcattctg aacatccttt aatcattgct 60
ttgcgttttt ttattaaatc ttgcaattta ctgcaaagca acaacaaaat cgcaaagtca 120
tcaaaaaacc gcaaagttgt ttaaaataag agcaacacgt acacaaggag ataagaagag 180
cacatacctc agtcacttat tatcactagc gcccgccgca gccgtgtaac cgagcatagc 240
gagcgaactg gcgaggaagc aaagaagaac tgttctgtca gatagctctt acgctcagcg 300
caagaagaaa tatccaccgt ggggaaaaac tccaggtaga ggtac 345

77

139

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

77
atactcaagc ttgggtgtag ccgatcaccg gaagtcncat gatcagccac gttccgcgcc 60
gcccggcata cggtggtgta ccgatctccg cgtcatacac ccgcgggtaa tcgccgacgg 120
tgccggttcg cgagccgaa 139

78

298

DNA

Mycobacterium tuberculosis

78
agctttatcg aaagcgcgaa cagctcgcgg cggcccacga cgtgctgcgt cggattgccg 60
gcggcgagat caattccagg cagctcccgg acaatgcggc tctgctggcc cgcaacgaag 120
gactcgaggt caccccggtg cccggggtcg tggtgcacct gccgatcgca caggttggcc 180
cacaaccggc cgcttgatgc ccggtcggca agcccggcag ttgccaaacc catcgtgatc 240
aggctcggct cgcgagttcg gcgaagaaat ggttcgcctg atcacctacc atcggcca 298

79

300

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

79
tcaacacgcc gccagccacc acgcgcgggt cgggcgccgg gcccgggcct ccaggctnct 60
ccgctcggtg atggcacgcc accgcgacac cacccggctg cgctacgtcg agccataccg 120
ggcggagcta catcggcccg gccgcccagt gttcgggccc tctcgcccag gtcgaggtcg 180
acaccgattt gcgcatccgc agccgcaccc tgcgacgaca gaaccgcggc cctacccact 240
gcttgtcggg cgggggccaa agaaccagct tgncatcctg ccacaattgg ccggcgcccg 300

80

321

DNA

Mycobacterium tuberculosis

80
caggcatgca agcttcacgt ccgtacggct cgggtacgct tcggtcgcag tgtgcgagtg 60
atagatgacg accgggacct cgtcggcatc ttccatagcc cgccacacct tcagttgctc 120
accggaatcc aaccggtaga aggtcggcca gcgctcggca ttggtcatcg ggatatgccg 180
ctcgggacgg tcagagccct cgggtccggc cagcactccg caggcttcgt cggggtggtc 240
gcgacgcgca tgggccacca tcgcattcac caggtctgcg cgaatcacca gcacgtagac 300
ggttcctttc ctaagcaaca c 321

81

340

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

81
aatattcaag ctttcggcgg aaacggacnc cttgcgaaca ttgataacaa aatagaaatc 60
attgatggtt tgagtcacca ggccgatcaa gccttcgccg agccaaattc caatcaagag 120
gcccaagccc gtaccaatca gcccggcaac gagggattcc gtcnttatca gccnaaataa 180
ctgctctcgg gtaccaccca aacagcgcaa tatggcgaaa aacggtcgcc gttgcacaac 240
attaaatgtc tcggtattgt tgattaaaaa gatacccacc accagggcaa tccaactgag 300
agcggttaaa ttgaccgtaa aaacctcccg tcatctgttt 340

82

394

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

82
caggcatgca agcttgctgc atcttcctgt gactgctccc gaaacctggg ggtgtgcctg 60
ctgtgtatgc acggcatacg gacatccttc ccctgatacc cgcggtcgaa ccagccacgt 120
gtccatcatc aggggtcaac cccggccaag ggcgacggca cgccaagttc gccgaccgtt 180
aacctagtgc tgttagcttc atttgctgcg agcaaaacag ctggtcggcc gttaggaact 240
gaattgaaac tcaaccgatt tggtgccgcc gtaagtgtcc tgtctgcggg tgcgctggtg 300
ttgtccgcgt gtggtaacga cgacaatgtg accgggggag gtgcaaccac tggccaggcg 360
tccgcgaaag tccattgcng ggggaagaag acac 394

83

487

DNA

Mycobacterium tuberculosis

83
gaaagtgccc caaggtgttg gtgaaactcg ctggacggtc cccaggatgt tggcagcaca 60
ttcaccggac atgaccggag caagaccgga catcctccca taccgtcgtc gccgtgtaca 120
tccgtagccc gtcctggcag gtgctgggtt gaacaaaatc agcccaacac ctgccacgac 180
gaagaagcgg gttgcgctgg catgtcttgt cggctcggcg atcgaattct acgaattcct 240
tatctacggg accgctgcgg cgctggtgtt tcccaccgtg ttcttcccac acctggatcc 300
cacggtggcc gccgtggcct ccaaggggac atttgctgtg gcgttcctat cccggccgtt 360
cggcgcggcc gtctttggat actttggaga ccgcctcggc cgccagaaga ccctggtcgc 420
cacactgttg atcatgggcc tggcaaccgt gactgttggg ctggttccac gacagtggcc 480
atcgcgc 487

84

418

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

84
atattcaagc tttgtcacac caagtgttcc gaccaancgc tccatccggc gagtggatac 60
tcccagcagg tagcaggtcg ccaccacgct ggtcagtgcg cgttcatctc gcttgcggcg 120
ctgcagcagc cagtccggga aatagctgcc ctggcgcagc ttggggatcg cgacgtcgat 180
ggttgcggca cgggtgtcga aatcacggtg gcggtagccg ttgcgctgat tggaccgctc 240
atcgctgcgt tcgcggtagc ccnccccgca cagggcgtcg gcttcagccc ccatccaagg 300
cggcgatgaa cgtcgagagc agcccgcgca gcaaatccgg gctcgcctgt gcgagttggt 360
cagccagaag ctgctcggtg tcataagatg agaagaggtc agtgcgtcct ttccttcg 418

85

399

DNA

Mycobacterium tuberculosis

85
caggcatgca agctttttga gcgtctcgcg gggcagcttc gccggcaatt ctactagcga 60
gaagtctggc ccgatacgga tctgaccgaa gtcgctgcgg tgcagcccac cctcattggc 120
gatggcgccg acgatggcgc ctggaccgat cttgtgccgc ttgccgacgg cgacgcggta 180
ggtggtcaag tccggtctac gcttgggcct ttgcggacgg tcccgacgct ggtcgcggtt 240
gcgccgccaa agcggcgggt cgggtgccat catgaatgcc tcaccgccgc cgcactgcac 300
ggccagtgcc ccggcgatgt cagccatcgg gacatcatgc tcgcgttcat actcctcgac 360
cagtccgcgg aacagctcca ttcccggacc gcccaacgc 399

86

474

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

86
atactcaagc ttttggctgg gtcgccttcc aattcagcgt gcaccgctat gggttgcagc 60
agcggctggc nccgcacacc ccactggccc gggtgttttc gccccgaacc cggatcatgg 120
tgagcgaaaa ggagattcnc ctgttcgatg ctgggattcg ccaccgcgag gccatcgacc 180
gattactcgc caccggggtg cgagaggtgc cgcagtcccg ctccgtcgac gtctccgacg 240
atccatccgg cttccgccgt cgggtggcgg tagccgtcga tgaaatcgct gccggccgct 300
accacaaggt gattctgtcc cgttgtgtcc aagtgccttt cgcgatcgac tttccgttga 360
cctaccggct ggggcgtcgg cacaacaccc cggtgaggtc gtttttgttg cagttgggcg 420
gaatccgtgc tctgggttac agccccgaac tcgtcacggc ggtgcgccgc cgac 474

87

383

DNA

Mycobacterium tuberculosis

87
caggcatgca agcttcaacc tattgacgca ttgtgcgaac tgacggcgcc cgcgcatggc 60
caatccggaa gaccatcatt ggccagtggc cgggcgctaa caggttccag ccccccacca 120
gtgccgctcg aacatgcggt gcaacccatt cgcaggccgg cagggaaagc accgcggaag 180
ccgcaaaggg ctgcagttcc gcgcccaata gtgtcgtccg caaccagatg cgctcgaaaa 240
ccgccgccgg cagtcagcgc acccgacgcg aggtcgagag acgtcgtcag cgcgcccaca 300
tggggtgcca atcggcacgg caggtaggcc gcgcgcaacc ccaacgcgtg gtgcatgcca 360
cggtccgcag gaggccacca ccc 383

88

455

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

88
atactcaagc ttcccggccg caggtgacgg cgcggcctag cgccacttga tgccgcaccc 60
gatcgacggn cgttggtcgg ggttgactgg ccgcccggcg agcagggcgt caaccgcggc 120
ccggacgtcg gcggccgtca ccggtcggcc attgcccggg cgggagtcgt cgagctgacc 180
acggtagaca agtcggcgct ggccgtcgaa gacaaacgtg tcgggtgtgc aggccgcgga 240
gaaggcgcng gcgacgtctc gggtttcgtc gtagagatac gggaacgtcc agccgtggcg 300
gcgggcctcg gcgaccatct gatcgggccc gtcctgcggg taggtgacca cgtccttact 360
ggagataccg accatcggga ccctttgatc ggcgaggtcc cggccgaccg tggccaatcc 420
ggcggcgacg tgtcgcccgt accggccagt ggttc 455

89

429

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

89
caggcatgca agctttanca ncatcaaccc cgccccgcac cagcaccgac acgatgtcga 60
tgccatcgag gtgaatgtcg aactggcnca aaccatctgg cgaccgcgac caccggcaac 120
atgggtaccg gcgatttccg gtgccaatgc cgacccgacg ggccgctctc accgcaggtg 180
acctcgatca ccgagaccag ccggccgtta tactcacgca cccctaccgt gtcacgccca 240
aaacggcgct ggtggtcgat tgccggagtg caccccgcac ccagtgtcgt gcccggatcc 300
gccgaccaat cccgcaccca cgtcgccaaa cccgaaatca ccgtgatgcc gtggtaactg 360
accaccgaca gtaacgtcac tacggccgcc acgccgacgc cgaaccacca cgcacatgat 420
gatcggctg 429

90

321

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

90
atattcaacc ttgcacacat tgacgatacc ttggtcacga gaccccaaaa gctggcctcc 60
accgcgcgcc ggggaccacg gtcatacctt ganncngctt tcgatcgttg atgctgcgtc 120
ttggtccgcg gaaaccgcag gctggcatat gcacgtgggc gcactggcga tctgcgatcc 180
ccaccgattc gcccgaatac agctttcagc ggctccccaa gttgatcatc gaccggctgc 240
cggatatccc gcacttgcgg tggcgggtca ccggcgcccc gctcggactg gaccggccgt 300
ggttcgtcga ggaccacgaa c 321

91

134

DNA

Mycobacterium tuberculosis

91
caggcatgca agcttcatgc ccgcggcatg atagccacat gcacgcaatc gaactcagcg 60
aaaccggcgg gccaggcgtc ttacgccacc tcaccagcgc gcaacctcaa cccggccacg 120
gagacctcct gatc 134

92

513

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

92
atactcaagc ttgattttga tcatcatgat gatcatcacc cgaattgtgg tagccgcagt 60
ggttatcgtg ggtaccgtcg tgctttccat gggcgcctct ttcgggcttt ccgtattggt 120
ctggcaggac attctgggta tcgagttgta ctggatggtg ttggcgatgt cggtgatcct 180
gctcntggcg gtgggatccg actacaatct gctgctgatt tcccggttga aagaggaaat 240
tggggccgga ttgaacaccg gaattatccg tgccatggct ggtaccgggg gagtggtgac 300
ggctgccggc atggtgttcg ccgttaccat gtcgttgttt gtgttcagcg atttgcgaat 360
tattggtcag atcggtacca ccatcggcct gggcttgctg ttcgacaccc tcgtcgtgcc 420
tcgttcatga aaccgtccat tgctgccctg ctgggacctg gttctggtgg ccgctacggg 480
tgcgcccgcg cccggcagtc aaatcttccg ccg 513

93

345

DNA

Mycobacterium tuberculosis

93
caggcatgca agcttggcgt gccgttccaa cccgaattgg ctttcggcgc catcggtgag 60
gacggcgtgc gggtgctcaa cgacgacgtc gtccgcggga cacacctcga tgctgccgcc 120
atggacgcgg tcgaacgcaa gcagctgatc gagctacaac gccgcgcgga acgcttccgc 180
cgcgggcgtg accgcatccc gttgaccggg cggatcgcgg tgatcgtcga tgacggcatc 240
gccaccggag cgacggccaa ggcggcgtgc caggtcgccc gggcgcacgg tgcggacaac 300
gtggtgctgg cggtccccat cggcccagac gacatcgtgg cgaga 345

94

302

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

94
atactcaagc ttttacggtg atcgcgcatc acctggttca tgaactggaa gcagcgcagc 60
gcttcctttt cggccgcaac atgagccagc ctctcgtcgg cggtcgggtg caggtgctcg 120
ggcagctcgg ccgcgacagc cgcctgaccc tgaaaccagc ttccatatcc cgcgacgaac 180
gacgccagtc cgctacgtaa cccctccgcg actgtccatg gacaacagcg cgttctccac 240
cgaccgggcc cgggtgtggg gtgtttcggc gaccggcagc cangtggtcc acactgccga 300
ag 302

95

286

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

95
tagtcgctga ccggtgcagg tttcgacnat gtggtgccgg ttcggcggct acgtgccatc 60
gagacactgg cgcaggctat cgcacccgtt atcggctacg agcaaatcgc ggtatgcgtt 120
cttgagcatg agtcggcgac cgtcgtcatg gtcgacaccc acgacggaaa gacgcagatc 180
gccgtctanc ntgtgtgccg cggattatca ggactgacct cctggctgac cggcatgttt 240
ggtcgcgatg cctggcgccc ggccggcgtg gtcgtggtcg gctcgg 286

96

482

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

96
atactcaagc tttccgccga tacccgccat gtcgcgcaca tccagaactt ctggggggat 60
ccgctgacag cggcgggatc ccaaagtgcg gatgatcggg ccgcctacgt cgtggtgtac 120
ctcgtcggta acaacgaaac cgaagcgtat gactcggtcc acgcggtgcg gcacatggtg 180
gacaccacac cgccaccgca cggggtgaag gcctatgtca ccggtccggc agcactcaat 240
gccgaccagg ccgaggccgg agacaaaagt atcgctaagg tcaccgcgat cacgagcatg 300
gtgatcgcag caatgttgct agtgatctat cgccccgtaa ttaccgcggt tctcgtcttg 360
atcatggtcg gcatcgacct cggcgcaatc cgcggattcn tcgccttgct cgccgaccac 420
aacattttca gcctttcaac atttgcgaca acctgctcgt tctcatggcg attgcngcga 480
ac 482

97

395

DNA

Mycobacterium tuberculosis

97
caggcatgca agcttggcgt gccgttccaa cccgaattgg ctttcggcgc catcggtgag 60
gacggcgtgc gggtgctcaa cgacgacgtc gtccgctgga cacacctcga tgctgccgcc 120
atggacgcgg tcgaacgcaa gcagctgatc gagctacaac gccgcgcgga acgcttccgc 180
cgcgggcgtg accgcatccc gttgaccggg cggatcgcgg tgatcgtcga tgacggcatc 240
gccaccggag cgacggccaa ggcggcgtgc caggtcgccc gggcgcacgg tgcggacaag 300
gtggtgctgg cggtcccgat cggcccagac gacatcgtgg cgagattcgc cgggtacgcc 360
gatgaagtgg tgttgtttgg cgacccggcg ttgtt 395

98

439

DNA

Mycobacterium tuberculosis

98
atactcaagc tttggcattg tgcacatttt ccacccgtgc tctattaatg ctgagccgct 60
aattgtgacc ccagtcggga aacacgcgga gcaccaaatt caccgcagcg gccggggcgg 120
ttcaactcac catggatcgc tctcgtcgtc tggtgctgga caatcgtcgc tgtagcgcgt 180
cgcgaacacc tcagcttctg ctgccgcggc ttcttccggc gatggtaacc cccaggtttc 240
gcccacggtc ttacgtagca gtgcgacgcg gtgttcatct gcatcgacct gttgactcat 300
cctgtcaagg atgaaggcgt actgggccga ctgcgccttc tgccgcgcca ggtcggcaat 360
caccaggatc tcagaaacga gctgcgactc actcttccag gccaccctgg ccgaaagctc 420
gacatggtca atccggccg 439

99

348

DNA

Mycobacterium tuberculosis

99
caggcatgca agcttgcggg ccggagtggt ttcgacggcc gctcgcttct cggcatcggt 60
ttgggctgtc accagcagtt ggtagttctt cacgtactgt tgttcgagcg tcgagccgcc 120
gcgcgtgtcg aggtcgccgg acgcgtatcc cgccaggccg gtcagggtgc ccttccagtc 180
cacgccgctg tggtcggcga accgcttatc ttcaatcgag acgatcgcca gcttcatcgt 240
gttggcgatc ttgtccgagg gcacctcgaa ccggcgctgc gagtacagcc acgcgatcgt 300
gttgcccttc gcgtcgacca tcgtcgatac cgcaggcact tgcccctc 348

100

436

DNA

Mycobacterium tuberculosis

100
atactcaagc ttcccggcgg ccagtaccga aagcgcgaac agctcgcggc agcccacgac 60
gtgctgcgtc ggattgccgg cggcgaaatc aattccaggc agctcccgga caatgcggct 120
ctgctggccc gcaacgaagg actcgaggtc accccggtgc ccggggtcgt ggtgcacctg 180
ccgatcgcac aggttggccc acaaccggcc gcttgatgcc cggtcggcaa gcccggcagt 240
tgccaaaccc agcgtgatca ggctcggctc gcgagttcgg cgaagaagtg gctcgcctga 300
tcacctacca tcggccagga tctgcgtgtc atcacaacgc tcgccaagga ggttgttgtg 360
gtgctatcga cggcctttag ccagatgttc ggaatcgact atccgatagt gtccgcgcca 420
atggacttga tcgccg 436

101

445

DNA

Mycobacterium tuberculosis

101
agcttcggtg tagccgatca ccggaagccg catgatcagc cacgtttcgc gccgcccggc 60
atacggcggc gtaccgatct ccgcgtcata cacccgcggg taatcgccga cggtgccggt 120
tcgcgagccg aaggtgacga cgctgattga atcgagttcc aggtccagcg ggtggcgcag 180
caacggcgcg agctcaacga cgtcaatcac gttgtcgctt tctacggtca ccgacccggt 240
gaccgtagtc gcccggtgcg ctcggccgag aagttgcacc gccaccaccg cgacaccgtc 300
ttgcacgcgg acgccacccc cggatcggtt gttggccaag gtaattgggt cattccattt 360
gacgggacgc cgaccccgca gccccagtac cgcccacgac cacgccggct gacccaccac 420
tgtacgaaca ccaaggcgac gccga 445

102

261

DNA

Mycobacterium tuberculosis

102
atactcaagc ttcggtggct tcgcccgccc tgccgggtgg acttcatgac aacgcggggg 60
cgattacccc cgctaccgcc agcagcatga cggcggtacc taacaccgcc cggatgcctc 120
gcacgtgcct cgatgtgctc acggaatcgc cccggcaccg cgatctcgag gatcaccagc 180
gttacccccg gcagcgcgac accgacaatt ccgtacaccg ccacgccgat ccggccctgg 240
gccagctgat tggagctggc g 261

103

244

DNA

Mycobacterium tuberculosis

103
caggcatgca agcttccaca tgtacggatc cacgaacatc ccgttgaact gacaggtgcg 60
gcccggctcg atcaggccgg ccacttgttc tacgcggtta ccgaagatct cttcggtgac 120
ctgcccgccg ccggccagct cggcccagtg cccggcgttg gccgccgcgg cgacgatctt 180
ggcgtccacg gtggtccggg tcttgcccgc tagcacgatc cgcgagtcgg ccggtcaccc 240
gggt 244

104

376

DNA

Mycobacterium tuberculosis

104
atactcaagc tttccaagtc ccaagtgtcg atcatggcca aagagctcga caaagccgta 60
gaggcgtttc ggacccgccc gctcgatgcc ggcccgtata ccttcctcgc cgccgacgcc 120
ctggtgctca aggtgcgcga ggcaggccgc gtcgtcgggg tgcacacctt gatcgccacc 180
ggcgtcaacg ccgagggcta ccgaaagatc ctgggcatcc aggtcacctc cgccgaagac 240
ggggccggct ggctggcgtt cttccgcgac ctggtcgccc gcggcctgtc cggggtcgcg 300
ctggtcacca gcgacgccca cgccggcctg gtggccgcga tcggggccac cctgcccgca 360
gcggcctggc agcgct 376

105

284

DNA

Mycobacterium tuberculosis

105
caggcatgca agcttcacac gtaggcgccg tcgataaatg actccgccgc gcttcgcaca 60
tcctcgtagc gatccttggc gagcaggtca accgggcgct gcccgtcgag gagccggttt 120
ttggcgtgca gccactggcc gacacctcgg ggggtaagcg aatccgagag caggaggacg 180
aggtcacgaa gctgcgccag ccggtcgtac cgctcagggc ggatgtcgcc ggtccgccac 240
ccgcgtaccg cccgatcgga cacctgtatg accgcggcga cgtc 284

106

140

DNA

Mycobacterium tuberculosis

106
cgcggcggcg cattaccccc gctaccgtca gcagcttgac ggcggtagcg aacaccgccg 60
gatgcagcgc aggtgcgtct atgtgcacac ggaatcgccc cggcaccgcg atctcgagga 120
tcaccagtgc ccgccccctg 140

107

491

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

107
gggatcgagg aacagcgcgt tgaactgata ggtgcggccc ggctcgagca ggccggccat 60
ttgttcgatg cggttaccga agatctcttc ggtgacctgc ccgccgccgg ccagctcggc 120
ccagtgcccg gcgttggccg ccgcggcgac gatcttggcg tccacggtgg tcggggtcat 180
gcccgcgagc aggatcggcg agcggccggt cagccgggtg aacttcgtcg agagcttgac 240
cctgccgtcg gggaggcgaa ccacggtcgg tgcgtatctc gaccaggccc gggcaacctc 300
gggggtggcg ccgacggtga acaggttgcg ctggccaccg cgggtagccg ccggcactat 360
gccgatgccc aggccgcgga tcaccggtgc ggtcagtcgg gtcaggatgt cgcccggccc 420
caggtcgaag atccagcggg cgccggccgc gtggacacng gtgatctcgt ccaccatcga 480
ctttctgatc a 491

108

364

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

108
taactcaagg cttgcgttga ggccccaggc ccatcgacgg tttggcggcc ttaaatgcac 60
tgaggtcgtc aattgacccc acagcggaaa tgccgactat tcgcaggcct ccttcgcctt 120
ggctgccgga gaggggctcc gcgggaaccg catgcaggta tatgacctcg gtttctcggg 180
tgctaccgcg tgccttgtcg aggatgaact cggcgttgga attgtccagc cggcccaatt 240
catcgagcgc agattcgtac acatggccgg cggcgacata cgcttcaccg tggatctgct 300
ccacacggac cgccctgtcg ggatcctgct cacgggtaaa ggaacttacn tggcnctcgg 360
tgcc 364

109

453

DNA

Mycobacterium tuberculosis

109
ccttctgcgc cacccacacc gtcaacgccc gcgaagtcga cgtcgtccag gccatcggcg 60
gcctcacgga tggattcggc gcggacgtgg tgatcgacgc cgtcggccga ccggaaacct 120
accagcaggc cttctacgcc cgcgatctcg ccggaaccgt tgtgctggtg ggtgtgccga 180
cgcccgacat gcgcctggac atgccgctgg tcgacttctt ctctcacggc ggtgcgctga 240
agtcgtcgtg gtacggcgat tgcctgcccg aaagcgactt ccccacgctg atcgaccttg 300
acctgcatgg ccggctgccg ctgcagcggt tcgtttccga acgcatcggg ctcgaagacg 360
tcgaggaggc gttccacaag atgcatggcg gcaaggtatt gcgttcggtg gtgatgttgt 420
gatggccgcc atcgagcgcg tcatcaccca cgg 453

110

329

DNA

Mycobacterium tuberculosis

110
atactcaagc ttgattttga tcatcatgat gatcatcacc cgaagtgtgg tagccgcagt 60
ggttatcgtg ggtaccgtcg tgctttccat gggcgcctct ttcgggcttt ccgtattggt 120
ctggcaggac attctgggta tcgagttgta ctggatggtg ttggcgatgt cggtgatcct 180
gctcctggcg gtgggatccg actacaatct gctgctgatt tcccggttga aaaaagaaat 240
tggggccgga ttgaacaccg gaattatccg tgccatggct ggtaccgggg gagtggttac 300
cgctgccggc atggtgttcg ccgttacca 329

111

438

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

111
attgnctttc ggcgccatcg gtgaggacgg cgtgcgggtg ctcaacgacg acgtcgtccg 60
cgggacacac ctcgatgctg ccgccatgga cgcggtcgaa cgcaagcagc tgatcgagct 120
acaacgccgc gcggaacgct tccgccgcgg gcgtgaccgc atcccgttga ccgggcggat 180
cgcggtgatc gtcgatgacg gcatcgccac cggagcgacg gccaaggcgg cgtgccaggt 240
cgcccgggcg cacggtgcgg acaaggtggt gctggcggtc ccgatcggcc cagacgacat 300
cgtggcgaga ttcgccgggt acgccgatga ggtggtgtgt ttggcgacgc cggcgttgtt 360
cttcgccgtc gggcagggtt accgcaactt cacccagacc tccgacgaag aagtggtggc 420
gttttctgga tcgtgctc 438

112

438

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

112
atactcaagc ttttcccgtc cgtcatcgcc caagcgcgtg aggccgaagc ggctggttac 60
gactccctgt ttgtgatgga ccacttctac caactgccca tgttggggac gcccgaccag 120
ccgatgctgg aggcctacac ggcccttggt gcgctggcca cggcgaccga gcggctgcaa 180
ctgggcgcgt tggtgaccgg caatacctac cgcagcccga ccctgctggc aaagatcatc 240
accacgctcg acgtggttag cgccggtcga gcgatcctcg gcattggagc cggttggttt 300
gagctggaac accgccagct cggcttcgag ttcggcactt tcagtgaccg gttcaaccgg 360
ctcgaanagg cgctacagat cctcgagcca atggtcaagg gtgagcgcca acgtttttcg 420
gcgattggta cccaccga 438

113

482

DNA

Mycobacterium tuberculosis

113
cggccaccgg ggccactccg cacaatctgt acccgaccaa gatctacacc atcgaatacg 60
acggcgtcgc cgactttccg cggtacccgc tcaactttgt gtcgaccctc aacgccattg 120
ccggcaccta ctacgtgcac tccaactact tcatcctgac gccggaacaa attgacgcag 180
cggttccgct gaccaatacg gtcggtccca cgatgaccca gtactacatc attcgcacgg 240
agaacctgcc gctgctagag ccactgcgat cggtgccgat cgtggggaac ccactggcga 300
acctggttca accaaacttg aaggtgattg ttaacctggg ctacggcgac ccggcctatg 360
gttattcgac ctcgccgccc aatgttgcga ctccgttcgg gttgttccca gaggtcagcc 420
cggtcgtcat cgccgacgct ctcgtcgccg ggaccagcag ggaatcggcg atttcgccta 480
ca 482

114

388

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

114
atactcaagc ttggggtggc gctgtcggtc ggtgtgcttg gcggcgtcgg tatcaacacc 60
gcccacgaaa tggggcacaa gaaggattcg ctggagcggt ggctgtccaa aatcaccctc 120
gcccagacct gctacgggca cttctacatc gagcacaacc gtggccatca cntccgggtg 180
tccacaccgg aggacccggc gtcggcgcgg ttcggcgaaa cgttgtggga gttcctgccc 240
cgcagtgtta tcggcggctt gcgctcggcc gttcatttgg aggcccaacg gctgcgtcgg 300
ctcggcgtca gcccctggaa tcccatgacg tatctgcgca acgacgtgcn caacncgtgg 360
ctgatgtcng tggtgttgtg gggtgggc 388

115

455

DNA

Mycobacterium tuberculosis

115
tcgccaccgc accgcggcga acgctcaaag gcacctactg gcaccaaggc cccacacgtc 60
accctgtgac ctcctgcgcc gaccccgccc gaggtcctgg ccgttaccac cgaacgggcg 120
agccgggagt ctggtacgca tcgaacaaag agcaaggtgc atgggcggag ttgttccgcc 180
acttcgtcga tgacggggtc gatccattcg aggtccgtcg ccgcgtcggt cgagtggcgg 240
tcacactcca ggtactcgac ctcacagacg agaggactcg atcccatcta ggtgtggacg 300
aaacagatct tctgtccgac gactacacca ccacccaggc catcgccgcc gcccgcgatg 360
ccaacttcga cgccgtactg gccccggcgg cggcgctccc cggttgtcaa acactttgcc 420
gtgttcgttc acgcactgcc caacatcgag cccga 455

116

328

DNA

Mycobacterium tuberculosis

116
atgaaataag aagagcacat ccctcagtcg gttatcatca ctagcgctcg ccgcacccgt 60
gtaaccgatc atagcgagcg aactggcgag gaagcaaaga atatctgttc tgtcagatag 120
ctcttacgct cagcgcaaga agaaatatcc cccgcgggaa caactccagg tagaggtaca 180
cacgcggata gccaattcag agtaataaac tgtgacactc acaccctcat caatgatgac 240
gaactacacc ccgatatccg gtcacatgac gaagggaaag agaaggatat catctgtgac 300
aaactgccct caaatttggc ttccttaa 328

117

318

DNA

Mycobacterium tuberculosis

117
atactcaagc ttgtcgaact ccttcttgaa taccggccgg ccatccacag atgcccggaa 60
gaacttccag gtacccatgg cggctggatc agggggcggc acagttggtc ttgtcctgcc 120
tcgagtggcg tcgttgtccg gcttggacgg ggctccgacg gtaccggagg gcagcgacaa 180
aacacttatg cacttgggcg acccgccgag acggtgcgac acccatcccg acggcacaag 240
ctcagccgcg gccgctcttg ttcttcgtcg gatcgacatt cacccacttc tgaccgggct 300
tgggcgaagg aagcagaa 318

118

405

DNA

Mycobacterium tuberculosis

118
ggtatagtcg ctgaccggtg caggtttcga caatgtggtg ccggttcggc ggctacgtgc 60
catcgagaca ctggcgcagg ctatcgcacc cgttatcggc tacgagcaaa tcgcggtatg 120
cgttcttgag catgagtcgg cgaccgtcgt catggtcgac acccacgacg gaaagacgca 180
gatcgccgtc aagcatgtgt gccgcggatt atcaggactg acctcctggc tgaccggcat 240
gtttggtcgc gatgcctggc gcccggccgg cgtggtcgtg gtcggctcgg atagcgaggt 300
cagcgaattc tcgtggcagc tcgaaagggt cctgccggtg ccggtctttg cgcaaacgat 360
ggcgcaggtt acggtcgcgc ggggtgcggc cctggcggcg gccca 405

119

89

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

119
gacactatat natactcaag cttcaggtca atgtgcgcca agccctgacg ctggccgacc 60
aggccaccgc cgccggancc ctntctaga 89

120

354

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

120
ctgtagccac ctgttgccat ccccgtcatg cccgactctg gtcatctcgg atccgctgac 60
accccgctaa ggctgctcct ctcggtgcat tacctcaccg acggcgaacn cccccagctt 120
tacgactatc cggatgacgg cacctggttg ccggctaact tcaccgtcag cttggacggc 180
ggcgctaccg tcgatggcgc cagcggggcg atggccgggc ccggcgaccg attcgtcntc 240
ancctgtcgc gtgaacttgc cgacgtcatc gtggtcggtg tgggcaccgt gcgcattgag 300
ggctactccg gcgtccggat gggtgtcgtc aagcgcccgc accggcaggc ccga 354

121

379

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

121
atactcaagc ttcgcacgct cggcgcgcgc ggtaccgccc aggtcgccca acagatcgtc 60
gatgttcgcg tcgtccgcct cgcgcacgtg gtctgtcacc agtcaacgtt aacgccgccg 120
cacatgtcct gcggccgggc aaaaacgtga aaaacgagcg ggcgactgcn atgtcatgac 180
accgacggcc gccgatgggc ccagggtctg gcaaattcga tctgtgcggc cagtgccagc 240
agcgtcgcct cgtcatacgg ccggccgacg agttgaaccg acatgggcag gccgtcgccg 300
tcgaagtccc acggcaccac gggcgcgggc tggccggtca gattccaaaa ttgaaagtac 360
ggaaccgctg caccaccaa 379

122

393

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

122
atcgtttcga ccaggcgctc catccggcga gtggatactc ccagcaggta gcaggtcgcc 60
accacgctgg tcagtgcgcg ttcagctcgc ttgcggcgct gcagcagcca gtccgggaaa 120
tagctgccct ggcgcagctt ggggatcgcg acgtcgatgg ttgcggcacg ggtgtcgaaa 180
tcacggtggc ggtagccgtt gcgctgattg gaccgctcat cgctgcgttc gcggtagccc 240
gccccgcaca gggcgtcggc ttcagccccc atcaaggcgg cgatgaacgt cgagagcagc 300
ccgcgcagca gatccgggct cgcctgtgcg agttggtcag ccagaagctg ctcggtgtcg 360
ataagatgan aagaagtcat tgcgttattt cct 393

123

333

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

123
atactcaagc ttgggtgttg ccgatcaccg gaagccgcat gatcagccac gtttcgcgcc 60
gcccggcata cggcggcgta ccgatctccg cgtcatacac ccgcgggtaa tcgccgacgg 120
tgccggttcg cgagccgaag gtgacgacgc tgattgaatc gagttccagg tccagcgggt 180
ggcgcagcaa cggcgcgagc tcaacnacgt caatcacgtt gtcgctttct acggtcaccg 240
acccggtgac cgtagtcgcc cggtgcgctc ggccgagaag ttgcaccgcc accaccgcga 300
caacgtcttg cacgcggacg ccaccccccg gat 333

124

426

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

124
gcgcnaacag ctcgcggcag cccacgacgt gctgcgtcgg attgccggcg gcgagatcaa 60
ttccaggcag ctcccggaca atgcggctct gctggcccgc aacgaaggac tcgaggtcac 120
cccggtgccc ggggtcgtgg tgcacctgcc gatcgcacag gttggcccac aaccggccgc 180
ttgatgcccg gtcggcaagc ccggcagttg ccaaacccag cgtgatcagg ctcggctcgc 240
gagttcggcg aaaaagtggc tcgcctgatc acctaccatc ggccaggatc tgcgtgtcat 300
cacgacgctc gccaaggagg ttgttgtggt gctatcgacg gcctttagcc agatgttcgg 360
aatcgactat ccgatagtgt ccgcgccaat ggacttgatc gccggcggtg agctggctgc 420
cgcngt 426

125

336

DNA

Mycobacterium tuberculosis

125
atactcaagc tttctccgat acccgccatg tcgcgcacat ccaggacttc tggggggatc 60
cgctgacagc ggcgggatcc caaagtgcgg atgatcgggc cgcctacgtc gtggtgtacc 120
tcgtcggtaa caacgaaacc gaagcgtatg actcggtcca cgcggtgcgg cacatggtgg 180
acaccacacc gccaccgcac ggggtgaagg cctatgtcac cggtccggca gcactcaatg 240
ccgaccaggc cgaggccgga aacaaaagta tcgctaaggt caccgcgatc acgaacatgg 300
tgatcgcagc aatgttgcta gtgatctatc gctccg 336

126

347

DNA

Mycobacterium tuberculosis

126
ccatgagcac cgccagccga gcacgaggcc aaactccgcc gacgcaggcc ggttggactt 60
gtcgtgctgg acaaggggtt tagccgccga agcagtgacg tacatcggcg aagagcagtt 120
cgcctgtcga ccgacggcgc aaaccgtgag gctagggaag cgaggagcac atggccgccg 180
acccgcaatg tacacgctgc aagcaaacca tcgaacccgg atggctatac atcaccgccc 240
atcgccgcgg tcaagccggg atcgtcgatg acggcgcagt actgattcac gtgcccggtg 300
aatgccgcac cccggggagc actttccgcc aaaactaacc cggttgg 347

127

315

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

127
cgggtgtcat tggccaccgg cggcggctgt ccgggaaatg gcgggtcccc ggtggttttg 60
ctgaggagtg ctgaaccgta gtcgaagtgg gcggcgtcag actccaccca gccagcaggc 120
agcgcgaanc tgaatcctcc aaccgggttg tcnatccgga caggttgggg tgcgtttggg 180
gcaatnacag gtggcggcgg tgcgttcggg tcggccggcg gaggtgctgc nttgggatcc 240
ccggctgggc attcggcntg ttggcggcgg ccggtggtgg ggggggcaac acgtgtcncc 300
ggtgcgggtg gccct 315

128

354

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

128
ccaagatcta caccatcgaa tacgacggcg tcgccgactt tccgcggtac ccgctcaact 60
ttgtgtcgac cctcaacgcc attgccggca cctactacgt gcactccaac tacttcatcc 120
tgacgccgga acaanttgac gcagcggttc cgctgaccaa tacggtcggt cccacgatga 180
cccagtacta catcattcgc acggagaacc tgccgctgct agagccactg cgatcggtgc 240
cgatcgtggg ganacccact ggcgaacctg ggttcaacca aacttgaagg tgattgttaa 300
cctgggctac ggcgacccgg cctatggtta ttcgacctcg ccgcccaaat gttg 354

129

360

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

129
agcttcccga gttcggcttt ggatcaagac cccagtccgc gggcgcgatc cggcngctcg 60
gtgactacat caagccacaa atcgacggct ttcggggtgc cgataccgat gacgtggcgg 120
atgtcgagtg ttgagttctc ggcggggcgg atgctcacct ggcgatcacc tgcctctcgt 180
tgacgatcga tcgtctatgc cgccgtctct gcgggaacag gccnccagta catcgccaca 240
gacgggatcc acccgcattt cggctacggt tgctcgtttc ggtgttcgga ctagtcggtc 300
ctggtgacgt gccggtgatg cggaccggtc ctagcactga ccaatggcca aaatgcgggc 360

130

483

DNA

Mycobacterium tuberculosis

130
cggggggcct cttaatagtg taggaaagaa gctctacata ttcaggagga ttcaccatgg 60
ctcgtgcggt cgggatcgac ctcgggacca ccaactccgt cgtctcggtt ctggaaggtg 120
gcgacccggt cgtcgtcgcc aactccgagg gctccaggac caccccgtca attgtcgcgt 180
tcgcccgcaa cggtgaggtg ctggtctgcc agcccgccaa gaaccaggca gtgaccaacg 240
tcgatcgcac cgtgcgctcg gtcaagcgac acatgggcag cgactggtcc atagagattg 300
acggcaagaa atacaccgcg ccggagatca gcgcccgcat tctgatgaag ctgaagcgcg 360
acgccgaggc ctacctcggt gaggacatta ccgacgcggt tatcacgacg cccgcctact 420
tcaatgacgc ccagcgtcag gccaccaagg acccggccag atcgccggtc tcacgtgctg 480
cgg 483

131

423

DNA

Mycobacterium tuberculosis

131
atactcaagc ttcataacag gcctgttgtg ggcgcacccg gctcgccgag ttctgcacgc 60
accgcctcaa gtgcggcccg caccgccggc atctcccggt cacgcagggc cgcggcccgc 120
gccgcagcga cggcgtgttc gcgcagttcg ccgtcaatga tgctgacctg atcggccacc 180
cgggcgttct cggcgtcttc gcgttcacta atcgcggtgc tcagcagcgt ctcgacagcc 240
accacccgag tggcgaccag ctgctccacc acggaccgca gcgatgccgt cacctcaccc 300
gtccagcggt ccaccacgac acggtcgtgc accagcgcgc gggcattcac cacccaggcg 360
gtcaccgcca ggccgatcgc cacacccgcc accatccccg atgcagccag gccgggagta 420
aga 423

132

338

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

132
ctggtgctgg acggagccta gtacaacttc ctctccaatg ctcttgcccc gatcgcggcg 60
accaggatga cccaggacat cctgccgccc gaagtactgg aaaagctcac acccgagttc 120
gtcgcaccgg tggtggccta cctgtgcacc gaggagtgtg ccgacaaccc atcggtgtac 180
gtcgtcagtg gtggttaggt gcagcgagtt gcgctgtttg gcaacgacgg cgccaacttc 240
gacaaaccgc cgtcngtaca agatgttgcg gcgcggtggg ccgagatcnc cgatctgtcc 300
ggtgcgaaaa ttgctggatt caagttgtag aactaaat 338

133

173

DNA

Mycobacterium tuberculosis

133
atactcaagc ttttccggcg tcgtccacct gacccaaaaa gcgcaggtgc gccgccaaac 60
ggcccgcctg gccgcgcaac tggtcggcgt cgccgtggcc gacaatcagt agctggacat 120
ccggaaaccg ctgcaccacc ttcggcagcg cgtcaagcaa aaacggccat tcc 173

134

255

DNA

Mycobacterium tuberculosis

134
tttcagatct catttttatg acatgactgg agatctgtct agattgcagc tcctgtgagc 60
gtgggtaccg gattcaagcc ggtcggtcac gccgcggtgg taccggcttt gcggcagtgc 120
tcggcctcga gttcggcgat cgcgcgcgaa gtgcgtttcg cgcaccaaga tcgcggccta 180
atggccggcg atgaccgcga tgaccagcgc gatccaggaa aaaccgttcc aaccagtgct 240
gggcggccat ccccg 255

135

285

DNA

Mycobacterium tuberculosis

135
atactcaagc ttcccgacca caagttgaac agcaccgatt tcggcgagca cttcgtcaac 60
ttccagggtg cccgcaccaa gtatttcgac aagtatttcc gtcgggccgc cgccgccggc 120
gcgcggcagg tggtcatcct ggcggcgggg ctggactccc gcgcgtaccg gctgccttgg 180
cccgacggga ccacggtttt tgagctggac cgcccgcagg tccttgattt caagcgcgag 240
gtgctcgcca gccacggtgc ccaaccgcgc gccctgcgcc cgcga 285

136

494

DNA

Mycobacterium tuberculosis

136
gtgtgctgtc aattcagagc tgagcctgat gcactcaact tactgagcat gctaacgctg 60
gtcgtgcggg tcttgttccc gcgtgtcggc agggcacacg ctcggggcgt agctgggaga 120
ggccccggtc aagcccggag agcagtgctc agtccgccag cttgaccgac tttcgatgag 180
aacgcgcttc tcgccgtatt gaactggcgt gctgacggtc gctgagcagc gctcgccgag 240
tgcggccgct gattctttca tcgagccagg aggcgcattc gtgttcggcc gcctgcgggt 300
cggccccatc gtcgacgcga tccgtcaccc actcctcgat caggtctgcc tcatcgaacg 360
ggccaacggt gctgtcggag tatgtgtgcg tgggcacggc gagccgggtg ctgtggtaca 420
cccaccgttg catgaccaag ttgacgcctg actggctgag caccgcgatc cgctcacagg 480
tcggaacgtt ggtg 494

137

357

DNA

Mycobacterium tuberculosis

137
atactcaagc ttttggtcta gccggccgag cccgatacag gtgtcattgg ccaccggcgg 60
cggctgtccg ggaaatggcg ggtccccggt ggttttgctg aggagtgctg aaccgtatgc 120
gaagtgggcg gcgtcagact ccacccagcc agcaggcagc gcgaaactga atcctccaac 180
cgggttgtcg atccggacag gttggggtgc gtttggggca atgacaggtg gcggcggtgc 240
gtccgggtcg gccggcggaa gtgctgcgtt gggatcgccc ggctgggcat tctgcgtgtt 300
ggcggcggcc ggtggtgggg gggcaacagg tgtctccggt gcgggtggcg ctgcacc 357

138

458

DNA

Mycobacterium tuberculosis

138
ggggccactc cgcacaatct gtacccgacc aagatctaca ccatcgaata cgacggcgtc 60
gccgactttc cgcggtaccc gctcaacttt gtgtcgaccc tcaacgccat tgccggcacc 120
tactacgtgc actccaacta cttcatcctg acgccggaac aaattgacgc agcggttccg 180
ctgaccaata cggtcggtcc cacgatgacc cagtactaca tcattcgcac ggagaacctg 240
ccgctgctag agccactgcg atcggtgccg atcgtgggga acccactggc gaacctggtt 300
caaccaaact tgaaggtgat tgttaacctg ggctacggcg acccggccta tggttattcg 360
acctcgccgc ccaatgttgc gactccgttc gggttgttcc cagaggtcag cccggtcgtc 420
atcgccgacg ctctcgtcgc cgggacccag cacggaat 458

139

595

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

139
ttctntcttc ccnnattcgt nnntctcnta ctaccngggc cncaaaacac cttggcnaac 60
gctcaaaggc gntacnggca ccaaggcccc acacgtcacc ctgtgacctc ctgcgccgac 120
cccgcccgag gtcctggccg ttaccactga acgggcgagc cgggagtctg gtacgcatcg 180
aacaaagagc aaggtgcatg ggcggagttg ttccgccnct ttttttatga cggggtcgat 240
ccattcgagg tccgtcgccg cgtcggtcga gtggcggtca cactccaggt actcgacctc 300
ncagacgaga ggactcgatc ccatctangt gtggacnaaa cagatcttct gtccgacgac 360
tacacaccac ccaggccatc gccgccgccc gcgatgccaa cttcnacncc gtnctggccc 420
cggcggcggc gctccccggt tgtcaaacac ctgccgtgtt cgttcacnca ctgcccaaca 480
tcnagcccga ncnatccnag gtccgtccaa cgcctccgcg gctcnccaac ctnctcccnc 540
tgatcntccg caccaaacac atgcccgact ccntgcnccn attgcttgna tccct 595

140

434

DNA

Mycobacterium tuberculosis

140
ccgctatcgg tcggtgtgct tggcggcgtc ggtatcaaca ccgcccacga aatggggcac 60
aagaaggatt cgctggagcg gtggctgtcc aagatcaccc tcgcccagac ctgctacggg 120
cacttctaca tcgagcacaa ccgtggccat cacgtccggg tgtccacacc ggaggacccg 180
gcgtcggcgc ggttcggcga gacgttgtgg gagttcctgc cccgcagtgt tatcggcggc 240
ttgcgctcgg ccgttcattt ggaggcccaa cggctgcgtc ggctcggcgt cagcccctgg 300
aatcccatga cgtatctgcg caacgacgtg ctcaacgcgt ggctgatgtc ggtggtgttg 360
tggggtgggc tgatcgcggt cttcggcccg gcgctgatcc cgttcgtcat catccaggca 420
gtcttcggct tcag 434

141

321

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

141
atactcatgc ttgccgaagt tccgatgggt cgcgccggcg ancccagcga agtcgctagc 60
gtggccgtgt tcttggcttc ggatctatcc tcgtacatga ccggcaccgt gttggacgtg 120
actggcggcc ggttcatatg acaccgagat cattgccacg gtacggcaat tcgtcaagaa 180
ggaaatcttt cccaatgcac cggccctcga acgtggcaac agctacccgc aagaaatcgt 240
cgatcggctg ggtgttattg gcttgctcgg tcgccggctg caagggtatc gacaccaccg 300
agttcattct ccgggcgtgc c 321

142

348

DNA

Mycobacterium tuberculosis

142
ggcgtcaacg gtgtcggcac cggcgtcctg cagttggtag gcctgcagtt tgtgcatcag 60
gccgatgccg cggccctcgt ggccacgcat gtacagcacc acgccgcgcc cctcacgggc 120
gaccatcgcc agcgcggcgt ccagctgagg cccgcaatcg cagcggcgtg acccaaacac 180
atcgccggtc aagcactccg aatgcacccg gaccagcacg tcgtcaccgt cggcgttggg 240
cccggcgatc tcgccgcgga ccagcgcgac atgttccacg tcctcgtaga tgctggtgta 300
gccgatggcg cgaatctccc atgacgagtc ggaatccgcg cctcggcg 348

143

339

DNA

Mycobacterium tuberculosis

143
atactcaagc ttcggcctcg ctgcaggagt gggagccgca gggctggaaa tccgaaaaac 60
gagccggtga tcgcactgtc gccgatcggg gccgcacctg gttggtgtta ccgatgaatc 120
cgcacccaaa atgtggctgc ggtggcgttt cttgactcct tggcgtcgac tcttgtggca 180
gccaccgagc ggttggtcca ggatctggat gggcaaagtt gtgcggcccg gccggtgacg 240
gccgatgagc tgaccgaggt cgacagcgcc gtgttggctg acttggaacc gacatggatt 300
cgccccggtt ggcgtcacct caagcatttc aatggttat 339

144

269

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

144
atgcgtcacc ccgatgcgcc cagatcgggg cttcgcaaat aaagcacgaa caggcgggca 60
aaacgtctat ctcggagccg gaagggcaat cagccgaccg tcgacgaacg acaccggcga 120
taaccactta ggcgttgaac ggccggccca aacattacgc ctccgttgat aaggctttcg 180
gtctcttccc cggtcatccc aagcaccttg cggcaaattt gaacgctttc ctgtccgggc 240
accggccccg ggctttgggg tccntccga 269

145

285

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

145
atactcaagc ttcaatcgcg ccgccacaat ccaaatatgc gtctagcgtc tcgatgagcg 60
tcggtccggc atcggctagg ggccgcatca cgtcggtatg cagggccacg atcgcccaag 120
gcgtcgccca tcaagggcgc gttcgggcaa aaattcccct atccagcacg ggccgcggcg 180
ctccgcncca gccggcgacg gcgttcatcc cggagatcgc ctcgctagcg ctgcggtgcg 240
ccgcggtcag catgggcgcc gtggggccga tgaccaccgg ggcgt 285

146

75

DNA

Mycobacterium tuberculosis

146
ttcggcgggt ctgtagattg cggtcggcca ccccacaggc actcatgaac cgcagcccac 60
gatcgatctc ggtgg 75

147

164

DNA

Mycobacterium tuberculosis

147
gcgcaccatc gccagtaggt gcccgtggtc gggcgcgtcg agccacccga gcggaaacgc 60
gagtccgaac agcaacagca ggacgggcgc aaccagggcg gtgaccatgc ccccggcgct 120
gaacatcaac cacaggaagg gctccgccga gcgtccgcgc gacc 164

148

228

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

148
catcgtcgaa cttcggtccg ggttgntagn accgcagcac caaacgcacc caccgacccc 60
cacgcttcac gccaaccctt tagttcattg gcgtgaacag cagcgtagcc ggttgccccg 120
atatatgtgg aaaaatcgtt cggacgtaca aaaaaagttc ctgacgctgg cgtcaactcg 180
aaactgcctc ggaagtcaat gatgatccat cagtcaatat taaagtcg 228

149

238

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

149
atactcaagc ttgtctgctg cctcagcgta tgcatccaac agcgcatcgc gatcaacgat 60
caggcgcgcc gatttcgggc cgcgggcagt ggcactggcc agatggccgt ttttttcgag 120
aaacttcaac gcctgagcgc tgcttcccat cgagagaccg gtggcctcta caaccgatgc 180
gacagttgga ccggcgatgt tcgccagcag cgcttcacat acggcaagtn tggcgcgg 238

150

162

DNA

Mycobacterium tuberculosis

150
ttgtccaggc ggggaatcgg gcagggagac gacaccttcg ttcggttcga tcgtcgcgaa 60
cgggtagttg gccgcgacca cgttgtttcg ggtcagcgcg ttgaaaagtg tcgacttgcc 120
gacgttgggc aggcccacga tccccaggct caagctcaca ga 162

151

377

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

151
atactcatgc ttggcgcctg ggtggcagcc cacctgccca ccacacggac cgcggtgcgg 60
acgcggctga cgcgcctggt ggtcagcatc gtggccggtc tgctgttgta tgccaacttc 120
ccgccgcgca actgctggtg ggcggcggtg gttgcgctcg cattgctggc ctgggtgctg 180
acccnccgcn cnacaacacc ggtgggtggg ctgggctacg gcctgctatt cggcctggtg 240
ttctacgtct cgttgttgcc gtggatcggc gagctggtgg gccccgggcc ctggttggca 300
ctggcgacga cgtncgcgct gttccccggc atcttcggtc tgttcgccgt cgtggtaccc 360
tgttgccggg ttggccc 377

152

308

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

152
cgccaattca cgatatcgtt aaccgatatc ccgagccgat agctggcggg ctcgggtggt 60
ggccagcggc gctgcgacga aaggtgtgac cgtcatgaaa cagacaccac cggcggccgt 120
cggccgtcgt cacctgctcg agatctcagc atccgcagcc ggtgtgatcg cgctttcggc 180
gtgtagtggg tcgccgcccg accccggcaa aggccggccc gacacaaccc cggaacagga 240
agtcccggtc accgcgcccg aagnacttga tgcgcgaacn cggagtgctc caaacgcatc 300
ctgctgat 308

153

377

DNA

Mycobacterium tuberculosis

153
atactcaagc ttgggcactg acttcggtac cccctccgcc tttggccagc agcagccaca 60
gcgcggttcg cggaccgaac gtggacatca atagcccgga atcggtgtgt gcaagttggt 120
aaacggtgtt gatcccaagc tttgccagcc ttttcgtagt cttgggcccc acaccccaca 180
gtgcttcgac ggtacggtca cccatgatgg ccatccagtt ggcatcggtg agctgataaa 240
tgccagctgg tttcgccaac ccggtagcga tcttggcgcg ctgcttgttg tcactgatac 300
ctatcgagca agacagcccg gtttgcgaca aaatgacttt tcggatctct tcggcgactt 360
cgatggggtc gtcggga 377

154

259

DNA

Mycobacterium tuberculosis

154
aaagtcctgt gccggttcgc taaacacccg gcggacactc agacggtgct ggtggtgcgg 60
catggcaccg cgggcagcaa agcgcacttc tccgggggac gacagcaagc gaccgctaga 120
caagaggggt cgtgcgcagg cagaaacgtt ggtacacagc tgctggcgtt cggcgccacc 180
gatgtttatg ccgccgaccg ggtgcgctgc caccagacga tggagccact cgccgcggaa 240
ctgaacgtga ccatacaca 259

155

372

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

155
atactcaagc ttgggttcca cgcccgcgca gccacgccgt cacctttcca cgagacctca 60
cctgccgatc cgaaatggaa tcggccgtga cggaattggc gcaccgaaca cccaacgagg 120
tggtggcttc gtcgcgaacc gtcacccgag tcgcggccac cgtgcgcacg gcgacgttct 180
acacccgcac caagatccga aagctgcaag ctcccagcac cgatcccgac gtcatcaccg 240
ctgccgcccg gcacgtcctt gacctattcg agctggatcg gcccgtccgg ttgctgggag 300
tgcggttaga actggcctag aaccggcggg cacaccgcnc ctgggcgggg cgaattcttg 360
accgcnccgg cc 372

156

290

DNA

Mycobacterium tuberculosis

156
cgcggttggc gtagttggac gggtcgccct ccgaggccaa tgatgacgat gaccacgccg 60
atcacgatgg ccaccgagag ggacaacaac agaaagctga cgaatccctc cttggcggcc 120
ggggctttgt ggtcgccggt cgcgatgggc gcgaatttac ggcccgctcc cccaggccgc 180
cgcgaagcag ggtccccagc cagttggcgt aggcggaatt aacgatcagc gccaccgcga 240
taacctgcca tgcctcgggc atatcgatgt gcggccagaa caggccgaac 290

157

470

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

157
ccaacaagag catcgggaca tacggagtca actacccggc caacggtgat ttcttggccg 60
ccgctgacgg cgcgaacgac gccagcgacc acattcagca gatggccagc gcgtgccggg 120
ccacgaggtt ggtgctcggc ggctactccc agggtgcggc cgtgatcgac atcgtcaccg 180
ccgcaccact gcccggcctc gggttcacgc agccgttgcc gcccgcagcg gacgatcaca 240
tcgccgcgat cgccctgttc gggaatccct cgggccgcgc tggcgggctg atgagcgccc 300
tgacccctca attcgggtcc aagaccatca ncctctgcaa caacggcgac ccgatttgtt 360
cngacggcaa ccggtggcga gcgcacctag gctacgtgcc cgggatgacc aaccaggcgg 420
cgcgtttcgt cgcgagcagg atctaaccgc gagccgccca tagattcccg 470

158

434

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

158
taanacccgt gtaatttggg atgggcaaaa aggccaagca ccgcgtggcc acgaacgccg 60
ggagggacaa tctcgggcgg ctagggcttc tcgcgggaag gcccgaacgt acggcgtttc 120
aacacgtcgc gtcnccctcc gaccgcgaac attcggggat ggcagcaacc tggtagcncc 180
ctggccgggc gatgatctgc agcgtcgccg cgggtagtcg ccgcccgggc ggctacagtc 240
tgaaacgcga tgaccatcga tgtgtggatg cagcatccga cgcaacggtt cctacacggc 300
gatatgttcg cctcgctgcg ccggtggacc ggtgggtcta tcccggagac cgacntcccg 360
atcgaagcga ccgtctcctc gatggacgcc ggcggcgtca ccctgggttt gctcaccgcc 420
tggcgtggcc ccaa 434

159

363

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

159
gtccgcaaaa gactcagcgg ccgactttgc tcgcagctgg cggtaccgcg ccaccgattc 60
gatgccgtgg tcgcggaaga atgcctcccg aaatcgcacg gccgactcca gttcggcgag 120
catccgcgat gccagctgcg gctgcgccct gccggccacg gcacccacat gcggcagttc 180
gtccacctgg gccagcgccc cgccgccgaa gtccaaacaa tagaactgca cccggcccgc 240
atcgtgggta gcagccaacg ccatgatcag cgtccgcagc gcggttgact tgcccgtttg 300
cggtgcacct acgaccgcga cattgcctgc ggccccggac aagtcgatcg tcagcggcac 360
ccn 363

160

301

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

160
cgtggccacg aacgccggga gggacantct cgggcggcta gggcttctcg cgggaaggcc 60
cgaacgtacg gcgtttcaac acgtcgcgtc gccctccgac cgcgaacatt cggggatggc 120
agcaacctgg cagctacctg gccgggcgat gatctgcagc gtcgccgcgg gtagtcgccg 180
cccgggcggc tacagtctga aacgcgatga ccatcgatgt gtggatgcat catccgacgc 240
aacggttcct acacggcgat atgttcncct cgctgcgccg gtggaccggt gggtctatcc 300
c 301

161

436

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

161
atactcaagc tttgcggcgg gcgccgaaat gtgaacgcac caaacccgcc cgctgcgggt 60
cggcgggcca ctcgacctcg aatttcgccg ccgtgaccat ccagcccgac ggcagttggg 120
cacccggccc cccggtcgcg gcataactgt tggcgtcgcc gtcataaagc tcgaacagca 180
ccgaaaccga ctccaccacc ggccggtgcg cctcaaaatc cacgccgatc tccacatacc 240
gggaaaacgt cggtgtccca tcgggtttcg gcttgcccgc cagctgcaca ccaccggtgg 300
cctcggccac cttcgcggcc tgagcgcagc tacncatcct gacgatcatc accccgcccc 360
cggctcacgc ttggcctccg tgaccgcacg catcgcccgg ttgcgcgcac cgcgacgccc 420
gtacagccgc gcgcac 436

162

390

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

162
agcttgccgg gactgcggaa cagaagcggc ggttcctacc gcggtgtgcg gccggcgcga 60
tatcggcctt tttactaacc gaacccgatg tgggctccga tccggcgcgc atggcatcga 120
cggcgacgcc gatcgatgac ggccaggctt acgagcttga gggtgtgaag ttgtggacca 180
ccaacggtgt ggtagcggac ctgctagtgg ttatggcgcg ggtaccgcgc agtgaagggc 240
accgaggggg aatcagcgcc tttgtcgtcg aggctgattc gcccgggatc accgtggagc 300
ggcgcaacaa gttcatggga ctgcgtggca tcnaaaacgg cgtgacccgg cttcatcgcg 360
tcngggtgcc caaagacaac ttgatcggca 390

163

75

DNA

Mycobacterium tuberculosis

163
ctcaagcttg gcgatgcggg ctggccaaaa ctggccgggc gggggttggc ttgttcaatc 60
aagggtgggt tgccg 75

164

110

DNA

Mycobacterium tuberculosis

164
ccgaaggccc gttcccgggc gttcagcaag cgatcgtcgg ttggcccact gcgggtcgaa 60
tcttgcggcc gcgccggtcg tggaacgccc aggtcacccg gcggcgtacc 110

165

455

DNA

Mycobacterium tuberculosis

165
atactcaagc ttttttctgc tcatgaaggt tagatgcctg ctgcttaagt aattcctctt 60
tatctgtaaa ggctttttga agtgcatcac ctgaccgggc aaatagttca ccggggtgag 120
aaaaaagagc aacaactgat ttaggcaatt tggcggtgtt gatacagcgg gtaataatct 180
tacgtgaaat attttccgca tcagccagcg cagaaatatt tccagcaaat tcattctgca 240
atcggcttgc ataacgctga ccacgttcat aagcacttgt tgggcgataa tcgttaccca 300
atctggataa tgcagccatc tgctcatcat ccagctcgcc aaccagaaca cgataatcac 360
tttcggtaag tgcagcagct ttacgacggc gactcccatc ggcaatttct atgacaccag 420
atactcttcg accgaacgcc ggtgtctgtt gacca 455

166

309

DNA

Mycobacterium tuberculosis

166
ctcaagcttg gtgccgacat ggccgggctg gagcccgcgt atggcaaggt tccgctcaat 60
gtggttgtga tgcagcagga ctacgttcgc ctcaatcagc tcaaacgtca cccccgtggc 120
gtgctgcgca gcatgaaggt cggcgcccgc acgatgtggg cgaaggcaac aggtaaaaac 180
ctggtcggca tgggtcgagc cctcattggg ccgttgcgga tcgggttgca ccgcgccgga 240
gtgccggtcg aactcaacac cgccttcacc gatcttttcg tcaaaaatgg cgtcgtgtcc 300
ggggtatac 309

167

232

DNA

Mycobacterium tuberculosis

167
ccgaagcgtg ggaaatcctg accgaatacc gcgacgtgct ggacactttg gccggcgagc 60
tgctggaaaa ggagaccctg caccgacccg agctggaaag catcttcgct gacgtctaaa 120
agcggccgcg gctcaccatg ttcgacgact tcggtggccg gatcccgtcg gacaaaccgc 180
ccatcaagac acccggggga gatcgcgatc gaaacgcggc gaaacttggg cc 232

168

455

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

168
cgactcgaca agcattcttg acagttgttt tggctcggca tggttagcca aggttctgcg 60
gtcccaccag atcatcttgg tccggtagcg ctcgtccggg tatgctgccg ccgggattct 120
cgctgctatt actccccccg aaaaacgcca ccggtccagc gcgtgggccg ccgcggtccc 180
catcacaaac tgaaccccca acaggggaca tgcttagcgg tagggcgcgc gccaaggcgg 240
cagcaatcgc atcactgcgc tgcgcgtcac tattaaccca cccggacttc acttccacga 300
ccccgaatgg cgcccggtca ttgatcatct tgcgcaccgc ggataatccg ggattgccag 360
cccattcgac taccgcatgc gagtcatcgg ctgaccgcag cggtccgatt acccgagcgc 420
cccgantaca tctcctccaa tatcaatggg cgcaa 455

169

428

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

169
gcggtntagc ttcccgtcgt accggcgacc gccagccgag aagctcgttt tcccagtgtt 60
gctggggatt ctcacgctgc tgctgagtgc gtgccagacc gcttccgctt cgggttacaa 120
cgagccgcgg ggctacgatc gtgcgacgct gaagttggtg ttctccatgg acttggggat 180
gtgcctgaac cggttcacct acgactccaa gctggcgccg tctcgtccgc aggtcgttgc 240
ttgcgatagc cgggaggccc ggatccgcaa tgacggattc catgccaacg ctccgagttg 300
catgcggatc gactacgaat tgatcaccca gaaccatcgg gcgtattact gcctgaagta 360
cctggtgcgg gtcggatact gctatccggc ggtgacgacc cccggcaagc cgccatccgt 420
gctgctgt 428

170

385

DNA

Mycobacterium tuberculosis

170
ctcaagcttg ggcgtgacgg ccaccggggc cactccgcac aatctgtacc cgaccaagat 60
ctacaccatc gaatacgacg gcgtcgccga ctttccgcgg tacccgctca actttgtgtc 120
gaccctcaac gccattgccg gcacctacta cgtgcactcc aactacttca tcctgacgcc 180
ggaacaaatt gacgcagcgg ttccgctgac caatacggtc ggtcccacga tgacccagta 240
ctacatcatt cgcacggaga acctgccgct gctaaagcca ctgcgatcgg tgccgatcgt 300
ggggaaccca ctggcgaacc tggttcaacc aaacttgaag gtgattgtta acctgggcta 360
cggcgacccg gcctatggtt attcc 385

171

318

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

171
cgggtgtcat tggccaccgg cggcggctgt ccgggaaatg gcgggtcccc ggtggttttg 60
ctgaggagtg ctgaaccgta gtcgaagtgg gcggcgtcag actccaccca gccagcaggc 120
agcgcgaagc tgaatcctcc aaccgggttg tcgatccgga caggttgggg tgcgtttggg 180
gcaatgacag gtggcggcgg tgcgttcggg tcggccggcg gaggtgctgc gttgggatcg 240
cccggctggg cattcggcgt gttggcggcg gccggtggtg ggggggcaac angtgtcgcc 300
ggtgcgggtg gcgctgca 318

172

443

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

172
ncttgatatt ggcgtcaacg gtgtcggcac cggcgtcctg cagttggtag gcctgcagtt 60
tgtgcatcag gccgatgccg cggccctcgt ggccacgcat gtacagcacc acgccgcgcc 120
cctcacgggc gaccatcgcc agcgcggcgt ccagctgagg cccgcaatcg cagcggcgtg 180
acccaaacac atcgccggtc aagcactccg aatgcacccg gaccagcacg tcgtcaccgt 240
cggcgttggg cccggcgatc tcgccgcgga ccagcgcgac atgttccacg tcctcgtaga 300
tgctggtgta gccgatggcg cgaaactccc catgacgagt cggaatccgc gcctcggcga 360
cccgctcaat gtgcttctcg tgcttgcgcc gccattcgat caagtcagca atggtgatca 420
gcgccagacc gtgctcntcg gcg 443

173

420

DNA

Mycobacterium tuberculosis

173
cataagggcc ggcgtacccg gtaccggccg cgggcctacc acgtgccgga actggaagcg 60
cagtaagccc tcaacgcgcc accgctttgg cccgcgcgcc cggcgtaggc gcatcggcgg 120
tggccgtggg gcggcgcact gcgacctcac cagcggcttt cgagctttgt tcgatcaacc 180
ggccagcatg gtcgaggatg cattcgagac catattcgaa attggtttca tcgggggccc 240
cgatccgatg ccccctccca gttgcgtgag caagcagcgg agtcgtcgcg ggatcgatgg 300
ccacggggtg ttcaatggcg gatggtccgc tgcccgccga ctggctcttg cgggagagcc 360
gatctagcac caccgatccg cgcacgtgga ccgaaaccgc cgagtagatg tcgaaagcgt 420

174

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

174
cgtccttttc cccaagatag aaaggcagga gagtgtcttc tgcatgaata tgaagatctg 60
gtacccatcc gtgatacatt gaggctgttc cctgggggtc gttaccttcc acnagcaaaa 120
cacgtagccc cttcagagcc nnatcctgag caanatgaac agaaactgag gttttgtaaa 180
cgccaccttt atgggcagca accccgatca ccggtggaaa tacgtcttca gcacgtcgca 240
atcgcgtacc aaacacatca cgcatatgat taatttgttc aattgtataa ccaacacgtt 300
gctcaacccg tcctcgaatt tccatatccg ggtgcg 336

175

264

DNA

Mycobacterium tuberculosis

175
ctcaagcttc atgtccgtac ggctcgggta cgcttccgtc gcagtgtgcg agtgataaat 60
gacgaccggg acctcgtcgg catcttccat agcccgccac accttcagtt gctcaccgga 120
atccaaccgg tagaaggtcg gcgagcgctc ggcattggtc atcgggatat gccgctcggg 180
acggtcagag ccctcgggtc cggccagcac tccgcaggct tcgtcggggt ggtcgcgaca 240
cgcatgggcc accatcgcat tcac 264

176

325

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

176
ncgccgccag ccaccacgcg cgggtcgggc gccgggcccg ggccgccagg ctgctccgct 60
cggtgatggc acgccaccgc gacaccaccc ggctgcgcta cgtcgagcca taccgggcgg 120
agctacatcg gctcggccgc ccagtgttcg ggccctcttt cgaggtcgag gtcgataccg 180
atttgcgcat ccgcagccgc accctggacg acagaaccgt gccctacgan tgcttgtcgg 240
gcggggccaa agaacagctt ggcatcctgg cgcgattggc cggcgcggcg ctggtctcca 300
aagaagacgc ccttccggtg ctgat 325

177

243

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

177
cgccacgttc atgggcaaca accccgatca ccggtggaaa tacgtcttca gcacgtcgca 60
atcgcgtacc aaacacatca cgcatatgat taattcgtcc aattgtataa ccaacacgtt 120
gctcaacccg tcctcgaatt tccatatccg ggtgcggtag tcgccctgct ttctcggcat 180
ctctgatagc ctgagaagaa accccaacta aatccgctgc ttcncctatt ctccagcgcc 240
ggg 243

178

430

DNA

Mycobacterium tuberculosis

178
atactcaagc ttcaaccgat tgacgcattg tgcgaactga cggcgcccgc gcatggccaa 60
tccggaagac catcattggc cagtggccgg gcgctaacag gttccagccc cccaccagtg 120
ccgctcgaac atgcggtgca acccattcgc aggccggcag ggaaagcacc gcggaagccg 180
caaagggctg cagttccgcg cccaatagtg tcgtccgcaa ccagatgcgc tcgaaaaccg 240
cgccggcagt cagcgcaccc gacgcgaggt cgagagacgt cgtcagcgcg cccacatggg 300
gtgccaatcg gcacggcagg taggccgcgc gcaacccgaa cgcgtggtgc atgcccacgg 360
tccgcaggag gcgcagcacc cgccaatgcc gaagcccacg aaacatcggg cgcatccacg 420
cttcaacctc 430

179

448

DNA

Mycobacterium tuberculosis

179
agcttttggc agggtctcct tcgaattcgg cgtgcaccgc tatgggttgc agcagcggct 60
ggcgccgcac accccactgg cccgggtgtt ttcgccccga acccggatca tggtgagcga 120
aaaggagatt cgcctgttcg atgctgggat tcgccaccgc gaggccatcg accgattact 180
cgccaccggg gtgcgagagg tgccgcagtc ccgctccgtc gacgtctccg acgatccatc 240
cggcttccgc cgtcgggtgg cggtagccgt cgatgaaatc gctgccggcc gctaccacaa 300
ggtgattctg tcccgttgtg tcgaagtgcc tttcgcgatc gactttccgt tgacctaccg 360
gctggggcgt cggcacaaca ccccggtgag gtcgtttttg ttgcagttgg gcggaatccg 420
tgctctgggt tacagcccga atcgtcac 448

180

380

DNA

Mycobacterium tuberculosis

180
atactcaagc tttgtcacac caactgtttc caccaggcgc tccatccggc gagtggatac 60
tcccagcagg tagcaggtcg ccaccacgct ggtcagtgcg cgttcagctc gcttgcggcg 120
ctgcagcagc cagtccggga aatagctgcc ctggcgcagc ttggggatcg cgacttctat 180
ggttgcggca cgggtgtcga aatcacggtg gcggtagccg ttgcgctgat tggaccgctc 240
atcgctgcgt tcgcggtagc ccgccccgca cagggcgtcg gcttcagccc ccatcaaggc 300
ggcgatgaac gtcgagagca gcccgcgcag cagatccggg ctcgcctgtg cgagttggtc 360
agccagaacc tgctcggtgt 380

181

532

DNA

Mycobacterium tuberculosis

181
ccttaagccc cgcagggccc ggcacgcgcg gtaccgccca ggtcgcccaa cagatcgtcg 60
atgttcgcgt cgtccgcctc gcgcacgtgg tctgtcacca gtcaacgtta acgccgccgc 120
acatgtcctg cggccgggca aaaacgtgaa aaacgagcgg gcgactgcaa tgtcatgaca 180
ccgacggccg ccgatgggcc cagggtctgg cagattcgat ctgtgcggcc agtgccagca 240
gcgtcgcctc gtcatacggc cggccgacga gttgaaccga catgggcagg ccgtcgccgt 300
cgaagtccca cggcaccacg gccgcgggct ggccggtcag attccagact tgaaagtacg 360
gaacccgctg caccaccagc agcaacgtcg aaactgcacc ccggcgttgg taggcgccga 420
tgcgggacgg gccggtcgcg gcgcctggcg tcacaactac gtcgacatcg tcgaagatcg 480
actggatcgg ctgctcacac cactcggcgg ccgcaggccg ccatccgccg tc 532

182

477

DNA

Mycobacterium tuberculosis

182
agctttttga gcgtcgcgcg gggcagcttc gccggcaatt ctactagcga gaagtctggc 60
ccgatacgga tctgaccgaa gtcgctgcgg tgcagcccac cctcattggc gatggcgccg 120
acgatggcgc ctggaccgat cttgtgccgc ttgccgacgg cgacgcggtg ggtggtcaag 180
tccggtctac gcttgggcct ttgcggacgg tcccgacgct ggtcgcggtt gcgccgcgaa 240
agcggcgggt cgggtgccat caggaatgcc tcaccgccgc ggcactgcac ggccagtgcc 300
gcggcgatgt cagccatcgg gacatcatgc tcgcgttcat actcctcgac cagtcggcgg 360
aacagctcga ttcccggacc gcccagcgca ttggtgatgg aatcggcgaa cttggccacc 420
cgctgggtgt tgacatcctc gacggtgggc aattgccccc ggtaacgttt gccgcct 477

183

461

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

183
cggtccgacc ctgttcgacg gctacctgaa tcaacccgat gccaccgccg cggcgttcga 60
cgccgacagc tggtaccgca ccggcgacgt cgcggtggtc gacggcagtg ggatgcaccg 120
catcgtggga cgcgagtcgg tcgacttgat caagtcgggt ggataccggg tcggcgccgg 180
tgaaattgaa acggtgctgc tcgggcatcc ggacgtggcg gaggcggcag tcgtcggggt 240
gcccgacgat gatctaggcc agcggatcgt tgcctacgta gtcggctcag cgaatgtcga 300
tgcggacggg cttatcaact ttgttgccca acaactttcg gtgcacaagc gcccgcgcga 360
ggtgcgtatc gtanatgcgc tgccgcgcaa cgccttgggg aaagtgctcc agaacattgc 420
tgtcagaagc tganctacgc gaattatcgt gttacgctgg a 461

184

440

DNA

Mycobacterium tuberculosis

184
atactcaagc ttgccgaagt tccgatgggt cgcgccggcg agcccagcga agtcgctacc 60
gtggccgtgt tcttggcttc ggatctatcc tcgttcatga ccggcaccgt gttggacgtg 120
actggcggcc ggtccatatg acaccgagat cattgccacg gtacggcaat tcgtcaagaa 180
ggaaatcttt cccaatgcac cggccctcga acgtggcaac agctacccgc aagaaatcgt 240
cgatcggctg ggtgttattg gcttgctcgg tcgccggctg caagggtatc gacaccaccg 300
agttcattct cgggcgtgcc ggcgcattcg agctggcggt gcgcgctgcc cagcaccgtc 360
ataggtactt gacgatggtc cacgtcggac gagcgcctcc acgtcgctgc cgaacggtat 420
gcatggcggc tacgattctc 440

185

515

DNA

Mycobacterium tuberculosis

185
cggtgtcggc accggcgtcc tgcagttggt aggcctgcag tttgtgcatc aggccgatgc 60
cgcggccctc gtggccacgc atgtacagca ccacgccgcg cccctcacgg gcgaccatcg 120
ccagcgcggc gtccagctga ggcccgcaat cgcagcggcg tgacccaaac acatcgccgg 180
tcaagcactc cgaatgcacc cggaccagca cgtcgtcacc gtcggcgttg ggcccggcga 240
tctcgccgcg gaccagcgcg acatgttcca cgtcctcgta gatgctggtg tagccgatgg 300
cgcgaaactc cccatgacga gtcggaatcc gcgcctcggc gacccgctca atgtgcttct 360
cgtgcttgcg ccgccattcg atcaagtcag caatggtgat cagcgccaga ccgtgctcat 420
cggcgaacac cgcaattcat cggtgttgcg ccatcgagcc ctcatctttt tggctgacga 480
tctcgcaaat cgcccccgcg ggttgcagcc ggcat 515

186

345

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

186
atactcaagc tttgggtgaa agccgatcac cggaagccgc atgatcagcc acgtttcgcg 60
ccgcccggca tacggcggcg taccgatctc cgcgtcatac acccgcgggt aatcgccgac 120
ggtgccggtt cgcgagccga aggtgacgac gctgattgaa tcgagttcca ggtccagcgg 180
gtggcgcagc aacggcgcga gctcaacgac gtcaatcacg ttgtcgcttt ctacggtcac 240
cgacccggtg accgtnctcg cccggtgcgc tcggccgata agttgcaccg ccaccaccgc 300
gacaccgtct tgcacgcgga cccacccccg gatccgttgt tggcc 345

187

366

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

187
agcttgctgg catccgctcc agtagcgccc cgcgcgtggc ttccagcgcc cgcagatgct 60
ccatgagccg gccggtcgag tcggcgccgg cgttcaccgc cacccgccag gagctggcgg 120
ccagcatctc cgccttcacg cattgcgcga tcacagagag aatatacgtc tcatattcgt 180
tggaggtcgt cgcaggcaat cggtcgatga cggatttgat ggcatcgagc tgtgcttcgg 240
cgtagccctc cagcacgtcg gtatcgctgt ggcggtccac gacgaccgca ccggcgcggc 300
ggacagccgt cgggttggac gntgtgcggc gatcagtccg gccagctccg cctcgggatc 360
agcggc 366

188

423

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

188
atactcaagc ttgctgcagc ttcctatgac tgctcccgaa acctgggggt gtgcctgctg 60
tgtatgcacg gcatacggac atccttcccc tgagacccgc ggtcgaacca gccacgtgtc 120
catcatcagg ggtcaacccc ggccaagggc gacggcacgc caagttcgcc gaccgttaac 180
ctagtgctgt tagcttcatt tgctgcgagc aaaacagctg gtcggccgtt aggaactgaa 240
ttgaaactca accgatttgg tgccgccgta ggtgtcctgg ctgcgggtgc gctggtgttg 300
tccgcgtgtg gtaacnacna caatgtgacc gggggaggtg caaccactgg ccaggcgtcg 360
gcgaaggtcg attgcggggg gaagaagaac tcaaagccag tgggtcgacg cgcaggccaa 420
cgc 423

189

453

DNA

Mycobacterium tuberculosis

189
agcttgacgc ggagacggac acattgcgaa cattgatgac aaaatagaaa tcattgatgg 60
tttgagtcac caggccgatc aagccttcgc cgagccaaat tccaatcaag aggcccaagc 120
ccgtaccaat cagcccggca acgagggatt ccgtcattat cagccaaaat aactgctctc 180
gggttacacc caaacagcgc aatatggcga aaaacggtcg ccgttgcacg acattaaatg 240
tcacggtatt gtagattaaa aagataccca ccaacaaggc aatcaaactg agagcggtta 300
aattgaccgt aaaagcgtcc gtcatctgtt tgacggtgtc ccgttgggta tccgacgttt 360
ccatacgcac accggccggc agtctttgtt ggatgcgtgt tgcagtggcc tcatctttga 420
tgatcaaatc gatgtggctc agtcttccgg gca 453

190

402

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

190
atactcaagc ttcggctcag gcggcgctgc tggtaaagtc gctgaccggt gcaggtttcg 60
acaatgtggt gccggttcgg cggctacgtg ccatcgagac actggcgcag gctatcgcac 120
ccgttatcgg ctacgagcaa atcgcggtat gcgttcttga gcatgagtcg gcgaccgtcg 180
tcatggtcga cacccacgac ggaaagacgc agatcgccgt caagcatgtg tgccgcggat 240
tatcaggact gacctcctgg ctgaccggca tgtttggtcg cgatgcctgg cgcccggccg 300
gcgtggtcgt ggtccgctcg gatagcgagg tcagcgaatt cncntggcag ctccaaaggg 360
tcctgccggt gccggtcttt gcgcaaacna aggcncaggt ta 402

191

427

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

191
tgatcgcgca tcacctgctt cataaactgg aagcagcgca gcgcttcctt ttcggccgca 60
acatgagcca gcctctcgtc ggcggtcggg tgcaggtgct cgggcagctc ggccgcgaca 120
gccgcctgac cctgaaacca gcttccatat cccgcgacga acgacgccag tccgctacgt 180
aacccctccg cgactgtcca tggacaacag cgcgttctcc accgaccggg cccgggtgtg 240
gggtgtttcg gcgaccggca gccaggtggt ccacactgcc gacgggcgcc gcgagccgtt 300
caccgaccag gccgccgagc aagtccgccc gatcgcatac tccaaccggt tgcggtactg 360
caggttcagc tggcgtactc ctcgtcgcgc tcggcgaggt cttgctccag cacgtcgcan 420
acggcag 427

192

347

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

192
caaagcgcga actgctcgcg gcagcccacg acgtgctgcg tcggattgcc ggcggcgaaa 60
tcaattccag gcagctcccg gacaatgcgg ctctgctggc ccgcaacgaa ggactcgagg 120
tcaccccggt gcccggggtc gtggtgcacc tgccgatcgc acaggttggc ccacaaccgg 180
ccgcttgatg cccggtcggc aagcccggca gttgccaaac ccagcgtgat caggctcggc 240
tcgcgagttc cgggaagaag tggctccgcc tgatcaccta ccatccgcca ggatctgcgt 300
gtcttcacca cgcccgccaa ggaggttgtt gtggtgctat cgaccgn 347

193

330

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

193
ccggaagccg catgatcagc caagtttcgc gccgcccggc atacggcggc gtaccgatct 60
ccgcgtcata cacccgcggg taatcgccga cggtgccggt tcgcgagccg aaggtgacga 120
cgctgattga atcgagttcc aggtccagcg ggtggcgcag caacggcgcg agctcaacga 180
cgtcaatcac gttgtcgctt tctacggtca ccgacccggt gaccgtngtc gcccggtgcg 240
ctcggccgaa aanttgcacc gccaccaccg cgaaaccgtc ttgcacnccg gaagccaccc 300
ccgatccgtt gttgggccag gttattgggt 330

194

215

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

194
ccggaaccgc cgacggcacg gtataacgcc tccgcatatg ggtcgacaac cagcgggtcg 60
gacttctggg cttctagcgt tcgcgcngtc gcgacaaaca gcgcggtcga accgacactc 120
gttgtgatgt cctagctatc acgttcggta cgcacccaat cgagtctagc gcgggtagnt 180
cagccccgat ctccangctc cgccgagcca ggcgc 215

195

225

DNA

Mycobacterium tuberculosis

195
ctggtttatg tcccgttgaa gttccatcac ccgatgtggc gggagcactg ccaggtcgat 60
ctcaactacc acatccggcc gtggcggttg cgcgccccgg ggggtcggcg cgaactcgac 120
gaggcggtcg gagaaatcgc cagcaccccg ctgaaccgcg accacccgct gtgggagatg 180
tacttcgttg aggggcttgc caaccaccgg atcgcggtgg ttgcc 225

196

161

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

196
ccgagcagtt gggaatcgct ctgcancaaa ccaatattct gcgcgacgtc gcgcgacgag 60
ctggaccgat taggcgtacg cctccgnctg gacgacaccg gggcactcga tgaccccgac 120
gcctacgctc gcaggatatt gttcgccgga cccctctcta g 161

197

240

DNA

Mycobacterium tuberculosis

197
tatataatac tcaagcttgc cgacgccaac gctcgcgcga tgttgttagc ccgacccggc 60
tcttacatgg caccggtgcc ccacacgtca gcctgtgacg tcctgcaccg cgactcttta 120
catagaatgt ggattgccgg attggggatg tccggcatcg ctcaatctgt agtccgcgtt 180
gtcccgcgag ggccatgtgg atggggggaa ggatccgtgg cgtccgggat caccatgggg 240

198

348

DNA

Mycobacterium tuberculosis

198
atactcaagc ttgccgaagt tccgatgggt cgcgccggcg agcccaacga aatcgctagc 60
gtggccgtgt tcttggcttc ggatctatcc tcgtacatga ccggcaccgt gttggacgtg 120
actggcggcc ggttcatatg acaccgagat cattgccacg gtacggaaat tcgtccagaa 180
ggaaatcttt cccaatgcac cggccctcga acgtggcaac agctacccgc aagaaatcgt 240
caatcggctg ggtgttattg gcttgctcgg tcgccggctg cgagggtttc tacaccaccg 300
agttcattct cgggcgtgcc ggcgcattcg aactggcggt gcgcgctg 348

199

371

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

199
gcaccggcgt cctgcagttg gtaggcctgc agtttgtgca tcaggccgat gccgcggccc 60
tcgtggccac gcatgtacag caccacgccg cgcccctcac gggcgaccat cgccagcgcg 120
gcgtccagct gaggcccgca atcgcagcgg cgtgacccaa acacatcgcc ggtcaagcac 180
tccgaatgca cccggaccag cacgtcttca ccgtcggcgt tgggcccggc gatctcgccg 240
cggaccaacg cgacatgttc cacgtcctcg tagatgctgg tgtagccgat ggcgcgaaac 300
tccccangac aagtcggaat ccgcgcctcg gcgaaccgct caatgtgcct ctcgtgcttg 360
cgccgccatt c 371

200

165

DNA

Mycobacterium tuberculosis

200
tggtccgtgt gcgcatacca atacaacgcg ccgggcacct gacgcggcgg ccgcaaccaa 60
tcggtggcca tcgccatctt ctgctacccg gtcaacggac gcaccttctc ctggccgacg 120
tagtgcgccc acccgccgcc gttgcgtccc atcgatccgg tcaac 165

201

390

DNA

Mycobacterium tuberculosis

201
ggcgtgttgg ccaccggggc cactccgcac aatctgtacc cgaccaagat ctacaccatc 60
gaatacgacg gcgtcgccga ctttccgcgg tacccgctca actttgtgtc gaccctcaac 120
gccattgccg gcacctacta cgtgcactcc aactacttca tcctgacgcc ggaacaaatt 180
gacgcagcgg ttccgctgac caatacggtc ggtcccacga tgacccagta ctacatcatt 240
cgcacggaga acctgccgct gctaaagcca ctggcgatcg gtgccgatcg tggggaaccc 300
actggcgaac ctggttcaac caaacttgaa ggtgattgtt tacctgggct acggcgaccc 360
ggcctatggt tattcgacct ccccgcccaa 390

202

427

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

202
cgtccgtgnc ccctcaancg cgtgnngccg aagcggctgg ttacgactcc ctgtttgtga 60
tggacacttc taccaactgc ccatgttggg gacgcccgac cagccgatgc tggaggccta 120
cacggccctt ggtgcgctgg ccacggcgac cgancggctg caactgggcg cgttggtgac 180
cggcaatacc taccgcagcc cgaccctgct ggcaaagatc atcaccacgc tcgacgtggt 240
tagcgccggt cgagcgatcc tcggcattgg agccggttgg tttgagctgg aaacaccgcc 300
agctcggctt cgagttcggc actttcagtg accggttcaa ccggctcgaa gaggcgctac 360
agatcctcca gccaatggtc aagggtgagc gcccaacgtt tttcggcgat tggtacacca 420
ccgaatc 427

203

498

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

203
ccgcttccgt gtaaccgagc anngcgagcg anctggcgag gaagcaaaga agaactgttc 60
tgtcagatag ctcttacgct cagcgcaaga agaaatatcc accgtgggaa aaactccagg 120
tagaggtaca cacgcggata gccaattcag agtaataaac tgtgataatc aaccctcatc 180
aatgatgacg aactatcccc cgatatcagg tcacatgacg aagggaaaga gaaggaaatc 240
aactgtgaca aactgccctc aaatttggct tccttaaaaa ttacagttca aaaagtatga 300
gaaaatccat gcaggctgaa ggaaacagca aaactgtgac aaattaccct cagtaggtca 360
gaacaaatgt gacgaaccnc cctcaaatct gtgacagata accctcagac tatcctgtcg 420
tcatggaagt gatatcgcgg aaggaaaata cgatntgagt cgtctggcgg cctttctttt 480
tctcaatgta tgagagcg 498

204

265

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

204
tgacacccaa cagagggcac ttaagatggc aatgcggccg cctacctgca cgttttcgcg 60
atgtcagagg atgccgaggg agaacaatgc gagcacggcc gctgacnttg ctcaccgctt 120
tggcggcggt gacattggtg gtggttgcgg gctgcnaggc ccgantcnag gccgaagcat 180
atagcgcggc cgaccgcatt tcgtctcgac cgcaagcgcg acctcagccg cagccggtgg 240
agctactgct gcgcgccatc acgcc 265

205

369

DNA

Mycobacterium tuberculosis

205
acgggcgacg ctgaggtggg cccgcggcta ttcatgctgt cgtccacgtc cagcgacgca 60
ctgcgccaga cggcccgcca actagccacc tgggtggaag aacaccagga ctgcgtggcg 120
gcctcggatc tggcctacac gctggcgcgt ggccgcgcgc accggccggt gcgcaccgcg 180
gtggttgccg ccaacctgcc ggagctcgtc gagggtttgc gcgaggtggc cgacggtgac 240
ccctctatga cgcggcggtg ggacactgtg atctaagacc ggtctgggtc ttctccgggc 300
aagggtctca gtgggcggcg atgggcaccc aattgctcgc cagcgaacca gtgttcgcgg 360
ccaccatcg 369

206

428

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

206
atactcaagc ttcgcgagat ccggatggca ctcacgctgg acaagacctt cacaaaatct 60
gaaatcctga cccgatactt gaacctggtc tcgttcggca ataactcgtt cggcgtgcag 120
gacgcggcgc aaacgtactt cggcatcaac gcgtccgacc tgaattggca gcaagcggcg 180
ctgctggccg gcatggtgca atcgaccagc acgctcaacc cgtacaccaa ccccgacggc 240
gcgctggccc ggcggaacgt ggtcctcgac accatgatcn aaaacttccc ggggaggcgg 300
aggcgttgcg tgccgcccag ggcgaaccgc tgggggttct gccgcagccc aatgattgcc 360
gcgcggctgc atcgcgggcg gcgaccgcca ttcttctgcg aatacgtcca ggagtactgt 420
ctcggggc 428

207

378

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

207
agcttatgtg gccgcccacc taccttatct agcctagcta actaaatcca gtgccgacag 60
tgcgcggctg gccacccagc atgaggttat gaccacggca tatgccagcg cgctggcggc 120
gatgccgacg ctgaccgagt tggccgctaa tcacaccagc catgcggtgt tgctgggaac 180
gaatttcttt ggaatcaata cgatcccgat cgcgctcaat gaggccgact atgcgcggat 240
gtggattcag gcggccacca cgatgagtat ctatgagggc acctccgatg cggcgctggc 300
gtcngcaccg caaaccacac cggctccggt actgttcaac ggcggtgctg gcgtttgcca 360
gcgcctgccg gcgatctc 378

208

284

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

208
atactcaagc ttgccaccca tgccgagcaa ggtcgactca gcgatgacga attgttcttc 60
ttcgcggtgt tgctgctggt tgcgggctat gagagcactg ctcatatgat tagcacnttg 120
tttctgacgc tggccgacta tccagatcag ctgacactcc ttgcgcagca accagacctg 180
atcccgtcgg cgatcgagga gcacctccgc tttatatcgc aatccaaaac atctgccgca 240
caacgcgcgt cgactattcg gtcggtcaag cggtcatccc ggga 284

209

236

DNA

Mycobacterium tuberculosis

209
ccggggtaga acgatgcgat ctgggccatg tcgacatcgg tggtacaggt aaaccgcgcc 60
gtgtgcgcgg tctcggagat cagaacgtgg tcgcagttga caccgcgggc tttcagccag 120
tcgcgataat cggcgaagtc ggcgcctgcc gccccaacta gcgcgacctc gccacctagc 180
acaccgatgg cgaaggccat gtttccggcc acgccgccgc ggtgcatcat caactc 236

210

278

DNA

Mycobacterium tuberculosis

210
atactcaagc ttggcggcaa cgccactacc gggctcacca ggtcctgtgc cgccaccgcc 60
ggcgccgaaa gcaccatcag gtcgtagttg tctggacgtt cgacaccgta agcgaacaca 120
atgccgccgc ccatgctgtg cccgagcacg atgcgcttgc acccgggata ttcccgggtg 180
gcgatcccaa cgagggtgtc gaagtcagcg gtgtatctga gatgtctctc actatcatcc 240
gtttggcacc cgagcgggca tgcccgcggg gggtcaac 278

211

360

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

211
gtcgacggca tcaaggtccg cagtgatggt gttcatctca cccaggaagg cgtgaagtgg 60
ctgataccgt ggcttgagga ttcggtgcgg gtcgccagtt aatccgccgt gtgctccgga 120
tgagcgcgac ggtaaccctg gaattgtgct gtgtgctggc tgtgtcgttg tgatgagcct 180
gtctaagtgg tgcgtaaccg tttgacgagc cgcggcctcg ctgcaaacat tgaagcccgc 240
acgtctgggt ttgtatttac acaacgaggg cgctccccga tctggcgcgc gcaacgaggt 300
gcncactatc cattcgaggt gaactggact ccttgatgct catgccggtg cggttttgtc 360

212

256

DNA

Mycobacterium tuberculosis

212
atactcaagc ttgcgttcga tgaagtagtc gtcggtcagc gccgcctctt cgagctcctt 60
ggcgatgccc agcaaggagt catcgccgcc gagcttggcc aggatcttgt cggcctgttc 120
cttgacgatg cgggcccgcg gatcgtagtt cttgtagaca cgatgaccga aacccatcaa 180
tttgaccccg gcctcgcggt tcttgacctt gcgttacaaa ctcgctgacg tcgtcgccgc 240
tgtcgcgaat gccctc 256

213

262

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

213
ngtcaagccg agcatgcgcg aggnaacgac gaacccaaca agccatggtg gttggcgccg 60
tcgagaggtc ggcggtcgcc acaacgggaa gatcgccttg agcgtcgctc gaccgccgcc 120
tcgagttggg tcataacgaa gtagctgatg ccgatcatgt cgacgtttcc gtcgcatcag 180
cgtgcagcgg cgacccactc gacgaggtct cggtgccgcc gcggccaggg caccagcagt 240
gacgattcca ggcgccgtcg gg 262

214

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

214
cgataatcgc ttccggtaag tgcagcagct ttacgacggc gactcccatc ggcaatttct 60
atgacaccag atactcttcg accgaacgcc ggtgtctgtt gaccagtcag tagaaaagaa 120
gggatgagat ctccccgtgc gtcctcagta agcagctcct ggtcgcgttc attacctgac 180
catacccgag aggtcttctc aacactatca ccccggagca cttctagagt aaacttccca 240
tcccgaccac atataggcta aggtaatggg cattaccgcg agccattact cctacgcgcg 300
caattaacga atccaccatc ggggccgctg gtgtcn 336

215

259

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

215
naatactcaa gctttctcgt gattaccacc cgtgtaattt gggatgggca aaaaggcgaa 60
tcaccgcgtg gccacaaacg ccgggaggga caatctcggg cggctagggc ttctcgcggg 120
aaggcccgaa cgtacggcgt ttcaacacgt cgcgtcgccc tccgaccgcg aacattcggg 180
gatggcagca acctggtatc accctggccg ggcaatgatc tgcagcgtcg ccgcgggtag 240
tgnccgcccg ggcggctac 259

216

325

DNA

Mycobacterium tuberculosis

216
ccaactagag catcgggaca tacggagtca actacccggc caacggtgat ttcttggccg 60
ccgctgacgg cgcgaacgac gccagcgacc acattcagca gatggccagc gcgtgccggg 120
ccacgatgtt ggtgctcggc ggctactccc agggtgcggc cgtgatcgac atcgtcaccg 180
ccgcaccact gcccggtctc gggttcacgc agccgttgcc gcccgcagcg gacgatcaca 240
tcgccgcgat cgccctgttc gggaatccct cggggccgcg ctggcgggct gatgatcgcc 300
ctgacccctc aattcgggtc caaga 325

217

300

DNA

Mycobacterium tuberculosis

217
atactcaagc ttgctgcagc ttcctgtgac tgctcccgaa acctgggggt gtgcctgctg 60
tgtatgcacg gcatacggac atccttcccc tgagacccgc ggtcgaacca gccacgtgtc 120
catcatcagg ggtcaacccc ggccaagggc gacggcacgc caagttcgcc gaccgttaac 180
ctagtgctgt tagcttcatt tgctgcgagc aaaacagctg gtcggccgtt aggaactgaa 240
ttgaaactca accgatttgg tgccgcccgt aagtgtcctg gctgccggtg cgctggtgtt 300

218

265

DNA

Mycobacterium tuberculosis

218
agcttgcgcg gcgtggcgat cgcggttcaa ggcgcgctct tcgagcacaa cgagcgaaga 60
cagctcggcg acggagcctt tatcgacatc cgttcgggct ggctgaccgg cggcgaagaa 120
ctgctggacg cgttgttgtc gacggtgccg tggcgagccg agcgccgtca gatgtacgac 180
cgggtggtcg atgtgccgcg gctggtgagt tttcacgacc tgaccatcga agatccgccg 240
catccgcagc tggcgcggat gcgcc 265

219

362

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

219
aatactcaag cttgcgcacg accaggacgt cgagtggcgc ttgcagtgac ttggcgacct 60
caaaggccac cggtaccccg ccgcgcggca agccaaggac nacnacggcc ttgccggata 120
gctgcgccag gcgttgcgcc aactggcgtc cagcgtcgcc acgatcgtca aagagcttca 180
tctgccgagt gtgtcgccat ctcatggctc caaatatgga attaggtccc tgggccgact 240
gacgacagtc cctcagcgac cggattgcgc atcccgcctt gtacgctgct ccgcaaatcc 300
cgggcttgcg tccgcggaag cgaactcggc ggcgctacgg tggtggctca cttcggccgt 360
gc 362

220

486

DNA

Mycobacterium tuberculosis

220
ggttggtgcg gtccaccttc gcggcggcgg cgcgatatgc cttgctggtc ttgctcattt 60
gatatccaat ctatgggtcg tggttactca gcgggccgaa gctggccctc ccacgggtag 120
ggccctattc gacggtgatg cccatcgacc gagcggtacc ggcgatgatc ttggccgcag 180
cgtcgacgtc gttggcgttg aggtccgtct tcttggtctc ggcgatttcg cggacttgat 240
cccaggtgac tttggcgacc ttggtcttgt gcggctccgc cgaacccttc gccacaccag 300
cggccttaag cagcagcttg gcggcgggcg gcgtcttcag cgtgaaagtg aagctacggt 360
cttcataaac ggtgatctcc accgggatga cgttgccgcg ctggttctcc gtcgcggcgt 420
tgtacgcctt gcagaactcc atgatgttga cccgtgctga ccgaacgcgg ggcccactgg 480
cggggc 486

221

373

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

221
atactcaagc ttttcgaccc gcaagccggc ggtgcccctc ctcgttccgc tgcccggtct 60
gctcgatcgg ttcggggtcg ccgcgctagg cccaattgcc cggctcctcc tcgggccgtt 120
ccacaacccg catcgtcgcc gggctaggtt caagccatgc cggtaaaccc caggacgcca 180
gtgctgatcg gctatggaca ggtcaaccac cgaggcgaca tcgacgccna aaatcagtcc 240
atcgaacccg tcgacctgat ggccnccgcg gcccggaaag ccgccgagtc caccgtgctc 300
gaagcggtgg attccatccg tgtggtgcac atgctgtcgg cgcattaccg gaattcccgg 360
gcgtctcctc ggc 373

222

331

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

222
ncctggttca tgaactggaa gcagcgcagc gcttcctttt cggccgcaac atgagccagc 60
ctctcgtcgg cggtcgggtg caggtgctcg ggcagctcgg ccgcgacagc cgcctgaccc 120
tgaaaccagc ttccatatcc cgcgacgaac gacgccagtc cgctacgtaa cccctccgcg 180
actgtccatg gacaacagcg cgttctccac cgaccggggc cgggtgttgg ggtgttcggc 240
aacggcaacc aagttggtcc acactgccga cgggcgccgc aaatccgttc accgaaccag 300
gccgccnaaa caattccgcc cgatcccata t 331

223

377

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

223
atactcaagc ttgtcgggat caatctcgag ggcatccacg cacgaaaagt aaactctatc 60
aagctttttg acgacaccca cggacgcccc atatatgttc gggtgggcaa gaacggtccc 120
tacctggaac gtttggtggc cggcgacacc ggtgagccca cgccgcagcg ggccaacctc 180
agcgactcga ttaccccgga cgaactgact ctacaggtgg ccgaagagct ctttgccaca 240
ccgcaacagg gacggacttt gggcttggac ccagaaaccg gccacgaaat ctttgccagg 300
ggaaggccgg tttgggcctt atgttaccta tatcctgccg gaacctgcgg ctgatgcggc 360
cgcggccgct cagggan 377

224

436

DNA

Mycobacterium tuberculosis

224
agcagctagc cgcgctcgcc gcgctggtcg gtgcgtgcat gctcgcagcc ggatgcacca 60
acgtggtcga cgggaccgcc gtggctgccg acaaatccgg accactgcat caggatccga 120
taccggtttc agcgcttgaa gggctgcttc tcgacttgag ccagatcaat gccgcgctgg 180
gtgcgacatc gatgaaggtg tggttcaacg ccaaggcaat gtgggactgg agcaagagcg 240
tggccgacaa gaattgcctg ggctatcgac ggtccagcac aggaaaaggt ctatgccggc 300
accgggtgga ccgctatgcg cggccaacgg ctggatgaca gcatcgatga ctccaagaaa 360
cgcgaccact acgccattca agcggtcgtc ggcttcccga ccgcacatga tgccgaagaa 420
ttctacagct cctccg 436

225

539

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

225
cgcgactggc tccccggncg gctgctcggg tccgccgata gagaccggga tgtcgcccga 60
cgacgggcag ccgggttgcg tgggacgggg cgggggtcgg gcagcccaag caacgggcta 120
gtccccgaat cctacggagc cgtcacctac gcctacgtaa tagtagctat caataacagt 180
tgacatacgc aacgatctgt gagatcaata ttgcctgacg catgtcaaga caggcgtcaa 240
gacaggtgtc aataattcgc tccgctggtg acggtaaccg gtcgtgcggg tgtgtgacgc 300
ctaaggaagg agtgtgggtg gtgacgctga gagtggttcc tgagggtttg gcggccgcca 360
gtgcggcggt ggaggcgttg accgcacggc tggccgccgc acacgctggc gcggcgccgg 420
cgattacggc ggtggtggcg cccgcggcgg atccggtgtc gttgcagaat gcggtggggt 480
ttagcgcctt aagtagccag catgccgcga tcgccggcga aagggtccaa gaactgggt 539

226

517

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

226
atactcaagc ttattgaacc gcgggtcgca ggcaaagtgg acctcataac gactcgggtc 60
cagcgaccgc gccaacacga acggccggac gacgtgggcc agggtcgcgg cctcccctac 120
aaacaggatc cgttgcctgc gaacgacagg ctccggtgcg gcgttgggcg ccgtgctcgt 180
cccagcgtcc ggtcccgggt cgccggcgac gcttgtttcc tccatactcg ccccctaatc 240
tcgaggcagc ccgtacccgc aggcaacctc ccaaaaatgc aatcccgcaa aatgcaatgc 300
gtcnagctat ttctcacacc gaccgctagt tgcggatcag aaatccgttg ggcgcggaag 360
tccagccgaa tttgttctcc cgctccgcat catgcttgta atcgtttgga aattcatcct 420
catatgcctc gatcgcttca tagggtccag gcccaaaccc gggcaggact gggtggccgt 480
tgatgttgga atcctccact actaggtatt caccggc 517

227

488

DNA

Mycobacterium tuberculosis

227
gtctcgatca tggccaaaga gctcgacgaa gccgtagagg cgtttcggac ccgcccgctc 60
gatgccggcc cgtatacctt cctcgccgcc gacgccctgg tgctcaaggt gcgcgaggca 120
ggccgcgtcg tcggggtgca caccttgatc gccaccggcg tcaacgccga gggctaccga 180
gagatcctgg gcatccaggt cacctccgcc gaggacgggg ccggctggct ggcgttcttc 240
cgcgacctgg tcgcccgcgg cctgtccggg gtcgcgctgg tcaccggcga cgcccacgcc 300
ggcctggtgg ccgcgatcgg cgccaccctg cccgcagcgg cctggcagcg ctgcagaacc 360
cactacgcag ccaatctgat ggcagccacc ccgaagccct cctggccgtg ggtgcgcacc 420
ctgctgcact ccatctacga ccagcccgac gccgaatcag ttgttgccaa tatgatcggg 480
ttctcgac 488

228

264

DNA

Mycobacterium tuberculosis

228
atactcaagc tttcgtcagt tcatggcgcc agcagaccaa caagagcatc gggacatacg 60
gagtcaacta cccggccaac ggtgatttct tggccgccgc tgacggcgcg aacgacgcca 120
gcgaccacat tcagcaaatg gccagcgcgt gccgggccac gaggttggtg ctcggcggct 180
actcccaggg tgcggccgtg atcaagatct tcaccgccgc accactgccc ggcctcgggt 240
tcacgcatcc gtttggccgc cgcc 264

229

229

DNA

Mycobacterium tuberculosis

229
gccccgtgta atttgggatg ggcaaaaagc gaagcaccgc gtggccacga acgccgggag 60
ggacaatctc gggcggctag ggcttctcgc gggaaggccc gaacgtacgg cgtttcaaca 120
cgtcgcgtcg ccctccgacc gcgaacattc ggggatggca gcaacctggt agcaccctgg 180
ccgggcgatg atctgcagcg tcgccgcggg tagtctccgc ccgggccgc 229

230

266

DNA

Mycobacterium tuberculosis

230
atactcaagc ttcctttgac cgaacgcgtc caccgcaccg tgagattggt ggcgccattc 60
gtcgtggtgt agctgctgtt ggcggcgtcg ccgtattgtg cgggccagcc ttgtgcgggg 120
gccgcttcta cccacaagtc ggcacttccg caaccgccca gctcgaccgc gaattacggc 180
ggccgcaacg gccgccggaa ggcgtcacgc aatcgcttat cctttccagg ttcccaaatc 240
ctccgcttac ttgggtcctt catcgg 266

231

258

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

231
ggcagcggcg acaaccggaa cgtccgcacg gtgctcaatc acgggtgcac ggtgtgcatc 60
agaatggcgg gggttcgttg tcgcggtgag gcgttcggcg aggaggtagt gtctacccct 120
tgcccgcggg ttcgtgcgga ctgaaaggga tttcattggg aacccacggc tgcgtatcgc 180
agggcctcgg tgacgtctgc ttcctcnagc tcaggaagtt cggcgagaat ctcggtggat 240
gttatttggt ccgcctac 258

232

224

DNA

Mycobacterium tuberculosis

232
atactcaagc tttctcggct tctctgatag cctgagaaga aaccccaagt taatccgctg 60
cttcacctat tctccagcgc cgggttattt tcctcgcttc cgggctgtca tcattaaact 120
gtgcaatggc gatagccttc gtcatttcat gaccagcgtt tatgcactgg ttaagtgttt 180
ccatgagttt cattctgaac atcctttatt cattgttttg cgtt 224

233

333

DNA

Mycobacterium tuberculosis

233
atactcaagc ttggtgaccg gcaccgcgat acgttgcggc aggcatctgg gctggcggtg 60
gttcgccgct ccgaagccgt cgaacaccat cgccagcgcg gcttccacat caacgaccat 120
ttcggccagc ttgcggcgca tcagcggctt gtcgatgagc gccccaccga atgcccgccg 180
ctgcccggcg tatcacatcg attcgaccat cgcgcggcgc gcgttgccga gggcgaacga 240
ggcggtgccc aaccgcaatc tgtttggtca gctccctcat gcgggttgat tccttgccgt 300
ccggacgggc ccgcgtcatg cgctcggttc gcc 333

234

407

DNA

Mycobacterium tuberculosis

234
ccgttgcgca gcgtgagccg atagttgaca tccggctcgg tgaaggtgaa atcgatggcc 60
aggtcgaggt cccatgcgcg tgggccattg atgctgatcg ccaggacgtc aaagatttgg 120
tccggcgtca gctgggcgaa aaacgtgggc gccgggactt gcccggagct gcccgggttc 180
ccgtcgcgca gctcggcggc cccggtcaga aagaaattgc gccaggtcgc acactccgcg 240
ccgtaggcca gctgctccag ggtgtcggca tagagcccgc gggccgcagc gtgctcgctg 300
tcggcgaaca ccgcatggtc gagaagcgtt gccgcccaac gggaaatcac ctgcgtcgaa 360
agcttcgcgg gccagctcca gcactcggtc gatgccaccc aacgcgt 407

235

389

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

235
atactcaagc ttgcggatgt tacccctgac agcgtgaact atgtcnaaac acacggcacc 60
ggaacggtgt tgggggaccc catcgagttc gagtcgctgg cggccactta tggcctgggt 120
aaaggccagg gcgagagccc gtgcgcattg gggtcggtca aaaccaacat cggccacctg 180
gaggcggccg ccggtgtggc tggattcatc aaggcggtgc tggcggtgca acgtgggcac 240
attccccgca acttgcactt cacccggtgg aacccggcca tcaacacgtc ggcgacgcgg 300
ctgttcgtgc cgaccgaaag cgccccgtgg ccggcggctg ccggtccacg cagggctgcg 360
gtgtcatcgt tcggcctcag cgggaccaa 389

236

432

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

236
ccggtaacca gatcagctcg tcgacctcac tgccgggggt gaattcccca ccggtgctgc 60
gcgctgccca gtagtgcacc ttcttgacgc ctcgaaaagg ggagtcggtc gggtaggtca 120
ccgtcaggag ccgcctaccc aggttggcgc ggtgaccggt ctcctcgagt atctcccgca 180
ccgcccccac cggtgcggtc tcgcccggat ccactttgcc cttgggcagc gaccagtcgt 240
cgtaacgggg gcggtgaatg acagcgatct cgaccggccc ttccgaatcg gcactgccgg 300
gtcgccagaa caccgcaccg gcggcgtaca caatccggcc cgccgagcgc cggcgggcgg 360
acganttctg gatcgacacc tcaactcctg caggtcaatt cggccaagct gctcgcggtc 420
gtggatgtgg tc 432

237

287

DNA

Mycobacterium tuberculosis

237
atactcaagc ttgatgccgc cgaaaccgag cgtgagcacg ccgccaccca ccacgcgcgg 60
gtcgggcgcc gggcccgggc cgccaggctg ctccgctcgg tgatggcacg ccaccgcgac 120
accacccggc tgcgctacgt cgagccatac cgggcggagc tacatcggct cggccgccca 180
gtgttcgggc cctctttcga ggtcgaggtc tataccgatt tgcgcatccg cagccgcacc 240
ctggtcgtct cgtaccgtgc cctacctctg cttgtcgggc ggggcca 287

238

272

DNA

Mycobacterium tuberculosis

238
tccgtacggc ccgggtacgc ttcggtcgca gtgtgcgagt gatagatgac gaccgggacc 60
tcgtcggcat cttccatagc ccgccacacc ttcagttgct caccggaatc caaccggtag 120
aaggtcggcg agcgctcggc attggtcatc gggatatgcc gctcgggacg gtcagagccc 180
tcgggtccgg ccagcactcc gcaggcttcg tcggggtggt cgcgacgcgc atgggccacc 240
atccatccac caggtctgcg cgaatcaccc gc 272

239

410

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

239
ggacacattg cgaacattga tgacaaaata gaaatcattg atggtttgag tcaccaggcc 60
gatcaagcct tcgccgagcc aaattccaat caagaggccc aagcccgtac caatcagccc 120
ggcaacgagg gattccgtca ttatcagcca aaataactgc tctcgggtta cacccaaaca 180
gcgcaatatg gcgaaaaacg gtcgccgttg cacgacatta aatgtcacgg tattgtaaat 240
taaaaagata cccaccaaca aggcaatcaa actgagagcg gttaaattga ccgtaaaagc 300
gtccgtcatc tgtttgacgg tgtcccgttg ggtntccgac gtttccatac gcacaccggc 360
cggcagtctt tgttggatgc gtgttgcagt ggcctcatct ttgatgatca 410

240

439

DNA

Mycobacterium tuberculosis

240
gcctggccca ggtgaaggcc gacctcgacg ccaaagccgc tgatccggca catgagtcgg 60
tggactggga cttgaagtcg ctgcgatggg cgtggaaccg agccaaagat gacgtggcgc 120
cgtggtgggc cgagaattcc aaggagtgct actcgtcggg gttggccgat ctggcccagg 180
gcctggctaa ttggaaagct ggcaagaacg ggacccgcaa aggccggcgg gtgggcttcc 240
cgcgattcaa atccgggcgg cgtgatcctg gcagggtgcg gttcaccacc ggcaccatgc 300
gcatagagga tgaccggcgc acgatcacgg tcccggtgat cgggccgctg cgggccaagg 360
agaacacccg ccgggtgcaa cgccacctcg tgagcgggcg cgcgcagatc ctgaacatga 420
ccttgtcgca gcggtgggg 439

241

356

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

241
taactcaagc ttcaagtccg cngtccgacc ctgttcgacg gctacctgaa tcaacccgat 60
gccccgccgc ggcgttcgac ccgacagctg gtaccgcacc ggcgacgtcg cggtggtcga 120
cggcagtggg atgcaccgca tcgtgggacg cgagtcggtc gacttgatca agtcgggtgg 180
ataccgggtc ggcgccggtg aaattgaaac ggtgctgctc gggcatccgg acgtggcgga 240
ngcggcagtc gtcggggtgc tcgactatta tctaggccag cggatcgttg cctacgtagt 300
cggctcagcg aatgtcgatg cggacgggct tatcaacttt gttgcccaac aacttt 356

242

341

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

242
ccatgtcgcc caacatatcg tcgatgttcg cgtcgtccgc ctcgcgcacg tggtctgtca 60
ccagtcaacg ttaacgccgc cgcacatgtc ctgcggccgg gcaaaaacgt gaaaaacgag 120
cgggcgactg caatgtcatg acaccgacgc cgccgatggg cccagggtct ggcagattcg 180
atctgtgcgg ccagtgccag cagcgtcgcc tcgtcatacg gccggccgac gagttgaacc 240
gacatgggca tgccgtcgcc gtcgaagtcc cacggcacca cggccgcggg ctggccggtc 300
agattccana cttgaaagta ctgaagccgc tgcaccacca g 341

243

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

243
cgaaagcgtg aaacagctcg cggcagcccc cgacgtgctg cgtcggatag ccggcgggcg 60
aagatcaatt ccaggcagct cccggacaat gcggctctgc tggcccgcaa cgaaggactc 120
gaggtcaccc cggtgcccgg ggtcgtggtg cacctgccga tcgcacaggt tggcccacaa 180
ccggccgctt gatgcccggt cggcaagccc ggcagttgcc aaacccagcg tgatcntgct 240
cngctctnta nttcggcgaa gaagtggctc gcctgatcac ctaccatcgg ccaggatctg 300
cgtgtcatca caacgctcgc caaggaggtt gttgtg 336

244

337

DNA

Mycobacterium tuberculosis

244
tccgccacgc ttcgcgccgc ccggcatacg gcgcgtaccg atctccgcgt catacaccgc 60
gggtaatcgc cgacggtgcc ggttcgcgag ccgaaggtga cgacgctgat tgaatcgagt 120
tccaggtcca gcgggtggcg cagcaacggc gcgagctcaa cgacgtcaat cacgttgtcg 180
ctttctacgg tcaccgaccc ggtgaccgta gtcgcccggt gcgctcggcc gagaagctgc 240
accgccacca ccgcgacacc gtcttgcacg cggacccacc ccggatcggt tgttggccaa 300
ggtaattggg tcattccatt tgacgggacg ccgaccc 337

245

337

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

245
cattctttaa cagttgtttt gggctcggca tggttagcca acgttctgcg gtccaccata 60
tcatcttggt ccggtagcgc tcgtccgggg tatgctgccg ccgggattct cgctgctatt 120
actccccccg aagaaccgcc accggtccag cgcgtgggcc gncgcggtcc catcacaaac 180
tgaaccccca acagggacat gcttatcggt agggcgcgcg ccaaggcggc agcaatcgca 240
tcactgcgct ctgcgcgtca ctattaaccc acccggactt cacttccacc accccgaatg 300
gcgcccggtc attgatcatc tggcgcaccg cggataa 337

246

343

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

246
cggtgtcctg cagttggtag gcctgcagtt tgtgcatcat gccgatgccg cggcctcgtg 60
gccacgcatg tacagcacca cgccgcgccc ctcacgggcg aacatcgcca gcgcggcgtc 120
cagctgaagc ccgcaatcgc agcggcgtga ccaaacacat cgccggtcaa gcactccgaa 180
tgcaccggac cagcacgtcg tcaccgtcgg cgttgggccc ggcgatctcg ccgcggacca 240
tgcgcgacat gttccacgtc ctcgtanatg ctggtgtagc cgatggcgcg aaactcccca 300
tgacgagtcg gaatccgcgc ctcggcgacc cgctcaatgt gct 343

247

340

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

247
cggcatctgg cggctgaacc tgttcttggg caacatgccg aggatcgcct cttccaccac 60
gcggtcgggg tggcgttgca ttacctcacc gatggtgcgc ttgtgcaggc cgccgggata 120
ccccgagtgc cggtaaacca tcttgtgctg cagtttgtcg ccgctgatgg cgaccttgtc 180
ggcgttgatc acgatnacna atcaccgcca ncgacattgg gggcgaacgt cggctcgtgc 240
ttgccgcgca gcaggctggc cgccgcgacg caaggcgcca accaccacgt ccgtggcgtc 300
gatgacgtac caccatcgcg tggtgtcacc cgccttgggc 340

248

322

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

248
gcggcaaaaa ttgaagcact cntggccact nccgccggga gggacaatct cgggcggcta 60
gggcttctcg cgggaaggcc cgaacgtact gcgtttcaac acgtcgcgtc gccctccgac 120
cgcgaacatt ctgggatggc agcaacctgt tagcaccctg gccgggcgat gatctgcagc 180
gtcgccgcgg gtagtcgccc ccgggcggct acagtctgaa acgcgatgac catcgatgtg 240
tggacgccgc atccgacnca acggttccta cactgtgata tgttcgcctc gctgcgccgg 300
tggacggtgg gtctatcccg ga 322

249

278

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

249
cgcgttgaac tgaaggggtg ccgcccggct cgagcaggca agccatttgt tcgatgcggt 60
taccgaagat ctcttcggtg actgcccgcc gccggccagc tcggctcagt gtccggcgtt 120
ggtcgccgcg gcgacaatct tggcgtccac ggtggtcggg gtcatgcccg cgagcaggat 180
tggcgagcgg ncggtcagcc gggtgaactt cgtcaagagc tgacgctgcg gttggggagg 240
cgaatcatgg tcggtgcgta gcctcgacta ggcccggg 278

250

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

250
tgacaacgcg gcggcgatta ccccgctacc gcagcagcat gacgcggtag cgaacaccgc 60
cggatgcagc gcaggtgcgt cgatgtgctc acggaatcgc cccggcaccg cgatctcgag 120
gatcaccagt gccaccccct gcagcgcgac accgacgatt ccgtacaccg ccacgccgat 180
caggccctgg gccagctgat tggagctggc gtatatggcg gcgatggtga cgatggtcat 240
cgcctcttac attgtggcgg ccagaaccac ggcgttgggg cggcggtcga tgaacactag 300
gcgaccanat ccccggggtc aacaggttga ccatcc 336

251

95

DNA

Mycobacterium tuberculosis

251
cgcggacatc ccgaacgagg acacgcgacc gcttcggtgt gtgatctatc agggctcgca 60
ccacgcgcaa ccgcttccgg ctacctagac gcggt 95

252

94

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

252
gcatgcgggt gatgccgttc tcagtgcgca acagcgttcg acgcggcata cccagccgca 60
catgccgtgc acgccggngc cggggcggga atct 94

253

302

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

253
ctcaagcttc agnccntcta agcggtctgc gcggcgatcg caaagatcgc cctttgccgg 60
cgttgggggc ttctgctcgg gggtgttgta caccttctcg aacacctcgg caccgacacc 120
accaccgtcg gcttgaacac cgccaacatc ggcagcanat cttgatgtcc tggtgaatcc 180
acggtgactt tggagtggaa ggcggccata ctgatcgcgc gcgccaccac atgagctagc 240
ggcaggaaaa ccagcagccg ctcacccttg cgcagcagcg tcgggtgata tgcctggcgc 300
cc 302

254

291

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

254
agtcgaangt cagtccggtc tcctctccga ctacggccaa gaactggggc gacggtgtca 60
gtgcagaaca gcggaaactg gtggcgccct aggcgagcga acgctcacaa acggcggtga 120
ccgcttctgg tcgtgcacca tcgagccgtg cccagcccgg ccgcgtgccg tcagccgcat 180
ccactggatg cccttctcgg cggtttcaat cangtacagg cgacgttcgc caccatcgtg 240
ccggggcacg gttagcgaga aacgccgact tcaccgattg cctcggtgat g 291

255

454

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

255
agcttcgcgg cgtggcgatc gcggttcaag gcgcgctctt cgagcacaac gagcgaagac 60
agctcggcga cggagccttt atcgacatcc gttcgggctg gctgaccggc ggcgaagaac 120
tgctggacgc gttgttgtcg acggtgccgt ggcgagccga gcgccgtcag atgtncgacc 180
gggtggtcga tgtgccgcgg ctggtgagtt ttcacgacct gaccatcgaa gatccgccgc 240
atccgcagct ggcgcggatg cgccggcggc tcaacgacat ctacggcggc gaactgggtg 300
agcccttcac caccgccggg ctgtgctact accgcgacgg ctctgacagc gtcgcctggc 360
atggcgacac cattggtcgc ggcagcactg aggacactat ggtggcgatc gtcagcctcg 420
gcgccacccg cgtcttcgcg ctgcggccgc gtgg 454

256

346

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

256
agcttcagct gatactcgac cagccccact cgggccaata cgtgaatgtc tagcatcttc 60
acccgttcac gggctantcg agtagtagac attgattagc ctgaacgtac ctccgacgcc 120
agctgacgaa cgggtatgac ggatggattt cgtggtgtcg cgcccgaggt caattcgtta 180
cggatgtatc tcggggccgg atcggggccg atgttggcgg ccgcggcggc ctgggacgga 240
ctatccgacg aactggcggt ggcggcgtcg tggtttgggt cggtgacctc gggcctggcg 300
gatgcggcgt ggcgcggccc gcggcggttg cgatggcncg cgcggt 346

257

339

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

257
ctggtcatgg acgttgctcc ggtagtggct cactgccgat cctcctcgtt gagagtgcca 60
cctcagggtt gggtagggtt gggtactcga aaccaagtta cccaccagta acaccgtcaa 120
aatatatccg ttgcataggt caatgcaagt tgatgtgagc tacattgcac caactaacta 180
accaaccggt tgggttagcg gtgatcctgg ccgtgtcggt cctctcacct gcggtgatag 240
cgatcaaatg aagaatatgc ggagtctagg gcggcagcgc ctggcancgt agatcatcgg 300
ctcacgcgga tgcggcctct tggtacggac atgcgcgcg 339

258

182

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

258
ctcgtgagta gcacccctgt aatttgggat cggcaaaaag gcgaatcacc gcgtggccac 60
gacacgccgg gagggacnat ctcgggcggc tagggcttct cgcgggaagg cccgaacgta 120
cggcgtttca acacgtcgcg tcgccctccg accgcgaaca ttcggggatg gcagcaacct 180
gg 182

259

213

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

259
ggatcaacta ccggccaacg gtgattcttg ggcgccgctg acgcgcgaac gacccagcga 60
cacattcagc agatggccag cgcgtgccgg gccacgatgt tggtgctcgg cggctactcc 120
catggtgcgg cncgtgatcg acatcgtcac cgccgcacca ctgccggcct cgggttcacg 180
cagccgttgc cgcccgcagc ggacgatcac atc 213

260

321

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

260
aggaccgtca gcacggcgac gtgctactcg ccgagcagtg ggaatcgctc tgcagcaaac 60
cattactctg cgcgacgttc gagatgacct tctgaatgga cggatctacc tgccgcgcga 120
cgacctggac cgcgtatgcg tccgcctccg cctggacgac accggggcac tctatgaccc 180
cgacggacgg ctcgcggtac tgctgcggtt caccgccgac gcccgcacgg tacgcgtcgg 240
gactgcgctg agtccancct cgacgccgta gcgctgctgc tgtgcggcca tgtctggcat 300
ctaccgccgt cgctcccttg a 321

261

334

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

261
cgactctgtt ggccactgcg ggtcgatctt gcggccgccc cggtcgtgga acgcccaggt 60
cacccggcgg cgcaccgcgg tcagcgcgtc gttggccagc gtggtcacat ggaagtggtc 120
gacgacgagc ttggcgttgg gcagcagccc gggcgtgcgg atcgccgagg cgtatgcagc 180
ggcggggtcg atggccaccg tactggatgc tctcccggaa ctgcggtgtg cgcgcttgca 240
gccatgccag caccgccgcg ccgccgcggc cttcatgctg cccataaacc ctgataccgg 300
ccaggtcgac naaccngtat cccacggtca accc 334

262

208

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

262
cacacggacg gcggtgcgga cgcagctgac gcgcatggtg gtcagcatcg cggccggtct 60
gctgttgtat gcctacttcg cgccgcgcaa atgctggtgg gcggcggtgg tggcgctcgc 120
atggctgggc tgggtgctga cccaactctc gaaccacacc ggtgggtggg ctgggctatg 180
gcctgccata tcggcctggt gttctacn 208

263

233

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

263
ccgatatccg agccgatagc tggcgggctc gggtggtngc cagcggcgct gcgacgaaag 60
tgtgaccgtc atgaaacaga caccaccggc ggccgtcggc cgtcgtcacc tgctcgagat 120
ctcagcatcc gcagccggtg tgatcgcgct ttcggcgtgt agtgggtcgc cgcccgagcc 180
cggcaaacgc cggcccgaca caaccccgga acaggaagtc cggtcaccgc gcc 233

264

320

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

264
gcttcaggac aaattgnatc cctatgcacc cgttgtcacg ccgatgagtg aagactgcac 60
gcaatcgccg gaatccggca aaaccctgca caagcgaaat caaccggagg ctgacaaggc 120
aacgtcggtg atccgtaccg cctggttgga caaacggcag aaggcgcctc gtccggtcca 180
tctacgccga gcacactggt gatagcgcca tcggcatcgg tgcggccacg gtggagacga 240
acgtccgcng gcgtctgggt cagtaacccg ccgaccagtt ctcgggcaag ctggtcaaca 300
tcgggcgcca cgtctccaac 320

265

304

DNA

Mycobacterium tuberculosis

265
gtttggcggc cttattgcac tgaggtcgtc aattgaccca cagcggaaat gccgactatt 60
cgcaggcctc cttcgccttg gctgccggag atgggctccg cgggaaccgc atgcaggtat 120
atgacctcgg tttctcgggt gctaccgcgt gccttgtcga ggatgaactc ggcgttggaa 180
ttgtccagcc ggcccaattc atcgagcgca gattcgtaca catggccggc ggcgacatac 240
cttcaccgtg gatctgctcc acacggaccg ccctgtcggg atctgctcac gggtaaagga 300
atta 304

266

217

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

266
gcgcactcct ccttatcgct ccgctctgca tcgtcgcggc gcggtcaggt gcaaacgcct 60
tcgggggtgg gggtcctgcg gagcacaccg gatacggagc gcaacgcgtc gcgttgtgcg 120
ggcaaacaag tgtgcaggnn ccaatgccat gtccagcagc ttatcagtgt cgaacgtgcg 180
aacgtcgcgc cttcgccggt gcctgaatct ctacaag 217

267

174

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

267
cgctgaaagc caccattcgc gggtcgggcg ccgggctcgg gccgccaggc tgctccgctc 60
ggtgatggca cgccaccgcg acaccacccg gctgcgctac gtcgagccat accgggcgga 120
gctacatcgg ctcggccgcc tagtgttcgg gncctctttc gaggtcgagg tcga 174

268

144

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

268
tgtaatttgg gatgggcaaa aagcaaanca ccgcgtggcc acaaacgcgg ggagggacaa 60
tctcgggcgg ctagggcttc tcgcgggaag cccgaaacgt acggcgtttc aacacgtcgc 120
gtcgcctccg acgcgaaatt cggg 144

269

216

DNA

Mycobacterium tuberculosis

269
cttgggcaac atgctgagga tcgccttttc accacgcggt cggggtggcg ttgcattagc 60
tcaccgatgg tgcgcttgtt gcaggccgcc gggatacccg agtgccggta aaccatcttg 120
tgctgcagtt tgtcccgctg atggcgacct tgtcgcgttg atcacgatga cgaagtcacc 180
gccatcgaca ttgggggcga actcggcttg tgcttg 216

270

199

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

270
gcatgcttca ttatctaatc tccagccgtg gtttaatcag acgatcgaaa attcatgcag 60
acggtcccaa atagaaagac attctccagg caccagttga agaggttgat caatggtctg 120
ttcaaaaaca agttctcatc cggattgaac tttaccaact tcatccgttt catgtacaac 180
atttttagaa ncatgcttc 199

271

230

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

271
atactcaagc ttgatgccgc cgaaaccgag cgtgagcacg ccgccagcca ccacgcgcgg 60
gtcgggcgcc gggcccgggc cgccaggctg ctccgctcgg tgatggcacg ccaccgcgac 120
accacccggc tgcgctacgt ctatccatac cgggcggagc tacatcggct cggccgccca 180
ttgttcnggc cctctttcga ggtcgaggtc tataccgatt tgcgcatccg 230

272

188

DNA

Mycobacterium tuberculosis

272
tccgtactgg tcgggtacgc ttcggtcgca gtgtgcgagt gatagatgac gaccgggacc 60
tcgtcggcat cttccatagc ccgccacacc ttcagttgct caccggaatc caaccggtag 120
aaggtcggcg agcgctcggc attggtcatc gggatatgcc gctcgggacg gtcagaacct 180
cgggtccg 188

273

158

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

273
gttctcgcac gatttcggat tagcgggatg gtctcaattg ggtatgcggg gaaggcgctg 60
acattcgccg cgattagctg tttgatggac cgggggtgat ttttgatcac ggaaatgggt 120
gtttatncag gtcgcacgct ttcatccggg gcggaacg 158

274

237

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

274
gggtgtgcct gctgtgtatg cacggcatac ggacatcctt cccctgaaga cccgcggtcg 60
aacagccacg tgtccatcat canggggtca accccggcca agggcgacgg cacgccaagt 120
tcgccgaccg ttaacctagt gctgttagct tcatttgctg cgagcaaaac agctggtcgg 180
ncgttaggaa tgaattgaaa ctcaaccgat ttggtgccgc cgtaggtgtc ctggctg 237

275

262

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

275
actacccggc caacggtgat ntcttggccg ccgctgacng cgcgaacgac gccagcgacc 60
acattcagca gatggccagc gcgtgccggg ccacgangtt ggtgctcggc ggctactccc 120
anggtgcggn cgtgatcgac atcntcaccg ccgcaccact gcccggcctc gggttcacca 180
gccgttgccg cccgcagcgg acgatcacat cgcttttatt tnntnttcng gaatccctcg 240
ggccgcgctg gcgggctgat ga 262

276

222

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

276
acgtcgggan actgttcgcg ttcatcctcg tctcggcgga ttggtctgct gcgccggacc 60
gaccgatctt cagcgggggg tcacgctccg tggggtgccg ttacttccga tcgcccagtg 120
tgcgcgtgct gtggctgatg ctgaacctca ccgcgttgan ttggatcggt tcgggatctg 180
gctggtggcc ggaacgcnat ttatgtcgct acgggcgccg gc 222

277

166

DNA

Mycobacterium tuberculosis

277
gctcaaaggc actactggca ccaaggccca cacgtcacct gtgactcctg cgccgacccg 60
cccgaggtct ggccgttaca ccgaacgggc gagccgggag ttggtaccat cgaacaagac 120
aaggtgcatg ggcggagttg ttccgccact tcgtcgatga cgggtc 166

278

330

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

278
cgataccggc tgcttaccga gacatccacc atgccacccg aatcaccgca cgcgccgaaa 60
tcgcacaaca gcttgacgcc ttgcaggttc cgcgattgga attgccgacg gtctctgacg 120
gcgtcgacct tggcagcctc tacgagctct cggaatcact tgcccagcag ggggttcgat 180
gagtgtcaca ccgaagacct cgatatgggc gcaatcctgg ccgacacatc caaccgggtg 240
gttgtgtgct gcggcgccgg tggggtcngc aanacactac cgcggccgcg ctggcgttgc 300
gcgcggccga atatggccgc actgtggtcg 330

279

332

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

279
cgtcgtcgtc gtggtatgcg atagccatcc cgtcgggcta ctcgccatca ccgatcagct 60
tcgccccgaa gccgccgcgg cgatttccgc tgcgaccaaa ctgaccgggg ccaaaccggt 120
attgcttacc ggcgacaacc gggccaccgc cgatcggctc ggtgtacang ttggcatcga 180
cgacgtacgg gccgggctac tgccgacgac aangtcgcag ccgtgcngcn gctgcaagct 240
ggaggtgcca gattgaccgt ggtcggtgac ggtatcaacg acctccggcc ttagcggccg 300
cgcatgtcgc atcgccatgg gcagcgcccg ac 332

280

222

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

280
gcacgcaatc gaagtcaccc aaaccgggcg ggccaggcgt ctnacgccac gtcnaccagc 60
cgcaacctca acccggccac ggcgagctcc tgatcaaggc cgaggccatc ggtgtctact 120
tcatcgacac ctacttccgc tccgggcaat atccgcgcga actcccgttc gtcatctgct 180
ccgaagtatg cggcacggtg gangccgtcg gccaggggtt ac 222

281

184

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

281
tcgactgtgt ggccacagat cacgccccgc atgccgagca cgagaaatgc gtcgaattcg 60
ccgcgggccg gccggcatgc tcgggttgca gacggcattg tcggtggtgg tgcatacaat 120
ggtggcgccg gcttgttgan ttnggcgcga tatcgcgcgg gtgatgagtg anaaccggcg 180
tgca 184

282

409

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

282
gaacctgaca ccctggtcac gggtgagcac ggacttgatt tcttcnctat tggtcggcgc 60
tgttgagcac accacgccgc tgacggccgt cgcgtcctcg ctgtgctcgg tctggtggag 120
cgcgctgccc gcggccnaac atcntaaatc aagcgtattc gtcaacagat atcatcaatg 180
tcggcgctgg actattcaaa tcatcgatat actggtgacc tggtccttcg ccatcgatca 240
atggcgatag tcacgcaaat cgtcacggac atcgtcggcg tcccagctgg cccgtgccaa 300
cagatgctgc aacccatcgg ggtggtatca ccgcggtgct cggcgatggt ccacaattct 360
tgcggtccaa gcccnaaaca tcccgggcat gaattcaccg gcatgcgcn 409

283

413

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

283
ctatcgtacc cgcgccggtc accttctgga tatcgccggc ctggtcaagg gggcgtccga 60
gggagccggg ctgggtnaca agttcctggc tcatatccgc gaatgcgacg ccatttgtca 120
ggtggtgcgg gtgttcgtcg acgacgacgt gactcatgtc accggacggg tcgatcccca 180
gtccgacatt gaggtcgtcg agaccgagct gatcctggca gatctgcaaa ccctggagcg 240
ggccacgggc cggctggaga atgaagcgcg caccaacaag gcgcgcaagc cggtctacga 300
agcggcactg cgtgcccagc angtgctcga cgccgggcaa gacgctgttc gccgcggggg 360
tggatgccgc cgcgttgcgc gactgaaact gctgaccacc aagcccttcc tgt 413

284

283

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

284
tactcaagct tcaggccgcc acgtccgccg tccgtcggcg acgtgacctc gagcgccgag 60
ttcgactcga catcgccgcc ggcgcatgcc gacatgaacg cggcactcac cgcaagcccg 120
tcggacgtca ggtcgatcga ctccgcttca agcaccggat cgtccgggca actcgcggcc 180
tcggcctgtg cgaacggcac acccgtcgtg gcggcncccc gcgcggaact gggctcatca 240
cggtcgttgc gagccggtcg cgtcaccgcg taccgacgcc gtc 283

285

397

DNA

Mycobacterium tuberculosis

285
ccgacatcga gtgggctcgc agtgacttgg cgacctccaa gccaccggta cccgccgcgc 60
ggcaagccaa ggacgacgac ggccttgccg gatagctgcg ccaggcgttg cgccaactgg 120
cgtccagcgt cgccacgatc gtcaaagagc ttcatctgcc gagtgtgtcg ccatctcatg 180
gctccaaata tggaattagg tccctgggcc gactgacgac agtccctcag cgaccggatt 240
gcgcatcccg ccttgtacgc tactccgcaa atcccgggct tgcgtccgcg gaagcgaact 300
cggcggcgct acgtggtggt tcacttcggc cgtgcgcact cggatcgacg ggccgatggt 360
ggccgggccc gcgcgcttct tggtcatccg attgagt 397

286

342

DNA

Mycobacterium tuberculosis

286
atactcaagc ttgtcgcggt aaaccgcacg cagggcggtg ggtgcggtgt caaagacacc 60
cacacttctt tgcggttcgg tgatctcgac accggccgcg agccgaccac catgcgcgcg 120
tagatcggcg atcagcgcgt cggctatcgc ctgggtgccg cccaccggaa tcggccagcc 180
gaccgaatgg gccagcgttg ccagcatcag tccggcgccg gccgacacca gtgacggcaa 240
cggtgaaatc gcgtgggcgg caacgccggt gaacaacgcg cgggcatcct cgcccgccaa 300
cgaccgccag gcagggtgcc tgggccatca tccgcagccc ga 342

287

430

DNA

Mycobacterium tuberculosis

287
tggactcata acgatcgggt cagcgacgcg ccaacacgaa cggccggacg agtgggccag 60
ggtcgcgcct cccctacaaa caggatccgt tgcctgcgag cgacaggctc cggtgcggcg 120
ttgggcgccg tgctcgtccc agcgtccggt cccgggtcgc cggcgacgct tgtttcctcc 180
atactcgccc cctaatctcg aggcagcccg tacccgcagg caacctccca aaaatgcaat 240
cccccaaaat gcaatgcgtc gagctatttc tcacaccgac cgctagttgc ggatcagaaa 300
tccgttgggc gcggaagtcc agccgaattt gttctcccgc tccgcatcat gcttgtaatc 360
gtttggaaat catcctcata tgcctcgatc gcttcatagg tcaagcccaa acccggcagg 420
atgggtggcc 430

288

473

DNA

Mycobacterium tuberculosis

288
ctttacactt tatgcttccg gctcgtatgt tgtgtggaat tgtgagcgga taacaatttc 60
acacaggaaa cagctatgac catgattacg ccaagctatt taggtgacac tatagaatac 120
tcaagcttag tggttgcgca cgtaaattcg tcaggtgacc gatcccctgc tgtctcactc 180
gcctcacagc gaccaccacg gctggcgctc aaggcgggca cgtgcggagc agatgaggaa 240
tgtgcgacgt cttgatgcag cctgtcagaa caccgagacc ctcgacgaac ttacgatcga 300
aaccgcttag gccaaccggt gacgggggtg tctttccgcg gctagggcgc cttatcgtcc 360
gaaggccgtg ggtggtgatc gccttctggg tcgcgcttgc gggtctgctt gcgccgacgg 420
tgccgtccct ggaccgatct cccagcggca tccagtggcg attctgccat cgg 473

289

418

DNA

Mycobacterium tuberculosis

289
caggcatgca agcttgcgat gtatcaacac gccgttgcgc agcgtgagcc gatagttgac 60
atccggctcg gtgaaggtga aatcgatggc caggtcgagg tcccatgcgc gtgggccatt 120
gatgctgatc gccaggacgt caaagatttg gtccggcgtc agctgggcga aaaacgtggg 180
cgccgggact tgcccggagc tgcccgggtt cccgtcgcgc agctcggcgg ccccggtcag 240
aaagaaattg cgccaggtcg cacactccgc gccgtaggcc agctgctcca cggtgtcggc 300
atatagcccg cgggccgcag cgtgctcgct gtcggcgaac accgcatggt cgagaagcgt 360
tgccgcccaa cggaaatcac tgcgtcaaag cttcgccggg ccactccagc actccgtc 418

290

194

DNA

Mycobacterium tuberculosis

290
atactcaagc ttgaccgacg ctgatcgcac cgcacgcggg aacctcaagg gcactactgg 60
cacaagggcc cacacgtcaa cctgttaact cctgcgccga ccccggccga agtccttggc 120
gttaacaccg aacgggccaa cccgggaatt tgggttccat caaaacaaat agcaggtgcc 180
tgggcggagt gttc 194

291

166

DNA

Mycobacterium tuberculosis

291
gtcgtcgtgt gctggggcgt ccgtatcagc acgcccacga aatggggcac aagaaggatt 60
cctggaacgg tggctgtcca agatcaccct cgcccaaaac tgctacgggc acttctacat 120
cgagcacaac cgtggccatc acgtccgcgg tgtccacacc gggagg 166

292

291

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

292
atatgccttg ctgagctttt cggatcgcag cgagtcgtac ccgcgccggt caccttcgtg 60
gatatcgccg gcctggtcaa gggggcgtcc gagggagccg ggctgggtaa caagttcctg 120
gctcatatcc gcgaatgcga cgccatttgt caggtggtgc gggtgttcgt cgacaacgac 180
gtgactcatg tcaccggacg ggtcgatccc cagtccgaca ttgaggtcgt cgagaccgag 240
ctgatcctgg cagatctgca agccctggag cgggccacgg ggcggctnga a 291

293

442

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

293
gacaccctgg tcacgggtga gcaggactcg atttcttcgc tattggtcgg cgctgttgag 60
gcacagcacg ccgctgaggc cgtcgcgtcc tcgctgtgct cggtctggtg gagcgcgctg 120
cccgcggccg aacatcgtaa atcaagcgta ttcgtcaaca gatatcatca atgtcggcgc 180
tggactattc aaatcatcga tatactggtg acctggtcct tcgccatcga tcaatggcga 240
tagtcacgca gatcgtcacg gacatcgtct gcgtcccagc tggcccgtgc caacagatgc 300
tgcaacccat cggggtggta tcnccgcggt gctcggcgat ggtccaacaa ttcttgcggt 360
ccaagcccga aaccatccgg ccatgagttc accggcatgg cgcaacggct ggtgccgggc 420
aaaacgcggc gcgatcgaat tc 442

294

150

DNA

Mycobacterium tuberculosis

294
tgtagaaggt gggtcccgtc caacttcgcg gcggcggcgc gatatgcctt gctggtcttg 60
ctcatttgat atccaatcta tgggtcgtgg ttactcaacg ggccgaagct ggccctccca 120
cgggtagggt cctattcgac ggtgatgtcc 150

295

321

DNA

Mycobacterium tuberculosis

295
cccgaatccg gtggccggca gggggcctgg cgacgtggac accttctaac ttgtctttac 60
cggtcactgt tgcaccccaa cacctttaac gacgtggacg gacgttacat cggattcgac 120
ggtgtcatcc acagcgttgc cattgggcac acccactacg ccaatttctc cgactgggac 180
acctaccgca gcctcgcccc actgcaggga ctgttgttcc cgcaacgggc catcgacatg 240
atccagtcgt tggtgaccga cgcggagcag actggtgcgt atccgcgttg ggcgctggcg 300
aaattccgcc accggcatga t 321

296

184

DNA

Mycobacterium tuberculosis

296
ttgagatgct ggtcgggatg ccgatggttg gaacatggtc ccctggcgtc gaatacgcgc 60
gagcgcatga gctcaccggt tcggaacaac gtatcgaaga actcgcactg ctggcagatg 120
gtatctccga tgtggttgta atttgtatcc caactctaac tgtgctatcg gatctgcgtg 180
aata 184

297

259

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

297
cgtaatcacg atcccgctga gacacttgac cttacggccg aagtgacttc gctgctgcta 60
tgccgacacc cgatttccat acgctgctgt acacgacggc cgggccggtg gcctccatca 120
cgctcaaccg cccggaacag ctcaacacca tcgtcccgcc catgcccgac gagatcgagg 180
ccgctatcgg gttggtcgaa cgcgaccagg acatcaaggt catcntnctg cgcggtggcg 240
ggcgcgcctt ctccggcgg 259

298

369

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

298
caagcttaag ctggttccgg ccactccatg agccgtagtg caatggttcg tgcacggcga 60
ggccgaactt gccataaaca tccctgacga aagtctccgg caagccgatt gcttcttcgg 120
gccgcttctt gtggattgtc cgataacccg gtccctcatg ctggaagttg tgcgcactct 180
ttccttccgc gatgtgggct aacgactcgt cattgagcaa gaagtacgtg cacaggcatc 240
gtccgccggg cttcagcacg cgggagatct cgtccagata gtgctccacg tccggnggga 300
aacatgtggg tgaacaccga ggtnagaaac accncatcca acgacgcatc cgggatatgg 360
aaagcgaaa 369

299

387

DNA

Mycobacterium tuberculosis

299
tatggtcttc gtcgaccagt acgtcgtagg cgccatgagc cagcgactga agccgcgcca 60
tgcctgcacg gcccgctcat ccagcgaggc ggccatctcc cgcagatagc ctgccgcctc 120
ggcgcgcacg ctgtccggat cgcgtccgag ctcgtcggcc agcgcacgca gccgctcgtc 180
ataccatcgg gcatccagca gttgggtaac ctcaacgggg tcggtcgcta gcggcgtcat 240
tgattcagca acaataccga tgcgctgcag caactttcgc agtccgatgc ggcccacctc 300
ccgtgcagtc actggctagc ccccgtcatg ccggttgtgt cgatggcacg gcagcgggct 360
cgtaaacctg cggtctcagc tcgctgg 387

300

73

DNA

Mycobacterium tuberculosis

300
gcttagcggt cttgctcgaa ccgacattgc gtgccactca tgagcgggtg gcggtcgcgg 60
tgcttacaca tct 73

301

156

DNA

Mycobacterium tuberculosis

301
gtatctggcg cctctcgaat atccttgaac gtcccgcggt gccacccaga tagatcgcag 60
cgccctgcaa tggagttccc tttatggcct ctctagcctc ccgcttgatc ggctcgaccc 120
gagagatgcc ctcgggcgtt gcgggatctc cctcca 156

302

394

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

302
cttcacgccg atccgcgacc gcgaacgcga cggtgacggt gggcgacaag gttcggttgg 60
tcgccgcggc gctgggcgat atcagctcac ccggtttcga ggtgttcggc gaccggacgg 120
tgctgcagac attcttgagc gtcctcgacc ggcccgattc ggccttcaac atcgtgacgc 180
cgtatttcgg cggtaccgct cggcgccgag tcgaaggcgg cctgagctaa agccgggcat 240
tgcgcgagtg gtaaacaagt tcggtgactt cggttgaccg actcgacggg ctcgatctgg 300
gcgcgctgga ccggtatctg cgttcgctgg ggatcgggcc naccgcnant tgcgttgcga 360
nctgattccg gtggagctcc aatctgactt ccgg 394

303

404

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

303
gcagctaccg accctagcga cgagtgtgtt cgcagcgtcg aatgtgaacg ttcggcgtga 60
ttcggcgcgc gggttcccgc tctcagcgca cgttcggcgc cgaggnggct agtccctggt 120
taagcaatgt ctcggtcgcc gccagcagcg cgcatgtcgc caacccgtcn accgcgttgc 180
gcatgtccgg taccgacgga aacgacggcg cgatccggat gttcttgtcg tccggatcct 240
ttcgatacgg gaacgacccc ccgcctcggt caccgcgata ccaacgtcct tagccaangc 300
tacngtccgg cgcgcggtcc cgggcaacac gtcgaagctg atgaantaac cacccttggg 360
ctcggtccaa gangcgatct tggactcctt aaccgctgat ncaa 404

304

479

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

304
tccccatcgg cgccggaccg tttgaaagtc caagcacggg tgggatggaa tcgacgacag 60
ttgagcgccg tcggtggccg tggtcagcag ctgttcgcga acgcaccagg tcacatccct 120
tcgacatctc accgacgtgg cacgggcgac atcaacagga agattgacga atccctcgca 180
ggcgcggcac gtccgcaggc caacgccaac tacggggcca ccagcgatcc tccgctcacg 240
caccagccca agccaggctc anccacccaa gtcggcccgc gctctccctc gccccctggt 300
ctccggggcc ttgttaaaca actaccggaa gtccaccaat cctcgctgca tctcgacacc 360
gtccgcctca ctcccttcct cccgcccctc tccacacnac acacctcttg cattaaggtc 420
acggagcggt cacttttcgt cggacgaaat tcgcaatccg gccgctcgcc gccagagat 479

305

260

DNA

Mycobacterium tuberculosis

305
cggaaagtgg atactcccag caggtagcag gtcgccacca cgctggtcag tgcgcgttca 60
gctcgcttgc ggcgctgcag cagccagtcc gggaaatagc tgccctggcg cagcttgggg 120
atcgcgacgt cgatggttgc ggcacgggtg tcgcaaatca cggtggcggt agccgttgcg 180
ctgattggac cgctcatcgc tgcgttcgcg gtagcccgcc ccgcacaggg cgtcggcttc 240
agcccccatc aaggcggcga 260

306

464

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

306
ggccgagtcc agcacttcgc actatgtgca gaccaaanac ccggtggtcg ccgcgctgcg 60
gcagcggctg gcaacggcgc cggtgatcac cgagtggtgc gnagttgccg accggcagtt 120
cgccgcgggc ttactacgag aagggcctgc gcgacgtcat caggtatcac gtgtcgatga 180
cgtcgagcgt taacttcccc gaccagacgg cgacctcgcc gatggacccc gcgttgtacc 240
tggtgtgggc gcaagctaac gccgccgcan gctatcggta ctcggtcgaa gcgcagccgg 300
ggtcgcaagc gctagcgggc aaggtcgcga cgatctcggt cacctggacc aactacggcg 360
ctgctgccgc caccgaatag tgngtgcccg gctaccggct ggtggattcc acgggacatg 420
tggttcggac ctgccggcag cggtggaact gaagangctg gtct 464

307

315

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

307
agcttcaagg acatcgtcat cgcgaccaaa accgcgagct aggtcggcat ccgggaagca 60
tcgcgacacc gtggcgccga gcgccgctgc cggcaggccg attaggcggg cagattagcc 120
cgccgcggct cccggctccg attacggcgc cccgaatggc gtcaccggct ggtaaccacg 180
cttgcgcgcc tgggcggcgg cctgccggat caggtggtat atgccgacaa agcctgcgtg 240
atcggtcatc accaacggtg acagcagccg gttgtgcacc atcgcnaacg ccaccccggt 300
ctccgggtct gtcan 315

308

331

DNA

Mycobacterium tuberculosis

308
gctcgcggtc cagcagcaga cgtgtctgac cccgacgccc ggccgccggt accgaaaccg 60
gatcggcccg ccgatggccg cggccacggc gtctgcctta cccggcccgg ataccagcag 120
ccacacctcg cgggaacgct gaatcgccgg cagggtcaag gtgattcggc gtggcggcgg 180
tttcgcgaat cgtccaccgc caccaccatg cgggtgctct cgaagacgcg gggctgtgcg 240
ggaacagcga gttaatgtgg ccctcgggcc ccatgcccag caggtggacg tcgaaattcg 300
gcccgggtca cctggtgcgg cactggcggc c 331

309

286

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

309
agcttgtcga tcgtccggca gcgtccggcg agtcaagtcg aagccagtcc ggtctcctct 60
ccgactacgg ccaagaactg ggcgacggtg tcagtgcata ccagcggana ctggtggcgc 120
cctaggcgag cgaccgcctc acaaacggcg gtgaccgcgt tctggtcgtg caccatcgag 180
ccgtgcccat cccggccgcg tgccgtcagc cgcatccact ggatgccctt ctcggcggtt 240
tcaatcaggt acaggcgacg ttcgccanca tcgtgccggg gcangg 286

310

331

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

310
ttggtgatca tcgncccaac gaccccgagg cgatgttctt gcacaccgag gagtgtcgca 60
agctggggct ggccttcgcc gccgatccgt ctcagcagct ggcgaagctg tcggggtgag 120
gaaattcgca ggctcgtcaa cggtgctgct tacttgttca ccaacgacta ctaatgggat 180
ctgctgctgt ccaagaccgg ctggtcagan gccgatgtga tggcgcagat cgacctgcgg 240
gtgaccacat tgggtcctaa gggtgtcgat ttggtagaac ctgacgcacc accatccacg 300
tcggcgttgg tccccgaaac agccagaccg a 331

311

458

DNA

Mycobacterium tuberculosis

311
ggctcgtatg ttgtgtggaa ttgtgagcgg ataacaattt cacacaggaa acagctatga 60
ccatgattac gccaagctat ttaggtgaca ctatagaata ctcaagcttg attttgatca 120
tcatgatgat catcacccga agtgtggtag ccgcagtggt tatcgtgggt accgtcgtgc 180
tttccatggg cgcctctttc gggctttccg tattggtctg gcaggacatt ctgggtatcg 240
agttgtactg gatggtgttg gcgatgtcgg tgatcctgct cctggcggtg ggatccgact 300
acaatctgct gctgatttcc cggttgaaag aggaaattgg ggccggattg aacaccggaa 360
ttatccgtgc catggctggt accgggggag tggtgacggc tgccggcatg gtgttcgccg 420
ttaccatgtc gttgtttgtg ttcagcgatt tgcgaatt 458

312

289

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

312
caggcatgca agcttggcgt gccgttccaa cccgaattgg ctttcggcgc catcggtgag 60
gacggcgtgc gggtgctcaa cgacgacgtc gtccgcggga cacacctcga tgctgccgcc 120
atggacgcgg tcgaacgcaa gcagctgatc gagctacaac gccgcgcgga acgcttccgc 180
cgcgggcgtg accgcatccc gttgaccggg cggatcgcgg tgatcgtcga tgacggcatc 240
gccaccggag cgacggccaa ggcggcgtgc caggtcnccc gggcgcacg 289

313

154

DNA

Mycobacterium tuberculosis

313
ggcatcttgg ccgccatgtt agccacactg ccaccggcta tagaagcgat gcgcaccgtc 60
ctgccagcac attgcggcgc tcctccctgg aaagcaagat aaccaagctc atgccgtggt 120
tgtgggtggc gtggtttggt ttgggtaact ttgg 154

314

324

DNA

Mycobacterium tuberculosis

314
tcggctaata atcgtcgacg ccggcctcct ctgcaatcgc cttggcggtc gccgggttgt 60
caccggtgat catcacggtg cggatgctca ttcggcgcat ttcgtcgaat cgttcccgta 120
tgcccacctt gacgatgtcc ttcagatgga cgacgccgat ggcccgcgcg ctgctgttat 180
cggtccattc cgcaacgact aggggtgtcc cccgccggag ctgatgccgt cgacaatggc 240
acccacctcc tcggtggggt gggcaccgtg atcgcgaacc cacttcatca ccgcagccgc 300
ggcaccttgc ggattcgacg gatg 324

315

322

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

315
ctcaagcttg gaggcgtggc gatcgcggtc caaggcgcgc tctccgagca caacgagcga 60
agacngctcg gcgacggagc ctttatcgac ntccgttcgg gctggctgac ggcggcnaaa 120
taatgctgga ctcgttgttg tcgacggtgc cgtggcgagc cgagcgccgt cagatgtacg 180
accgggtggt ctatgtgccg cggttggtga gtttccacga cctgaccatc gaagatccgc 240
cgcatccgct gctggcgcgg atgcgccggt ggctcaacta attctacggc ggcgaactgg 300
gtnatccctt cnccaccgtc gg 322

316

404

DNA

Mycobacterium tuberculosis

316
cctaggtcaa ccgtaccgtc atcggatcgg ggtcgaccgc acagatggac tggagcttcg 60
gcgaggtcat cgcctatgcc tcgcgggggg tgacgctgac cccgggtgac gtgttcggct 120
cgggcacggt gcccacctgc acgctcgtcg aagcacctca ggccaccgga aatcattccc 180
gggctggctg cacgactgcg acgtggtcac cctccaggtc gaagggctgg gcgagacgat 240
gcagaccgtc cggacgagcg gcactccttt tccgttggct cttcggccga atccggacgc 300
cgaacccgac cggcgcgggg tcaacccggc accgacgcgg gtgccgttta cccgcgggct 360
gcacaaatcc cgacgggtat gggctttgac ctgccgacgg ggga 404

317

346

DNA

Mycobacterium tuberculosis

317
agcttggcgt gacaccaaca cagggcactt aagatggcaa tgcgccgcct acctgcacgt 60
tttcgcgatg tcagaggatg ccgaggggag aacaatgcga gcacggccgc tgacgttgct 120
caccgctttg gcggcggtga cattggtggt ggttgcgggc tgcgaggccc gagtctaggc 180
cgaagcatat agcgcggccg accgcatttc gtctcgaccg caagcgcgac ctcagccgca 240
gccggtggag ctactgctgc gcgccatcac gccgcctagg gctccggcgg cgtcgccgaa 300
cgtcgggttt ggcgaactgc ctacccgggt ccggcaggca accgat 346

318

333

DNA

Mycobacterium tuberculosis

318
tcatgccgtt ggaccgacca tcggagttag ttgccgaacc gcgggaccac cgcaagcacc 60
cggtcctggt cgcgcaccgc gtcggccaac cgcttgagca ccaccacgcc gcagccctcg 120
ccgcgcacga atccatccgc gttggcgtcg aagctgttgc atcggccggt cggtgacagc 180
gccgaccact tggacagcgc gatggcggtg aacggtgaca aggtgagctg caccccgccc 240
gccaatgcca cgtcggtttc acgcaggcga agctctgaca cgccaagtga attgccacca 300
gcgacgacga acaagcggta tctacggcga tgg 333

319

207

DNA

Mycobacterium tuberculosis

319
gggtcgactt tctgcaaggc gaggctacac cgtcgtcgtc gtggtatgcg atagccatcc 60
cgtcgggcta ctcgccatca ccgatcagct tcgccccgaa gccgccgtgg tgatttccgc 120
tgcgaccaaa ctgaacgggg ccaaaccggt attgcttacc ggcgacaacc gggccaccgc 180
cgatcggctc ggtgttcagg ttggcat 207

320

250

DNA

Mycobacterium tuberculosis

320
aatccgaaat cctgaccgat acttgaacct ggtctcgttc ggcaataact cgtcggcgtg 60
caggacgcgg cgcaaacgta cttcggcatc aacgcgtccg acctgaattg gcagcaagcg 120
gcgctgctgg ccggcatggt gcaatctaac agcacgctct tcccgtacac caaccccgac 180
ggcgcgctgg cccgggcgga acgtggtcct cgacaccatg atcgaaaaac cttcccgggg 240
aggcggatgc 250

321

365

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

321
ttccgaattt cgggtccngg tcatatgacc ctcatggaag aagaagcggc cgccccgcgc 60
ccgtgcgacg gcgaatgaaa accctcaccc aggccgcatt gaacgccgac aagacggtgg 120
agcaggtcga agacgtcctg gacggtctgg gtaagaccat ggccgagctg aacagctcgc 180
tgtcacagct gaacagcacc gtggagcgct tggaggacgg tctggaccat ctcgaaggta 240
ccctgcacag cctggacgat ctcgcgaaac ggctcatcgt gttggtcgag ccggtggaag 300
ccatcgtcga tcggatcgac tacatcgtga gcctcggcga aacggtgatg tcaccgctgt 360
cggtc 365

322

413

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

322
nctcgatctt ggggtacgtt cgatgaggct gctgaccaac aacccggcca agcgggtggg 60
actggatgga tacggattgc acatcatcga gcgcgtgccg ctgccggtgc gggccaacgc 120
ggaagaacat ccgttacctg atgaccaagc gtgacaaatt ggggcacgac ttggctgggt 180
tggacgattt tcacgaatcc gtgcatctgc ccggagaatt cggcggtgcc ttgtgaaggt 240
ggcgccgggg tgccggatct gccgtcgctg gatcgtctgg tgtgcggctg gcgattgtcg 300
ccagcagctg gcacggaaag atctgcgacg cgctgttgga cggcgcccgc aagtggccgc 360
cgggtgtggc ctcgatgacc gactgtggtt cgggtgctcc gcgcgatcga tat 413

323

364

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

323
tcatcccgac caaaacgcga gctaggtcgg catccgggaa gcatcgcgac accgtggcgc 60
cgagcgcgct gccggcaggc cgattaggcg ggcatattat cccgccgcgg ctcccggctc 120
cgagtacggc gccccgaatg gcgtcaccgg ctggtaaccg ctcttgcgcg cctgggcggc 180
ggcctgccgg atcaggtggt agatgccnac aaagcctgcg tgatcggtca tcaccaacgg 240
tgacagcagc cggttgtgca ccaagcgcga acgccacccc ggtctccggg tctgtccaac 300
cgatcgaccg cccaagccca catgaacaaa ccccggcatc acgttgccga tcggcatacc 360
gtga 364

324

488

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

324
ttggcgggtt ggcccagcag cccgccggtg acggcgacga tgctgggctg gttgcggccc 60
tgcgccaccg cggcttgcat gctggttggc tgtcttggga cgatcccgaa atagtccacg 120
cggatctggt gattttgcgg gctacccgcg attaccccgc gcggctcgac gagtttttgg 180
cctggactac ccgcgtggcc aatctgctga actcgcggcc ggtggtggcc tggaatgtcg 240
agcgccgtta cctacgtgac ctgatggatc ggggggtgcc gaccgtgccc ggcgatgtgt 300
atgtgccggg anagccggtc cggttgccac gcaaaggcca tgtcttcgtc ggtccgacca 360
tcggtaccgg gacacggcgc tgtattgccc ggttcgctgc cgagttcgtc gcgcaactgc 420
acgcnggcgg gccagcggtg ctcgttcanc ccggaggttc cggtgacgat gatcgtgttg 480
gtctccct 488

325

396

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

325
gtaggagaga acaaagaccg tcgataggac acgtgttacg ccggtagctg tcattggtat 60
ggggtgccgc tgccgggggg catctactca cccgatcggt tgtgggaggc gttgctgcgg 120
ggcgacaatc tggtcaccga gatccccgcc gaccgctggg acatctacga gtactacgac 180
cccgaacccg gcgtgcccgg acgcaccgac tgcaaatggg gcgcgtacct cgataacgtc 240
ggcgactttg atcccgagtt cttcgggatc ggggagaaag aaacgatagc gatcgatccg 300
cagcaccgct tgttgctgga aacctcctgg gaagccatgg aacacggcgg gctaacaccg 360
aaccatatgc ctcccgacan gggttttcgt ggggtt 396

326

394

DNA

Mycobacterium tuberculosis

326
cgaactgagc ccatagaaag gcagcgacta attcgctggg caaataggaa gaccctttgt 60
cctgccacgt atatttgtcg acctcgttgc gaaggaagcg gctgcgattg gtgccctttt 120
ccctggagaa tctctgcccg gagcaggaag tcttatgagt tgacaagcag gggcgccgcc 180
ttcgccggaa atcacattct tggtctcgtg aaatgagagc gctcccaggt cgccgatgct 240
gccgagcgcc cgcccacgat acgacgccat cgcgccttgg gccgcgtctt cgaccaccgc 300
caggttgtgg tgcgtggcga tcttcatgat cgcgtccatc tcgcaggcca cccggcatag 360
tgaacgggga ccatggcctc ggttcgcggg tgaa 394

327

140

DNA

Mycobacterium tuberculosis

327
cttagacgcc acctccgggc cgagctccac ggggtggata agtacggccg gatgtggccg 60
caatgggaag ttgttgcccg cttgactgtc cgggttaacg ccggattcca ccacatcccc 120
ttgcgaaagg ccgttgggtt 140

328

242

DNA

Mycobacterium tuberculosis

328
gatcgcgatc gtcgatgtgg ccatccggct tggcgtcgac ccgcgtaagg cagaccagat 60
ggttcgcggc acggtcaacc tgccacacgc actggtaaga ctgcccgcgt cgcggtattc 120
gcggttggtg aaaaggccga tgctgccgtt gccgcggggg ctgatgctgt cggatcgacg 180
atctgatcga gaggatcagg gcggctggct ggaattcgat gccgcgatcg cgataccgga 240
tt 242

329

220

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

329
agcttacgcc gctttcgctt cngatttggg acgccgcatc gaaagcgcag ttggaagcgc 60
ggcgcccggc tggtcgagct gctcaagcag ccgcaatccc agcccatgcc cgttgaggag 120
caagtggttt cgatcttcct gggcaccggc ggtcacctgg actcggtgcc cgtcaaggat 180
gtcggcggtt cgaaaccgaa ttactggacc acatgcgggc 220

330

328

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

330
cgacgggacc tcgtcgcatc ttccatagcc cgccacacct tcagttgctc accggaatcc 60
aaccggtata aggtcggcga agcgctcggc attggtcatc gggatatgcc gctcgggacg 120
gtcagatgcc ctcgggtccn gccagcactc ctcaggcttc gtcggggtgg tcgcgaccgc 180
atgggccaca tcgcattcac caggtctgcg cgaatcacca gcacgtanac ggttcctttc 240
ctaagcaaca ccgaaatttc aggacccgaa tgctccggga aaacatgtca cggtaagtcc 300
ggtattccgg gtaccggttg agcattga 328

331

366

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

331
cggcatcggt ttgggctgtc accagcagtt ggtagttctt cactactgtt gttcgagcgt 60
cgagccgccg cgcgtgtcga ggtcgccgga cgcgtacccg ccaggccggt cagggtgccc 120
ttccagtcca cgcngctgtg gtcggctaac cgcttatctt caatcgagac natcgccagc 180
ttcatcgtgt tggcgatctt gtccgagggc acctcgaacc ggcgctgcga ntacagccac 240
gcgatcgtgt tgcccttcgc gtcgaccatc gtcgataccg caggcacttg cccctcgagc 300
agctgggccg atccgttggc aacgacctca gaggcacgat tggacatcag ccctagcccg 360
cctgcg 366

332

407

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

332
ccgtcgangc cgccgacttg gcttgaccga caccaacatg gcctgagggt gttcaacaag 60
accgtggccg acgggctgaa catcaccatg agcggcatga gccacgccac cgagttcatc 120
atgttgatcg ccgaaaacca ttggcgggta gcggaagaac ggtcgaggtg ctctacaccg 180
agtattcgaa gtcgaaaggc caaccgctgc tcaacggcgt caacatcatt ttcgacgggt 240
ttctgcgagg gaggatgcca cgatgaactg gatccaggtg ctgttgatcg cgtcgatcat 300
cgggttgctg ttctacctgt tgcggtcgcg ccgaagcgcg cggtccgtgc ctgggtcaag 360
gtgggctatg tcttgttcgt gctcccggca tctatgccgt gctgaga 407

333

473

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

333
ttacacgncc tgcttccggc tcgtatgttg tgtggaattg tgagcggata acaatttcac 60
acaggaaaca gctatgacca tgattacgcc aagctattta ggtgacacta tagaatactc 120
aagctttttg agcgtcgcgc ggggcagctt cgccggcaat tctactagcg agaagtctgg 180
cccgatncgg atctgaccga agtcgctgcg gtgcagccca ccctcattgg cgatggcgcc 240
gacnatggcg cctggaccga tcttgtgccg cttgccgacg gngacgcggt angtggtcaa 300
gtccggtcta cncttgggcc tttgcggacg gtcccgacgc tggtcgcggt tgcgccgcgg 360
aaagcggcgg gtcgggtgcc atcaggaatg cctcaccgcc gcggcactgn acggccagtg 420
ccgcggcgat gtcngccatc gggacatcat gctcgcgttc atactcctcg acc 473

334

305

DNA

Mycobacterium tuberculosis

334
caggcatgca agctttgtca caccaagtgt ttcgaccagg cgctccatcc ggcgagtgga 60
tactcccagc aggtagcagg tcgccaccac gctggtcagt gcgcgttcag ctcgcttgcg 120
gcgctgcagc agccagtccg ggaaatagct gccctggcgc agcttgggga tcgcgacgtc 180
gatggttgcg gcacgggtgt cgaaatcacg gtggcggtag ccgttgcgct gattggaccg 240
ctcatcgctg cgttcgcggt agcccgcccc gcacagggcg tcggcttcag cccccatcaa 300
ggcgg 305

335

432

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

335
agcttagcca gtttttctac tcttgggccc acacccacag tgcttcgacg gtacggtcac 60
ccatgatggc catccagttg gcatcggtga gctgataaat gccagctggt ttcgccaacc 120
cggtagcgat cttggcgcgc tgcttgttgt cactgatacc tatcgagcaa gacagcccgg 180
tttgcgacaa gatgactttt cggatctctt cggcgacttc gatggggtcg tcgggagtcc 240
cgggcgccac cgcgaggtaa gcctcgtccc agccccatac ctcgaccggg tatcccaggt 300
cgcgcaataa cgccaccacc tcctcggacg ccgcgttgta ggcggctggg ttcgacggca 360
agaagtggcc tcagggcatc gtcggcgcgg tcccaacggc ntgccggcgc gcacaccgta 420
ggcgcggggc tc 432

336

429

DNA

Mycobacterium tuberculosis

336
ccggcggaac tcagacgtgc tggtggtgcg gcatggcacc gcgggcagca aagcgcactt 60
ctccggggac gacagcaagc gaccgctaga caagaggggt cgtgcgcagg cagaagcgtt 120
ggtaccacag ctgctggcgt tcggcgccac cgatgtttat gccgccgacc gggtgcgctg 180
ccaccagacg atggagccac tcgccgcgga actgaacgtg accatacaca acgagcccac 240
cctgaccgaa gagtcctacg ccaacaaccc caaacgcggc cgacaccgag tgctgcagat 300
cgtcgagcaa gtaggcacac ccgtgatctg cacgcagggc aaggtcattc ccgatctgat 360
cacgtggtgg tgcgagcgcg accgtgtgcc cccgacagtc ccgcaatcgc aaaggcagca 420
cgttggtgt 429

337

94

DNA

Mycobacterium tuberculosis

337
gtatggtcag ctgtccatcc ggcgctgtcg gccgagctgc cagatctcgt cagccgtaac 60
cgggttgcgg gatccacgcg tgcgggttgt ctac 94

338

351

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

338
ccgactttcc gcgggtaccc gctcaacttt gtgtcnacct caacgccatt gccggcacct 60
actacgtgca ctccaactac ttcatcctga cgccggaaca aattgacgca gcggttccgc 120
tgaccaatac ggtcggtccc acgatgaccc agtactacat cattcgcacg gagaacctgc 180
cgctgctaga gccactgcga tcggtgccga tcgtggggaa cccactggcg aacctggttc 240
aaccaaactt gaaggtgatt gttaacctgg gctacgcgac ccggcctatg gttattcgac 300
ctcgccgccc aatgttgcga ctccgttcgg ttgttccaga angtcagccc g 351

339

152

DNA

Mycobacterium tuberculosis

339
gcaccgatgt cggcgagcac ttcgtcaact tccaggggtg cccgcaccaa gtatttcgac 60
gagtatttcc gtcgggccgc cgccgccggt gcgcggcagg tggtcatcct ggcggcgggg 120
ctgggactcg cgcgcgtacc ggctgcctcg gc 152

340

263

DNA

Mycobacterium tuberculosis

340
tgcacccaac ttactgagca tgctaacgct ggtcgtgcgg gtcttgttcc cgcgtgtcgg 60
cagggcacac gctcggggcg tagctgggag aggccccggt caagcccgga gagcagtgct 120
cagtccgcca gcttgaccga ctttcgatga gaacgcgctt ctcgccgtat tgaactggcg 180
tgctgacggt cgctgagcag cgctcgccga gtgcggccgc tgattctttc atcgagccag 240
gacgcgcatt cgtgttcggc cgc 263

341

249

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

341
agcttacggc cggtcgacgc gacgagtggt tcatgacacc acaaaccgtc aacgcctact 60
acaacccggg gatgaacgaa atcgtcttcc cgcagcgatt ttacagccac catttttcga 120
tccgcaggcc gacgaggccg ccaactacgg cgggatcggg gcgcgtgatc gggcacgatg 180
atcgggcacg gtttcgacga tagggcgcca aatacgangg cgacgcaatc tggtcnattg 240
gtggatcga 249

342

269

DNA

Mycobacterium tuberculosis

342
atgtcgtcac gtcaccacaa tcgcgaggac ccaatcatgc cgcccagggc ggccaaccca 60
atggtggccg cgaagcggca gctcgatcgc agcgcggagg tgccggccgc cagttgattc 120
acgaacaggg tgaggtcata ggcgggcagg atagtgacga acgcaagacc tatatctgcc 180
gtcggagtaa gaatcgagta gccggtcgac caacggaagc gaaagtgtcc gcgatgttga 240
tgagcgtcgc cggttgtggc ggcggtggc 269

343

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

343
agcttcacca gcgtgccgat gctgttcgcn acacctccct actatgcgca attcgccgac 60
acgggtggca tcaacacggg cgataaggtg gacatcgctg gggtgaacgt cgggctggtg 120
cgctcgctgg caatccgcgg caaccgcgtg ttgatcggat tctcgttgcc cggcaagaca 180
atcgggatgc aaagccgggc agcaattcgc accgacacca ttcttggccg taagaacctg 240
gaaatcgaac cccgcggttc ggagccgttg aaacccaacg gtttcctgcc gttggcgcag 300
aacactacgc cataccaaat ctatgacgcg ttcgtc 336

344

417

DNA

Mycobacterium tuberculosis

344
ctgccgcggt ggcggtcagc gcctggcaag tcaccgcacc gccgtccggt tcatcggcag 60
gctcccccga aaagggccct ggcaacagaa ggtgatcaat gagctcccgc agaccttcgc 120
cgatctggga ccgacatacg tgaagttcgg ccagatcatc gcgtccagcc cgggagcatt 180
cggtgagtcg ctgtcgcggg gaattccgcg gcctgctcga ccgggtgccg cccgcaaaaa 240
ccgacgaggt gcacaagctc ttcgtcgagg aactcggcga cgagccggcc cggctgttcg 300
cctccttcga ggaagaaccg ttcgcgtctg cgtccatcgc ccaagtgcac tacgcgacct 360
gcgcagcggc gaagaagtgt ggtcaagatc cacggccggg catccgccgc cgcgttt 417

345

405

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

345
gatcgtgccg gccccccggc ggcagtagca gatcagctcg tcgaaatcgc ggcaaccagt 60
ccagtcgatt tccatacggg cgccgtcaat caactctgcg aacatcgcga tcggcaccgg 120
aaaccggcga gccgcgtcag ccagcgcaac cagcaccggg atcggatgaa tcatcaatat 180
tatcaagtga tttcctgatg gcatcgagct cggtgatctt ggtctcgggg gccagctcgc 240
cgtcggcgac gtcgtcgatc cggcggccga gcgcatagac cgcaaatagt gccgctcgct 300
tttcgcgcgg caagagtcgg atgccgtaat atangtttct ggcggccgtg cgcgtgatcn 360
actcggtgat tcgatacgcc tgttcatctc ggtcatgccg tcctc 405

346

414

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

346
ggtggcgcaa tgaccgaaac caccccagcc ccgcaaaccc cggcggcccc ggccgggccc 60
gcacaatcgt tcgtgttgga gcggcccatc cagaccgttg ggcgccgtaa ggaggccgtg 120
gtacgagtgc ggctggtgcc cggcaccggc aagttcgacc tcaacggccg cagcttggag 180
gactacttcc caaacaaggt gcaccagcag ttgatcaagg cacccctggt caccgtggat 240
cgggtggaaa gtttcgacat ctttgcccac ctgggcggcg gcggcccgtc gggtcatggc 300
cggcgcgctg cgcctgggta tcgcccgggc attgattctn gtatcgccgg atgaccggcc 360
cgcgctgaat aangccggct tcttgaccgt gatccacgcg ccaccgaacg caaa 414

347

331

DNA

Mycobacterium tuberculosis

347
cacaatagat tactcaagct tcgaaccagc ggccttatca cgtatccccg ctgagacctt 60
gacccttagg gccgaagtga cttcgctgct gctatgccga cacccgattt ccagacgctg 120
ctgttacacg acggccgggc cggtggccac catcacgctc aaccgcccgg aacagctcaa 180
caccatcgtc ccgcccatgc ccgacgagat cgaggccgct atcgggttgg ccgagcgcga 240
ccaggacatc aaggtcatcg tgctgcgcgg tgccggccgc gccttctccg gcggttacaa 300
cttcggcggc gggttccaac attgggggca t 331

348

386

DNA

Mycobacterium tuberculosis

348
tcaggacgct tatggttggc agatggtcgc cctggcgtcg aatacgcgcg agcgcatgag 60
ctcaccggtt cggaacaacg tatcgaagaa cgtcgcactg ctggcagatg gtatctccga 120
tgtggttgta atttgtatcc caactctaac tgtgctatcg gatcagcgtg aatatcgaga 180
tattgcgaat gcgatgacag gccgccattc ggtttattcg cttacgcttc ccgggttcga 240
ttcgtctgat gcactgccgc aaaacgcgga tatgattgtt gaaaccgtat ctaacgcaat 300
tattgatgtg gtaggcggca gctgccgttt tgtgctgtcg ggctattcat cgggtggggg 360
tgtttggcta tgccctctgc tcccat 386

349

187

DNA

Mycobacterium tuberculosis

349
cgcagctgtc gccgatctgg tccggaatac ctagctccag gttctgagtg gagatgagtg 60
cggccatcga agtgttgtca atgtactcca ggatgtcagg tgccaggccg ctggcgagga 120
tcttgggcac cgccgccatg acttggtcga agtcggcgaa cggggcgagc acgctggcgt 180
cgtggtc 187

350

241

DNA

Mycobacterium tuberculosis

350
gtagttcgtt catccaaaca cagtgcggta ccggctcaag cggatcaccg acttcaccgg 60
gcgcgatccc acccagccac gcgatgccta tgtccttcgg gtggcggcca ccgtgggtca 120
actcaactat ccgacgccgc actgaagcat cgacagcaat gccgtgtcat agattccctc 180
gccggtcaga gggggtccag caggggcccc ggaaaagata ccaggggcgc cgtcggaccg 240
a 241

351

335

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

351
tccgctcgct tctccgagag gttgagtgcc aacgctctgc cgatgcccga agccggcccc 60
ggtgatgacg gcgaccttgc cttcgaatga gctcatttga ctactccccg tggttgtccc 120
tgcgattggt ggaggtggcc gcgcagcctt gccccgaggt cggcgatcgc gtctcgggct 180
tcggggagca gactgacctg cagatggaag tcgtgccaca tgcccgcgaa ccggcgatgc 240
tcgatgcttg ttttcgaagc ggcgcaggcg gtttcgatct tgtccgcgtc aacacngatc 300
ggatcgtcgc ccgcggtctg catgacgaat gggcg 335

352

441

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

352
atgggaggcc accgattacc atcttgcaca caccgattcc gggctattga tgtccacgtt 60
cggtccgcga accgcgctgt ggctgctgct ggccaaaggc ggaggcgata ccgaagtcag 120
tgcccaagct tgggttccac gctcgcgcag ccacgccgtc acctttccac gagacctcac 180
ctgccgatcc gaaatggaat cggccgtgac ggaattggcg cagcgaacac tcaacgaggt 240
ggtggcttcg tcgcgaaccg tcacccgagt cgcggtcacc gtgcgcacgg cgacgttcta 300
cacccgcacc aagatccgaa agctgcaagc tcccagcacc gatcccgacg tcatcaccgc 360
tgccgcccgg cacgttcttg aacctattcg agctggaatc ggccgtccgg ttgctgggaa 420
ttgcngttaa gaactgggcc t 441

353

332

DNA

Mycobacterium tuberculosis

353
gctttgcgcg cttctccgag aggttggagt gccaacgctc tgccgatgcc cgagccggcc 60
ccggtgatga cggcgacctt gccttcgaat gagctcattt gactactccc cgtggttgtc 120
cctgcgattg gtggaggtgg ccgcgcagcc ttgccccgag gtcggcgatc gcgtcgcggg 180
cttcggggag caaactgacc tgcagatgga agtcgtgcca catgcccgcg aaccggcgat 240
gctcgatgct tgttttcgaa gcggcgcagg cggttcgatc ttgtccgcgt caacgcagat 300
cggatcgtcg cccgcgggtc tgcatgaaga at 332

354

334

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

354
ctcacgcagc cacgccgtca cctttccacg aagacctcac ctgccgatcc gaaatggaat 60
cggccgtgac ggaaattggc gcagcgaaac actcaacgag gtggtggctt cgtcgcgaac 120
cgtcacccga gtcgcggtca ccgtgcgcac ggcgacgttc tacacccgca ccaacatccg 180
aaagctgcaa gctcccagca ccgatcccga cgtcatcacc gctgccgccc ggcacgttct 240
tgacctattc gagctggatc ggcccgtccg gttgctggga gtgcggttag aaactggcct 300
agaaaccggc gggcacaccg cacctgggcg gggn 334

355

341

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

355
tgcttccggc tcgtatgttg tgtggaattg tgagcggata acaatttcac acaggaaaca 60
gctatgacca tgattacgcc aagctattta ggtgacacta tagaatactc aagcttgatg 120
ccgccgaaac cgagcgtgag cacgccgcca gccaccacnc gcgggtcggg cgccgggccc 180
gggtcgccan gctgctccgc tcggtgatgg cacgccaccg cgacaccacc cggctgcgct 240
acgtcgagcc ataccgggcg gagctacatc ggctcggccg cccagtgttc gggccctctt 300
tcgaagtcga agtcgatacc gattgcgcat ccgcngccgc a 341

356

259

DNA

Mycobacterium tuberculosis

356
caggcatgca agcttcacgt ccgtacggct cgggtacgct tcggtcgcag tgtgcgagtg 60
atagatgacg accgggacct cgtctgcatc ttccatagcc cgccacacct tcagttgctc 120
accggaatcc aaccggtaga aggtcggcga gcgctcggca ttggtcatcg ggatatgccg 180
ctcgggacgg tcagaaccct cgggtccggc cagcactccg caggcttcgt cggggtggtc 240
gcgacgcgca tgggccacc 259

357

349

DNA

Mycobacterium tuberculosis

357
gcttgtctat cgtcccggcc aggtccggcc agtcaaggtc gaaggccagt ccggtctcct 60
ctccgactac ggccaagaac tgggcgacgg tgtcagtgca gaccagcgga aactggtggc 120
gccctaggcg agcgaccgcc tcacaaacgg cggtgaccgc gttctggtcg tgcaccatcg 180
agccgtgccc agcccggccg cgtgccgtca gccgcatcca ctggatgccc ttctcggcgg 240
tttcaatcag gtacaggcga cgttcgccac catcgtgccg gggcacggtt agcgagaaac 300
cgccgacttc acgattgcct cggtgatgcc gtcgaaacag atcgggcct 349

358

325

DNA

Mycobacterium tuberculosis

358
gcgcgccatg ttgaggttgt ccgacggtga cgacggtgaa ccacaactgt ttgacctgtc 60
cgcacacacc gtgtggatcg gcgagcggac ccgacaaatc gatggcgcgc acatcgcgtt 120
tgcccaggtg attgctaatc cggtcggggt caagttgggc cccaacatga ccccggaact 180
ggccgtggag tacgtcgagc ggctcgaccc gcacaataag ccgggccggc tgacttggtg 240
agcaggatgg gcaaccacaa ggtccgcgat ctgttgccac cgatcgtgga gaacgtccat 300
gccaccgggc atcaggtcat ctggc 325

359

191

DNA

Mycobacterium tuberculosis

359
ttgccttcca tgccgagcaa ggtcgactca gcgatgacga attgttcttc ttcgcgggtg 60
ttgctgctgg ttgcgggcta tgagagcact gctcatatga ttagcacatt gtttctgacg 120
ctggccgact atccagatca gctgacactc cttgcgcagc aaccagacct gatcccgccg 180
gcgatcgagg a 191

360

74

DNA

Mycobacterium tuberculosis

360
cgacgctggg cccaactgcg accaccaggt cctggtatgg caggacatgg ccgggttcag 60
cggcgccaat accg 74

361

312

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

361
taacgactcg ggtccagcga ccgcgccaac acnaacggcc ggacnacgtg ggccagggtc 60
gcggcctccc ctacaaacag gatccgttgc ctgcgaacga caggctccgg tgcggcgttg 120
ggcgccgtgc tcgtcccagc gtccggtccc gggtcgccgg cgacgcttgt ttcctccata 180
ctcgccccct aatctcgagg cagcccgtac ccgcaggcaa cctcccaaaa atgcaatccc 240
ccaaaatgca atgcgtcnag ctatttctca caccgaccgc tagttgcgga tcanaaatcc 300
gttgggcgcg ga 312

362

335

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

362
cntggcggtg ggtgcggtgt cgaacacgac cacacttctt tgcggttcgg tgatctcgac 60
accggccgcg agccgaccac catgcgcgcg tagatcggcg atcagcgcgt cggctatcgc 120
ctgggtgccg cccaccggaa tcggccagcc gaccgaatgg gccagcgttg ccatcatcag 180
tccggcgccg gccgacacca gtgacggcaa cggtgaaatc ncgtgggcgg caacgccggt 240
gaacaacgcg cgggcatcct cgcccgccag cgaccgccag gcaggggtgc cctgggccag 300
catccgcagc ccgagacnca ggaccgancc cagtg 335

363

386

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

363
gcttttcnga tcgcagcgag tcgtacccgc gccggtcacc ttcgtggata tcgccggcct 60
ggtcaagggg gcgtccgagg gagccgggct gggtaacaag ttcctggctc atatccgcga 120
atgcnacgcc atttgtcagg tggtgcgggt gttcgtcaac aacnacttga ctcatgtcac 180
cggacgggtc gatccccant ccgacattga ggtcgtcgan accgagctga tcctggcana 240
tctgcaaacc ctggagcggg ccacgggccg gctggagaag gaancgcgca ccaacaaggc 300
gcgcaagccg gtctacgacg cggcactgcg tgcccagcag gtgctcgacg ccggcaanac 360
gctgttcgcc gcgggggtgg atgccg 386

364

386

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

364
gtcgtacgcc attngtcggt gtgcgcatac cagtacgacg cgccgggcac ctgacgcggc 60
ggccgcgacc agtcggtggc catcgccatc gtctgccacc cggtcaacgg acgcaccttc 120
tcctggccga cgtagtgcgc ccacccgccg ccgttgcgtc ccatcnatcc ggtcaacatg 180
agcagcgcca acaccgagcg gtacatgaca tcgctgtgga accagtgaca gattccgccg 240
cccatgatga tcatcgaccg tcctccggat tcggtcgcgt tgcgggcgaa attccttggc 300
aaaccggatt gcctgcgcgg ccggcacacc ggtgatcgac tcctgccagg ccggggtgtt 360
ctgctgggtt cggtcgtggt accggt 386

365

335

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

365
gcgaggcggt atcgcttccc gtcgtaccgg cgaccgccag ccgagaagct cgttttccca 60
gtgttgctgg ggattctcac gctgctgctg antgcgtgcc anaccgcttc cgcttcgggt 120
tacaacgagc cgcggggcta cgatcgtgcg acgctgaant tggtgttctc catggacttg 180
gggatgtgcc tgaaccggtt cacctacnac tccaagctgg cgccgtctcg tccgcaggtc 240
gttgcttgcg atagccggga ggcccggatc cgcaatgacg gattccatgc caacgctccg 300
agttgcatgc ggatcgaata cnaattgatc accca 335

366

396

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

366
tgggtcttgc cggcgagccc agcgaagtcg ctagcgtggc cgtgtttctt ggcttcggat 60
ctatcctcgt tacatgaccg gcaccgtgtt ggacgtgact ggcggccggt tcatatgaca 120
ccgagatcat tgccacggta cggcaattcg tcaagaagga aatctttccc natgcaccgg 180
ccctcgaacg tggcaacagc tacccgcaag aaatcgtcga tcggctgggt gttattggct 240
tgctcggtcg ccggctgcaa gggtatcgac accaccgagt tcattctcgg gcgtgccggc 300
gcattcgagc tggcggtgcg cgctgcccag caccgtcata agtacttgan gatggtcaaa 360
cgtcggacga accgccacca cgtcgctgcc gaacgg 396

367

262

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

367
tagatgccca agcttgccnt tanagacctc gtcgaccaag cacggacgcg accgtcgaag 60
gtggcgaatc cgggcttggc gtcnacccgc gtaaggcaga ccagatggtt cgcggcacgg 120
tcaacctgcc acacggcact ggtaagactg cccgcgtcgc ggtattcgcg gttggtgaaa 180
aggccgatgc tgccgttgcc gcgggggcgg atgttgtcgg gagtgacgat ctgatcgaga 240
ggattcaggg cggctggctg ga 262

368

303

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

368
tctccacggc gtggatcaag gtaccggccg ggatgttgcg caatggcagg ttgttgcccg 60
gcttgatgtc tgcgttagcg ccggattcca ccacatcccc ttgcgaaaag tccgttgggt 120
gcaatgatgt agcgcttctc cccatcgaga tagtggagca acgcaatccg tgcggtacgg 180
ttcgggtcgt actcgatgtg cgcgaccttg gcgttgacac catctttgtc attgcggcga 240
aagtcgatca tccggtaagc gcgcttatga ccgccgcctt tgtgccgggt nggtaatccg 300
gcc 303

369

367

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

369
gcccggttcg atcgggcatg tccgcagtcg tcgttaccgg aggcggtcgt ggccgcgcta 60
atcggcgtcg gcgccgacaa gatgtgggat atccgcaatc ggggcgtcat ccctgcgggc 120
gcgctccccc gcgtccgagc cttcgtcgac gcaatcgagg caagtcacga cgcggatgag 180
gggcagcagt gaattacagc gaggtcgagc tgttgagtcg cgctcatcaa ctgttcgccg 240
gaaacagtcg gcgaccgggg ttggatgcgg gcaccacacc ctacggggga tctgctgtct 300
cgggctgccg acctgaatgt nggtgcgggc ancgccggta tcnactcccg tggaacacag 360
ccggggc 367

370

366

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

370
ctcggcgtgg atatcggtgt agccggcgcc ggtgaangtc ggctccttac gtccactcga 60
caacagctca tagcgatcca accagtangc aaccgccttc agcagtacaa ccgcgccggc 120
gaacactgcg agttgaacgc gagctgcctg ggtcagcatg cctctgccgg ttgtcagccg 180
aaggccgccg aacaggtaat gcgtcaacag gctcgctaga aacgccagaa ccacggccac 240
gaacagccag ttcagcaccg accggtagaa cggcagatcg aagacgaaaa aacccaatgt 300
catagccgaa ttcggggtcc acgatgccaa aggtgccccc gtgtacaaca actgaacctt 360
caccca 366

371

455

DNA

Mycobacterium tuberculosis

371
tccggctcgt atgttgtgtg gaattgtgag cggataacaa tttcacacag gaaacagcta 60
tgaccatgat tacgccaagc tatttaggtg acactataga atactcaagc ttcacgtccg 120
tacggctcgg gtacgcttcg gtcgcagtgt gcgagtgata gatgacgacc gggacctcgt 180
cggcatcttc catagcccgc cacaccttca gttgctcacc ggaatccaac cggtagaagg 240
tcggcgagcg ctcggcattg gtcatcggga tatgccgctc gggacggtca gagccctcgg 300
gtccggccag cactccgcag gcttcgtcgg ggtggtcgcg acgcgcatgg gccaccatcg 360
cattcaccag gtctgcgcga atcaccagca cgtagacggt tcctttccta agcaacaccg 420
aagtttcagg accgaatgct ccgggaaaca tgtca 455

372

196

DNA

Mycobacterium tuberculosis

372
caggcatgca agcttgatgc cgccgaaacc gagcgtgagc acgccgccag ccaccacgcc 60
cgggtcgggc gccgggcccg ggccgccagg ctgctccgct cggtgatggc acgccaccgc 120
gacaccaccc ggctgcgcta cgtcgagcca taccgggcgg agctccatcc gctcggccgc 180
cagtgtccgg gccctc 196

373

443

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

373
cctgcatccg gctcgtatgt tgtgtggaat tgtgancgga taacaatttc acacaggaaa 60
cagctatgac catgattacg ccaagctatt taggtgacac tatagaatac tcaagcttcc 120
aatccccctg ccctgatacg cgtcggcaac cgtgaacgcg atctcggcga ccgtcggatc 180
ggtttcatcc cgcacaaaac gcgcgtcggc tacggggtcg cttccgtcgg tcaccaccca 240
gacgaagtgg tcgacgtagt cgacttccga caggtagtgc atcaacgccg gactgggaac 300
acnagccgac atgaaccgtc gatacagcgt ctcnccggag aactggatgt gtccgtgcac 360
ggtccgctcg cggtcaccgg gcagcacggg gcgtaacatc agttgagtcc cgtcggcaag 420
ccgtaccgga atcggggaga cga 443

374

445

DNA

Mycobacterium tuberculosis

374
caagatgatc gccggtgcca ccccgatccg tgcctcggtc agcgcgaacg tgctttccgg 60
tccggcgacc accatgtcgc acgcaccgac caggccgaac ccgccggccc gcacatgccc 120
gttgatggcg ccgaccaccg gcagcggcga ctcgacgatg gcgcgcaaca gcgccgtcat 180
ttcccgcgcc cgcgccaccg ccatccggta cggatcacca ccaccaccgc cggcctcgct 240
gaggtccgcg ccggcgcaga acgttccgcc ggtatgcccc agcacgacca gccgcaccgc 300
cggatctgct tcggccgcac tcagcccttg atgtagttgg ctgaccagcg tgctcgacag 360
cgcgttgcgg ttgtgcggag agttcagtgt cagcctggcg aaggggccgc cgcaggcggc 420
cgggccagcg tagtcgacgg ggctg 445

375

308

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

375
ctcaagcttc gatcgacagt actcccgcct tgggtctggt cttcgagctg gtcggtcatg 60
gtcggacctg ctggtagtgg ggatctaacg caacatggtc gggattcatc atggtgtacc 120
cgtgataccc attcgcagct gccggtgaaa ccccgcgatg ccgggatttc cagccgcact 180
aggatgtcta gccggccagc cgctgccgcc ggacttcggg atgttcggta taccaccgat 240
cggcaatctt gcntatccgc cgatgctcga acgctagcca ccccaaacca accactgtga 300
cnacaatc 308

376

239

DNA

Mycobacterium tuberculosis

376
tgaatttccc gatcccacaa tctcggttca gatacaggtc gccatacccc ttacttcggc 60
aacgctgggc ggattggccc tgccgctgca gcagaccatc gacgccatcg aattgccggc 120
aatctcgttc agccaatcca tacccatcga cattccgccg atcgacatcc cggcctccac 180
tatcaacgga atttcgatgt cggaggtcgt gccgatcgat gtgtccgtcg acattccgg 239

377

431

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

377
tactcaagct tgaacgctgc gagcgagccc atgtagagcg tttggtacca aaccgatcgg 60
tgggccaact tgccatgggc tcacagcggc tatcgcgagc gtgtagccga tcatcggcca 120
ggcgacggtg gcctgagcgg caggggttgc cttatccatc ctcttgcggc atggttgccg 180
cagggagtgc cggtaagtct ggtcggcaac ctggcccgct gcgggttggg ttcggattcc 240
ctcggctagt aaggtgctcg cctggtgtta caacgaatcg ctagacagct cttatcggga 300
gtggccgtcg cgatcgttgc gctgccgctg gcgatcgcgt tcggcnttac cgccaccgga 360
acgtcccaag gtgcgctcat cgggctctac ggcgccatct tcgccggatt cttcccngcc 420
gtgttcggtg g 431

378

334

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

378
gcggtgtctg aacttcgccc gttccctcca gcgcattgag cttcagcccg accggcaggt 60
agggagtcgg catgcggtcc ttcgccccga ccccgctggc taaatagcca cccccgagcg 120
cggtcacggt ctttgcaccg ggacgacggc ataccggcag cgcgaacatc gccgcgggct 180
gcagcgtgaa cgtcgaatac gagtcgaaca gtgtcggcgc gtaaaaaccc gagccggcgg 240
tcgcttcggt aatcaacggc tcctgcgcaa ccagctgcaa ntcnccggtg ccaccggcgt 300
tgacaatctt gatntcggcg acctcgcgca ccan 334

379

302

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

379
tactcagctt cggctcaggt ggtgctgctg gtaaagttcn ctgaacggtg caggtttcga 60
caatgtggtg ccggttcggc gggtactgcc atcgagacac tggcgcaggc tatcgcaccc 120
gttatcggct acaaacaaat cgcggtatgc gttcttgagc atgagtcggc gaccgtcgtc 180
atggtcgaca cccacgacgg aaagacgcag atcgccgtca agcntgtgtg ccgcggatta 240
tcaggactga cctcctggct gaccggcntg tttggtcncg atgcctggcg cccggccggc 300
gt 302

380

240

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

380
catcacctgg ttcatgaaac tggaagcagc gcagcgcttc cttttcggcc gcaacatgag 60
ccagcctctc gtcggcggtc gggtgcaggt gctcgggcag ctcggccgcg acagccgcct 120
gaccctgaaa ccagcttcca tatcccgcga cgaacgacgc cagtccgcta cgtaacccct 180
ccgcgactgt ccatggacaa cancgcgttc tccaccgacc gggcccgggt gtggggtgtt 240

381

362

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

381
ctcaagcttc ccggcggcca gtaccgaaag cgcgaacagc tcgcggcagc ccacaacntg 60
ctgcgtcgga ttgccggcgg cganatcaat tccaggcagc tcccggacaa tgcggctctg 120
ctggcccgca acgaaggact cgaggtcacc ccggtgcccg gggtcgtggt gcacctgccg 180
atcgcacagg ttggcccaca accggccgct tgatgcccgg tcggcaagcc cggcagttgc 240
caaacccagc gtgatcaggc tcggctcgcg agttcggcga agaagtggct cgcctgatca 300
cctaccatcg gccaggatct gcgtgtcatc acnacgctcg ccaaggaggt tgttgtggtg 360
ct 362

382

411

DNA

Mycobacterium tuberculosis

382
gccacgtttc gcgccgcccg gcatacggcg gcgtaccgat ctccgcgtca tacacccgcg 60
ggtaatcgcc gacggtgccg gttcgcgagc cgaaggtgac gacgctgatt gaatcgagtt 120
ccaggtccag cgggtggcgc agcaacggcg cgagctcaac gacgtcaatc acgttgtcgc 180
tttctacggt caccgacccg gtgaccgtag tcgcccggtg cgctcggccg agaagttgca 240
ccgccaccac cgcgacaccg tcttgcacgc ggacgccacc cccggatcgg ttgttggcca 300
aggtaattgg gtcattccat ttgacgggac gccgaccccg cagccccagt accgcccacg 360
accacgccgg ctgaccccac cactgtacga acaccaaggc gacgccgacc a 411

383

331

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

383
ctcaagcttg atgccgccta aaccgaagcg tgagcacgcc gccacccacc acgcgcgggt 60
cgggcgccgg gcccgggccg ccaggctgct ccgctcggtg atggcacgcc accgcgacac 120
cacccggctg cgctacgtca agccataccg ggcggagcta catcggctcg gccgcccagt 180
gttcgggccc tctttcgagg tcnaggtcna taccgatttg cgcatccgca gccgcaccct 240
ggacgacaga accgtgccct acgagtgctt gtcgggcggg gccaaagaac ancttggcat 300
cctggcgcga ttggccggcg cggtcctggt c 331

384

254

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

384
ctcgggtacg cttcggtcgc agtgtgcgag tgatagatga cgaccgggac ctcgtcggca 60
tcttccatag cccgccacac cttcagttgc tcaccggaat ccaaccggta naangtcggc 120
gagcgctcgg cattggtcat cgggatatgc cgctcgggac ggtcagagcc ctcgggtccg 180
gccagcactc cgcaggcttc gtcggggtgg tcgcgacncg catgggccac catcgcattc 240
accaggtctg cgcg 254

385

346

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

385
ctcaagcttc aattcctcca cgacgcgttc ccaaatgaat ttcccgatcc cacaatctcg 60
gttcagatac aggtcgccat accccttact tcggcaacgc tgggcggatt ggccctgccg 120
ctgcagcaaa ccatcgacgc catcgaattg ccggcaatct cgttcagcca atccataccc 180
atcgacattc cgccgatcga catcccggcc tccactatca acggaatttc gatgtcggag 240
gtcgtgccga tcgatntntc cgtcnacatt ccggnggtca ccatcaccgg caccagnatc 300
gacccgattc cgctgaactt cgacgttctc agcagcgccg gaacca 346

386

287

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

386
ttaacccccg tggcctctac gccgcctncg ggtcgaacat gcatcccgag canatgctcg 60
agcgcgcacc ccactcgccg atggccggaa ccggctggtt acccgggtgg cggctgacgt 120
tcggcggcga ggacatcggc tgggaagggg cgcttgccac cgtcgtcgaa gacccagatt 180
cgaaggtgtt cgtcgtgctc tacgacatga ccccggcgga cgagaagaac cttgaccggt 240
gggaaggctc cgagttcggc atccaccana agatccgatg ccgcgtt 287

387

370

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

387
ctcaagcttg attttgatca tcatggatga tcatcacccg aagtgtggta gccgcagtgg 60
ttatcgtggg taccgtcgtg ctttccatgg gcgcctcttt cgggctttcc gtattggtct 120
ggcaggacat tctgggtatc gagttgtact ggatggtgtt ggcgatgtcg gtgatcctgc 180
tcctggcggt gggatccgac tacaatctgc tgctgatttc ccggttgaaa aangaaattg 240
gggccggatt gaacaccgga attatccgtg ccatggctgg taccggggga gtggtgacgg 300
ctgccggcat ggtgttcgcc gttaccatgt cgttgtttgt gttcagcgat ttgcgaatta 360
ttggtcagat 370

388

330

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

388
cgnccaaccc gaattggttt tcggcgccnt cggtgaggac ggcgtgcggg tgctcaacga 60
cgacgtcgtc cgcgggacac acctcgatgc tgccgccatg gacgcggtcg aacgcaagca 120
gctgatcgag ctacaacgcc gcgcggaacg cttccgccnc nggcgttacc gcatcccgtt 180
gaccgggcgg atcgcggtga tcgtcgatga cggcatcgcc accggagcga cggccaaggc 240
ggcgtgccag gtcgcccggg cgcacggtgc ggacaaggtg gtgctggcgg tcccgatcgg 300
cccanacgac atcgtggcga gattcgccgg 330

389

346

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

389
cgtgactgcc accggggcca ctccgcagaa tctgtacccg accaagatct acaccatcga 60
atacgacggc gtcgccgact ttccgcggta cccgctcaac tttgtgtcna ccctcaacgc 120
cattgccggc acctactacg tgcactccaa ctacttcatc ctgacgccgg aacaaattga 180
cncagcggtt ccnctgacca atacggtcgg tcccacgatg acccantact acntcattcg 240
cacgganaac ctgccgctgc tagagccact gcgatcggtg ccgatcgtgg ggaacccact 300
ggcgaacctg gttcaaccaa acttgaaggt gattgttaac ctgggg 346

390

355

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

390
tcgctcaagc gcntgaggcc gaancggctg gttacgactc cctgtttgtg atggaccact 60
tctaccaact gcccatgttg gggacgcccg accagccgat gctggaggcc tacacggccc 120
ttggtgcgct ggccacggcg accgagcggc tgcaactggg cgcgttggtg accggcaata 180
cctaccgcag cccgaccctg ctggcaaaga tcatcaccac gctcgacgtg gttagcgccg 240
gtcgagcgat cctcggcatt ggagccggtt ggtttgagct ggaacaccgc cagctcggct 300
tcgagttcgg cactttcagt gaccggttca accggctcga aaaggcgcta canat 355

391

403

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

391
atactcaagc ttccgctggg gcctgttcaa ccatggcgat cccgttggtc ccggacatcc 60
cgaacgagga caccgcgacc cncttcggtg tgtgatcatt accgttgggc cactgcgtaa 120
ccgcttgcgg cacaaagagc ccggtctcga cgtcggaaag ctcatcgggc acccgattga 180
aatgcagcag cggcggcacc accccgtgcc gcagtgacag aattgccttg atcagcccga 240
cggtccccgc cgatgccgtg ctgtgcccca tgttgctctt ggccgatcca agcgcgcagg 300
gggtgcccgc gccatacacc cgcgccaggc tgcggtactc aatcgggtcg ccgattggcg 360
taccggtgcc gtgcgcctcc accacaccga ccgtttcggg ctg 403

392

440

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

392
caacagcgtt ccagcggcat accaccgcac atgccgtgca cccggcgccg ggcggagtcg 60
ccgcataaca cangtacacc ttgggaatcg gtgtgcgcca gggattcnac cgcggggtgg 120
ggccggcgat cgcgcgccag gtcgagttgg cgccgaccgt gatntcaccg ccgacgtagt 180
tggcgttgtg gtccgccatc cgcgcggcgg gcacggcgcg ggccgccacc acgatgtcac 240
ggaagccggg ggcgaacgct cgacgacctg gttaccgtct cngtcgcntc nancgtggac 300
ccgacngcac gtgggcatat gtccanaacg gacgnggccg gtttcntcga tgcngccggg 360
gtccgcgacn tgcggacncn cngncacacc atccgccagt ccgcgtggcg tcccgccgcg 420
actctgcctc ggccgcgcca 440

393

353

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

393
ctcaagcttt gncgacgatc gggcgatgtc gatganagga aaccccagcg cacaaccgac 60
nattttggcg tagccggcgg acntctgctc gattccgatc acgtcggcgc tcgcatcgag 120
catggcgccg gcgacggcta gcagcgatcc gccgtcgtcg aggaacacga cacgagccgt 180
acgcccggcc gtaagccgcg cccaggattc ggcgaaaaac cgttctacgt ggcgggtgta 240
ctgggtgtcc aatgattcgt ggggtgcgta ggcgtcgctg caatcgtcga cataaatgcc 300
gtcggcccgc atcgcgtcaa caactcccgg gtgagtggaa tancacttgc cga 353

394

340

DNA

Mycobacterium tuberculosis

394
tccaacgcgg tgacagattt gtctatcctg gacctgacgg tgaggtcgaa gttttccagg 60
aattcggcaa aatcggtaag agcctgaaga attcggtatc gccggacgaa atctgcgacg 120
catacggggc agatacgctt cgggtttacg agatgtcgat ggggccgctg gaggcttcac 180
gtccatgggc cacaaaggat gttgtcggcg cgtaccgttt tctgcagcgg gtgtggcgct 240
tggtcgtcga cgagcacacc ggcgaaactc gggtggctga cggcgtggaa ctcgacatcg 300
atacgctacg ggcgttgcac cgcaccatcg tcggcgtgtc 340

395

362

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

395
ctcgtccttg actacgccca gtatcgaaan cctcctgtgc cggtncgcta aacacccggc 60
ggacactcan acggtgctgg tggtgcggca tggcaccgcg ggcagcaaag cgcacttctc 120
cggggacgac agcaagcgac cgctagacaa gaggggtcgt gcgcaggcag aagcgttggt 180
accacagctg ctggcgttcg gcgccaccga tgtttatgcc gccgaccggg tgcgctgcca 240
ccanacnatg gagccactcg ccgcggaact gaacgtgacc atacacaacg agcccnccct 300
gaccgaagag tcctacgcca acaaccccaa acgcggccga caccgagtgc tgcagatctt 360
cg 362

396

356

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

396
gtatcgcctc cncctttggc caccagcagc cacagcgcgg ttcgcggacc gaacgtggac 60
atcaatagcc cggaatcggt gtgtgcaagt tggtaaacgg tgttgatccc aagctttgcc 120
agccttttcg tagtcttggg ccccacaccc cacagtgctt cgacggtacg gtcacccatg 180
atggccatcc agttggcatc ggtgagctga tagatgccag ctggtttcgc caacccggta 240
gcgatcttgg cgcgctgctt gttgtcactg atacctatcg agcaagacag cccggtttgc 300
gacaagatga cttttcggat ctcttcngcg aacttccaat gggggtctcc gggant 356

397

350

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

397
ctcaagcttt tggtctagcc ggccgagcac gatacgggtg tccttggcca ccggcggcgg 60
ctgtccggga aatggcgggt ccccggtggt tttgctgang antgctgaac cgtagtcgaa 120
gtgggcggcg tcagactcca cccagccagc aggcagcgcg aagctgaatc ctccaaccgg 180
gttgtcgatc cggacaggtt ggggtgcgtt tggggcaatg acaggtggcg gcggtgcgtt 240
cgggtcggcc ggcggaggtg ctgcgttggg atcncccggc tgggcattcg gcntnttggc 300
ggcggccggt ggtggggggg caacangtgt cccggtgcgg gtggcgctgc 350

398

355

DNA

Mycobacterium tuberculosis

398
atctgtaccc gaccaagatc tacaccatcg aatacgacgg cgtcgccgac tttccgcggt 60
acccgctcaa ctttgtgtcg accctcaacg ccattgccgg cacctactac gtgcactcca 120
actacttcat cctgacgccg gaacaaattg acgcagcggt tccgctgacc aatacggtcg 180
gtcccacgat gacccagtac tacatcattc gcacggagaa cctgccgctg ctagagccac 240
tgcgatcggt gccgatcgtg gggaacccac tggcgaacct ggttcaacca aacttgaagg 300
tgattgttaa cctgggctac ggcgacccgg cctatggtta ttcgacctcg ccgcc 355

399

360

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

399
ctcaagcttg caatgcgggt cgggatgccc atggttggaa natggtcgcc ctggcgtcna 60
atacgcgcga gcgcatgagc tcaccggttc ggaacaacgt atcgaaaaac gtcgcactgc 120
tggcagatgg tatctccgat gtggttgtaa tttgtatccc aactctaact gtgctatcgg 180
atcagcgtga atatcganat attgcgaatg cgatgacagg ccgccattcg gtttattcgc 240
ttacgcttcc cgggttcgat tcgtctgatg cactgccgca aaacgcggat atgattgttg 300
aaaccgtatc taacgcaatt attgatgtgg taggcggcag ctgccgtttt gtgctgtcgg 360

400

272

DNA

Mycobacterium tuberculosis

400
caaatacacg ccggacgcac aggcggacat cgccatcccg agcacaccca aaacgggata 60
caggatggag gccaacgcca cggccgcgcc caggatcacc aaccacaccg gcttggtcag 120
cttgtcggcg gcggtatagg catcgggccg ctgcaacgca gcatgcacaa acgcgtacac 180
cgctgtcacc aagacggcga ccagcaatac cagcatgacg gtacccacga ggtggctcac 240
gcattcagac tatgcggttt gcatccaaca cg 272

401

306

DNA

Mycobacterium tuberculosis

401
ctcgtccttc ggcctcgctg caggagtggg agccgcaggg ctggaaatcc gaaaaacgag 60
ccggtgatcg cactgtcgcc gatcggcgcc gcacctggtt ggtgttacgg atgaatccgc 120
agcgaaatgt ggctgcggtg gcgtgtcgtg actcgttggc gtcgacgctg gtggcagcca 180
ccgagcggtt ggtccaggat ctggatgggc aaagttgtgc ggcccggccg gtgacggccg 240
atgagctgac cgaggtcgac agcgccgtgt tggctgactt ggaaccgaca tggagtcgcc 300
ccggtt 306

402

300

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

402
gtctagnccg ccgaacacga tacgggtgtc attggccacc ggcggcggct gtccgggaaa 60
tggcgggtcc ccggtggttt tgctgaagan tgctgaaccg tagtcgaagt gggcggcgtc 120
agactccacc cagccagcag gcagcgcgaa gctgaatcct ccaaccgggt tgtcgatccg 180
gacaggttgg ggtgcgtttg gggcaatgac aggtggcggc ggtgcgttcg ggtcggccgg 240
cggaagtgct gcgttgggat cgcccggctg ggcattcggc gtgttggcgg cggccggtgg 300

403

396

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

403
actcaagctt gagattggcg tcaacgggtg tcggcaccgg cgtcctgcag ttggtaggcc 60
tgcagtttgt gcatcaggcc gatgccgcgg ccctcgtggc cacgcatgta cancaccacg 120
ccgcgcccct cacgggcgac catcgccagc gcggcgtcca gctgaggccc gcaatcgcag 180
cggcgtgacc caaacacatc gccggtcaag cactccgaat gcacccggac cagcacgtcg 240
tcaccgtcgg cgttgggccc ggcgatctcg ccgcggacca gcgcgacatg ttccacgtcc 300
tcgtaaatgc tggtgtancc gatggcgcga aactccccat gacaantcgg aatcccgcgc 360
ctcggcgacc ccgctcaatg ttgcttctcn tgcttg 396

404

352

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

404
tcgacnagca ttcttgacng ttgttttggc tcggcatggt tagccaaggt tctgcggtcc 60
caccagatca tcttggtccg gtagcgctcg tccgggtatg ctgccgccgg gattctcgct 120
gctattactc cccccgaaga acgccaccgg tccagcgcgt gggccgccgc ggtccccatc 180
acaaactgaa cccccaacag gggacatgct tagcggtagg gcgcgcgcca aggcggcagc 240
aatcgcatca ctgcgctgcg cgtcactatt aacccacccg gacttcactt ccacgacccc 300
gaatggcgcc cggtcattga tcatcttgcg caccgcggat aatccgggat tg 352

405

420

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

405
accggggcca ctccgcacaa tctgtacccg accaanatct acaccatcga atacgacggc 60
gtcgccgact ttccgcggta cccgctcaac tttgtgtcna ccctcaacgc cattgccggc 120
acctactacg tgcactccaa ctacttcatc ctgacgccgg aacaaattga cgcngcggtt 180
ccgctgacca atacggtcgg tcccacnatg acccantact acatcattcg cacgganaac 240
ctgccgctgc taaagccact gcgatcggtg ccgatcgtgg ggaacccact ggcgaacctg 300
gttcaaccaa acttgaaggt nattgttnac ctgggctacg gcganccggc ctntggttat 360
tccacctcnc cgcccaatgt ttgcnactcc cgttcggggt tgttcccnna aggtcaaccc 420

406

328

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

406
cgctcaagcg cntgaggccg aancggctgg ttacgactcc ctgtttgtga tggaccactt 60
ctaccaactg cccatgttgg ggacgcccga ccagccgatg ctggaggcct acacggccct 120
tggtgcgctg gccacggcga ccgagcggct gcaactgggc gcgttggtga ccggcaatac 180
ctaccgcagc ccgaccctgc tggcaaagat catcaccacg ctcgacgtgg ttagcgccgg 240
tcgagcgatc ctcggcattg gagccggttg gtttganctg gaacaccgcc agctcggctt 300
cgagttcggc actttcagtg accggttc 328

407

315

DNA

Mycobacterium tuberculosis

407
ctcaagcttg cgttcgatga agtagtcgtc ggtcagcgcc gcctcttcga gctccttggc 60
gatgcccagc aaggagtcat cgccgccgag cttggccagg atcttgtcgg cctgttcctt 120
gacgatgcgg gcccgcggat cgtagttctt gtagacacga tgaccgaaac ccatcaattt 180
gaccccggcc tcgcggttct tgaccttgcg tacaaactcg ctgacgtcgt cgccgctgtc 240
gcgaatgccc tcgagcatct ccaggacagc ctgattggcg ccgccatgaa gcggacccca 300
tagtgcgttg atgcc 315

408

329

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

408
ggtcaggccg agcaggcgcg aggaacgacg aacccaacaa gccatggtgg ttggcgccgt 60
cgagaggtcg gcggtcgcca caacgggaag atcgccttga gcgtcgctcg accgccgcct 120
cgagttgggt cataacgaag tagctgatgc cgatcatgtc gacgtttccg tcgcatcagc 180
gtgcagcggc gacccactcn acgaggtctc ggtgccgccg cggccagggc accagcagtg 240
acgagtccag gcgccgtcgg gccaagcagt cgcggtgcca nccgtggtgg gtcgggcgat 300
ggttgggtgt gctcatttcg ggaacgcca 329

409

294

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

409
ctcgaagctt taacagcatc aaccccgccc cgcaccagca ccgacacnat gtcgatgcca 60
tcgaggtgaa tgtcgaactg gcgcaaacca tcggcgaccg cgaccaccgg caacatgggt 120
accggcgatt tccggtgcca atgccgaccc gacgggccgc tctcaccgca ggtgacctcg 180
atcaccgaga ccanccggcc gttntnntca cgcaccccta ccgtgtcacg cccaaaacgg 240
cgctggtggt cgattgccgg agtgcacccc ncacccagtg tcgtgcccgg atcc 294

410

288

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

410
tgatgccgca cccgatcgac ggtcgttggt cggggttgac tggccgcccg gcgaagcagg 60
gcgtcgaccg cggcccggac gtcggcggcc gtcaccggtc ggccattgcc cgggcgggag 120
tcgtcgagct gaccacggta gacaagtcgg cgctggccgt cgaagacnaa cgtgtcgggt 180
gtgcaggccg cggagaaggc gcgggcgacn tcttgggttt cgtcgtanag atacgggaac 240
gtccagccgt ggcggcgggc ctcggcgacc atctgatcgg gcccgtcc 288

411

420

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

411
tttcgggcga ggcggtatan cttcccntcg taccggcgac cgccagccga naagctcgtt 60
ttcccagtgt tgctggggat tctcacgctg ctgctgantg cgtgccaaac cgcttccgct 120
tcgggttaca acgagccgcg gggctacnat cgtgcgacgc tgaagttggt gttctccatg 180
gacttgggga tgtgcctgaa ccggttcacc tacnactcca agctggcgcc gtctcgtccg 240
caggtcgttg cttgcgatag ccgggaggcc cggatccgca atgacggatt ccntgccanc 300
gctccgagtt gcntgcggat cgactacnaa ttgatcaccc anaaccatcg ggcgtnttac 360
tgcctgaagt acctggtgcg ggtcggatac tgctatccgg cggtgacaac cccggcaagc 420

412

378

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

412
gttttggctc ggcatggtta gccaaggttc tgcggtccca ccagatcatc ttggtccggt 60
agcgctcgtc cgggtatgct gccgccggga ttctcgctgc tattactccc cccgaagaac 120
gccaccggtc cagcgcgtgg gccgccgcgg tccccatcac aaactgaacc cccaacaggg 180
acatgcttag cggtagggcg cgcgccaagg cggcagcaat cgcatcactg cgctgcgcgt 240
cactattaac ccacccggac ttcacttcca cgaccccgaa tggcgcccgg tcattgatca 300
tcttgcgcac cgcggataat ccgggattgc cagcccattc nactaccgca tgcgagtcat 360
cggctgaccg cagcggtc 378

413

347

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

413
tcgcctaggc gggcttcccc ttccgtccga gcngtcagaa gctcctatga caatgcacta 60
cccgagacna tcaacggcct atgcaatacc nagctgatca aacccggcaa gccctggcgg 120
tccatcgagg atgtcgagtt ggccaccgcg cgctgggtcg actggttcaa ccatcgccgc 180
ctctaccggt actgcggcga catcccgccg gtctaactcg acgccgcctc actacgctca 240
acgccagaga ccanccgccg gctgacgtct cagatcagag agtctccgga ctcaccgggg 300
cggttcatcc ccactgtcga tagcgtctgt ggataacttt gtctgca 347

414

165

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

414
gcgcgtngaa ctgataggtg cggcccggct cgagcangcc ggccatttgt tcgatgcggt 60
taccgaagat ctcttcggtg acctgcccgc cgccggccag ctcggcccag tgcccggcgt 120
tggccgccgc ggcgacaatc ttggcgtcca cggtggtctg ggtca 165

415

317

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

415
ctcaagcttc aatacagagt tataaactgt gataatcaac cctcatcaat gatgacnaac 60
taacccccga tatcaggtca catgacgaag ggaaagagaa ggaaatcaac tgtgacaaac 120
tgccctcaaa tttggcttcc ttaaaaatta cagttcaaaa agtatgagaa aatccatgca 180
ggctgaagga aacagcaata actgtgacaa attaccctca gtaggtcaga acaaatgtga 240
cgaaccaccc tcaaatctgt gacagataac cctcagacta tcctgtcgtc atggaagtga 300
tatcgcggaa ggaaaat 317

416

379

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

416
ctcaagcttc gatcgacatt actcccgcct tgggtctggt ctccgagctg gtcggtcatg 60
gtcggacctg ctggtagtgg ggatctaacg caacatggtc gggattcatc atggtgtacc 120
cgtgataccc attcgcagct gccggtgaaa ccccgcgatg ccgggatttc cagccgcact 180
aggatgtcta gccggccagc cgctgccgcc ggacttcggg atgttcggta taccancgat 240
cggcaatctt gcgtatccgc cgatgctcga acgctancca cgccaaacca accactgtga 300
cnacaatcgc caccacacca aaggtcatgc cctcggcgtg atgtccggtg ccgaaagccg 360
caagagctcc gacgccgcc 379

417

420

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

417
cattcccaat tgaatttccc natcccacaa tctcggttca gatacaggtc gccatacccc 60
ttacttcggc aacgctgggc ggattggccc tgccgctgca gcanaccatc gacgccatcg 120
aattgccggc aatctcgttc agccaatcca tacccatcga cattccgccg atcgacatcc 180
cggcctccac tatcaacgga atttcgatgt cggaggtcgt gccgatcgat gtgtccgtcg 240
acattccggc ggtcaccatc accggcacca ggatcgaccc gattccgctg aacttcgacg 300
ttctcagcag cgccggaccc atcaacatct cgatcatcga cattccggcg ctgccgggct 360
ttggcaactc gaccgagctg ccgtcgtcgg gcttcttcaa caccggcggc ggtggcggct 420

418

255

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

418
ctcaagcttt cggcggagac ggacannttg cgaacattga tgacaaaata gaaatcattg 60
atggtttgag tcaccaggcc gatcaagcct tcgccgagcc aaattccaat caagaggccc 120
aagcccgtac caatcagccc ggcaacgagg gattccgtca ttatcagcca aaataactgc 180
tctcgggtta cacccaaaca gcgcaatatg gcgaaaaacg gtcgccgttg cacgacatta 240
aatgtcacgg tattg 255

419

359

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

419
agcttaactg ctccctaata cctggggctg tgcctgcggt gtatgcacgg catacggaca 60
tccntcccct gagacccncg gtctaatcag ccacgtgtcc accatcaggg gtcaaccccg 120
gccaagggcg acggcacccc aagttcgccg accgttaacc tattgctgtg agcttcattt 180
gctgcgagca aaacagttgg tcggccgtta ggaactgaat tgacactcaa ccgatttggt 240
gccnccgtag gtgtcctggc tgcgggtgcg ctggtgttgt ccgcgtgtgg taacgaccac 300
aatgtgaccg ggggaggtgc aaccactggc cacgcgtccg cgaatgtcta ttgcggggg 359

420

314

DNA

Mycobacterium tuberculosis

420
ctcaagcttg gggtggcgct gtcggtcggt gtgcttggcg gcgtcggtat caacaccgcc 60
cacgaaatgg ggcacaagaa ggattcgctg gagcggtggc tgtccaaaat caccctcgcc 120
cagacctgct acgggcactt ctacatcgag cacaaccgtg gccatcacgt ccgggtgtcc 180
acaccggagg acccggcgtc ggcgcggttc ggcgaaacgt tgtgggagtt cctgccccgc 240
agtgttatcg gcggcttgcg ctcggccgtt catttggagg cccaacggct gcgtcggctc 300
ggcgtcagcc ccct 314

421

280

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

421
gcaccaaggc cccacacgtc accctgtgac ctcctgcgcc gaccccgccc gaggtcctgg 60
ccgttaccac ctgaacgggc gagccgggag tctggtacgc atcgaacaaa gagcaaggtg 120
catgggcgga gttgttccgc cacttcgtcg atgacggggt cnatccattc gaggtccgtc 180
gccgcgtcgg tcgagtggcg gtcacactcc aggtactcga cctcacagac gagaggactc 240
gatcccatct aggtgtggac gaaacagatc ttctgtccga 280

422

230

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

422
tcgcctccgc atatgggtcg acgccaagcg ggtccggatt tctgggcttc atcgctcgcg 60
ccgtcgcgac aaacagcgcg gtcgaaccga cactcgttgt gatgtcccag ctatcacctt 120
cggtacgcac ccaatcgacc ctacncggct atctcagccg cgatctccag gctccgccga 180
gccaggtgca tcccggtccg gatcccacta acccggcacc attggcgtcn 230

423

272

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

423
gtcctcgagt gccgccgtcg ncacncccag cgcccgcgcg gccacttgga tgcgacccgt 60
ttcaagtccc ttcatcatct gcgaaaagcc ttgacccatg gctccgccca ggatcgccga 120
gaccggcacc cggaggttgt cgaacgacag ctcgcaggat tcgacgccct tgtaacccaa 180
cttcggcaag tcccgcgaca ccgtgagtcc cggcccgggt tcgacgagca cgatcgacat 240
gccttggtgc cgcggtgtgg cgttcgggtc gg 272

424

423

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

424
ggcataccaa tgtggacttc tgctcaccca cgatatccgt ggtctgatcc gctgctgcgg 60
cgggctgcna cctgcntctc ngcggcaccc gtnactacat ggcncgcgcc gcacgcatac 120
gtcgcggcgg gacccactcc nactggtcga cggtgctggc cgcgtgtccg cangtcccna 180
acccggccgc accgacgaaa ccggccgccg tccgttctgg accaacgctc atgtgccgtc 240
ggggtccatg ctcgacgcca tcgagaccgt aaccagcgtc ctcgagcggt tcgcctccgg 300
cttccgtgac atcttcgtgg ctgctcgcgc cgtgccgccg cgcggatggt cgaccacaac 360
gccaaccacc tcggcggtga catcaccgtc cgcgccactc gacctggcgc gcgatcgcgg 420
ccc 423

425

315

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

425
gtgagcagac ctacgccncc tggttgcgcc aactcggtac cgatcatggc gcgcngcctg 60
tcgtcaccga tacccagcga acaagacagc ccggtccgcg acaagatgac tttcccgatc 120
tcttcggcga cttccatggg gtcgtccgga gtcccgggcg ccaccgcgag gtaaccctcg 180
tctcagtccc atacgcgacc gggtatccac gtcgcgcaac aacgccacca cctccccaga 240
cgccncgttg tacgcggctg ggttccacng caataagtgg cctcanggca tcgtccggcg 300
gcggtccnca acgca 315

426

335

DNA

Mycobacterium tuberculosis

426
ctcaagcttg aggttaactt tgaacggatc gagctggacg ttcgagacgg tgatcgggcc 60
gaacctgaat tgtccggtaa tgcccaacgc aaaaagcagg gtggtggccg gggcggtgaa 120
accggcgtcg gcggcaccgt cgaaatctat gtggattgcc ggaatgggga tgtccggcac 180
ggcgaaaccg tagttcgctt gtcccgtgag gcccaggtgg atggggggaa agatcctggt 240
gtccgggata ataatggggc cgatgccgcc ggttgaagtc cactggatcg ggaattccgg 300
aatcttgatc cgacgttcag gccgaacagg ccctc 335

427

346

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

427
cggcgacgtc gcgatacgcc gagcagttgg gaatcgctct gcagcaaacc aatattctgc 60
gcgacgttcg agaggacttt ttgaatggac ggatctacct gccgcgcgac gagctggacc 120
gattaggcgt acgcctccgc ctggacgaca ccggggcact cgatgacccc gacggacggc 180
tcgcggcnct gctgcggttc agtgccgacc gcgccgcaga ctggtnttcg ctgggactgc 240
ggctgattcc acacctcgac cgccgcagcg ctgcctgctg tgcggccatg tctggcatct 300
accgccgtca gctcgccttg atcagagcat cgccggcggt cgtcta 346

428

332

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

428
ctataaaata ctcaagcttg atgccgccga aaccgagcgt gagcacgccg ccagccacca 60
cgcgcgggtc gggcgccggg cccgggccgc caggctgctc cgctcggtga tggcacgcca 120
ccgcgacacc acccggntgc gctacgtcna gccataccgg gcggagctac atcggctcgg 180
ccgcccagtg ttcgggccct ctttcgaggt cnaggtcnat accgatttgc gcatccgcag 240
ccgcaccctg aacnacanaa ccgtgcccta ctattgcttg tcnggcgggg ccaaaaaaca 300
gcttggcatc ctggcccnat tggccggcgc gg 332

429

276

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

429
cttcggtcgc agtgtgcgag tgatagatga cgaccgggac ctcgtcggca tcttccatag 60
cccgccacac cttcagttgc tcaccggaat ccaaccggta gaaggtcggc gagcgctcgg 120
cattggtcat cgggatatgc cgctcgggac ggtcagagcc ctcgggtccg gccagcactc 180
cgcaggcttc gtcggggtgg tcgcgacgcg catgggccac catcgcattc accaggtctg 240
cgcgaatcnc cancacgtan acngttcctt tcctaa 276

430

420

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

430
ctggcaccaa ggccccacac gtcaccctgt gacctcctgc gccgaccccg cccgaggtcc 60
tggccgttac caccgaacgg gcgagccggg agtctggtnc gcatcgaaca aanagcaagg 120
tgcatgggcg gagttgttcc gccacttcgt cgatgacggg gtcnatccat tcgaggtccg 180
tcgccgcgtc ggtcnagtgg cggtcacact ccaggtactc gacctcacag acnaaaggac 240
tcnatcccat ctaggtgtgg acnaaacaga tcttctgtcc gacnactaca ccaccaccca 300
ggccatcgcc gccgcccgcg atgccaactt cgacgccgta ctggccccgg cggggggcgc 360
tccccggttg tcaacacttg ccgtgttcnt tcacgcnctg ccccacatcc aaccccaacg 420

431

130

DNA

Mycobacterium tuberculosis

431
gttcttgggc ccatgcggag gtatcgccgt ttccaccacg cggtcggggt ggcgttgcat 60
tagctcaccg atggtgcgct tgtgcaggcc gccgggatac cccgagtgcc ggtaaaccat 120
cttgtgctgc 130

432

215

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

432
caatactcaa gcttggcgtg ccgttccaac ccgaattggc tttcggcgcc atcggtgagg 60
acggcgtgcg ggtgctcaac nacnacgtcg tccgcgggac acacctcgat gctgccgcca 120
tggacgcggt cgaacgcaag cagctgatcg agctacaacg ccgcgcggaa cgcttccgcc 180
gcgggcgtga ccgcatcccg ttgaccgggc ggatc 215

433

360

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

433
cntcatgatg atcatcaccc gaagtgtggt agccgcagtg gttatcgtgg gtaccgtcgt 60
gctttccatg ggcgcctctt tcgggctttc cgtattggtc tggcaggaca ttctgggtat 120
cgagttgtac tggatggtgt tggcgatgtc ggtgatcctg ctcctggcgg tgggatccga 180
ctacaatctg ctgctgattt cccggttgaa agaggaaatt ggggccggat tgaacaccgg 240
aattatccgt gccatggctg gtaccggggg agtggtgacg gctgccggca tggtgttcgc 300
cgttaccatg tcgttgtttg tgttcagcga tttgcgaatt attggtcaga tcggtaccac 360

434

265

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

434
atactcaagc ttttacggtg atcgcncatc acctggttca tgaactggaa gcagcgcagc 60
gcttcctttt cggccgcaac atgagccagc ctctcgtcgg cggtcgggtg caggtgctcg 120
ggcagctcgg ccgcnacagc cgcctgaccc tgaaaccagc ttccatatcc cgcgannaac 180
gacgccagtc cgctacgtna cccctccgcg actgtccatg gacaacagcg cgttctccac 240
cgaccgggcc cgggtgtggg gtntt 265

435

264

DNA

Mycobacterium tuberculosis

435
gctggtagag tcgctgaccg gtgcaggttt cgacaatgtg gtgccggttc ggcggctacg 60
tgccatcgag acactggcgc aggctatcgc acccgttatc ggctacgagc aaatcgcggt 120
atgcgttctt gagcatgagt cggcgaccgt cgtcatggtc gacacccacg acggaaagac 180
gcagatcgcc gtcaagcatg tgtgccgcgg attatcagga ctgacctcct ggctgaccgg 240
catgtttggt cgcgatgcct ggcg 264

436

335

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

436
gctttccgcc gatacccgcc atgtcncgca catccaggac ttctgggggg atccgctgac 60
agcggcggga tcccaaagtg cggatgatcg ggccgcctac gtcgtggtgt acctcgtcgg 120
taacaacgaa accgaagcgt atgactcggt ccacgcggtg cggcacatgg tggacaccac 180
accgccaccg cacggggtga aggcctatgt caccggtccg gcancactca atgccgacca 240
ggccgaggcc gganacaaaa ntatcgctaa ggtcaccgcg atcacnagca tggtgatcgc 300
agcaatgttg ctagtgatct atcgctccgt aatta 335

437

304

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

437
cttccaaccc gaattggctt tcggcgccat cggtgaggac ggcgtgcggg tgctcaacga 60
cgacgtcgtc cgcgggacac acctcgatgc tgccgccatg gacgcggtcg aacgcaagca 120
gctgatcgag ctacaacgcc gcgcggaacg cttccgccgc gggcgtgacc gcatcccgtt 180
gaccgggcgg atcgcggtga tcgtcgatga cggcatcgcc accggagcga cggccaaggc 240
ggcgtgccan gtcgcccggg cgcacggtgc ggacaaggtg gtgctggcgg tcccgatcgg 300
ccca 304

438

223

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

438
tactcaagct tcgcgagatc cggatggcac tcacgctgga caagaccttc acaaaatctg 60
aaatcctgac ccgatacttg aacctggtct cgttcggcaa taactcgttc ggcgtgcagg 120
acgcggcgca aacgtncttc ggcatcaacg cgtccganct gaattggcag caagcggcgc 180
tgctggccgg catggtgcaa tcnaccagca cgctcaaccc gta 223

439

263

DNA

Mycobacterium tuberculosis

439
cccacgactt tctcctcgat cagttggatt tgtacgaaga ggcaacgaaa gcagtgatcc 60
tcgggatggt cgacgcctac atcgacccgc cgttcacgcc gcacagcctg ctagatgcgc 120
tgggcgagca ggtcccacag ttcgccgcta aggcacggcg tctgttcccg tccggatcgc 180
cattcggcct cggcgtcctg ctcccattcg atcaataggg ctggcagctc cgtcggcagg 240
ggcctacgcc tcaccccgtc acg 263

440

301

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

440
ctcaagctta tgcgcgccgg ccgaggtctg ctcacggcaa cccctgaagt ttaggggacn 60
acctactcag cgcaaaattt cgctaatgtg agtccgcccc accaggggna natcaaccca 120
tgtcgatcat gatctacccg gataccggat tggcggtagc gcccacgatc gtcnaaatnt 180
ccgcctgaat catcggatag ctgatccggc gtcaacgcgt tttganttca ccgcgcaaca 240
gccgccaggc cggcccgcan cganccgatc tcntcgggcc gcatgggccc caatcttntc 300
g 301

441

90

DNA

Mycobacterium tuberculosis

441
gtgtgtggtg gaacccatct gagcagtgtg ccaaaccggg gcagacagct cccaattgac 60
gtgagcccgc tcacttgctg ggtaagcgtc 90

442

183

DNA

Mycobacterium tuberculosis

442
ctttacactt cctgcatccg gctcgtatgt tgtgtggaat tgtgagcgga taacaatttc 60
acacaggaaa cagctatgac catgattacg ccaagctatt taggtgacac tatagaatac 120
tcaagcttgg gcgtgacggc caccggggcc actccgcacc atctgtaccc gaccaagatc 180
tac 183

443

348

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

443
caggcatgca agctttagct gcccgaatgc gtcaccccga tgcgcccaga tcggggcttc 60
gcagataaag cacgaacagg cgggcaaaac gtcnatctcg gagccggaag ggcaatcagc 120
cgaccgtcga cgaacgacac cggcgagacc acttaggcag tgacggccgg cccgaacatt 180
acgcgctcgt tgattaggcg ttcggtctcg tccgcggtca tgccgagcag cttgcggcag 240
atctgaacgc tgtcctgtcc gggcagcggc gccgggcgtt ggggtgcctg cccgaatgtg 300
acgaaacgga gccggacccg tctcggcggg ccgcggacgg cgatccgc 348

444

335

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

444
cncaagcttg cggatgttac ccctgacagc ctgaactatg tcnaaacaca cggcaccgga 60
acggtgttgg gggaccccat cganttcgag tcgctggcgg ccacttatgg cctgggtaaa 120
ggccagggcn anagcccgtg cgcattgggg tcggtcaaaa ccaacatcgg ccacctggag 180
gcggccgccg gtgtggctgg atncatcaag gcggtgctgg cggtgcaacg tgggcacatt 240
ccccgcaact tgcacttcac ccggtggaac ccggccatcn acgcgtcggc nacgcggctg 300
ttcgtgccna ccnaaaaccc cccgtggccg gcggc 335

445

289

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

445
ggaaccggta accagatcag ctcgtcgacc tcactgccgg gggtgaattc cccaccggtg 60
ctgcgcgctg cccagtagtg caccttcttg acgcctcgaa aaggggagtc ggtcgggtag 120
gtcaccgtca ggagccgcct acccaggttg gcgcnatagc cggtctcctc gagtatctcc 180
cgcaccgccc ccaccggtgc ggtctcaccc anatccactt tgcccttggg cagcgaccag 240
tcgtcgtanc nggggcggtg aatgacaacg atctcgaccg gcccttccn 289

446

263

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

446
tactcaagct tcagaacagg cctgttgtgg gcncacccgg ctcgccgagt tctgcacgca 60
ccgcctcaag tgcggcccgc accgccggca tctcccggtc acgcagggcc gcggcccgcg 120
ccgcagcgac ggcgtgttcg cgcagttcgc cgtcaatgat gctgacctga tcggccaccc 180
gggcgttctc ggcgtcgtcg cgttcactaa tcgcggtgct cagcagcgtc tcgacagcca 240
ccacccgagt ggcgaccagc tgc 263

447

279

DNA

Mycobacterium tuberculosis

447
taatgtcttg ccaacgtcac cacaatcgcg atgaattcaa tcatgccgcc cagggcggcc 60
aacccaatgg tggccgcgag cggcagctcg atcgcagcgc ggaggttgcc ggccgccagt 120
tgattcacga acagggtgag gtcataggcg ggcaggatag tgacgaaggc aagacctata 180
tctgccgtcg gaagaagaat cgagtagccg gtcgacacaa cggaagcgaa agtgtccgcg 240
atgttgatga gcgtcgccgg ttgtggcggc ggtggcggc 279

448

295

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

448
tactcaagct ttcgtcagtt catcgcgcca gcagaccaac aagagcatcg ggacatacgg 60
agtcaactac ccggccaacg gtgatttctt ggccgccgct gacggcgcga acgacgccag 120
cgaccacatt cagcanatgg ccagcgcgtg ccgggccacg aggttggtgc tcggcggcta 180
ctcccagggt gcggccgtga tcgacatcgt caccgccgca ccactgcccg gcctcgggtt 240
cacgcagccg ttgccgcccg cagcgganna tcacatcgcc gcgatcgccc tgttc 295

449

280

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

449
ccacccgtgt aatttgggat gggcnaaaag gcnaagcacc gcgtggccac gaacgccggg 60
agggacaatc tcgggcggct agggcttctc gcgggaaggc ccgaacgtac ggcgtttcaa 120
cacgtcgcgt cgccctccga ccgcgaacat tcggggatgg cagcaacctg gtagcaccct 180
ggccgggcga tgatctgcag cgtcgccgcg ggtagtcgcc gcccgggcgg ctacagtctg 240
aaacgcgatg accatcgatg tgtggatgca gcatccgacg 280

450

320

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

450
tcaagcttta gctgcccgaa tccgtcancc cgatgcnccc agatcggggc ttcgcanata 60
aagcacnaac aggcgggcaa aacgtcnatc tcggagccgg aagggcaatc anccgaccgt 120
cnacaaacga caccggcgan accacttagg cagtgacggc cggcccgaac attacncgct 180
cgttgattag gcgttcggtc tcgtccgcgg tcatgccgag cagcttgcgg canatctgaa 240
cgctgtcctg tccgggcagc ggcgccgggc gttggggtgc ctgcggaatg tgacnaaacg 300
gagccggacc cntctcggcg 320

451

203

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

451
ccggggccac tccgcacaat cngtaccnna ccaanatcta caccatcgaa tacgacggcg 60
tcgccgantt tccgcggtac ccgctcaact ttgtgtcgac cctcaacgcc attgccggca 120
cctactacgt gcactccaac tacttcatcc tgacgccgga acaaatngac gcntcggttc 180
cgctgaccaa tacggtcggt ccc 203

452

287

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

452
nctggccttt ggtccacact aanacaatac tcaagcttcc ggccgcagag ccgccaactc 60
acgatatcgt taaccgatat cccgagccga tagctggcgg gctcgggtgg tggccagcgg 120
cgctgcgacn aaaggtgtga ccgtcatgaa acagacacca ccggcggccg tcggccgtcg 180
tcacctgctc ganatctcag catccgcagc cggtgtgatc gcgctttcgg cgtgtngtgg 240
gtcnccgccc gagcccggca aaggccggcc cgacacaacc ccggaac 287

453

272

DNA

Mycobacterium tuberculosis

453
catctgccca ccacacggac cgcggtgcgg acgcggctga cgcgcctggt ggtcagcatc 60
gtggccggtc tgctgttgta tgccagcttc ccgccgcgca actgctggtg ggcggcggtg 120
gttgcgctcg cattgctggc ctgggtgctg acccaccgcg cgacgacacc ggtgggtggg 180
ctgggctacg gcctgctatt cggcctggtg ttctacgtct cgttgttgcc gtggatcggc 240
gagctggtgg gccccgggcc ctggttggca ct 272

454

364

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

454
gacaatactc aagcttgact ggccacccac cggcatgacc accgacaggc ccgactggtc 60
gtaccactcg aacgccgggg tgttgatgtc ccagccgctg aantcgtcct gcgcgcgcag 120
gccgtcnaac aggtacaggg cgggcgaatt ggcaccacca ctttggaatt ggaccttgat 180
gtcacggccc atcgacggcg acggcacctg caggtactcc accggcaagc ccggccggga 240
aaatgccccc gcggtcnccg tgccaccgac ggcgccganc aaacccgaca ctagggccgc 300
gccnacggcc ccgaccacna ntcnacgcga catacccgtg acggcgccac naaccctgtc 360
aaca 364

455

360

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

455
cctccaactc ggcggggaag cgacnccagc ctaccgagct tggagtccan gacgccagcg 60
gcggcgtcgg tctgcgtcgt ggtgccgccg gggtggcgtt ggctggcaac gatctccacc 120
cagccggtcg ggttacccac gatctcggca tanacgcggg ccgaggccgg tgcgataccg 180
tattgcgtca attgggacgc ggttgtgcat tcggctagct cggttgccac acccgtcagg 240
ggttcgacgt tggcgggttc ggcgggcccc ancaccgctg tcaccatgcc cgccaagccg 300
acctgcggcg ccaccaactg cagcaccanc atgtcgccgt cgcgcgccgc gatcacatgg 360

456

311

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

456
ctcaagcttt ttgagcgtcg cgcggggcan cttcgccggc aattctacta ncgagaantc 60
tggcccgata cggatctgac cgaantcgct gcggtgcanc ccaccctcat tggcgatggc 120
gccgacnatg gcgcctggac cgatcttgtg ccgcttgccg acggcgacgc ggtaggtggt 180
caagtccggt ctacgcttgg gcctttgcgg acggtcccga cgctggtcgc ggttgcgccg 240
cnaaagcggc gggtcgggtg ccatcaggaa tgcctcnccg ccgcggcact gcacggccag 300
tgccgcggcg a 311

457

288

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

457
cnccagcttg attggtctgg ttgcattggc cagctgcgcg agcctggctc acttcaacta 60
cgacgaccgc aaacaattgc cgccttcgga tccgagttcg gttgggtacg cggcaatgga 120
gcaccatttc tcggtgaatc agactattcc tgagtacttg atcatccact ctgcacacga 180
cctgcgaacc ccgcgcggcc ttgccgacct ggagcagctg gcgcaacgtg tgagccagat 240
cccaggcgtt gccatggttc gcggtgtgac ccggccaaac ggggaaac 288

458

256

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

458
caatactcaa gcttgactgg gcccgcacct tcggcgccac ccacaccgtc aacgcccgcg 60
aagtcnacgt cgtccaggcc atcggcggcc tcacggatgg attcggcgcg gacgtggtga 120
tcgacgccgt cggccgaccg gaaacctacc agcaggcctt ctacgcccgc gatctcgccg 180
gaaccgttgt gctggtgggt gttccnacgc ccgacatgcg cctggacatg ccgctggtcn 240
acttcttctc tcacgg 256

459

327

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

459
tcgacggttt ggcggcctta aatgcactga ggtcgtcaat tgaccccaca gcggaaatgc 60
cgactattcg caggcctcct tcgccttggc tgccggagag gggctccgcg ggaaccgcat 120
gcaggtatat gacctcggtt tctcgggtgc taccgcgtgc cttgtntang atnanctcgg 180
cgttggaatt gtccagccgg cccaattcat cgagcgcana ttcgtacacn tggccggcgg 240
cgacatacgc ttcaccgtgg atctgctcca cacggaccgc cctgtcggga tcctgctcac 300
gggtaangga acttacgtgg cactcgg 327

460

100

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

460
gaccacgcca ggctaatcac gtgacgctac cgaataccct ncctagtggt gcaggctccc 60
gctggaaatg gccctgtacc aactcgcgca ccggtgccag 100

461

114

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

461
cggcacccga cccctttgag ccgtccgccg tggccgcggt ggaactggcc gacgagggac 60
tgatcgtgct gggcaaattg gtcgatggca cgctggccgc cgatctgaag gtcn 114

462

287

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

462
ctcaagcttg ccgttacccc gacttccgga gggacaccat gagcaccgcc agccgagcac 60
gaggccaaac tccgccgacg caggccggtt ggacttgtcg tgctggacaa ggggtttagc 120
cgccgaagca gtgacgtaca tcggcgaaaa gcagttcgcc tgtcgaccga cggngcnnac 180
cgtgaggcta gggaagcgag gagcacatgg ccgccgaccc gcaatgtaca cgctgcaagc 240
aaaccatcga acccggatgg ctatncntca ccgcccatcg ccgcggt 287

463

288

DNA

Mycobacterium tuberculosis

463
catgtcgcgc acatccagga cttctggggg gatccgctga cagcggcggg atcccaaagt 60
gcggatgatc gggccgccta cgtcgtggtg tacctcgtcg gtaacaacga aaccgaagcg 120
tatgactcgg tccacgcggt gcggcacatg gtggacacca caccgccacc gcacggggtg 180
aaggcctatg tcaccggtcc ggcagcactc aatgccgacc aggccgaggc cggagacaaa 240
agtatcgcta aggtcaccgc gatcacgagc atggtgatcg cagcaatg 288

464

255

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

464
atactcaagc ttcggtacgg tggcgggccg tgctgctggc cgcggtcgcg gcgtgcgcgg 60
cctgcggtct cgtttacnag ctcgcgctgc tgacactggc ggcnagcctg aacggcggcg 120
ggatcgtggc cacctccctg atcgtcgcgg gctacatagc cgcgctggga gcaggcgcct 180
tgctgatcaa gccgctactt gcacacgcgg ccatcgcgtt catcgccgtg gaggcggtgc 240
tgggcatcat cggcg 255

465

288

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

465
tgtcaagtcc tttcagatct cntttttatg acatgactgg agatctgtct agattgcagc 60
tcctgtgagc gtgggtaccg gattcaagcc ggtcggtcac gccgcggtgg taccggcttt 120
gcggcagtgc tcggcctcga gttcggcgat cgcgcgcgaa gtgcgttcgc gcagcaagat 180
cgcggccgta atgccggcga tgaccgcgat gaccagcgcg atccaggaga accgttccaa 240
ccagtgctgg gcggccatcc cggcgaagta gaccagtgca gtggtgcc 288

466

224

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

466
caatactcaa gcttcaaaac aggcctgttg tgggcgcacc cggctcgccg agttctgcac 60
gcaccgcctc aantgcggcc cgcaccgccg gcatctcccg gtcacgcagg gccgcggccc 120
gcgccgcanc gacggngtgt tcgcgcagtt cgccgtcaat gatgctgacc tgatcggcca 180
cccgggcgtt ctcggcgtcg tcncgttcac taatcgcggt gctc 224

467

320

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

467
tacgctggcg ctggagggag ccanntacaa catccacgcc aatgctcttg ccccgatcgc 60
ggcgaccagg atgacccagg acatcctgcc gcccgaagta ctggaaaagc tcacacccga 120
gttcgtcgca ccggtggtgg cctacctgtg caccgaggag tgtgccgaca acgcatcggt 180
gtacgtcgtc ggtggtggca aggtgcagcg agttgcgctg tttggcaacg acggcgccaa 240
cttcgacaaa ccgccgtcgg tacaagatgt tgcggcgcgg tgggccgaga tcaccgatct 300
gtccggtgcg aaaattgctg 320

468

303

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

468
gcttttcccg tccgtcnncg ctcaaccgcg tgaggccgaa gcggntggtt acgactccct 60
gtttgtgatg gaccacttct accaactgcc catgttgggg acncccgacc agccgatgct 120
ggaggcctac acggcccttg gtgcgctggc cacggcgacc gancggctgc nnntgggcgc 180
gttggtgacc ggcaatacct accgcagccc gaccctgctg gcaaanatca tcaccacgct 240
cgacgtggtt agcgccggtc gagcgatcct cggcattgga gccggttggt ttganctgga 300
aca 303

469

391

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

469
cngcttttta atggccttga cntgggcgng ccggccaccg gggccactcc gcacaatctg 60
tacccgacca agatctacac catcgaatac gacggcgtcg ccgactttcc gcggtacccg 120
ctcaactttg tgtcgaccct caacgccatt gccggcacct actacgtgca ctccaactac 180
ttcatcctga cgccggaaca aattgacgca gcggttccgc tgaccaatac ggtcggtccc 240
acgatgaccc agtactacat cattcgcacg gagaacctgc cgctgctaga gccactgcga 300
tcggtgccga tcgtggggaa cccactggcg aacctggttc aaccaaactt gaaggtgatt 360
gttaacctgg gctacggcga cccggcctat g 391

470

343

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

470
ctcaagcttg ccgggagggt gcatggccga ctcggattta cccaccangg ggcgccaacg 60
cggtgtccgc gccgtcnagc tgaacgttgc tgcccgcctg gagaacctgg cgctgctgcg 120
caccctggtc ggcgccatcg gcaccttcga ggacctggat ttcgacgccg tggccgacct 180
gaggttggcg gtggacgagg tgtgcacccg gttgattcgc tcggccttgc cggatgccac 240
cctgcgcctg gtggtcgatc cgcgaaaana cgaanttgtg gtggaggctt ctgctgcctg 300
cgacacccac nacgtggtgg caccgggcag ctttagctgg cat 343

471

303

DNA

Mycobacterium tuberculosis

471
ccgacgccgt cgtggccacc aacaccgcga ccagcaccgt gacccggacc ggggtgccgc 60
gcgaaccggt cttggccaat tgccgcggca ccaagccgtc gcgcgccatg gcgaacagca 120
cgcggcattg cccgagcatc aacaccatca ccaccgtggt aagcccggcc agcgcgccga 180
cggagatgat gccgctggcc cagtacaccc cgttggcctg gaacgcggtg gccagatttg 240
ccggcccgcg gcccggtacg gtccgcagtt gggtgtatgg aaccatgccc gacagcacca 300
ccg 303

472

264

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

472
ttnactggcc tttggtccac actagacaat actcaagctt ccaggacatc gtcatcgcga 60
ccaaaaccgc gagctaggtc ggcatccggg aagcatcgcg acaccgtggc gccgagcgcc 120
gctgccggca ggccgattag gcgggcaaat tagcccgccg cggctcccgg ctccgantac 180
ggcgccccga atggcgtcac cggctggtaa ccacgcttgc gcgcctgggc ggcggcctgc 240
cggatcaggt ggtaaatgcc gaca 264

473

280

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

473
ngacgtcttc catccgcgcg tcgttttggc gggttggcca cagcagcccg ccggtgacgg 60
cgacgatgct gggctggttg cggccctgcg ccaccgcggc ttgcatgctg gttggctgtc 120
ttgggacgat cccgaaatag tccacgcgga tctggtgatt ttgcgggcta cccgcgatta 180
ccccgcgcgg ctcgacgagt ttttggcctg gactacccgc gtggccaatc tgctgaactc 240
gcggccggtg gtggcctgga atgtcgagcg ccgttaccta 280

474

153

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

474
cttcctcctg agtaccnccc gtntactttg ggatgggtaa aaaggcgaat cnccgtttgg 60
tcacgaacgc cgggagggac aatctcgggc ggctggggcc tctcgcggga angcccgaat 120
gtacggtgtc tcgacacttc ccntccccct ccg 153

475

247

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

475
gagcatcggg acntacggag tcaactaccc ggccaacggt gatttcttgg ccgccgctga 60
cggcgcgaac gacgccngcg accacattca gcagatggcc agcgcgtgcc gggccacgag 120
gttggtgctc ggcggctact cccagggtgc ggccntgatc nacatcgtca ccgccgcacc 180
actgcccggc ctcgggttca cgcagccgtt gccgcccnca gcggacgatc acntcgccgc 240
gatcgcc 247

476

264

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

476
tactcatgan catcctttaa tcanngcttt gcgttttttt attaaatctt gcaatttact 60
gcaaagcaac aacaaaatcg caaagtcatc aaaaaaccgc aaagttgttt aaaataagag 120
cancactaca aaaggagata agaagagcac atacctcagt cacttattat cactagcgct 180
cgccgcagcc gtgtaaccga gcatagcgag cgaactggcg aggaagcaaa gaagaactgt 240
tctgtcagat agctcttacg cnca 264

477

264

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

477
ctcaagcttc aggtcaatgt gcnccaagcc ctgacgctgg ccgaccaggc caccgccgcc 60
gganacnctg ccaaggccac cgaatacaac aacgccgccg aggcgttcgc ancccagctg 120
gtgaccgccg agcanancgt caaaaacctc aagacgctgc atgaccaggc gcttancncc 180
gcanctcagg ccaagaaggc cgtcnaacga aatgcgatgg tgctgcacca naagatcgcc 240
gagcgaacca agctgctcag ccng 264

478

352

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

478
catggtggca ctgtagcgac gtgctgcaat caaggtcatg cccgactctg gtcagctcgg 60
anccgctgac accccgctaa ggctgctcag ctcggtgcat tacctcaccg acggcgaact 120
cccccagctt tacgactatc cggatgacgg cacctggttg cgggcgaact tcatcatcag 180
cttggacggc ggcgctaccg tcgatggcac cagcggggcg atggccgggc ccggcgaccg 240
attcgtcttc aacctgttgc gtgaacttgc cgacgtcatc gtggtcggcg tgggcaccgt 300
gcgcattgag ggctactccg gcgtccggat gggtgtcgtc cagcgccagc ac 352

479

207

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

479
tactcaagct tgcgggtgat cgccttggtc aacggcaccg tgatcggatc ggggtcnacc 60
gcacaaatgg actggagctt cggcgaantc atcgcctatg cctcgcgggg ggtgacgctg 120
accccgggtg acntgttcgg ctcgggcacg gtgcccacct gcacgctcgt ctatcacctc 180
nggccaccgg aatcattccc gggctgg 207

480

256

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

480
gttggngcct cgtcggcgaa cagttctcgc acgatttccg gattagcggg actggtcacc 60
agttgggtat gcgggaaggc gctgacgttc gccgcgatta gctgtttgat ggacgcggtg 120
gtgatgttct gatcacggaa ctggctgtaa tagcccaggg tcgccacgct ttcatccggg 180
cccggacccg gcgcaccgag cgtgtcgcgc aggtatgcga cgtgattttc gctgaagtcc 240
ccgtacccgg agaact 256

481

397

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

481
tgcttccggc tcgtatgttg tgtggaattg tgancggata acaatttcac acaggaaaca 60
gctatgacca tgattacgcc aagctattta ggtgacacta tagaatactc aagctccagg 120
tcaatgtgcg ccaagccctg acgctggccg accaggccac cgccgccgga gacgctgcct 180
ttgtcaccga atacaacaac gccgccgagg cgttcgcagc ccagctggtg accgccgagc 240
agagcgtcga agacctcaag acgctgcatg accaggcgct tagcgccgca gctcaggcca 300
agaatgccgt cgaacgaaat gcgatggtgc tgcggcataa gatcgccgag cgaaccaagc 360
tgctcagcca gctcgagcag gcgaagatgc acgagca 397

482

379

DNA

Mycobacterium tuberculosis

482
caggcatgca agcttcggag gcagacccgt gcatggtggc actgtagcga cgtgctgcaa 60
tcaaggtcat gcccgactct ggtcagctcg gagccgctga caccccgcta aggctgctca 120
gctcggtgca ttacctcacc gacggcgaac tcccccagct ttacgactat ccggatgacg 180
gcacctggtt gcgggcgaac ttcatcagca gcttggacgg cggcgctacc gtcgatggca 240
ccagcggggc gatggccggg cccggcgacc gattcgtctt caacctgttg cgtgaacttg 300
ccgacgtcat cgtggtcggc gtgggcaccg tgcgcattga aggctactcc ggcgtccgga 360
tgggtgtcgt ccatcgcca 379

483

264

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

483
tactcaagct tggggtggcg ctgtcggtcg gtgtgcttgg cggcgtcggt atcaacaccg 60
cccacgaaat ggggcacaag aaggattcgc tggagcggtg gctgtccaaa atcaccctcg 120
cccanacctg ctacgggcac ttctacatcg agcacaaccg tggccatcac gtccgggtgt 180
ccacaccgga ggacccggcg tcggcgcggt tcggcnaaac gttgtgggan ttcctgcccc 240
gcantgttat cggcggcttg cgct 264

484

351

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

484
ggccatcgcc accgcnccgc ggcgaacgct caaaggcacc tactggcacc aaggccccac 60
acgtcaccct gtgacctcct gcgccgaccc cgcccgaggt cctggccgtt accaccgaac 120
gggcgagccg ggagtctggt acgcatcgaa caaagagcaa ggtgcatggg cggagttgtt 180
ccgccacttc gtcgatgacg gggtcgatcc attcgaggtc cgtcgccgcg tcggtcgagt 240
ggcggtcaca ctccangtac tcgacctcac agacgagagg actcgatccc atctaggtgt 300
ggacgaaaca gatcttctgt ccgacgacta caccaccacc caggccatcg c 351

485

328

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

485
gcttgcgggt gatcgccttg gtcaacggca ccgtgatcgg atcggggtcn accgcncaga 60
tggactggan cttcggcgaa ntcntcgcct atgcctcgcg gggggtgacc ctgaccccgg 120
gtgacntgtt cggctcgggc acggtgccca cctgcacgct cgtcaagcac ctcnggccac 180
cggaatcatt cccgggctgg ctgcacnacg gcgacntggt cnccctccag gtcgaagggc 240
tgggcnaaac aangcagacc gtccggacaa ncggcactcc ttttccgttg gctcttcggc 300
cgaatccgga cgccnaaccc gaccggcg 328

486

344

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

486
gttctcgcac gatttccgga ttagcgggac tggtcaccag ttgggtatgc gggaaggcgc 60
tgacgttcgc cgcgattagc tgtttgatgg acgcggtggt gatgtnctga tcacggaact 120
ggctgtaata ncccagggtc gccncgcttt catccgggcc cggacccggc gcaccgagcg 180
tgtcgcgcag gtatgcgacg tgattttcgc tgaagtcccc gtacccggag aactcgaaca 240
cgctgaggcg ctcgtcaccg tcgtnncggc gaccaagcgc ggcgagcaac tgcgcaaaat 300
cgttaagana ggtcgaatcg ttgaaattcg gcaccacctg cacc 344

487

285

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

487
cacaagacaa tactcaagct tcaggtcaat gtgcnccaag ccctgacgct ggccgaccag 60
gccaccgccg ccgganacgc tgccaaggcc accgaataca acaacgccgc cgaggcgttc 120
gcagcccagc tggtgaccgc cgagcananc gtcnaaaacc tcaagacgct gcatgaccag 180
gcgcttancg ccncagctca ggccaagaag gccgtcgaac gaaatgcgat ggtgctgcag 240
canaanatcg ccgancgaac caagctgctc agccagctcg agcag 285

488

280

DNA

Mycobacterium tuberculosis

488
ccacccgtgc atggtggcac tgtagcgacg tgctgcaatc aaggtcatgc ccgactctgg 60
tcagctcgga gccgctgaca ccccgctaag gctgctcagc tcggtgcatt acctcaccga 120
cggcgaactc ccccagcttt acgactatcc ggatgacggc acctggttgc gggcgaactt 180
catcagcagc ttggacggcg gcgctaccgt cgatggcacc agcggggcga tggccgggcc 240
cggcgaccga ttcgtcttca acctgttgcg tgaacttgcc 280

489

160

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

489
gctttccgcc gatacccncc atgtcccgca catccaggac ttctgggggg atccgctgac 60
agcggcggga tcccaaagtg cggatgatcg ggccgcctac gtcgtggtgt acctcgncgg 120
taacaacgaa accgaancgt atgactcngt ccacgcggtg 160

490

176

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

490
caacccgant tggctttcgg cgccntcggt gaggacggcg tgcgggtgct caacgacgac 60
gtcgtccgcg ggacacacct cgatgctgcc gccatggacg cggtcgaacg caagcagctg 120
atcgatctac nacgccgngn ggaacgcttc ngccgcgggc gtgaccgcnt cccgtt 176

491

216

DNA

Mycobacterium tuberculosis

491
gggatgggca aaaaggcgaa gcaccgcgtg gccacgaacg ccgggaggga caatctcggg 60
cggctagggc ttctcgcggg aaggcccgaa cgtacggcgt ttcaacacgt cgcgtcgccc 120
tccgaccgcg aacattcggg gatggcagca acctggtagc accctggccg ggcgatgatc 180
tgccagcgtc cccgcgggta gtcgccgccc gggcgg 216

492

163

DNA

Mycobacterium tuberculosis

492
cagcagacca acaagagcat cgggacatac ggagtcaact acccggccaa cggtgatttc 60
ttggccgccg ctgacggcgc gaacgacgcc agcgaccaca ttcagcagat ggccagcgcg 120
tgccgggcca cgaggttggt gctcggcggc tactcccacg gtt 163

493

80

DNA

Mycobacterium tuberculosis

493
ctcaagcttg actggccacc caccggcatg accaccgaca ggcccgactg gtcgtaccac 60
tcgaacgccg gggtgtttga 80

494

248

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

494
ttggtgcccg gaatggcgag tcccatttan tcgctgattt gtttgaacag cgacgaaacc 60
ggtgttgaaa atgtcgcctg ggtcggggat tccctctcca agcaagagta actggcccca 120
aataaagtta ctcgtcgtct tgcaaagacc gctacccgat gccatttatg tgtttcctta 180
cgctcnnnnt tccggtgcgc catcattatc tgcacctttg cactgcacat tgagcttagc 240
agcgctcg 248

495

341

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

495
gaattngctt tcggcgccat cggcccagga ccgcgtgcgg gtgctcaacg acgacgtcgt 60
ccgcgggaca cacctcgatg ctgccgccat ggacgcggtc gaacgcaagc agctgatcga 120
gctacaacgc cgcgcggaac gcttccgccg cgggcgtgac cgcatcccgt tgaccgggcg 180
gatcgcngtg atcgtcgatg acggcatcgc caccggagcg acggccaagg cggcgtgcca 240
ggtcgcccgg gcgcacggtg cggacaaggt ggtgctggcg gtcccgatcg gcccagacga 300
catcgtggcg agattcgccg ggtacgccga tgaagtggtg t 341

496

420

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

496
taaagctttc gtcagttcat ngngcccccg gaccaacaaa agcatcggga catacggagt 60
caactacccg gccaacggtg atttcttggc cgccgctgac ggcgcnaacg acgccagcga 120
ccacattcag cagatggcca gcgcgtgccg ggccacgagg ttggtgctcg gcggctactc 180
ccagggtgcg gccgtgatcn acatcgtcac cgccgcacca ctgcccggcc tcgggttcac 240
gcagccgttg ccgcccgcag cggacgatca cntcgccgcg atcgccctgt tcgggaatcc 300
ctcgggccgc gctggcgggc tgatgagcgc cctgacccct caattcgggt ccaanaccat 360
cnacctctgc aacaacggcg acccgatttg ttcggacggc aaccggtggc gancgcacct 420

497

135

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

497
ccgggaggga ccatcncggg cggctncggc ttctctccgg aaggttctan ngtnnngcgt 60
ttcnacnctt cccgtcgccc tgcgaccgcc gaacattcgg ggtatggnng cancctgtna 120
gcatccnggc cgggc 135

498

277

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

498
ctcaagcttc cgcatcagat cgctatagaa ccggtgcgcg tccccaccga gtggctggtc 60
gccttccagc acgatcgtta ccgcgttatc ggaatcaaac tcnccgaaca cctgaccaac 120
gcgcttgatc gcctgaatcg atgcggcgtc gctggggctc atcgataccg agtgtgcttt 180
tccgaccact tccagttgcg gtacggcgag attgacaaag gcggtgaagc ccagccagag 240
caggacgatc accnccgcaa accggcggat ttgcccg 277

499

323

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

499
gcttggcagc ctgcggctgg gcgccctnga gctcttcgat ctggatctcc ggactcgaga 60
tgctcacttg cccggccgtg gacgtaccca ttgcggccgg gaccccagcg ccccaggtga 120
ccagcgagtt gggctgcacg ctgaccggcc cgtcggggtc gacgccggta acggtcagca 180
gctccgangt ccnnctgatc ccgaccgcag ctgccaatgc gcggctggca gccgacgtgg 240
atgtgccggg gcctagatcg cggggcagca gcgagaccgc gtcaccgacg gtcatcacct 300
tgccgagttt nggcctgccg can 323

500

148

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

500
gcttccggct cgtatgttgt gtggaattgt gagcggataa caattncaca caggaaacag 60
ctatgaccat gattacgcca agctatctag gtgacactat agaatactca agcttgagcc 120
atcgggctat cagctggttg atgtcccg 148

501

242

DNA

Mycobacterium tuberculosis

501
caggcatgca agcttgtcgt ctatcacatc cgaccaccaa ccgcccgacg gctcggcaga 60
acgcctccgc atatgggtcg acgaccagcg ggtcggactt ctgggctgcc agcgctcgcg 120
ccgtcgcgac aaacagcgcg gtcgaaccga cactccttgt gatgtcccac ctatcacctt 180
cggtacgcac ccaatcgacc ctacgcggct agctcagccc cgatcttcca gagctccgcc 240
cg 242

502

230

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

502
gctttttgag cgtcgcgcgg ggcggcttcc ccggcaattc tactagcgag aagtctggcc 60
cgatacggat ctgaccgaag tcgctgcggt gcagcccacc ctcattggcg atggcgccga 120
cnatggcgcc tggaccgatc ttgtgccgct tgccgacggc gacgcggtag gtggtcaatt 180
ccggtctacg cttgggcctt tgcggacggt cccgacgctg gtcgcggttg 230

503

235

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

503
cgancctgtt cgacggctac ctgaatcacc ccgatnccac cgccgcggcg ttcgacgccg 60
acagctggta ccgcaccggc gacgtcgcgg tggtcgacgg cagtgggatg caccgcatcg 120
tgggacgcga gtcggtcgac ttgatcaagt cgggtggata ccgggtcggc gccggtgaaa 180
ttgaaacggt gctgctcggg catccggacg tggcggaggc ggcagtcgtc ggggt 235

504

152

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

504
naagctttgt cacaccaagt gtttcnacca gncgctccat ccggcgaagt ggatactccc 60
agcaggtagc aggtcgccac cacgctggtc agtgcgcgtt cagctcgctt gcggcgctgc 120
agcagccagt ccgggaaata gctgccctgg cg 152

505

192

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

505
cgctggncgc cggcgctggg ctgcggtaac caattaccac aacacttttc ggtagccgaa 60
cagcggcgcg taccagcgaa atggcacagc caccgcagtc gccgacatcc cgcgaagatg 120
tggcagattt tcgtgcggtc gagccggcga aggcctagcg tcattgttgc ctggcaaggt 180
tgctgggccc gg 192

506

312

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

506
ctcaagcttc ttctgcccct tgccgttncg gatnacatcc cgcagcgact cggcttcggc 60
gtcgatgtcg aagttctcga tcagcttctg gatcgactcc gcgcccatgg caccggtgaa 120
gtactcgccg tagcggtcga cnagttcgcg gtagaggttt tcgtcnacna tcagctgctt 180
gggcgccanc ttggtgaaag tgctccaaat gtcctccaac cggtccagct cacgctgcgc 240
gcggtcacgg atctggcgca tctcgcgctc gccgccgtcg cgaacttgcg ccgcgcatcg 300
gccttggggc cc 312

507

296

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

507
gttcacacct acctactatg ccncaattcn ccgacacggg tggcatcaac acgggcgata 60
aggtggaaat cgctggggtg aacgtcgggc tggtgcgctc gctggcaatc cgcggcaacc 120
gcgtgttgat cggattctcg ttgcccggca agacaatcgg gatgcaaagc cgggcagcaa 180
ttcncnccna caccattctt ggccgtaaga acctggagat cgaaccccgc ggttcggagc 240
cgttgaaacc caacggtttc ctgccgttgg cgcanaccac tacgccatac caaatc 296

508

208

DNA

Mycobacterium tuberculosis

508
ctcaagcttt acgccgacgc cggcctacac aacaccaagg aaacgattgc ctactgccga 60
atcggggaac ggtcctcgca cacctggttc gtgttgcggg aattactcgg acaccaaaac 120
gtcaagaact acgacggcag ttggacagaa tacggctccc tggtgggcgc cccgatcgag 180
ttgggaagct gatatgtgct ctggaccc 208

509

278

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

509
tcccncatgg gataacgggt ttagatttcn acaacggcac cgtgtttctc aacaagccgg 60
tcatcagctg ggccggcgac aacggtatct acttcacccg ctttcgcccg tacaagaaaa 120
accactaggc caccatcgag tccaagaaca accacctggt ccgcaagtac gcgttctact 180
accgctatga caccgccgag gaacgcgccg tgctcaaccg gatgtggaag ctggtcaacg 240
accgcctcaa ctacctcacc ccgaccatca aaccgatc 278

510

177

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

510
ctcaagcttg ggtgttgccg atcaccggaa gccncatgat cagccacgtt tcgcgccgcc 60
cggcatacgg cggcgtaccg atctccgcgt catacacccg cgggtaatcg ccgacggtgc 120
cggttcgcga gccgaaggtg acaacgctga ttgaatcnag ttccangtcc agcgggt 177

511

296

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

511
tnaacagctc gcggcagccc acgacctgct gcgtcggatt gccggcggcg agatcaattc 60
caggcagctc ccggacaatg cggctctgct ggcccgcaac gaangactcg aggtcacccc 120
ggtgcccggg gtcgtggtgc acctgccgat cgcacaggtt ggcccacaac cggccgcttg 180
atgnnnngtc ggcaagcccg gcagtngcca aacccagcgt gatcangctc ggctcgcgag 240
ttcggcgaan aagtggctcg cctgatcacc taccatcggc cangatctgc gtgtca 296

512

223

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

512
gccanccggc ttggcgtcga ctcccgttcn gcacatcata cggtccccgg tactgtccaa 60
ctgcgccggt gcgctagcca aacgtcacga ctctcagtga tcccagttcg tgatccggcc 120
ggtggcgccg ctgcggcggg ggctnatnta cttcggactn attatctcat ccaaaggaca 180
ccgggccggt ggctggaatc ccatggtgcg atcggccaca can 223

513

147

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

513
ccgacctggt atcttccgat agcgcgcgtt gatatccggt ctgatctcct gcccttaacg 60
ccggatctca gcaggtcccc atgcaaagat ccgaggtgtc ccngatctag gggtcctcgt 120
cctccagatg atggagcaag tcggccc 147

514

149

DNA

Mycobacterium tuberculosis

514
ctcaagcttc ggctcaggcg gcgctgccgg taacgtcgct gaccggtgca ggtttcgaca 60
atgtggtgcc ggttcggcgg ctacgtgcca tcaagacact ggcgcaggct atcgcacccg 120
ttatcggcta caaacaaatc gcggtatgc 149

515

238

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

515
catcacctgn ttcatgaact ggaagcaccg cagcgcttcc ttttcggccg caacatgagc 60
cagcctctcg tcggcggtcg ggtgcaggtg ctcgggcagc tcggccgcga cagccgcctg 120
accctgaaac cagcttccat atcccgcgac gaacgacgcc agtccgctac gtaacccctc 180
cgcgactgtc catggacaac agcgcgttct ccaccgaccg ggcccgggtg tggggtgt 238

516

175

DNA

Mycobacterium tuberculosis

516
agcttagctt cccgccccgg caatagggct ccagctcatc cggtgtgacc agataggggc 60
ccagggtgat accgctgtct ttgcccttgg cctgtccgat gcgcagctgg ccctccagca 120
tctgcaggtc ccgtgcggac cagtcgttga aaatggtata gccgatgatc gaccg 175

517

144

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

517
ccngaacaga agcggnggtt cctaccgcgg tgtgcggccg gcgcgatatc ggccttttta 60
ctaaccgaac ccgatgtggg ctccgatccg gcgcgcatgg catcgacggc gacgccgatc 120
gatgaccgcc aggcttacca cctt 144

518

174

DNA

Mycobacterium tuberculosis

518
ctcaagcttg cgcgactcga caagcattct tgacagttgt tttggctcgg catggttagc 60
caaggttctg cggtcccacc agatcatctt ggtccggtag cgctcgtccg ggtatgctgc 120
cgccgggatt ctcgctgcta ttactccccc cgaagaacgc caccggtcca gcgc 174

519

187

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

519
gcnaggcggt atagcttccc gtcgtaccgg cgaccgccag ccgagaagct cgttttccca 60
gtgttgctgg ggattctcac gctgctgctg agtgcgtgcc agaccgcttc cgcttcgggt 120
tacaacgagc cgcggggcta cgatcgtgcg acgctgaagt tggtgttctc catggacttg 180
gggatgt 187

520

215

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

520
gtgtggaacc gtgagcggat aacaatttca cacaggaaac agctntgacc ttgattacgc 60
caagctattt aggtgaggct atattaatac tcaagattgc ggtcgagcac atcggcccaa 120
gaaccgccga aggcacggcg gaacgcctgc ggcacatggg gcgacgacca gcgggtcgga 180
cttctgggct gtccagccgg atcgcgccgt cgcga 215

521

406

DNA

Mycobacterium tuberculosis

521
cactgtcagt acatatgcgc cgctcctcct catcgctgcg ctcggcatcg tcgccggcgg 60
tcatggcgtc accctaccca agccgaacgc gaaacgagaa cgtgttccat tattagggtg 120
tgagcaccaa taccagattg ctcaccagga actcacgcag caccgggacg gatgtcagcc 180
accacgccca tctggggtgg tagcggggaa atacggctaa cgcggctccg gtgccggcag 240
cccagcgcag accctcggcg gcggacacgg caaacaacga cgacccatag ttgttctttg 300
ccggatggcc gtgtttgcgg acatatcggg cggcggcgcg ggcgccgccg aggtagtggc 360
tgaggcccat ctcgtgcccg ccgaatggcc ccagccaaac cgtgta 406

522

180

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

522
ctcaagcttt tacggtgatc gcgcatcacc tggttcatga actggaagca gcgcagcgct 60
tccttttcgg ccgcaacatg agccancctc tcgtcggcgg tcgggtgcag gtgctcgggc 120
agctcggccg cgacagccgc ctgaccctga aaccagcttc catatcccgc gacnaacgac 180

523

69

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

523
ctcagaagcc gctagctggt agagtcgctg accggtgcac gtggcgncaa tgtgcgctgc 60
cggttcgcg 69

524

168

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

524
ctcaagcttg cgctcatcaa gcgcgaacag cagggcggtc ggctggtcgc catgacgggt 60
gacgggacca atgacgcacc cgcgctcgcg caagccgatg tcggggtggc natnaatacc 120
ggcacccagg cggcccggga agccggcaac atggtcnatc tccactcc 168

525

83

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

525
acttctattt cgactggtgt gctgtggcgc gatccgactg ccggcgtggt caaggccggc 60
cagttgtggg atnccacagg cac 83

526

173

DNA

Mycobacterium tuberculosis

526
gcttgtcgta ttccgtggca ctgtcagaca tatgcgccgc tcctcctcat cgctgcgctc 60
ggcatcgtcg ccggcggtca tggcgtcacc ctacccaagc cgaacgcgaa acgagaacgt 120
gttccattat tagggtgtga gcaccaatac cagattgctc accaggaact cac 173

527

38

DNA

Mycobacterium tuberculosis

527
cgatattcgt cggccgcgtt gtctcgactg ggtcgcgt 38

528

136

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

528
gacctcggcc accaagccgg acgcgaccgt cgaggtggcg atccggcttg gcgtcgaccc 60
gcgtaaggca gaccacatgg tccgcggcac ggccancctg ccacacggca ctggtaagac 120
tgcccgcgtc gcggcn 136

529

114

DNA

Mycobacterium tuberculosis

529
ccggaagtct aggggacgac ctactcagcg caaaatgtcg ctaatgtgag tccgccccac 60
cagggcagat caacccatgt cgatgatgac ctacccggat accggattgg cggt 114

530

119

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

530
agcttcagtt cctccacgac gcgttcccaa atgaatttcc cgatcccaca atctcggttc 60
agatacaggt cgccataccc cttacttcgg naacgctggg cggattggcc ctgccgctg 119

531

99

DNA

Mycobacterium tuberculosis

531
ccgcctacgg gtcgaacatg catcccgaga ccgatgctcg agcgcgcacc ccactcgccg 60
atggccggaa ccggctggtt acccgggtgg cggctgacc 99

532

308

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

532
gcggctggtt acgactccct gtttgtgatg gaccacttct accaactgcc catgttgggg 60
acgcccgacc agccgatgct ggaggcctac acggcccttg gtgcgctggc cacggcgacc 120
gagcggctgc aactgggcgc nttggtnacc ggcaatacct accgcagccc gaccctgctg 180
gcaaagatca tcaccacgct cgacgtggtt agcgccggtc gagcgatcct cggcattgga 240
gccggttggt ttgagctgga acaccgccag ctcggcttcg agttcggcac tttcagtgac 300
cggttcan 308

533

328

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

533
gcctttccgc acaatctgta ccccaggacc ntctaaaaaa tcgaatacga cggcgtcgcc 60
gactttccgc ggtacccgct caactttgtg tcgaccctca acgccattgc cggcacctac 120
tacgtgcact ccaactactt catcctgacg ccggaacaaa ttgacgcagc ggttccgctg 180
accantnntg tcggtcccac gatgacccag tactacatca ttcgcacgga gaacctgccg 240
ctgctagagc cactgcgatc ggtgccgatc gtggggaacc cactggcgaa cctggttcaa 300
ccaaacttga aggtgattgt taacctgg 328

534

75

DNA

Mycobacterium tuberculosis

534
gcagaccaac aagatgcatc gggatcatac gccgtcaact acccggccaa cggtgatttc 60
ttggccgccg cccac 75

535

319

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

535
ctcaagcttg ccaaagagac ctcgtccacc aagcnggacg cgaccgtcna ggtggcgatc 60
cggcttggcg tccacccgcg taaggcanac canatggttc gcggcacggt caacctgcca 120
cacggcactg gtaanactgc ccgcgtcgcg gtattcgcgg ttggtgaaaa ggccgatgct 180
gccgttgccg cgggggcgga tgttgtcggg agtgacaatc tgatcganag gattcagggc 240
ggctggctgg aattcgatgc cgcgatcgcg acaccggatc agatggccaa agtcggtcnc 300
atcgctcggg tgctgggtc 319

536

312

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

536
ccacggcgtg gatcaaggta ccggccggga tgttgcgcaa tggcaggttg ttgcccggct 60
tgatgtcggc gttagcgccg gattccacca catccccttg cgaaagtccg ttgggtgcaa 120
tgatgtagcg cttctcccca tcgagatagt ggagcaacgc aatccgtgcg gtacggttcg 180
ggtcntactc gatgtgcgcg accttggcgt tgacaccatc tttgtcattg cggcgaaagt 240
cgatcatccg gtaagcgcgc ttatgaccgc cgcctttgtg ccgggtggta atccggccat 300
gcgcgttgcg tc 312

537

105

DNA

Mycobacterium tuberculosis

537
ggcggctgcg tcggcgagat gatcgcccgg tgccaccccg atccgtgcct cggtcagcgc 60
caacgtgctt tccggtccgg cgaccaccat gtcgcatgcg ccgac 105

538

144

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

538
gcaatcgcct tggcggtcgc cgggttgtca ccggtgatca tcncggngcg gatgctcatn 60
cggcgcattt cgtcnaatcg ttcccgtatg cccaccttga cgatgtcctt catatggacc 120
acgccgatgg cccncgcgct nctg 144

539

431

DNA

Mycobacterium tuberculosis

539
ccggctcgta tgttgtgtgg aattgtgagc ggataacaat ttcacacagg aaacagctat 60
gaccatgatt acgccaagct atttaggtga cactatagaa tactcaagct tccacatcgg 120
tatgccaaag cattgcgccg ctatcgattt cgcgctggca tcgccaaggt ggacttcttg 180
ctcagcgacg agatcccgtg gtcggatccg cggctgcggc gggctgcgac cctgcatctc 240
ggcggcaccc gtgaccagat ggcgcgcgcc gaggcagacg tcgcggcggg acgccacgcc 300
gactggccga tggtgctggc cgcgtgtccg cacgtcgccg accccggccg catcgacgaa 360
accggccgcc gtccgttctg gacctatgcc cacgtgccgt cggggtccac gctcgacgcg 420
accgagaccg t 431

540

462

DNA

Mycobacterium tuberculosis

540
cgcgtccacc gcagcgtgag attggtggcg ccattcgtcg tggtgtagct gctgttggcg 60
gcgtcgccgt attgtgcggg ccagccttgt gcgggggccg cttctaccca cgagtcggca 120
cttccgcaac cgcccagctc gaccgcgatt acggcggccg caacggccgc cggaaggcgt 180
ctcgcaagcg ccttatcctt tcgcaggttc ccagatcctt ccgctacgtg ggtcgctcat 240
cggcgggccc ggccgaatga gtacaggtga gggtaaccgc tacaaatgaa gttggtcagt 300
gctggccaac tgtgtaatgg ttgcccggct cgggtcacca cgtacattct ggcaaggcgg 360
gcgagattcg gttcctcgcg tccttggccg gtggcggttc ccggttgtcc gtgggcgtgt 420
cgtgtacgtg gtgtaagtgt cgtgaactcc tcagtttggg ct 462

541

307

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

541
ctcaagcttg cgctggatct ggcggctgag cctgttcttg ggcaacatgc cgagggatcg 60
ccttttccac cacgcggtcg gggtggcgtt gcattagctc accgatggtg cgcttgtgca 120
ggccgccggg ataccccgag tgccggtaaa ccatcttgtg ctgcagtttg tcgccgctga 180
tggcgacctt gtcggcgttg atcacnatga cnaagtcacc gccatcgaca ttgggggcga 240
acgtcggctt gtgcttgccg cgcagcaggt tggccgccgc gacggcaagg cggccaanca 300
ccacgtc 307

542

333

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

542
tttgggatgg gcaaaaaggc gaagcnccgc gtggccacga acgccgggag ggacaatctc 60
gggcggctag ggcttctcgc gggaaggccc gaacgtacgg cgtttcaaca cgtcgcgtcg 120
ccctccgacc gcgaacattc ggggatggca gcaacctggt agcaccctgg ccgggcgatg 180
atctgcagcg tcgccgcggg tagtcgccgc ccgggcggct acagtctgaa acgcgatgac 240
catcgatgtg tggatgcagc atccgacgca acggttccta cacggcgata tgttcgcctc 300
gctgcgccgg tggaccggtg ggtctatccc gga 333

543

234

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

543
ctcaagcttc gtcataagac catggtgcgc tttctttcac ccgtccanag tcgggggcat 60
ccgcaccggc tcgcatcgca tcatcctccc acgacgggcc gctcatcagc ttgggccatt 120
tcaatgtact tgataccccg cgctgcgggt aggccactgc nacaattcaa acacggtgtc 180
acacggtgaa tantgtcnan atgggctctg atcaaccgtc ncaaacccgg tttc 234

544

440

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

544
gaattctgcg tgcaccgcta tgggttgcag cagcggctgg cgccgcacac cccactggcc 60
cgggtgtttt cgccccgaac ccggatcatg gtgagcgaaa aggagattcg cctgttcgat 120
gctgggattc gccaccgcga ggccatcgac cgattactcg ccaccggggt gcgagaggtg 180
ccgcagtccc gctccgtcga cgtctccgac gatccatccg gcttccgccg tcgggtggcg 240
gtagccgtcg atgaaatcgc tgccggccgc taccacaagg tgattctgtc ccgttgtgtc 300
gaagtgcctt tcgcgatcga ctttccgttg acctaccggc tggggcgtct gcacaacacc 360
ccggtgaggt cgtttttgtt gcagttgggc ggaatccgtg ctctgggtta cagccccgaa 420
ctcgtcncgg cggtgcgcgc 440

545

425

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

545
gcagttggga atcgctctgc agcaaaccan tattctgcgc gacgttcgag aggactnttt 60
gaatggacgg atctacctgc cgcgcgacga gctggaccga ttaggcgtac ncctccgcct 120
ggacgactcc ggggcactcg atgaccccga cggacggctc gcggcactgc tgcggttcan 180
tgccnaccgc gccgcanact ggtattcgct gggactgcgg ctgattccac acctcgaccg 240
ccgcagcgct gcctgctgtg cggccatgtc tggcatctac cgccgtcngc tcgccttgat 300
cagaccatcg ccggcggtcg tctaccatcg gcgaatctct ctgttcggga ctgaanaang 360
cccaagtggc ggcggcagca ctggnctctt cggtaacctg cngaccgccc attggaccgc 420
taccg 425

546

401

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

546
ttgatctgga cgtctgagac ggtgatcggn ccgaacctga attgtccggt aatgcccagc 60
gcagaaagca nggtggtggc cggggcggtg aanccggcgt cggcggcacc gtcgaagtcg 120
atgtggattg ccggaatggg gatgtccggc acggcgaagc cgtagttcgc ttgtcccgtg 180
aggcccangt ggatgggggg aaggatcgtg gtgtccggga tgataatggg gccgatgccg 240
ccggttgaag tccagtggat cgggaattcg ggaatcgtga tgccgacgtt caggccgaac 300
aggccctcca agttgcctcg ccacnagatg ccgttgctga agttgcccga catgagggcg 360
ccggtgtcca cattgcccga attggcgacg ccggtgttgg c 401

547

391

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

547
cacgtaggcg ccgtccataa atnactccgc cgcgcttcgc acatcctcgt ancgatcctt 60
ggcgagcagg tcaaccgggc gctgcccgtc naggagccgg tttttggcgt gcagccactg 120
gccgacacct cggggggtaa gcgaatccga gagcaggagg acnaggtcac gaanctgcgc 180
cagccggtcg taccgctcag ggcggatgtc gccggtccgc cacccgcgta ccgcccgatc 240
ggacacctgt atgaccgcgg cgacntcgac ctgggtgacg ccgaagggtt tcagggcatc 300
nacnatctcg ctggcctcga ccgcccggtc cagggtgacc gccatcgtgg ttcctccgca 360
acttccggtt ctactaccgt aaacgctacc g 391

548

369

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

548
cggggaacgg tcctcgcaca cctggttcgt gttgcgggaa ttactcggac ancaaaacgt 60
caagaactac gacggcagtn ggacagaana cggctccctg gtgggcgccc cgatcgagtt 120
gggaagctga tatgtgctct ggacccaagc aaggactgac attgccggcc agcgtcgacc 180
tggaaaaaga aacggtgatc accggccgcg tagtggacgg tgacggccag gccgtgggcg 240
gcgcgtttcg tgcggctgct gggacncctc cgacgagttc accgccggga ggtcgtcgcg 300
tcggccaccg ggcgaatttc cggttcttcg ccgcgccccg ggatcctggg accgcnggcg 360
cgcgctgtt 369

549

85

DNA

Mycobacterium tuberculosis

549
ctcaagcttt gtccgacaag cgttcccggg cggtcagcaa gcgaacgtcg gttggcccac 60
tgcgggtcga tattgccgcc aggga 85

550

101

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

550
cgtcagcacg gcgacgtcgc gntacgccga gcagttacac aatcgctctg cagcaaacca 60
atattctgcg cgacgttcga gaggacttct tgattggact g 101

551

458

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

551
ctgcatccgg ctcgtatgtt gtgtggaatt gtgagcggat aacaatttca cacaggaaac 60
agctatgacc atgattacgc caagctattt aggtgacact atagaatact caagcttcgc 120
gcagcggcgg gttgacccgg ttcacgccgt catagctggc caatctggca tcgtcgatca 180
ncatgtggtg gggggtgacc tcggcggtga tcgaaatacc ctggtcctta tcccatttca 240
ggatttcgac ggtgcccgcg gccgacgcgt gacagatgtg cacccgggcg ccggcgtcac 300
gggccagcaa ggcgtcgcgg gcgacgatcg attcctcggc ggcccgcggc catcccgcca 360
ggcccagccg cgccgccatg ggtccctcgt gcgcgacggc gccgaccgtc agccggggct 420
cctcggcgtg ctgggcgatc agcacgccca aaccggtg 458

552

463

DNA

Mycobacterium tuberculosis

552
ccgacgcgca ctacgtgctg gtgtccaccc gcgacccgca ccggcacgag ctacgcagct 60
accgcatcgt cgatggcgct gtcaccgagg aacctgtcaa tgtcgtcgag cagtactgaa 120
ccgttccgag aaaggccagc atgaacgtca ccgtatccat tccgaccatc ctgcggcccc 180
acaccggcgg ccagaagagt gtctcggcca gcggcgatac cttgggtgcc gtcatcagcg 240
acctggaggc cagctattcg ggcatttccg agcgcctgat ggacccgtct tccccaggta 300
agttgcaccg cttcgtgaac atctacgtca acgacgaaga cgtgcggttc tccggcggct 360
tggccaccgc gatcgctgac ggtgactcgg tcaccatcct ccccgccgtg gccggtgggt 420
gagcggacac atgacacgat acgactcact gttgcatgcc ttg 463

553

453

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

553
tgcttccggc tcgtatgttg tgtggaattg tgagcggata acaatttcac acaggaaaca 60
gctatgacca tgattacgcc aagctattta ggtgacacta tagaatactc aagcttgccg 120
ggagggtgca tggccgactc ggatttaccc accaaggggc gccaacgcgg tgtccgcgcc 180
gtcgagctga acgttgctgc ccgcctggag aacctggcgc tgctgcgcac cctggtcggc 240
gccatcggca ccttcgagga cctggatttc gacgccgtgg ccgacctgag gttggcggtg 300
gacgangtgt gcacccggtt gattcgctcg gccttgccgg atgccaccct gcgcctggtg 360
gtcgatccgc gaaaagacga agttgtggtg gaggcttctg ctgcctgcga cacccacgac 420
gtggtggcac gggcagcttt agctggcatt cct 453

554

466

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

554
ggaaacaccg ncgccgtcgt ggccaccaac accgcgacca gcaccgtgac ccggaccggg 60
gtgccgcgcg aaccggtctt ggccaattgc cgcggcacca agccgtcgcg cgccatggcg 120
aacagcacgc ggcattgccc gagcatcaac accatcacca ccgtggtaag cccggccagc 180
gcgccgacgg agatgatgcc gctggcccag tacaccccgt tggcctggaa cgcggtggcc 240
agatttgccg gcccgcggcc cggtacggtc cgcagttggg tgtatggaac catgcccgac 300
agcaccaccg ataccgcgac gtagagaagg gtcacgaccc ccagcgacgc gagaatccct 360
cgagggacgt ctcgttgagg acgcttggtc tcctcggcca tggtggccac gatgtcaaac 420
ccgataaacg cgaagaacac gatcgatgcc cggccagcac gccgta 466

555

466

DNA

Mycobacterium tuberculosis

555
cctgcttccg gctcgtatgt tgtgtggaat tgtgagcgga taacaatttc acacaggaaa 60
cagctatgac catgattacg ccaagctatt taggtgacac tatagaatac tcaagcttgt 120
cctcgggcgt ggcctcggcc aagaaatcgt cgacgccggc ctcctgtgca atcgccttgg 180
cggtcgccgg gttgtcaccg gtgatcatca cggtgcggat gctcattcgg cgcatttcgt 240
cgaagcgttc ccgtatgccc accttgacga tgtccttcag atggacgacg ccgatggccc 300
gcgcgctgct gttatcggtc cattccgcaa cgactagggg tgtccccccg ccggagctga 360
tgccgtcgac aatggcaccc acctcctcag tggggtggcc accgtgatcg caaaaccact 420
tcatcaccgc agccgcggca ccttgcggat ccgaacggat gcgctc 466

556

467

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

556
ttcgttcgat ggcgccgccc cggctacggt ttgacctgtg ggtgtcgaat tggggtcaaa 60
ttccgaggtc ggcgcgctaa gagtggtcat cctgcaccgc ccgggggccg aactgcgccg 120
gctcacaccg cgcaacaccg accagctgct gttcgacggc ctgccctggg tatcccgcgc 180
gcatgacgag cacgacgaat tcgccgagct gctggcttcc cgcggtgcgg aagtgctgtt 240
gctgtcggac ctgttgactg aggcactaca tcacagcggg gccgcccgca tgcaggggat 300
cgccgctgcc gtcgacgcac cgcggctggg actgccgctg gcgcaagaac tttcggccta 360
cctgcgtatc tcgacccaag cangttggcg catgtgctga cgccggcatg acttcaacga 420
actcccntcc gacacgccga acgaagtgtc gttggtgttg cgtatgc 467

557

142

DNA

Mycobacterium tuberculosis

557
gcggcgagtg tggtgggtgc cgaacacgaa tccaacgacg cactggcgga gagataccac 60
ttgctgtact ggaagcacgt gctgatgatc tcccgtggaa tgtgcctcgc cgccgtctat 120
cgaaaacagt gagcatgctg cg 142

558

217

DNA

Mycobacterium tuberculosis

558
caaccgcgct cggcgcgtct gggccttccg ccggctccgc cgacaattct atctctggat 60
cagcggggct ctccgggccg gcctccgcga actcaacagg ccgcgccttc cggccgaaac 120
attccctagc catatatgat cgcacctcga tacacgatct ggcggcaaca ccgcaaagcg 180
tccgacgggc ccaacctccg caattcaggt atccggg 217

559

147

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

559
gaaggtcggc gaaggtgtgg ctggntgccg atcacgaatc caatgatgca gtggtcggaa 60
gatattagcc acttgctgtt ctggagacag gtgctgatga tctcccgtgg aatgtccctc 120
gactccgtct atcgaaatct gtgaaca 147

560

177

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

560
tcctgcgctc tgggccattc tcgggtctgc cgacaattct atctctggat ctgtggggct 60
ctcttggccg gcctcngcga tctcttcang gcgcgccttc cggccgaaac attccctatc 120
catatatgat cgcacctcta tacaccgttt ggcggcaaca ccgcaaagtg tctgtcg 177

561

128

DNA

Mycobacterium tuberculosis

561
agctttacgc tggcgtatca gcgttggggc cgctgccatt tcggtcgccc aacgcgttgc 60
cagctccctg cgctgtcagg gcttgcgcgc caaactggcc accgcaacaa acttggctga 120
gcttgatc 128

562

142

DNA

Mycobacterium tuberculosis

562
ctctatctgg cgtcacattc gcaatcttta gattgcagat atcgataaaa tcacccgcgc 60
gacaagaccg ccatgtcatc ctttcgatgt tatttcgccg gcctggggaa agcgcaacga 120
cgttgcctac acgttccgcc gt 142

563

406

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

563
agctttncct tgcatctgca ccccgatcca cgtcagccac gtcggcgttc tccaccaaga 60
agttgcgggc attctccttg ccctggccga gctgctcgcc ctcgtaggtg aaccaggcac 120
ccgacttgcg gatgaggccc tgatccacac ccatgtcgat cagcgagccc tccctgctga 180
ttcccttgcc gtagaggatg tcgaactcgg cctgcttgaa ggggggcgaa cagttgtgca 240
cgacaacccc ttcggcgacg agggtgtgca gttcctcgac ctcgaggtcg aacgttcgtg 300
cccgccgcgt tggcagcact tctcggatca cggaatagcg ganttcttcc gccagcatgt 360
cgtgcaggaa tttgtcatcc agggcatccg cgagcgcctg cacgcg 406

564

311

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

564
actgtcnagg gaatgcttcg cagcatctac ctgcagtcgc ttgtgcataa gcggacggcc 60
cnacctgttc gtgttccggg acaccagacg cgggagcacc ggcagtacgg cgaaaggttt 120
gagcggaagg agttgcgcaa atcggggcgc cccaacaccc gtccgcaaga cgcggtcaac 180
gacctgtttc aggcgatcag ggtcaccgac tcacctgcac tgagaacaag cgatctgctg 240
atctgccaga agatggacat gaatgtccac ggcaagcctg atggcctgcc gctcttccgg 300
gaatgtttgg c 311

565

310

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

565
tgaattatga tcccgacaca actgcatcan tttagccgcg tcgngatgct atccgccgac 60
ggtttgganc nggtccgtgt cgttcgtgtt gatctcaccc gaagttgtgt ccgccgccgc 120
cggggatcta gcgaacgtgg gatcgacaat cagcgccgcc aacaaggcgg cagcggctgc 180
gaccacgcag gtgctggccg cgggcgccga tnaggtgtca gcgcgcatcg cggcgctgtt 240
tggtatgtac ggcctgnaat atccggcgat cagtgcgcaa gttgccgcgt atcaccanca 300
gtccgtgcag 310

566

326

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

566
aacggggacc ncaagaaacc attcaanaac gaggggtcgt caccaacgtc gaaaccgacg 60
gttgccagcc ggcccacgat attgcgtgct cgagggtccg ctgtaccctc accgaacgtg 120
agtcccacac cgcggaggcg ggcgactctg gcgtcgttag cagccgagct caaggtgtcc 180
cgcaccactg tctcgaatgc ttttaaccga ccggatcagc tctccgccga tctacgtgaa 240
cgagtgcttg ccacggccaa gcgactgggc tatgccggac cggatccggt ggcgcgatcg 300
ttgcggaccc gcaaagccgg tgcggt 326

567

374

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

567
agctttggag ccncnccgan ccnccggtac gccccgccac cgccgtaccc ggcacccgac 60
ccctttgagc cgttcgccgt ggccgcggtg ganctggccg acgagggact gatcgtgctg 120
ggcaaagtgg tcgatggcac gctggccgcc gatctgaagg tcggcatgga gatggagctg 180
acgaccatgc cgctgttcgc cgacnacgac ggtgtgcagc gcatcgtcta cgcgtggcgg 240
atcccatcgc gcgccggcga cnatgcanag cgcancgatg ctgaggagcg gcgccgatga 300
ggatgagcgc gccggaaccc gtttacntcc tgggtgccgg tatgcacccg tgggggaaat 360
ggggtaatga cttc 374

568

422

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

568
ttctcncatc gttcgtactn ngatgggacg ctgctgcccg aggcgatcct ggccaaccgg 60
ctctcgccgg cgctgacctt cggcggggcg aacctgaact tctttccgat gggcgcttgg 120
gccaaacgta ccggggctat cttcattcgg cgtcagacga aagatattcc cgtctaccgc 180
ttcgtattac gtgcttacgc cgcgcagctg gtgcaaaacc atgtcaacct cacctggtcg 240
atcgaagggg gtcggaccag aacgggcaag ctacggccac cggtgttcgg gatcctgcgt 300
tacatcaccg atgcggtcga cgaaatcgac ggtcccgaag tgtatttggt gccgacctcg 360
atcgtgtacg aacagctgca cgaagtggaa gccatgacca ccgaagccta tggcgccgtg 420
aa 422

569

300

DNA

Mycobacterium tuberculosis

569
ttcttccggg taccgctgat cggcggcacc atcacgcacc cggtgcaggg cgaggcggcc 60
gccggtgtgg tgttgctacg gccggccagc ccgggtaccg gtgtgatcgc cggtggtgcg 120
gcccgcgcgg tgctggaatg tgcgggggtg cacgacatct tggccaagtc gctgggcagt 180
gacaacgcga tcaatgtggt gcacgccacc gtggccgcgc tcaagctgct gcaccgtccg 240
gaggaggtgg cggcgcgccg cggtttgcca atagaagacg tccccccggc cgggatgctg 300

570

343

DNA

Mycobacterium tuberculosis

570
gtcgaaagtg accatctcta ccttgagtgc cataccgccc gaccctatgc ctcggatagc 60
tcggcggaaa gaaacgcttg cagtgccgcc gaataggcgg ctacgtcgtg agcgcccatc 120
aactctcgcg cggagtgcat cgccagctgg gcggcgccga cgtcgaccgt ggggattccg 180
gtgcgcgccg cggccaacgg cccgatcgtc gacccgcacg gcagatcggc gcgatgttcg 240
taacgctgca taggcactcc cgcgcgctgg caggccagtt gcgaaacgcc cccgccgggt 300
gccttccgtc ggttggcttt accgcaaatt tggggttgcc cct 343

571

220

DNA

Mycobacterium tuberculosis

571
aaagccacgg aaacgattgc ctactgccga atcggggaac ggtcctcgca cacctggttc 60
gtgttgcggg aattactcgg acaccaaaac gtcaagaact acgacggcag ttggacagaa 120
tacggctccc tggtgggcgc cccgatcgag ttgggaaact gatatgtgct ctggacccaa 180
gcaaggactg acattgccgg ccagcgtcta cctggaaaaa 220

572

254

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

572
tttcgccacc gcnaggtcgt gcgcgttcca gaaaagcgtg gtttcgccgg gcgcgaggat 60
tcgacggtcc aactgaccag ccggtcccgc cacccgttag gcaggatcgc ggtgtctata 120
tgttcgccct cggcataaac gccattgctg cggtgaaaat cggacatctc gccgattgcc 180
acgtctacat gatccgcttt gtcccgcgcc gggtcgttga caaacgcgat gtcngcctcc 240
tgggaagcgg tggc 254

573

329

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

573
tcgccaagtg gattcgtgct caccnacgag atccgtggtc ggatccgcng ctgcggcggg 60
ctgcgaccct gcatctcggc ggcacccgtg accaaatggc gcgcgccgaa gcagacgtct 120
cggcgggacg ccacgccgac tggccgatgg tgctggccgc gtgtccgcnc gtcnccgacc 180
ccggccgcat cnaccaaacc ggccgccgtc cgttctggac ctatcccacg tgccntcggg 240
gtccacgctc gacgcgaccg anaacgtaac cagcgtcctc gancggttcg cccccggctt 300
ccgtgacatc gtggtggcgg ccgcgccgt 329

574

297

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

574
gtaccgtcac catgatcgcc cccatcggca tcggtgagct gatagatccc agccggtttc 60
gccaaccccg gagcgatctt ggcgcgctgc tngtngtcnc tganacntag ccaccaacag 120
agcccggtgt gcgacaagan gactgatcgg atctctccgg acacntcgag ggggtcntca 180
ggagnccggg cgccaccccg aggtaagcct ccgcccagcc tcacaccgcg accgggtatc 240
ncaagtcgcg caataanccc accacctcct cggaccccac gttgtatgcg gctgggt 297

575

401

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

575
atactcaagc ttagacctca ctgatgtggc gggacgcggg agataaccgc ggttcgagcc 60
gttcaacagt ggtggttccc acaccagttg tttgcctttg cgaagtaaag cgattcgatt 120
tgctcgaaaa gagggctggc tgctcgtgag ggacatccat ggccgatacc tcagcgatct 180
caacggtcaa gcgactgcat gtttggcgca aggtatcgct aagcataggt tcgtgacgga 240
tttgacagca agagctttcc aaagattgct gtccacatan tgattcgcat ctctacacct 300
cttcgccggt gctgtcaaga gccattcgaa tcagttatct cgctcgtgct tggaanaaat 360
tttcccagcc tgcgttggac aaaccgcgtc gccaaagcgg t 401

576

453

DNA

Mycobacterium tuberculosis

576
agcttcccga gaaacagtgc attccctaag cagcccgttg tcacgccgat gagtgaagag 60
tgcacgcaat cgccggaatc cggcaaagcc ctgcacaagc gaaatcaacc cggaggctga 120
caaggcaacg tcggtgatcc gtaccgcctg gttggacaaa cggcagaagg cggcctcgtc 180
cggtccatct acgccgagca cactggtgat agcgcgcatc ggcatcggtg cggccacggt 240
ggagacgacg tccgcgggcg tctgggtcag taacccgccg accagttctc gggcaagctg 300
gtcgaccatc gggcgccacg tctccaacgc gccacgcgcc atacctggtg ccagttgctt 360
gcgcatccgg gtgtgcgccg gcggatcgga cgtcgcagaa acgcagccac cccgtgagaa 420
gtgacccacg gcgctggaca cgtgtctggt tac 453

577

474

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

577
cggccgggat gtgcgcaatg gcaggttgtc gcccggcttg atgtcggcgt tagcgccgga 60
ttccaccaca tccccttgcg aaagtccgtt gggtgcaatg atgtancgct tctccccatc 120
gagatagtgg agcaacgcaa tccgtgcggt acggttcggg tcgtactcga tgtgcgcgac 180
cttggcgttg acaccatctt tgtcatggcg gcgaaagtcg atcatccggt aagcgcgctt 240
atgaccgccg cctttgtgcc nggtggtaat ccggccatgc gcgttgcgtc caccgcgacc 300
gtgcagcggg cgcaccagcg acntctccgg ggttgaccgg gtgatctcgg cgaaatcaga 360
tacgctggcg ccgcgacgac caggcgtcgt gggcttgtac ttgcgaattg ccatggtcta 420
atcaggtctt tctctcacct ctcgtcgccg ggctagggcg cattgcctgc tcct 474

578

357

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

578
tagcggtgta accaactccc gggtcaccac ccgcaaacct cttgcggcaa cagcaccgtc 60
gacgcgtcaa ccgggctgcc cggaatcctg tggatgggca tcgagtgcat ggtcacgacg 120
tccccgacgc ggccggtggc aacgacaagt ggcccggatg caccacaaat gacggccgca 180
caccggtggg gacggccagc acgagagccg tgtcgccgaa gtcgacgcta atgccgtagg 240
cattggccgt cacaacaggc gacgccccgc gtaccaccga gtccacggng gttgggcggt 300
ctcctcggcc aaccaggcgt gaacccggcg gatccgaatg cagcaagacc cgtgggc 357

579

269

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

579
ccattggtcg gtgtgcgcat accantacna cgcgccgggc acctgacgcg gcggccgcaa 60
ccattcggtg gccatcgcca tcgtctgcca cccggtcaac ggacgcacct tctcctggcc 120
gacctagtgc gcccacccgc cgccgttgcg tcccatcgat ccggtcaaca tgagcagcgc 180
caacaccgag cggtacatga catctgctgt ggaaccagtg acanattccg ccgcccatga 240
tgatcntcga ccgtcctccg gattcggtc 269

580

272

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

580
gccggcctgg tcaaaggggc gtccgaagga nccgggctgg gtaacaagtt cctggctcat 60
atccgcgaat gcgacgccat ttgtcaggtg gtgcgggtgt tcgtcgacga cnacgtgact 120
catgtcaccg gacgggtcga tccccagtcc gacattgagg tcgtcgagac cgagctgatc 180
ctggcagatc tgcaaaccct ggagcgggcc acgggccggc tggagaanga agcncgcacc 240
aacaaggcgc gcaagccggt ctacgacccg gc 272

581

373

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

581
gatccactga ccacgatgac atatcgaaat gctcgacgat tccgatggcg atcaaggcca 60
cgatgccctg gccgttgggc ggtatctggt ggatggtgta cccgcggtag gttcccgtga 120
tcgtgtcgac ccagtccacg cgatgggcgg cgaggtcgtc ggcacgcatc accccgccgt 180
ntgccgccga gtgcgcctcg agtttggcgg ccagctctcc ccggtagaac tctcaccgtt 240
ggtcgccgcg atcttctcta ncgtcgccgc gtggtcagga aaggtaaaca gctcaccggg 300
tttcggcgct cgtccgccgg gcatgaacgc atctgcgaat ccgggctggg atgcgaacaa 360
cggacctgtg ccg 373

582

314

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

582
tctactgccg aatcggggaa cggtcctcgc ccaccnggtt cgtgttgccg gaattactca 60
ggacaccgaa acgtcgagaa ctacgagcgg agttggacan aataccgctc ccnggtgggc 120
gcccccatcg anttgggaag cngaaatgtg ctctggaccc cacccaagaa tgacattgcc 180
ggccgccctc caactggaaa tagaaacngt gatcacccgc cgcgttcttg gaaggaatgg 240
catgccctgg gccgggcgtt ccttccgctg ccggactcct cccaccaatt caccgccgaa 300
ggcgtcccgt ctgc 314

583

135

DNA

Mycobacterium tuberculosis

583
atactcaagc ttctgtcacc gaaatcccgc atgggataac gggtttagat ttcgacaacg 60
ggaccgtgtt tctcaacaag ccggtcatca gctgggccgg cgacaacggt atctacttca 120
cccgctttcg cccgt 135

584

221

DNA

Mycobacterium tuberculosis

584
ctggctcaag cgctcggcgc gcaggtgaac tcggaccggc tcgacgtcgc cgaacgcgag 60
gcggtgctgg cccacgccga cgccgtcgtc gcacatatcg gcaccgtgca caagtctaca 120
acaacgccgg catcgcgtac aacggcaacg tcgacaagtc ggagttcaag gacatcgagc 180
gcatcatcga cgtcgacttc tggggcgtcc tccacgggcc c 221

585

70

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

585
ccgccctccg cattatgggt caagaaccat cgggtcggac ttctgggctt ccaacgctcg 60
cgccgtcccn 70

586

241

DNA

Mycobacterium tuberculosis

586
ccgtggcact gtcagacata tgcgccgctc ctcctcatcg ctgcgctcgg catcgtcgcc 60
ggcggtcatg gcgtcaccct acccaagccg aacgcgaaac gagaacgtgt tccattatta 120
gggtgtgagc accaatacca gattgctcac caggaactca cgcagcaccg ggacggatgt 180
cggccaccac gcccatctgg ggtggtagcg gggaaatacc gctaacgcgg ctccggtgcc 240
g 241

587

492

DNA

Mycobacterium tuberculosis

587
tactcaagct tgtccaaata tcgaagcgtc gggtcgcgag gctcggtcgg cagctccagc 60
aaaacccgct ccacccctag atgccggtat ccctcaaggt ctttatccgc cgcttcaccc 120
cactggcaca cggtcaccgg cacgtcgccc ccggccatgg cgcgcaaccg ctgaagcgga 180
cccgacagcc gctgcggtga tggactgatc gcgatccacc cggcattgag ccgggctatc 240
cgcgggaagt tcgccggtcc cccgcccaca tacagcggag gatagggctt tgtcaccggc 300
ttcggccagc agtagatcgg atcgaagtcc acatatgtcc catggaattc cgcctgctcc 360
tgcgttcaga tctcgattat cgcgcgcaac cgctcatcga tcacacgtcc gcgcaccgca 420
gggtccacac catggttggc gacttcttcg cgcaaccagc cacacccacg ccgaaacgaa 480
accgtccctg cg 492

588

313

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

588
caggcatgca agcttggcca actcctcatc ggacttgaag gtgccgtcct cgttggcggc 60
cctgctccac ggcacgttga tggcaccagg aatgtgtccg ggccgctggc tttgttcctg 120
cggcaggtgc gcgggggcca ggatcttgcc ggagaactcg tcgggagagc gcacgtcgat 180
gaggttcttg acgttgatgg ccgccaggac ctcgtcgcgg aatgcccgaa tcgtgttatc 240
cggcggggan gcggtgtagg aagtcaccgg ccggctgacc gggtcgctgg acagcgggcg 300
tccgtcgagc tcc 313

589

305

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

589
atactcaagc ttcaaaacag gcctgttgtg ggcgcacccg gctcgccgag ttctgcacgc 60
accgcctcaa gtgcggcccg caccgccggc atctcccggt cacgcagggc cgcggcccgc 120
gccgcagcga cggcgtgttc gcgcagttcg ccgtcaatga tgctgacctg atcggccacc 180
cgggcggtct cggcgtcgtc ccgttcacta atcgcggtgc tcagcagcgt ctcgacagcc 240
accacccgag tggagaccag atgcnccacc acggaccgca gcgatgccag tcacctcacc 300
cgtcc 305

590

394

DNA

Mycobacterium tuberculosis

590
caggcatgca agctttgcag ttgctgagta atgtcggcca acgtcaccac aatcgcgatg 60
aattcaatca tgccgcccag ggcggccaac ccaatggtgg ccgcgagcgg cagctcgatc 120
gcagcgcgga ggttgccggc cgccagttga ttcacgaaca gggtgaggtc ataggcgggc 180
aggatagtga cgaaggcaag acctagatct gccgtcggaa gaagaatcga gtatccggtc 240
gacacaacgg aagcgaaagt gtccgcgatg ttgatgagcg tcgccggttg tggcggcggt 300
ggcggcggta gcaccgtccg cacataccgc gggaacgcgg gcatccgaat ttggggcagg 360
gtgttcaagg cggctggcaa ctcaccatga atct 394

591

457

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

591
ccggctcgta tgttgtgtgg aattgtgacc ggataacaat ttcacacagg aaacagctat 60
gaccatgatt acgccaagct atttaggtga cactatagaa tactcaagct tggccgcagg 120
gccgagtcga ttggtcgcgg tcgcctcgac agttagctta tgcaatgcta acttcggggc 180
aaagttcagg cggatcggcc gatggcgggc gtaggtgaag gagacagcgg aggcgtggag 240
cgtgatgaca ttggcatggt ggccgcttcc cccgtcgcgt ctcgggtaaa tggcaaggta 300
gacgctgacg tcgtcggtcg atttgccacc tgctgccgtg ccctgggcat cgcggtttac 360
cagcgtaaac gtccgccgga cctggctgcc gcccggtctg gtttcgccgc gctgacccgc 420
gtcgcccatg acagtgcgac cctgnaccgg gctggcc 457

592

438

DNA

Mycobacterium tuberculosis

592
gtgtgctgtc aattcagagc tgagcctgat gcactcaact tactgagcat gctaacgctg 60
gtcgtgcggg tcttgttccc gcgtgtcggc agggcacacg ctcggggcgt agctgggaga 120
ggccccggtc aagcccggag agcagtgctc agtccgccag cttgaccgac tttcgatgag 180
aacgcgcttc tcgccgtatt gaactggcgt gctgacggtc gctgagcagc gctcgccgag 240
tgcggccgct gattctttca tcgagccagg aggcgcattc gtgttcggcc gcctgcgggt 300
cggccccatc gtcgacgcga tccgtcaccc actcctcgat caggtctgcc tcatcgaacg 360
ggccaacggt gctgtcggag taagtgtgcg tgggcacgcg agccgggtgc tgtggtacac 420
ccaccgttgc atgaacaa 438

593

220

DNA

Mycobacterium tuberculosis

593
atactcaagc ttcaccaggc gccggcgggc cgcggcgcca agccaggcag ccgcgctcgg 60
cgcgtcgggg ccttccgccg gctcggccga cagttcgatc tctggatcgg cggggctctc 120
cgggccggcc tcggcgacct cagcgggccg cgccttccgg ccgaaccatt ccctagccat 180
agataaccgc acctcaatgc acggtttggc ggcaacccgg 220

594

266

DNA

Mycobacterium tuberculosis

594
agcttccgtc acgacccgcc ctcgccggtg ccggcgccat cggtcatcgg atctcatgac 60
gacgtcacgt aggcccgcta gccgcgagcg ggcgcggtca actggcgagg cggcggcgac 120
gtgactgagc tggccgagct ggaccggttc accgcggaac taccgttctc gctcgacgac 180
tttcagcagc gggcttgcag cgcgctggaa cgcggccacg gtgttgctgg tgtgcgcgcc 240
gaccggcgct ggcaagacgg tggtcg 266

595

105

DNA

Mycobacterium tuberculosis

595
atactcaagc ttgccgggac cgcggaacag aaccggcggt tcctaccgcg gtgtgcggcc 60
ggcgcgatat cggcctcccg actaaccgaa cccgatgtgg gctcc 105

596

141

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

596
acgttggctc tgccggaacg tatttccagc ggcacgcatt cggcgtgggt gccgggcgcc 60
gagttgcgtc gctgggatca cgcagcagtc gccggcggct gccgtcgggc tatgaattgc 120
accgagccgg aaaatccnca c 141

597

234

DNA

Mycobacterium tuberculosis

597
atactcaagc ttgtcgtatt ccgtggcact gtcagacata tgcgccgctc ctcctcatcg 60
ctgcgctcgg catcgtcgcc ggcggtcatg gcgtcaccct acccaagccg aacgcgaaac 120
gagaacgtgt tccattatta gggtgtgagc accaatacca gattgctcac caggaactca 180
cgcagcaccg ggacggatgt cagccaccac ccccatctgg ggtggtagcg ggga 234

598

184

DNA

Mycobacterium tuberculosis

598
cgttggtagc ccgatatgca tagtgtatct tactgaacat gatttccatt atggagcccg 60
gggtgccggc agcgcgaacg gtgcgccgtc agacgcgggc ggcactgacc agggtgttgc 120
gggcgaacat cggcccggct tcggattccg gtccgggtac cgggcgaccc accgcttcga 180
ggta 184

599

351

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

599
atactcaagc ttggccaact cctcatcgga cttgaaggtg ccgtcctcgt tggcggccct 60
gctccacggc acgttgatgg caccaggaat gtgtccgggc cgctggcttt gttcctgcgg 120
caggtgcgcg ggggccatga tcttgccgga aaactcgtcg ggagagcgca cgtcgatgag 180
gttcttgacg ttgatggccg ccaggacctc gtcgcggaat gcccgaatcg tgttatccgg 240
cggggaggcg gtgtatgagg tcaccggccg gctgaccggg tcgctggaca gcgggcgtcc 300
gtccagctcc cacttcttgc gggcgccgtc caacnacttg acttctcctg g 351

600

438

DNA

Mycobacterium tuberculosis

600
atatcttaag cgtcgggtcc cgaggctcgg tcggcagctc cagcaaaacc cgctccaccc 60
ctagatgccg gtatccctca aggtctttag ccgccgcttc accccactgg cacacggtca 120
ccggcacgtc gcccccggcc atggcgcgca accgctgaag cggacccgac agccgctgcg 180
gtgatggact gatcgcgatc cacccggcat tgagccgggc tatccgcggg aagttcgccg 240
gtcccccgcc cacatacagc ggaggatagg gctttgtcac cggcttcggc cagcagtaga 300
tcggatcgaa gtccacatat gtcccatgga attccgcctg ctcctgcgtc cagatctcga 360
ttatcgcgcg caaccgctca tcgatcacac gtccgcgcac cgcagggtcc acaccatggt 420
tggcgacttc ttcgcgca 438

601

410

DNA

Mycobacterium tuberculosis

601
atactcaagc ttgtcgcggt aaacccgcag cagggcggtg ggtgcggtgt caaaaacaac 60
cacacttctt tgcggttcgg tgatctcgac accggccgcg agccgaccac catgcgcgcg 120
taaatcggcg atcagcgcgt cggctatcgc ctgggtgccg cccaccggaa tcggccagcc 180
gaccgaatgg gccagcgttg ccagcatcag tccggcgccg gccgacacca gtgacggcaa 240
cggtgaaatc gcgtgggcgg caacgccggt gaacaacgcg cgggcatcct cgcccgccag 300
cgaccgccag gcaggggtgc cctgggccag catccgcagc ccgagacgca ggaccgagcc 360
cagtgcagta ggcaaagacc gcttgtcgga gacatgaact ccacgaccgt 410

602

456

DNA

Mycobacterium tuberculosis

602
agcttattga accgcgggtc gcaggcaaag tggacctcat aacgactcgg gtccagcgac 60
cgcgccaaca cgaacggccg gacgacgtgg gccagggtcg cggcctcccc tacaaacagg 120
atccgttgcc tgcgagcgac aggctccggt gcggcgttgg gcgccgtgct cgtcccagcg 180
tccggtcccg ggtcgccggc gacgcttgtt tcctccatac tcgcccccta atctcgaggc 240
agcccgtacc cgcaggcaac ctcccaaaaa tgcaatcccc caaaatgcaa tgcgtcgagc 300
tatttctcac accgaccgct agttgcggat cagaaatccg ttgggcgcgg aagtccagcc 360
gaatttgttc tcccgctccg catcatgctt gtaatcgttt ggaaattcat cctcatatgc 420
ctcgatcgct tcatagggtc caggccaaac cgggca 456

603

217

DNA

Mycobacterium tuberculosis

603
cttccggctc gtatgttgtg tggaattgtg agcggataac aatttcacac aggaaacagc 60
tatgaccatg attacgccaa gctatttagg tgacactata gaatactcaa gcttggccac 120
ctcgcggtgt gtggtggaac ccatctgagc agtgtgccaa accggggcag acagctccca 180
attgacgtga gcccgctcac ttgctgggta agcgtcg 217

604

478

DNA

Mycobacterium tuberculosis

604
tagcgccccc tcccgggcgg agctccacgg cgtggatcaa ggtaccggcc gggatgttgc 60
gcaatggcag gttgttgccc ggcttgatgt cggcgttagc gccggattcc accacatccc 120
cttgcgaaag tccgttgggt gcaatgatgt agcgcttctc cccatcgaga tagtggagca 180
acgcaatccg tgcggtacgg ttcgggtcgt actcgatgtg cgcgaccttg gcgttgacac 240
catctttgtc attgcggcga aagtcgatca tccggtaagc gcgcttatga ccgccgcctt 300
tgtgccgggt ggtaatccgg ccatgcgcgt tgcgtccacc gcgaccgtgc agcgggcgca 360
ccagcgactt ctccggggtt gaccgggtga tctcggcgaa atcagatacg ctggcgccgc 420
gacgaccaag cgtcgtgggc ttgttcttgc gaattgcatg tctaatcagg tctttctc 478

605

459

DNA

Mycobacterium tuberculosis

605
tgaaactata taatactcaa gcttgccaaa gaagacctcg tcgaccaagc aggacgcgac 60
cgtcgaggtg gcgatccggc ttggcgtcga cccgcgtaag gcaaaccaga tggttcgcgg 120
cacggtcaac ctgccacacg gcactggtaa gactgcccgc gtcgcggtat tcgcggttgg 180
tgaaaaggcc gatgctgccg ttgccgcggg ggcggatgtt gtcgggagtg acgatctgat 240
cgaaaggatt cagggcggct ggctggaatt cgatgccgcg atcgcgacac cggatcagat 300
ggccaaagtc ggtcgcatcg ctcgggtgct gggtccgcgc ggcctgatgc ccaacccgaa 360
aaccggcacc gtcaccgccg acgtcgccaa ggccgtcgcg gacatcaagg gcggcaagat 420
caacttccgg gttgacaagc aggccaacct gcacttctc 459

606

464

DNA

Mycobacterium tuberculosis

606
gctgagctcc acggcgtgga tcaaggtacc ggccgggatg ttgcgcaatg gcaggttgtt 60
gcccggcttg atgtcggcgt tagcgccgga ttccaccaca tccccttgcg aaagtccgtt 120
gggtgcaatg atgtagcgct tctccccatc gagatagtgg agcaacgcaa tccgtgcggt 180
acggttcggg tcgtactcga tgtgcgcgac cttggcgttg acaccatctt tgtcattgcg 240
gcgaaagtcg atcatccggt aagcgcgctt atgaccgccg cctttgtgcc gggtggtaat 300
ccggccatgc gcgttgcgtc caccgcgacc gtgcagcggg cgcaccagcg acttctccgg 360
ggttgaccgg gtgatctcgg cgaaatcaga tacgctggcg ccgcgacgac caggcgtcgt 420
gggcttgtac ttgcgaattg ccatgtctaa tcaggtcttt ctct 464

607

205

DNA

Mycobacterium tuberculosis

607
atactcaagc ttgttggtga cctcgccggc gaacagttct cgcacgattt ccggattagc 60
gggactggtc accagttggg tatgcgggaa ggcgctgacg ttcgccgcga ttagctgttt 120
gatggacgcg gcggtgatgt cctgatcacg gaactggctg taatagccca gggtcgccac 180
gcttccatcc gggcccggac ccggc 205

608

244

DNA

Mycobacterium tuberculosis

608
gatgatcgcc ggtgccaccc cgatccgtgc ctcggtcagc gcgaacgtgc tttccggtcc 60
ggcgaccacc atgtcgcacg caccgaccag gccgaacccg ccggcccgca catgcccgtt 120
gatggcgccg accaccggca gcggcgactc gacgatggcg cgcaacagcg ccgtcatttc 180
ccgcgcccgc gccaccgcca tccggtacgg atcaccacca cctccgccgg cctcgctgag 240
gtcc 244

609

289

DNA

Mycobacterium tuberculosis

609
atactcaagc ttgccgcaat cgaaaccaac ctgtttgtgc cgcaagaaat tacgccgtgg 60
cccggcgccg atcaagaaac gccccggcgc gcggcggtgt cgtcgtatgg catgacgggc 120
accaatgtgc acgccattgt cgagcaggca ccggtgccag cccccgaatc cggtgcacca 180
ggcgacaccc cggccacacc cggtatcgac ggcgcgctgc tgttcgcgct gtcggccagc 240
tcgcaggacg cgctgcggca aaccgccgcg cggctggccg attgggtct 289

610

282

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

610
ttggcgggtt ggccacanca ncccgccggt gacggcgacg atgctgggct ggttgcggcc 60
ctgcgccacc gcggcttgca tgctggttgg ctgtcttggg acgatcccga aatagtccac 120
gcggatctgg tgattttgcg ggctacccgc gattaccccg cgcggctcga cgagtttttg 180
gcctggacta cccgcgtggc caatctgctg aactcgcggc cggtggtggc ctggaatgtc 240
cancgccgtt cacctacgtg accttgatgg gatccggggg nt 282

611

312

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

611
ncgtggacac cggtgtcgan cgccaccagc cgcatgtctg cangtcnatt ccgtcctcgg 60
caacatcttg aatgccgagc agcgcctggg cgtgatcggc aaccggggat gaccgctcgc 120
cgatccgctc gacaatcccg gcggcacgtg acatgccggc ggacggctcg acgagctgga 180
acttcagcga cgacgatccg gaattgatca ccagcacggt gctactcatg gacccctgcg 240
cctgaatccc gtgatggcca cggtgttgac tattcgtcga cagtgcaccc gagatagtct 300
tcacggctgc gt 312

612

349

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

612
catgtattgc cgtgctcacg gcgccacgct cgatggtttc tcgaagtctc cgggctggtg 60
tacagcttct cgttgatctc gttcgccacg ccgtcctctt cccgccgacg acccgatctc 120
gatctccana atgatcttgg cggccgccgc cgccttgagc agctcctggg cgatggccag 180
gttctcatcg atgggcactg ccgaccgtcc cacatgtgcg acggaacaaa gatgtcacct 240
tgctcacgcg tgcgcnagat cncanaaggg ccggacatac tgtcnacttg tccttgggca 300
gtggtccgtg tcagcccacg tgacgggtac ttggcgcgat aacgtggtg 349

613

350

DNA

Mycobacterium tuberculosis

613
gccaccacga cccggccgta actctgctca cggaaatgcg gccaggccgc gcgtagcacg 60
tggtatccgc cataaaggtg caccttaagc acggcgtccc aattctcgaa cgacatcttg 120
tggaaggtgc cgtcgcgcaa gatcccggcg ttgctcacca caccgtgcac ggcgccgaat 180
tcgtcaagcg cggtcttgat gatgttcgct gcgccgtcct cggtggcgac gctgtcctta 240
gttggcgacc gcccggcccc ccttgtcgcg aatctcggcg acgacctcat cggccatcgc 300
cgaacggcgc ccgtgcccgt cgcgggcgcc accgaggtcg ttgaccacga 350

614

126

DNA

Mycobacterium tuberculosis

614
caggcatgca acctttgtcc acacggcgtc tactccgtgc aaggtccgac cgcttccacg 60
tcccgccgtg acggtgctcc atctccctca gcaacgcgtg aagtggtccg atcccgcggc 120
ttcagg 126

615

395

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

615
gttgagacgc aaccagcgca caacgacgat ttggcgtagc ggcggacgtc tgctcgattc 60
gatcacgtcg cgctcgcatc gagcatggcc cgcgacgcta cacgatcgcc gtcgtcgatg 120
acacgaccga gccgtacgcc ggccgtaagc cgcgccagga ttcggcgaaa aacgtctacg 180
tggcgggtgt actgggtgtc gaatgattcg tggggtgcgt atgcgtcctg caatcgtcga 240
catagatccg tcgccgcatc gcgtcgacaa ctccgggtga gtggaataca cttgccgatc 300
acgcgacgtg cgcggatcga tgccgaccga aatacgacca catggctctt gttgcncagt 360
gttggcggca tcaaataccc tcagtgccgt ccgac 395

616

371

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

616
ttnccgcctt nacgcctact ccnagacgat gctcgacgcg tgtgagcaca cggcgctgct 60
gtagacggca cggcgcagct ggatcgcgct tggtgcaccc aagcctctac gcgcgtcgct 120
gcgtcgtcat cgggtaccga acatattccg gtcgttgcgc agagtgtgca tgtgcggctc 180
ttgtgaacga acatagcaaa gcgtatatgt ctgtggcggc tctgcagata tcgcgataat 240
acgtatatac ataaggtggc gcgcgatcta tcggtatatc cgttatggcg gacgtgcgtg 300
agcgtgagtc gcggcgcatc gcgcacttcg cgatcgcgtg actggtcctc gcgactgcgc 360
gcatgcgtag c 371

617

423

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

617
ggtgatgacg cacttgcttc gaatgagtca ttgactactc ccgtggttgt cctgcgatgg 60
tggagtgccg cgcagccttg cccgangtcg cgatcgcgtc gcgggcttcg gggagcagac 120
tgacctgcag atggaagtcg tgccacatgc ccgcgaacgg cgagctcgat gcttgttttc 180
gaagngcgca ngcggtttcg atcttgtccg cgtcaacgca gatcggatct cgccgcggtc 240
tgcatgacga tgggcgcagg cccgctcatg tcccgtagac ggggagatac gggcagccgc 300
ggatcgagac ctacgtagcg cggcgcccat cgtgccatcg acgaagaatg acggatcgcg 360
cagcgccgtc gcgtcgcttc gatgtcacgc gagatcgcca cggcagatca gcgatgcgcg 420
ggc 423

618

354

DNA

Mycobacterium tuberculosis

618
cggtacgccg gcaacaaacg ccttgtgacg agcgcgtccg agcggtcatc ggcctccacc 60
gtcatgcaca gctccttctc caggtctacg ccgacgtcgc ggtccacatt ggtgagcttg 120
gcgaatgcct cggcaacctc gtcgaaatgc gcctccgcgt ccgcatcgaa ggtcgccatg 180
tcaaagatca actcgacgta gtagctagtt accgcatcag gtcagtgttt gctggcctcg 240
gagtccggcc gaacaatggc catttcccgc gactctagaa tccagtcatc gtctcggtga 300
cgacgccttg ccgatcacat agctcgaccg gatcggagag aatctggttc tcgt 354

619

128

DNA

Mycobacterium tuberculosis

619
atactcaagc ttaagcgcag cagtaccggc ggtgcctggg catcccagca aaacggggag 60
ctcaacgaac gattcctgaa cgaagggtcg tccaccaacc tccaaaccga acggttgcca 120
gccccggc 128

620

295

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

620
gcaagtccgc tcaatgtggt tgtgatcaca ngactacgtc gcctcaatca gctcaaacgt 60
caccccgtgg cgtgctgcgc agcatgaagg tcggcgcccg cacgatgtgg gcgaagcaac 120
aggtaataac tggtcggcat gggtcaaccc tcattgggcc gttgcggatc gggtgcacgc 180
ccggagtgcc ggtcgaactc aacaccgcct tcaccgatct tttcgtcgaa aatggcggtc 240
gtgtcggggt atacgtccgc gatcccacga ggcggaatcc gctgagccgc actga 295

621

361

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

621
atactcaagc ttcgcgccct caagcggctg aaggtggttc cggcgtncca acngtcgggc 60
aactcgccga tgggcatggt gctcgacncc gtcccggtga tcccgccgga gctgcgcccg 120
atggtgcagc tcgacggcgg ccggttcgcc ncgtccgact tgaacgacct gtaccgcagg 180
gtgatcaacc gcnacnncnn gntgaaaagg ctgatcgatc tgggtgcgcc ggaaatcatc 240
gtcaacaacn agaancggat gctgcnggaa tccgtggacg cgctgttcga caatggccgc 300
cgcggccggc ccgtcaccgg gccgggcaac cgtccgctca agtcgctttc cgatctgctc 360
a 361

622

361

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

622
tgcgcatggc agttgttgcc ggcttgagtc gcgttagcgc ggattccacc acatcccttg 60
cgaagtcgtg ggtgcaatga tgtagcgctt ctcccatcga gatagtggag caacgcaatc 120
cgtgcgtacg ttgggtcgta ctcgagtgcg cancttggcg ttgacaccat ctttgtcatt 180
gcggcgaagt cgatcatccg gtaagcgcgc ttatcgacgc cgcctctgtg ccgggtggta 240
atccggccat gcgcttgcgt ccaccgcgac gtgcagcggg cgcacaccga cttctccggg 300
tgacgggtga tctcggcgaa tcagaacctg gcgcgcgaca cagcgtcgtg gctgtacttg 360
c 361

623

312

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

623
tgggtgatca gatactggct agttggtcgg gtggggtgat cgaagatcgc ggtggccggc 60
agcgttactg cggtgacgct gttaagcggt tacgtactcc acggcactca angaattana 120
tcccgaatcg gcaaaccctg gccagcgtcg agtccgcagc gccgtcgcgc cccccaccgc 180
tgcggcatgc tcacatacca cctcgatcgc tgcgggagtt gctcgtcggc cgaccgaccg 240
gccagccggg cggcaaaccg gaggacccaa gattcagcac caccatcgct agcccgatct 300
ggccgcgcgt gg 312

624

454

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

624
tcgtagcggt tgcgaccant ccgcggacag ctccgccacg cgacgggtcg ggatcaccgc 60
ggtcaaacca ccgagcggcg aggatctctg gccgtcgacg tgaccgcgca cggccgcggt 120
gatggccagt cccgaccgcc gttccacttg gcgtacgcgc tggatgtgtt gtgccgcaac 180
ggaatcccac ctcaattatg acctcgttgt gggcgagcgc ggtatcgtac gcccgaccag 240
gaatcgtcga tgctatctca cgtcaccgaa ggcctctccc agcacaccgc atccagaacg 300
tgcacacngt cgacatgtct cggcggatcc gcctgcagaa cgaacgccan gtgcgctgtg 360
cgacacgggt cgcgatcacc gctcgcacgc ggagatcggc acacgcgcag cgcatcgatc 420
ataatctctc gatgcggtct ccaccaccga acag 454

625

366

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

625
atactcaagc ttcgctgagg tggtggggca cgatcacgtc accgcaccgc tgtcggtggc 60
gctggatgcc ggccggatca accacgcgta cctgttctct gggccgcgtg gctgcggaaa 120
gacgtcgtca gcgcgtatcc tggcncggtc gttgaactgt gcgcagggcc ctaccgccaa 180
cccgtgcggg gtctgcgaat cctgcgtttc gttggcgccc aacgcccccg gcagcatcga 240
cgtggtagag ctggatgccg ccagccacgg cggcgtggac gacacccgcg agctgcggga 300
ccgcgcgttc tatgcgccgg tccactcacg gtaccgggta tttatcgtcg acgaggcgca 360
catggt 366

626

363

DNA

Mycobacterium tuberculosis

626
gcactcacgc tggtacaaga ccttcacaaa atctgaaatc ctgacccgat acttgaacct 60
ggtctcgttc ggcaataact cgttcggcgt gcaggacgcg gcgcaaacgt acttcggcat 120
caacgcgtcc gacctgaatt ggcagcaagc ggcgctgctg gccggcatgg tgcaatcgac 180
cagcacgctc aacccgtaca ccaaccccga cggcgcgctg gcccggcgga acgtggtcct 240
cgacaccatg atcgagaacc ttcccgggga ggcggaggcg ttgcgtgccg ccaaggccga 300
tccgctgggg gtactgccgc agcccaatga gttgccgcgc ggctgcatcg cggccggcga 360
ccg 363

627

367

DNA

Mycobacterium tuberculosis

627
atactcaagc ttgtataaaa agatcggtga gcgcatcgat tcgctccgcc gggtttgccg 60
ctgcggcggc ggagctgccg tgaccgtcta tttgggtgat cagatactgg gctagttcgg 120
tcggggtggg gtgatcgaag atcgcggtgg ccggcagcgt tactgcggtg acggctgtta 180
agcggttacg tacctccacg gcactcaagg aattaaatcc cgaatcggca aacgcctggc 240
cagcgtcgaa tccggcagcg ccgtcgcgcc ccagcaccgc tgcggcatgc tcacatacca 300
cctccatcgc tgcggcgaat tgctcgtcgg ccgaccgacc ggccagccgg gcggcaaacc 360
cggaaga 367

628

518

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

628
cctcatcata tgccgataga gctctacata ttcaggagat caccatggct cgtgcggtcg 60
ggatcgactc gggaccacca actccgtcgt ctcggttctg gaangtggcg accnggtcgt 120
cgtcgccaac tccggagggc tccaggacca cccgtcaatt gtcgcgttcg cccgcaacgg 180
tgaggtgctg gtcngccagc ccgccaagaa caggcagtga ccaacgtcga tcgcaccgtg 240
cgctcggtca agcgaccatg ggcagcgact ggtccataga gattgacgca agaaatacac 300
gcccggagat ctcgccgcat tctgatgaac tgaacgcgac ccgaggctac tcggtganga 360
catnacgacg cgttatcaca ccccgcctnc ttcaatgacc ccacgtcngg caccaaggac 420
ccggcaatcg cggctcactt gngcgatngt cnacaaccaa cgcgncgcct ggctacgggc 480
tcaacaaggc anaagacaca atccgctctc gattggtg 518

629

435

DNA

Mycobacterium tuberculosis

629
atactcaagc ttatcgaggc ggcgcatacc gaagcgtggg aaatccagac cgaataccgc 60
gacgtgctgg acactttggc cggcgagctg ctggaaaagg agaccctgca ccgacccgag 120
ctggaaagca tcttcgctga cgtcgaaaag cggccgcggc tcaccatgtt cgacaacttc 180
ggtggccgga tcccgtcgga caaaccgccc atcaagacac ccggcgagct cgcgatcgaa 240
cgcggcgaac cttggcccca gccggtcccc gagccggcgt tcaaggcggc gattgcgcat 300
gctacccaag ccgctgaggc cgcccggtcc gacccggcca aaccgggcac ggcgccaacg 360
gttcgcccgc cggcaccacc ggtccggtga ccgcagtacg gtccccccag cctgactacc 420
gtgccccggc gggct 435

630

398

DNA

Mycobacterium tuberculosis

630
tggccgggct ggtagcccgc gtatggcaag gttccgctca atgtggttgt gatgcagcag 60
gactacgttc gcctcaatca gctcaaacgt cacccccgtg gcgtgctgcg cagcatgaag 120
gtcggcgccc gcacgatgtg ggcgaaggca acaggtaaga acctggtcgg catgggtcga 180
gccctcattg ggccgttgcg gatcgggttg cagcgcgccg gagtgccggt cgaactcaac 240
accgccttca ccgatctttt cgtcgaaaat ggcgtcgtgt ccggggtata cgtccgcgat 300
tcccacgagg cggaatccgc tgagccgcag ctgatccggg ctcgccgcgg cgtgatcctg 360
gcctgtggtg gtttcgagca taacgagcag atgcgaat 398

631

464

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

631
gtccagtcaa gcatcggtcc tctccgacta cgccaagant ggcgacgtgt cagtgcanac 60
agcgganatg gtggcgccta tgcgtcgacg ctcacaaacn gcggtgancg cgttctggtc 120
gtgcaccatc gagccgtgcc agcccggccg cgtgccgtca gccgcatcca ctggatgcct 180
tctcggngtt tcaatcangt acangcgacg ttcgccacca tcgtgccggg gcacggttag 240
cgagaaaccg ccgacttcac cgattgcctc ggtgatgccg tcgaacagat cgggcctatt 300
gtcgacagcc agtgtgatnc gtatttgccg ccgtgctcct cgtcgcaacg atgcgaacac 360
agatccgtgg nggacgatag cggctgacaa ngtgggggca acacaatcac atgccacatt 420
tcttcatttc acgcccacaa cccagacttc gtctcgatgn gccg 464

632

499

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

632
cacgcggtct ggcccgatcc gaagatccct ttgccggcgt ggcggctctg ctcggcggtg 60
ttgtacactt ctcgaacacc tcggcaccga caccaccacc gtngcttgaa caccgccaac 120
atcggcagca gatcttgatg gtcctggtga atcccacggt gactttggag tggaaggcgc 180
catactgatc gccgcgccag cacatgagct agcggcagga aaaccagcag ccgctcacct 240
tgcgcagcag cgtcnggtga tatgcctggc gcccttaatc tcgtgaacca gttggattgg 300
gtcaactggc agccttgggt ctccggtggt gccgangtgt anataagctc ccgggtccgt 360
caacgtantg cgcaggcggc ggttactcgg cgggtcaacg agccccgctc gtgagcnatc 420
agcctttgga ccgaacggga ttcatactcc gcaggcggcc ctccgaaatc ggcacatgtc 480
ctttgatcgt tcgcaacan 499

633

343

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

633
ggccatgtca catcggtggt acaggtaaac cgcgccgtgt gcgcggtctc ggagatcaga 60
acgtggtcgc agttgaaccg cgggctttca gccagtcgcg ataatcggcg gaagtcggcg 120
cctgccgccc caactagcgc gactcgccac ctagcacacc gatggcgaag gccatgtntc 180
cggccacgcc gccgcggtgc atcaccaagt catcgactag gaagctaagc gacancttgt 240
gcaggtgttc gggcagtagc tgctcggaaa atcggctgga aaccgcatca aatggtcggt 300
ccaatcgaac cggttacccg atcgtcacaa aaatctccgt cct 343

634

192

DNA

Mycobacterium tuberculosis

634
gggtctacaa ccaccgggtc tgacttctgg gcttccaccg ctcgcgccgt cgcgacaaac 60
agcgcggtcg aaccgacact cgttgtgatg tcccagctat cacctccggt aggcacccaa 120
tcgaccctac ccggctatct cacccccgat ctccaggctc cgccgatcca tgcgcatccc 180
ggtccggatc cc 192

635

376

DNA

Mycobacterium tuberculosis

635
caggcatgca agcttgtcgt attccgtggc actgtcagac atatgcgccg ctcctcctca 60
tcgctgcgct cggcatcgtc gccggcggtc atggcgtcac cctacccaag ccgaacgcga 120
aacgagaacg tgttccatta ttagggtgtg agcaccaata ccagattgct caccaggaac 180
tcacgcagca ccgggacgga tgtcagccac cacgcccatc tggggtggta gcggggaaat 240
acggctaacg cggctccggt gccggcagcc cagcgcagac cctcggcggc ggacacggct 300
aacaacgacg acccatagtt gttctttgcc ggatggccgt gtttgctgac atatcgggcg 360
cggcgccggc gccgcc 376

636

83

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

636
nctacgctgc tgaatgttgt gcgccggagg anctcaagac ccacgcggtt gtacgcggac 60
ntgcgacatg ttcaaccgcc gga 83

637

319

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

637
ctaaccaaca agccatggtg gttggcgccg tcgagaggtc ggcggtcgcc acaacgggaa 60
gatcgccttg agcgtcgctc gaccgccgcc tcgagttggg tcataacgaa gtactgatgc 120
cgatcatgtc gacgtgtccg tcgcatcagc gtgcagcggc gacccctcga cgagcctcgg 180
tgccgccgcg gccagggcac cagctgtttt agcgcattgt gctccgccgg taataaagga 240
ngtcggtcgc ctccgctgct gtggttgcgg aataacatct tcccttcctg caacaggatg 300
agaatggttt taattgctc 319

638

94

DNA

Mycobacterium tuberculosis

638
ctaagctttc gggtccgccg ccactagtac cgcgttgccg gccccgccga cctagaatgt 60
tccgcccatt gccgtttcct cccgccgccg ggtt 94

639

122

DNA

Mycobacterium tuberculosis

639
tctggtgccg ggtgtgccga cgggtccgtc cgcctctgct tcagtgattc tgtgatgcga 60
ccggcaacgt cctcgttgtt cggtgtctat gtggtccgtc tctccttgtt ccgcatacga 120
tt 122

640

210

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

640
gcgatcgntn accacaaggg cgcaaccgtt cgcgcgtcga ctgaacgtgc tgccgcctgg 60
agaactggcg ctgctgccac ctggtcggcg catcggcact tcgaggactg gatttcgacg 120
cgtggcccga cctgangtng gcggtggacn ngtgtgcacc cggttgattc ctcggccttg 180
ccgggatgcc acctgcgcct ggtggtcgat 210

641

328

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

641
cgtgaccgga cggggtgccg cgcgaaccgg tcttggccaa ttgccgggga ctggggctgg 60
agtataaagc gggcctgttg ccggaagata aagtcaaagc ggtgaccgag ctgaatcaac 120
atgcgccgct ggcgatggtc ggtgacggta ttaacgaccg ccagcgatga aagctgccgc 180
catcgggatt gcaatgggta gcggcacaga ctggcgctgg aaaccgccga cgcacattaa 240
ccataaccac ctgcgcggct ggtgcaaatg attgaactgg cacgnccact cacgccaata 300
tccgccagaa catcactatt gcgctggg 328

642

553

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

642
atactcaagc ttcttaccca nagcatgaac cccgccgtcc aatgccgcca ccgtggtgct 60
gtcggccggc cgggtgcggg cacaatcgcc gagttcggcg aacagatcct cgaaggtctt 120
cacggccagc gattgttgca cgtgtcagcc agccaagtca cggtggtttg acgccacacg 180
ttcgccaccg ccgcgccgcg cattagggca tcctaatata ggttaggcta ccctanttat 240
tcctgtggtc naaggaggca gccgaacgtg accttcccga tgtggttcgc agttccgccg 300
gaagtgccgt cagcatggct gtccaccggc atgggccccg gtccgctgct ggccgcggcc 360
agggcgtggc acgcgctggc cgcgcaatac accgaaattg caacggaact cgcaagcgtg 420
ctcgctgcgg tgcaggcaac tcgtggcagg ggcccagcgc cgacggttcg tcntccccat 480
caaccgttcc gtattggcta accacctgca cggtggcacc gcacaacgcc gccacaaacg 540
cgccccggta tac 553

643

486

DNA

Mycobacterium tuberculosis

643
ggccgaactt aatcggttgt tggcggctgc cgagttgggt cactcggggg gtgtgcactg 60
gcacatggtg ggccggattc aacgcaacaa agccgggtcg ctggctcgct gggcgcacac 120
cgctcactcg gtggacagct cgcggttggt gaccgcgctg gatcgggcgg ttgttgcggc 180
gctggccgaa caccgtcgtg gcgagcggct gcgggtttac gtccaggtca gcctcgacgg 240
tgacggatcc cggggcggcg tcgacagcac gacgcccggc gccgtagacc ggatttgcgc 300
gcaggtgcag gagtcagagg gcctcgaact ggtcgggttg atgggcattc cgccgctgga 360
ttgggacccg acgaagcctt tgaccggctg caatcggagc acaaccgggt gcgtgcgatg 420
ttcccgcacg cgatcggtct gtcgcgggca tgtccaacaa cttgaaatcc cgtcaacatg 480
gtcgac 486

644

146

DNA

Mycobacterium tuberculosis

644
gcttcccctg atactcgacc agccccactc gggccaatac gtgaatgtcc tagcattttt 60
cacccgttca cgggctagtc gagtagtaga cgattgatta gcctgaacgt acctccgacg 120
gccagctgac gaacgggttt gacgga 146

645

204

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

645
tcagctgtct gtagaagggc tggcgatact gtgcactgtc tgatatcgcn ncgtngtggg 60
actatncagn ccatnangat gcggttcngn nnntgcagag natcctggna cacatncggt 120
tcacgttaat cancatcgcg anttnctncg tnttcgatta nttctgctaa cgnntctnnn 180
agtgcctgcg ggtcgactct agag 204

646

209

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

646
nctctgccgg gcnagagcgc agagtcggac ggcttcgtcg atcgtgaagc gaccntgcga 60
tgancagata tcgntnacac tgctcanaaa cttcggatca tcgntgatac acaggccaac 120
gggtagcggt tgtccaaccg cttcgtcaac ganatgggat cgtgacganc ctacgctcgc 180
aggatatgtc gcngaccngn tctaganan 209

647

183

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

647
cacttcatgc tcgtgcgttg gcntcgattt gcncgagngg ttagctcctc gagtgngtga 60
cgtatcactc cggcngacta nccgtatcng cgtcccgcac cggtcaactg gtctagccac 120
accggggaga atncncgacc ggngctatcg accnatcacg gcttgtcgnn aagatagnca 180
gcc 183

648

154

DNA

Mycobacterium tuberculosis

648
atactcaagc ttgccaaccg ccaccctgca tccggggggc gagcactgct ccgccgacca 60
gtacgaacca acctgcggtg cccaggccat tgacaatgtg ctggtcggcg cccgcgagtt 120
ctagcacagc aacgccgcgg ccaccacagg ggcg 154

649

219

DNA

Mycobacterium tuberculosis

649
cggtcggtgt gcttggcggc gtcggtatca acaccgccca cgaaatgggg cacaagaagg 60
attcgctgga gcggtggctg tccaagatca ccctcgccca gacctgctac gggcacttct 120
acatcgagca caaccgtggc catcacgtcc gggtgtccac accggaagac ccggcgtcgg 180
cgcggttcgg caaaactttg tgggatttcc cgccccccc 219

650

307

DNA

Mycobacterium tuberculosis

650
aatactcaag cttcgcggag gtggtggggc aggagcacgt caccgcgccg ctgtcggtgg 60
cgctggatgc cggccggatc aaccacgcgt acctgttctc tgggccgcgt ggctgcggaa 120
agacgtcgtc agcgcgtatc ctggcgcggt cgttgaactg tgcgcagggc cctaccgcca 180
acccgtgcgg ggtctgcgaa tcctgcgttt cgttggcgcc caacgccccc ggcagcatcg 240
acgtggtaga gctggatgcc gccagccacg gcggcgtgga gcaaccccgc gagctgcggg 300
accgccc 307

651

252

DNA

Mycobacterium tuberculosis

651
gatggcactc acgctggaca agaccttcac aaaatctgaa atcctgaccc gatacttgaa 60
cctggtctcg ttcggcaata actcgttcgg cgtgcaggac gcggcgcaaa cgtacttcgg 120
catcaacgcg tccgacctga aattggcagc aaaccggcgc tgctgggccg ggcatggtgc 180
aatccgaaca agcacgctca acccgtacac caaccccgaa gggccgctgg cccggcggaa 240
ccttgtcctc ca 252

652

402

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

652
aacagctatg accatgatta cgccaagcta tttaggtgac actatagaat actcaagctt 60
ctgggcgtcg tggtgcccgg cctgccggtg caggaactgg attttactgc catctctcgc 120
gaccctgagg tggtccaggc ttacaacacc gacccactcg tgcaccacgg acgggttccg 180
gccgggattg gccgcgcgct gctgcangtg ggcgagacca tgccgcggcg ancaccggca 240
ttgaccgcgc cgctgctagt gctgcacggc accgatgacc ggctgatccc catcgaaggc 300
agccgtcgcc tggtcnaatg tntnggatcn gccgacgtgc anctgaanga ntatccccgg 360
ctgtnccacn aggtgttcaa cgaaccggan cgcaaccaag tg 402

653

429

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

653
caaggcatac gccaagaccc aagggatcgc agtcacctcc gtcaacggcc tggtcgccgg 60
ccacgggtcc gtgcaggaga cgtggctggc catgcaaagc gccgccgcct tatcaggaac 120
gccccggctt gtcggctttt cctgcatcga cacatttccg gaggtgttgt ggttggcgca 180
ncgcgcgaga caggcctggg atggcgtgcg catcgtcatc gggaatgcga tggcaacact 240
gaactacgag cgcatcctgc gccagcatga ctgtttcgac tacgtcgtcg ttggcgacgg 300
ggangtagcg ttcaccaagc tggccttggc cctggcgaat gacctgcggt tgacgactcc 360
cgggactaac ccgccgtant gagcaaggac agattctgcg cacaccctcc tcgctggtcg 420
accttgaca 429

654

353

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

654
aacagctatg accatgatta cgccaagcta tttaggtgac actatagaat actcaagctt 60
gccggtgatc tgggtggcca actcggcggg caccatctcc atcacgacng caaacgctcc 120
ggcttcggcg acagcgatcg cgtctgcgat ngtttgttcg gcggcgtctc cgcggccctg 180
cacccggaag ccgcccaagg tgttgacnct ttgcggggtg aagccgatgt gtgccatcac 240
cgggatnccc gccgcggtca gacangcgat ttgctcggcc acccgctcac cgccctcgan 300
cttgacngca tgtgcgccgc cgtccttgaa gaaaccggtg gcggnggcaa ccc 353

655

464

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

655
cgttgagatc cagctgcgca ctgtgcagcg cctcggtggt ctgctcggcc tgccgggata 60
actcgttgag cttggccagc gcgtcgtcgg ccggatcagc cagcacattc gcggccagga 120
cgccggagga gacggtgaag ctcgcaaaga aacctatggc ggaccgcatg attacacgcg 180
cgatcaacca cctctggtcg agcctcaaaa tttgcttcct taaacgggcc atcgacggat 240
gacgtcgagc tggtttaggt ctcaaacagg ttacgaaacg atctcggaat tgtccaaaag 300
gggaagttaa gaaaatggat agatttctac catttcgctg tggacgatcg tacttctgct 360
atagggctcc aggggcatcg acacgcaacg accttacgcg acaccggatc cgcgctggcg 420
gcggaacggc accangcgca accgaagggc caatccgaca tcgg 464

656

515

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

656
atactcaagc ttatctaggc gccagcttga ttggtctggt tgcattggcc agctgcgcga 60
gcctggctca cttcaactac aacaaccgca aacaattgcc gccttcggat ccgagttcgg 120
ttgggtacgc ggcaatggan caccatttct cggtgaatca gactattcct gagtacttga 180
tcatccactc tgcacacgac ctgcgaaccc cgcgcggcct tgccgacctg gagcagctgg 240
cgcaacgtgt gagccanatc ccaggcgttg ccatggttcg cggtgtgacc cggccaaacg 300
gggaaaccct tgaacaggcc cgggcgacat accaagccgg ccaagttggc aaccggctgg 360
gcggcgcgtc gcgaatgatc gatgagcgca ccggcgacct gaatcggctg gcatcgggtg 420
ccaacctgtt ggccgacaat ctcggtgact tcgcggtcaa gtcagccggg ccgttgcggg 480
tgtccgcagc cttgtccagc ccctcgctta ctcca 515

657

403

DNA

Mycobacterium tuberculosis

657
caggcatgca agctttttga gcgtcgcgcg gggcagcttc gccggcaatt ctactagcga 60
gaagtctggc ccgatacgga tctgaccgaa gtcgctgcgg tgcagcccac cctcattggc 120
gatggcgccg acgatggcgc ctggaccgat cttgtgccgc ttgccgacgg cgacgcggta 180
ggtggtcaag tccggtctac gcttgggcct ttgcggacgg tcccgacgct ggtcgcggtt 240
gcgccgcgaa agcggcgggt cgggtgccat caggaatgcc tcaccgccgc ggcactgcac 300
ggccagtgcc cgcggcgatt cagccatcgg gacatcatgc tcgcttcata ctcctcgacc 360
agtcggcgga acagctcgat tcccggaacg cccacgcatg gtg 403

658

444

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

658
aacagctatg accatgatta cgccaagcta tttaggtgac actatagaat actcaagctt 60
gtagaaaaag atcggtgagc gcatcgattc gctccgccgg gtttgccgct gcggcggcgg 120
agctgccgtg accgtctatt tgggtgatca gatactgggc tagttcggtc ggggtggggt 180
gatcgaagat cgcggtggcc ggcagcgtta ctgcggtgac agctgttaag cggttacgta 240
tctccacggc actcaaggaa ttaaatcccg aatcggcaaa cgcctggcca gcgtcnagtc 300
cggcagcgcc gtcncgcccc agcaccgctg cggcatgctc acataccacc tcgatcgctg 360
cggcganttg ctcgtcngcc gaccgaccgg ccanccgggc ggcaaacccn gaagacccaa 420
gaattcatca ccaccatcgc tagc 444

659

437

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

659
ccttcttgac acccacctcg ccatcgacct tgagcactcc gtcgtagttg gtgaacatgt 60
gaccggcgat cgggcgggtg aacgcgtact gggtgtcggt gtcgacgttc atcttcacca 120
cgccgtagcg cagcgcctcc tcgatctccg acttaagcga acccgagccg ccgtggaaca 180
cgaaatcnaa cggcttggcg tcngccggca gtccgagctt ggccgccgcc acctgttgcc 240
cttgcgcaag gatgtcnggg cgaancttga cgttgccggg cttgtanacg ccatgcacgt 300
tgccgaacgt cncggccagc angtatttgc cgtgctcacc ggcgcccanc gcctcgatgg 360
ttttctcgaa gtcctccggg ctggtgtaca gcttctcgtt gatctcgttc gccacgccgt 420
cctcttcgcc gccgacg 437

660

422

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

660
aacagctatg accatgatta cgccaagcta tttaggtgac actatagaat actcaagctt 60
ggaaaggaga tccccgggaa cctggtggca accccgccat tggggttgtt gggattgccg 120
atcagcgtga angaaagctc gtctggagac agcgggtcgg ccgaagccgc aagattggcc 180
atcactagtg acganatcgt ggcgctctgc gagtanccna agacagtgac gttgttnccg 240
gcggcaattt gctgccgaat cgcactttcg agaatgacng caccctgcgc caccgangaa 300
tcnaaagtga ggttcttgat cacgaccacc gggtngagcc cttggggcgt gaagancgcc 360
tgcgcnataa cacccgggac gctgccactc atgtncagcg cgttcgcgan ctcnacatat 420
ct 422

661

412

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

661
tcctggtgat cganggccgc ggttccggcc gaaaatccgg ttcgggttcg ggtcgcggtt 60
ccaacttgan cgcggtccgc agctgattca ccgtggcaac gccggccaac tgcgcataat 120
gcgcatccga accctcaccc gcccgccccg cgatcacccc aacctgatcc aacgacaacc 180
gcccctcccg cataccccgg gcgcagcgcg gaaactccgg caaccgccgc gccaccgtgg 240
cgatcgtgtg ggcgttgcct gacgaacanc ccatcttcca ggccaccaac cccgccaccg 300
accgcgcccc cgtcacaccc cacaacccgt cgcgatccag ctcagccacg atctccacaa 360
tgcgcccatc aatcgcattg cgctgaacgg gcaactccgc caactcctcc aa 412

662

467

DNA

Mycobacterium tuberculosis

662
aacagctatg accatgatta cgccaagcta tttaggtgac actatagaat actcaagatc 60
tggtacccat ccgtgataca ttgaggctgt tccctggggg tcgttacctt ccacgagcaa 120
aacacgtagc cccttcagag ccagatcctg agcaagatga acagaaactg aggttttgta 180
aacgccacct ttatgggcag caaccccgat caccggtgga aatacgtctt cagcacgtcg 240
caatcgcgta ccaaacacat cacgcatatg attaatttgt tcaattgtat aaccaacacg 300
ttgctcaacc cgtcctcgaa tttccatatc cgggtgcggt agtcgccctg ctttctcggc 360
atctctgata gcctgagaag aaaccccaac taaatccgct gcttcaccta ttctccagcg 420
ccgggttatt ttcctcgctt ccgggctgtc atcattaaac tgtgcaa 467

663

452

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

663
aacagctatg accatgatta cgccaagcta tttaggtgac actatagaat actcaagctt 60
ancgccacct cccgggcgga actccacggc gtggatnaag gtaccggccg ggatgttgcg 120
caatggcagg ttgttgcccg gcttgangtc cgcgttagcg ccggattcca ccacatcccc 180
ttgcgaaant ccgttgggtn cnatgatgtn ncgcttctcc ccntcnanat aatggancaa 240
cgcnatccgt gcggtacggt tcgggtcnta ctccatgtnc gcgaccttgg cgttganacc 300
atctttgtca ttgcggcgaa agtcnatcat ccggtnagcn cgcntatgan cgccgccttt 360
gtgccgggtg gtaatccggc catgcgcntt gcgtccaccg cgaacgtgca acgggggcnc 420
caacganttc tccngggttg aaccggtnat ct 452

664

93

DNA

Mycobacterium tuberculosis

664
tgtgtgtggt ggtaacccat ctgagcagtg tgccaaaccg gggcagccag ctcccaattg 60
acgtgagccc gctcacttgc tgggtaagcg tcg 93

665

352

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

665
aacagctatg accatgatta cgccaagcta tttaggtgac actatanaat actcaagctt 60
gcgggtnatn gccttggtca acggcaccgt gatcggatcn gggtctaccg cacacatnga 120
ctggagcttc ggcgaantca tcgcctatgc ctcgcggggg gtgacgctga ncccnggtga 180
cntgttcngc tcnggcacgg tgcccacctg cacgctcntc naacacctca ngccaccgga 240
atcattcccn ggctggctgc acganagcga nnttgtcncc ctccaagtct aaaggctggg 300
cgananaagc anaacgtccc gacnaacggc actccttttc cntttgctct tc 352

666

448

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

666
gaaatcattg atggtttgag tcaccaggcc gatcaagcct tcgccgagcc aaattccaat 60
caagaggccc aagcccgtac caatcagccc ggcaacgagg gattccgtca ttatcagcca 120
aaataactgc tctcgggtta cacccaaaca gcgcaatatg gcgaaaaacg gtcgccgttg 180
cacgacatta aatgtcacgg tattgtagat taaaaagata cccaccaaca angcaatcaa 240
actgagagcg gttaaattga ccgtaaaagc gtccgtcatc tgtttgacng tgtcccgttg 300
ggtatccgac gtttccatac gcacaccggc cggcagtctt tgttggatgc gtnttgcaat 360
ggcctcatct ttgatgatca aatcgatgtn gctcagtctt ccgggcatat ggaacaactc 420
ttgggccgtg gaaatatcag caatgata 448

667

386

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

667
ctttcgccca ggccggcgcg gatgtcctca tcgcttcacg aacatcatcc gagcttgacg 60
ctgtcgccga acagatccgc gctgccggcc gccgcgccca caccgttgcc gccgatctgg 120
cccatcccga ggtgaccgcg cagctggctg gtcaggccgt cggagctttc gggaagctcg 180
acatcgtcgt caacaacgtt ggcggcacca tgcccaacac gctgctaagc acctcgacca 240
angacctcgc ggacgccttc gccttcaacg tgggcaccgc ccacgcgctg accgtcgcgg 300
cggtgccgtt gatgctggaa cactccggcg gcggcagcgt gatcaacatc agctccacca 360
tgggccggct ggcggcgcgg ggtttc 386

668

378

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

668
tgtgggctcc gatccggcgc gcatggcatc gacggcgacg ccgatcgatg acggccaggc 60
ttacgagctt gagggtgtga agttgtggac caccaacggt gtggtagcgg acctgctagt 120
ggttatggcg cgggtaccgc gcagtgaagg gcnccgaggg ggaatcancg cctttgtcgt 180
cgaggctgat tcgcccggga tcaccgtgga gcggcgcaac aagttcatgg gactgcgtgg 240
catcgaaaac ggcgtgaccc ggcttcntcg cgtcagggtg cccaaagaca acttgatcgc 300
anggaagcga cggtctgaag atcgcgctga ccacactcaa cgccggacgg ctgtccctac 360
cggcgatcca accggagt 378

669

344

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

669
gagctggccg agctggaccg gttcaccgcg gaactaccgt tctcgctcga cgactttcag 60
cagcgggctt gcagcgcgct ggaacgcggc cacggtgtgc tggtgtgcgc gccgaccggc 120
gctggcaaga cagtggtcgg cgagttcgcc gtgcacctgg cgctggcggc cggcagtaaa 180
tgtttctaca ccacgccgct gaaagccctg agcaaccaaa agcacaccga tctcacagca 240
cgctacggcc gtgaccagat ctggctgctg accggtgacc tgtcngtcaa cggcaaccgc 300
cggtggtggt gatgaccacc gaaatgctgc gcaacatgct ctac 344

670

411

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

670
gatctctgga tcggcggggc tctccgggcc ggcctcggcg acctcagcgg gccgcgcctt 60
ccggccgaac cattccctag ccatagatga ccgcacctcg atgcacggtt tggcggcaac 120
gcggcaaggc gtcngtcggg cccagccgcg gcaatgcggg tacccgggag cgcgggtcng 180
tanaccancg ctggactgcg tcgcgcggtg cgtcnacntc aaagtccccg gcgtcccata 240
tcgcgtatga cgcgggcgcg cccggcacca ngggtgccga tccggccgtc tcgaacacca 300
ccggcccgcc agccgccgcg ggtccggcag cnaacccgcc cgcgccgata cccgctgccc 360
gcgtgcgtga ttgaccgccg cgcgcacgct ggccanggat caaagcccgt g 411

671

473

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

671
ggacgcgtag cccgccaggc cggtcagggt gcccttccag tccacgccgc tgtggtcggc 60
gaaccgctta tcttcaatcg agacgatcgc cagcttcatc gtgttggcga tcttgtccga 120
gggcacctcg aaccggcgct gcgagtncag ccacgcgatc gtgttgccct tcgcgtcgac 180
catcgtcgat accgcaggca cttgcccctc gagcagctgg gccgagccgt tggcaacgac 240
ctcagangca cgattggaca tcagccctag cccgcctgcg aacgggaacg tcagcgcagt 300
ggcgacgaca ctggccaaca gacagcaccc agccagcttc agaacggtga tcgcggccgg 360
gaagcgctcg ggcatgcgtn ctacagtagc gacctcctgt cactccacgt gccgctcggt 420
ccaatagaat ctttccgcgg gcgggtgaat ctctgcngga tcggggcngg cgc 473

672

357

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

672
gctcgttgcc ggcggcgatc tcgtcgagct cgtcttccat cgccgcggtg aagtcgtagt 60
cgacgagccg accgaaatgc tgctcgagca gaccggttac cgcgaacgcc acccatgacg 120
gcaccagtgc actgcccttc ttgtgcacgt ngccgcgatc ctggatggtc ttgatgatcg 180
acgantaggt cgacgggcgg ccgatgccca gctcctcgag cgctttgacc agcgacgcct 240
cngtgtnncg ggccggcggg ttggtggcat ggccgtctgg ggtcaactcg acnatgtcca 300
accgttgacc cggggtcaga tggggcagtc gccgctcggc atcgtcagcc tcgccgc 357

673

402

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

673
gtctttcgat ggctgcttct tcggcgctga cgctggcgat ctatcacccc cagcagttcg 60
tctacgcggg agcgatgtcg ggcctgttgg acccctccca ggcgatgggt cccaccctga 120
tcggcctggc gatgggtgac gctggcggct acaaggcctc cgacatgtgg ggcccgaagg 180
aggacccggc gtggcagcgc aacgacccgc tgttgaacgt cnggaanctg atcgccaacn 240
acacccncgt ctgggtgtac tgcggcaacn gcaagccgtc ggatctgggt ggcaacaacc 300
tgccggccaa gttcctcgag ggcttcgtgc ggaccatcaa catcaagttc caagacgcct 360
acaacgccng tggcggccac aaccgcgtgt tcgacttccc gg 402

674

336

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

674
gccaggtcga ggtcccatgc gcgtgggcca ttgatgctga tcgccaggac gtcaaanatt 60
tggtccggcg tcagctgggc gaaaaacgtg ggccccagga cttgcccgga gctgcccggg 120
ttcccgtcgc gcagctcggc ggccccggtc agaaanaaat tgcgccaggt cgcacactcc 180
gcgccgtang ccagctgctc cagggtgtcg gcatagagcc cgcgggccgc agcgtgctcg 240
ctgtcggcga acaccgcatg gtcgagaagc gttgccgccc aacggaaatc acctgcgtcn 300
aangcttcgc gggccaactc cagcactcgg tcgatg 336

675

405

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

675
naaacgttcc ggcttnggtg ccgggcgctt atttgcgtct ctgggatcac nctcagtcgc 60
cggcggctgc cgttgggcta tnanttgcac cganccggaa aatccgcacn anaactgcna 120
gtagcggcct gcagaantgc atcctcggcg aancngacta ccggtggaca ncnacaagcg 180
ccgccgaaca acgcactggc ccgagggatn ggcgtctatc ggccccgccc gtcgaactng 240
gaacagacng tgcggttcta ccgtgatctg gtgggaatgc tcnaccanac cttcccnann 300
gctacggaac nacggcgcga tattcngccn tcccanctcg agcctgacnc tngatatcgt 360
cgannctcac catcncgatc ngctgtgccg gtnttgctcg gactn 405

676

389

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

676
cgaacgacga acnccncaag ccatggtggt tggcgccgtc aaaaggtccg cggtcgccac 60
tactggaaaa tcgccttgag cgtcnctcga ccnccgcctc gagttgggtc ntaacgaaat 120
acctgatgcc gatcangtcn acgtctccgt cgcnncaacg tgcagcggcg acccactcta 180
cnangtctcg gtnccgccnc ggccagngca ccaccagtga cnaatccntg cgccntcggg 240
ccnagcantc ccggtgcnac cgnggtgggt ccggcgatgg tngggtgtnc tcnntacngg 300
aacgccagcg cnatcancat cggcanactc ncgtcgatgt gccgcggcgc aaccatcccc 360
cacaatgatc nggtgcgtct gatcaggcn 389

677

135

DNA

Mycobacterium tuberculosis

677
ttaggcgtga cggccaccgg ggccactccg cacaatctgt acccgaccaa gatctacacc 60
atcgaatacg acggcgtcgc cgactttccg cggtacccgc tcaactttgt gtcgaccctc 120
aacgccattg ccggc 135

678

140

DNA

Mycobacterium tuberculosis

678
cgtcaccccg atgcgcccag atcggggctt cgcagataaa gcacgaactg gcgggcaaaa 60
cgtcgatctc ggagccggaa gggcaatcag ccgaccgtcg acgaacgaca ccggcgagac 120
cacttaggca gtgacggcct 140

679

272

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

679
cttttcncga tgtctcatga tnccnangga gaacnntgcn ancncngccg ctgacntngc 60
ncaccgctnt ggcngnggtg acattggtgg tggttgcggg ctgcnacgcc cgactcgang 120
ccganccatn tnttgcggcc gaccgcntnt cgtctcnacc gcanncccna tctcngccgc 180
ncccggtgga nctacngctn cttcgccatc tctcgccnat ggctccngcg nntcgcncaa 240
cgtntggttt ggtnanctgc ctacctggtc nt 272

680

507

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

680
gctgcgccag tcgttcggtg cggtcatgcc gttggaccna ccatcggagt tagttgccga 60
accgcggacc accgcaagca cccggtcctg gtcgcgcacc gcgtcggcca accgcttgag 120
caccaccacg ccgcagccct cgccgcgcac gaatccatcc gcgttggcgt cnaanctgtn 180
gcatcggtcg gtcggtgaca gcgccgacca cttggacagc gcgatggcgg tgaacggtna 240
ntaggtgacc tgccnccncg cccgccaatg cccacctccg cttcacncat gcgaatggtc 300
tgacacgccn agtgaattgc caccagcgac aacaaaaatc ggtatctncn gcgacggcgg 360
acacgcnatc ccnactgata ctcgatccgc cccaccgctt gnanctccgg gttccngtgc 420
tcatgtaccn tcatgtcggt ctgcgcncga tattgacgat cgtgtttccc acgannanag 480
ancctcatca cgccggttcg agtgccg 507

681

470

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

681
ctgtgtgcgg ncggcgcgat atcggccttt ttactaaccg aacccgatgt gggctccgat 60
ccggcgcgca tggcatctac ngcgacgccg atcgatgacg gccaggctta cgagcttgag 120
ggtgtgaant tgtggaccnc caacggtgtg gtagcggacc tgctantggt tatggcgcgg 180
gtaccgcgca gtgaanggca ccgaggggga atcancgcct ttgtcgtcta ngctgattct 240
cccgggatca ccntggagcg cnccncnant tcatgggact gcgtggcatc caanacggcg 300
tgaccggctt catccntcng ggtgcccaaa gacaacttga tcngcnngga agcgacgtct 360
gaanatcgcg ctgatcncac tcaacgccgg acgctgtcct accggcgatc gcaccggant 420
tgccaanccg cgctnannat ncgcgngaat gnccgtccac nantgcatgg 470

682

346

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

682
tggggtgccg ggcgccgagt tgcgtccctg ggatcacgca gagtcgccgg cggctgccgt 60
tgggctatga attgcaccga gccggaaaat ccgcancaaa actgcgagta gcggcctgca 120
gaagtgcanc ctcggcgaaa cggagtacgg tggacaacga aaagcgccgc cgaacnacgc 180
actggcccga gggattggcg tcaatcggcc ccgcccgtcg aacttggaag anacantgcg 240
gttctaccgt gatctggtgg gaatgctcca acnnaccttc nccgaaagct acggaagcna 300
cggcgcgatn ttcggccttc ccagctcgac ctgacgctgg aaatcg 346

683

453

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

683
nggcngggaa gttaatgccc tactggttcn atgctcncac ntcnccngtg acnncctgcn 60
ccgacccgcc gaggtcctgn ccgtnaccac cgancnggcg atccgggact ctngtacgca 120
tccaacanng ancaacgtgc acgggcggag tngtnccgcc acttcgncna tgacggggtc 180
gatccnttcg acgtccgtcg ccgcgtcggt cgagtggcgg tcacnctccn ngtactcgac 240
cncacngacg agaggactcg ancccatcta cgtgtggacg aaacanatct tctgtccnac 300
gactacacca ccacccaggc catcgccgnc gcccgcgang ccccttcgac gccntactgg 360
tccngnggng gcgctctccg gttgtctnnc ncntgncgtg ttccttcacn cactgcccna 420
catcganccc gagcnatncn angtccgtca atc 453

684

382

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

684
ggacactgtt cgcgtgcccc tcgtcaaagc cggagtggtc gtgctgcgcc ggacccgacc 60
cgaccttcag cgggggttca cagctccgtg ggtgccgtta cttccgatcg ccgcagtgtg 120
cgcgtgcctg tggctgatgc tgaacctcac cgcgttgact tggatccggt tcgggatctg 180
gctggtggcc ggaaccgcga tttatgtcng ctacgggcgc cggcactcgg cgcatggcct 240
tcggcaagcn cnananaacg cgacccggag gtgttgaact agcttcgccg cgtatttaca 300
aattgcntta tatgtctaca cataagacgc aaactgctct attgtcaant cccancgtgg 360
tgtggcncat gaagatgttt gg 382

685

408

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

685
tccttctcgg tatcggtttg ggctgtcacc ancagttggt agttcttcac gtnctgttgt 60
tcgagcgtcn agccgtcgcg cgtgtcnang tcnccggacg cgtatcccgc caggccggtc 120
anggtgccct tccantccac gccgctgtgg tcggcgaacg ctnatcttca atcgagacca 180
tcgccagctt catcntgttg gcgatcttgt cnnacggcac ctcnaaccgg cgctnctagt 240
acnccacncn atcntgttnc cttcncgtcn acatcctcga tnccncntgc actttccctc 300
gancncctgg gccgagccgt tggcantnac ctcngagccc cattggacat cancccancc 360
cgcctgcgaa cgggaacgtc agcncnctgg cgacaacctg gccaacan 408

686

372

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

686
cacnccgtga tcgcnagccc cngtagaaat ngttgagcca gttggtgcgg cgctcgttgc 60
cggcggtnat ctcgtcgagc tcntcttcca tcgccgcggt gaagtcgtac tcgacnagcc 120
gaccnaaatg ctgctcnagc agaccggtta ccnnnaacnc cncctcntga cngcaccagt 180
gcnctgccct tcttgtgcac gtacccgcna tcctggatgg tcttgatgat cnactantnt 240
gtcgacgggc ggccgatgcc catctcctcn agcgctttga ccagcgacnc ctcggtgtat 300
cgggccggcg ggttngtggc atggccgtct ggggtcanct cnacnatntt canccgttga 360
cccggggtca ca 372

687

403

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

687
tggccttctt gncangggcn nacatnngct atngcgagcg tgtaaccgat catcntccng 60
gcgactgtgg cctgancggc aagggtngcc tnattcntcc tcctgnggca tggttnccac 120
acggaatgnc ggtaagtctg gtcggcaacc tggcccgctg cgggttgggt tcggattcgc 180
tcggctanta aggtgctcgc ctggtgtnac nactaatcnc natatacnct tancgggagt 240
ngncgtcccg atcctngccc tgccgcnggc gatcncgttc gcancaccgc caccggaact 300
cncaangtgc gctcatcggg ctctacgcgc catcttcccc ggattcttcg cggcngngtn 360
ccgngggacc ccggactgtg acnggcccaa cggctcatca tcg 403

688

356

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

688
ccggatagcg gtgtctgaac ttcgcccgtt ccctccancg cattgagctt cagcccgacc 60
ggcaggtnng gagtcggcat gcggtccttc gccccgaccc cgctggctaa atanccaccc 120
ccgagcgcgg tcacggtctt tgcaccggga cgacgcatac cggcagcgcg aacatcnccg 180
cgggctgcag cntgaacgtc caataccant cnaacagtgt ccgcgcgtna aaacccganc 240
cggcggtcgc ttcngtaatc aacggctcct gcgcaaccag ctgcaagtcg ccggtgccac 300
cggcgttgac gatcttgatg tctgcganct cgcgcaccag ctcgacggcc cgggca 356

689

439

DNA

Mycobacterium tuberculosis

689
cctcccgacc acatacaggc aaagtaatgg cattaccgcg agccattact cctacgcgcg 60
caattaacga atccaccatc ggggcagctg gtgtcgataa cgaagtatct tcaaccggtt 120
gagtattgag cgtatgtttt ggaataacag gcgcacgctt cattatctaa tctcccagcg 180
tggtttaatc agacgatcga aaatttcatt gcagacaggt tcccaaatag aaagagcatt 240
tctccaggca ccagttgaag agcgttgatc aatggcctgt tcaaaaacag ttctcatccg 300
gatctgacct ttaccaactt catccgtttc acgtacaaca ttttttagaa ccatgcttcc 360
ccaggcatcc cgaatttgct cctccatcca cggggactga gagccattac tattgctgta 420
tttggtaagc aaaatacgt 439

690

442

DNA

Mycobacterium tuberculosis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

690
cttcacntcc gtacggctcg ggtacgcttc ggtcncattg tgcgagtgat agatgacgac 60
cgggacctcg tcggcatctt ccatagcccg ccacaccttc agttgctcac cggaatccaa 120
ccggtanaag gtcggcganc gctcngcatt ggtcatcggg atatgccgct cgggacggtc 180
anagccctcg ggtccggcca gcactccgca ggcttcgtcg gggtggtcgc gacgcgcatg 240
ggccaccatc gcattcacca ggtctgcgcg aatcaccagc acgtanacgg ttcctttcct 300
aagcaacacc gaantttcag gacccgaatg ctccgggaaa catgtcacgg taggtcggta 360
ttccggctac cggctganca ttgagcacgc cggccagcac cgcacgaacc aggcaatcag 420
ccgccgccgc acccgaccgc gg 442

691

365

DNA

Mycobacterium tuberculosis

691
caggcatgca agcttgatgc cgccgaaacc gagcgtgagc acgccgccag ccaccacgcg 60
cgggtcgggc gccgggcccg ggccgccagg ctgctccgct cggtgatggc acgccaccgc 120
gacaccaccc ggctgcgcta cgtcgagcca taccgggcgg agctacatcg gctcggccgc 180
ccagtgttcg ggccctcttt cgaggtcgag gtcgataccg atttgcgcat ccgcagccgc 240
accctggacg acagaaccgt gccctacgaa ttgcttgtcg ggcggggcca aagaacagct 300
tggcatcctg gcgcgattgg ccggcgcggc gctggtcgcc aaggaagacc cgttccggtg 360
ctgat 365

692

307

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

692
aagntcgggt ttccacacgc gcggtttgac cctagtcata tgtaatcatg tgtaccatgt 60
gcgggcgctt ttcgacggcc gcgaaccacc gganatttcc tgtgatttca ctgcatgcgt 120
accatctggc acaattgagc anttgtctnt cgcggtggtc ggncgggttg cgtgccgcct 180
gctgcganat gcaccantaa gcccgaaccc accggcttgg tgaccaccgc acgctgcgtg 240
tggggggtaa ccactccgcg accccaagga tggtcatttc caatgaaccg gctggacttc 300
gtccana 307

693

414

DNA

Mycobacterium bovis

693
gtcgcggttc gatcgacccg atcttcacct cgtaacctcg atgcttagca ggatccagct 60
tgaccgcgtt tggctctacc cactctttga gtggcgccgt cgcctgtgcc ccatcggtgt 120
tcatgacgaa cgcttcgaaa gacttcctct tgtgagccgg aatgtctgcg taaagaagtt 180
ccatgtccgg gaagtagacc cggtcgccct ccacgtggta ctccttcgag gtccgcttct 240
cgccggatcc gataaacacc ggccccaggc accgcagcgt gagttcgaac ggcttcaggt 300
aggtgttcat gcggcggact ccgggagtgc gagaaatagc ggtcgcgcgt agctgtagac 360
cggatggttt ccgcccaggc tgacgtcgaa gatgcctcct tggaaggggc gcga 414

694

256

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

694
aactcaagtt tttacggtga tcgcgcatca cctggttcat gaactggaag cagcgcagcg 60
cttccttttc ggccgcaaca tgagccagcc tctcgtcggc ggtcgggtgc aggtgctcgg 120
gcagctcggc cgcgacagcc gcctgaccct gaaaccagct tccatatccc gcgacnaacg 180
acgccagtcc gctacgtaac ccctccgcga ctgtccatgg acaacagcgc gttctccacc 240
gaccgggccc gggtgt 256

695

328

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

695
gtgcaggttt cgacaatgtg gtgccggttc ggcggctacg tgccatcgag acactggcgc 60
angctatcgc acccgttatc ggctgcgagc aaatcgcggt atgcgttctt gagcatgagt 120
cggcgaccgt cgtcatggtc gacacccacg acggaaagac gcagatcgcc gtcaagcatg 180
tgtgccgcgg attatcagga ctgacctcct ggctgaccgg catgtttggt cgcgatgcct 240
ggcgcccggc cggcgtggtc gtggtcggct cggatagcga ggtcagcgaa ttctcgtggc 300
agctcgaaag ggtcctgccg gtgccggt 328

696

278

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

696
ttcgagtcat gcgcccgcct cgaccacgaa natgcacgtc gnggttcgat cgacccgatc 60
ttcacctcgt aacctcgatg cttagcagga tccagcttga ccgcgtttgg ctctacccac 120
tctttgagtg gcgccgtcgc ctgtgcccca tcggtgttca tgacgaacgc ttcgaaagac 180
ttcctcttgt gagccggaat gtctgcgtaa agaagttcca tgtccgggaa gtagacccgg 240
tcgccctcca cgtggtactc cttcgaggtc cgcttctc 278

697

264

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

697
gtcatgtgta ccatttgcgg gcgcttttcg acggccgcga aacaccggag atttcctgtg 60
atttcactgc atgcgtaccg tctggcacaa ttgagcagtt gtctgtcgcg gtggtcggcc 120
gggttgcgtg ccgcctgctg cgagatgcac caataagccc gaacccaccg gcttggtgac 180
caccgcacgc tgcgtgtggg gggtaaccac gccgcgaccc caaggatggt catttccaat 240
gaaccggctg gacttcntca acaa 264

698

169

DNA

Mycobacterium bovis

698
aacagcgcgg ttgaactgat aggtgcggcc cggctcgagc aggccgggcc atttgttcga 60
tgcggttacc gaaagatctc ttcggtgacc tgcccgccgc cggccagctc ggcccagtgc 120
ccggcgttgg ccgccgcggc gacgatcttg gcgtccacgg tggtcgggg 169

699

256

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

699
gcatctgggc tggcggtggt tcgccgctcc gaagccgtcg aacaccatcg ccagcgcggc 60
ttccacatca acgaccattt cggccagctt gcggcgcatc agcggcttgt cgatgagcgc 120
cccaccgaat gcccgccgct gcccggcgta ncacagcgat tcgaccagcg cgcggcgcgc 180
gttgccgagg gcgaacgaag cggtgcccaa ccgcaatctg ttggtcagct ccatcatgcg 240
ggtgagtccc ttgccg 256

700

291

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

700
atcggtttcc agcaacagcc gatcgacggc ttcgcccagg ccgctcccgg gcgacccgac 60
cattgctgtc gccgcgtaac gccatcacgg atgacgcgca gttcgtcgct gtctagctcc 120
accatcgcct gcacaccggc ggccagnacc cattggccgt cgcactcgta nagcaggtaa 180
tcctcgtcga cggactcggt aaccaccgcc gccagctccg ctgccaggtc ggcggggttg 240
acaccggcgg gcatcgggat ggacgacgac gcggtgctga cggcgcctgt c 291

701

315

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

701
agcggtttcc cangcgggat gtgctgtgag cgccgcacca ccagcgccga cgctaaggat 60
ggaacgcacg gcatcttctg acgcgtaacc gcgttgtgat cgcgagctga ggagacggta 120
tgggggaggg ttctcggagg ccatctggga tgttgatgtc tgtcgatctt gagccggtgc 180
aactcgtcgg cccggacggt acgccgacgg ccgaacgccg ctaccaccgt gaccttcctg 240
aggaaacgct gcgttggctc tacgagatga tggtggtcac ccgcgagctg gataccgaat 300
tcgtcaatct gcacg 315

702

328

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

702
caagcttcca caggtaggga tcgaggaaca gcgcgttgaa ctgataggtg cggcccggct 60
cgagcaggcc ggccatttgt tcgatgcggt taccgaaaat ctcttcggtg acctgcccgc 120
cgccggccag ctcggcccag tgcccggcgt tggccgccgc ggcaacgatc ttggcgtcca 180
cggtggtcgg ggtcatgccc gcgagcagga tcggcgagcg gccggtcagc cgggtgaact 240
tcgtcgaaag cttgaccctg ccgtcgggga ggcgaaccac ggtcggtgcg tanctccacc 300
aagcccgggc aacctcgggg gtggcgcc 328

703

352

DNA

Mycobacterium bovis

703
tggacctcat gacaacgcgg cggcgattac ccccgctacc gccagcagca tgacggcggt 60
agcgaacacc gccggatgca gcgcaggtgc gtcgatgtgc tcacggaatc gccccggcac 120
cgcgatctcg aggatcacca gtgccacccc ctgcagcgcg acaccgacga ttccgtacac 180
cgccacgccg atcaggccct gggccagctg gcgtatatgg cggcgatggt gacgatggcc 240
agcgccacat acattgtggc ggccagaacc acggcgttgg ggcggcggtc gatgaacact 300
aggcgacgca gatcgcccgg ggtcaacagg ttgaccatca gaaagcctgc ga 352

704

315

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

704
tttggtgcgg ccggcaatca acttcngctc ncagcggttt cccaggcggg atgtgctgtg 60
agcgccgcac caccagcgcc gacgctaagg atggaacgca cggcatcttc tgacgcgtaa 120
ccgcgttgtg atcgcgagct gaggagacgg tatgggggag ggttctcgga ggccatctgg 180
gatgttgatg tctgtcgatc ttgagccggt gcaactcgtc ggcccggacg gtacgccgac 240
ggccgaacgc cgctaccacc gtgaccttcc tgaggaaacg ctgcgttggc tctacgatat 300
gatggtggtc acccg 315

705

390

DNA

Mycobacterium bovis

705
cgcccagggc cgctcccggg cgacccgacc attgctgtcg ccgcgtaacg ccatcacgga 60
tgacgcgcag ttcgtcgctg tctagctcca ccatcgcctg cacaccggcg gccaggaccc 120
attggccgtc gcactcgtag agcaggtaat cctcgtcgac ggactcggta accaccgccg 180
ccagctccgc tgccaggtcg gcggggttga caccggcggg catcgggatg gacgacgacg 240
cggtgctgac ggcgcctgtc gcgacgctga gctcggacac agctagtaaa tgtagcctaa 300
cctacttaat gggtcgcagc cccccggggt cgtcgcatgt ccaacgttgc tcgactggaa 360
gaaaatgctc gtcggggagc aaatggcacc 390

706

322

DNA

Mycobacterium bovis

706
aatactcaat cttgatcggt ttccagcaac agccgatcga cggcttcgcc cagggccgct 60
cccgggcgac ccgaccattg ctgtcgccgc gtaacgccat cacggatgac gcgcagttcg 120
tcgctgtcta gctccaccat cgcctgcaca ccggcggcca ggacccattg gccgtcgcac 180
tcgtagagca ggtaatcctc gtcgacggac tcggtaacca ccgccgccag ctccgctgcc 240
aggtcggcgg ggttgacacc ggcgggcatc gggatggacg acgacgcggt gctgacggcg 300
cctgtcgcga ctctgagctc gg 322

707

398

DNA

Mycobacterium bovis

707
ggatgtgctg tgagcgccgc accaccagcg ccgacgctaa ggatggaacg cacggcatct 60
tctgacgcgt aaccgcgttg tgatcgcgag ctgaggagac ggtatggggg agggttctcg 120
gaggccatct gggatgttga tgtctgtcga tcttgagccg gtgcaactcg tcggcccgga 180
cggtacgccg acggccgaac gccgctacca ccgtgacctt cctgaggaaa cgctgcgttg 240
gctctacgag atgatggtgg tcacccgcga gctggatacc gaattcgtca atctgcagcg 300
ccagggggaa gctggcgttg tacacgccct gtcgcgggca ggaagccgcg caggtgggtg 360
cggcggcttg cctacgcaaa accgactggt tgttcccc 398

708

175

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

708
atcacgacaa cagcgacggt gtgtcggatc agcggccccc gttgccgggc aatgttgagg 60
cgtttctgcg tctggttgag gccggctggg acnccgaggt ggctcgtcgg ccacatgggc 120
agcacaccac cgtggtgatg catctagacg tgcaggaccg tgccgctggc ctgca 175

709

210

DNA

Mycobacterium bovis

709
gcggctacgt gccatcgaga cactggcgca ggctatcgca cccgttatcg gctgcgagca 60
aatcgcggta tgcgttcttg agcatgagtc ggcgaccgtc gtcatggtcg acacccacga 120
cggaaagacg cagatcgccg tcaagcatgt gtgccgcgga ttatcaggac tgacctcctg 180
gctgaccggc atgtttggtc gcgatgcctg 210

710

312

DNA

Mycobacterium bovis

710
tacaagcggc acctcgccgg tgaactgacc gttcgcacgc tgcgcaccgc cgccgggcgc 60
gtgctcggcg cgccggcggc ccccgaggcc tgagagggga accaaccatg caggtgaaca 120
tgacggtaaa cggcgagccc gtcaccgccg aggtcgaacc ccggatgctg ctggtccatt 180
ttctccgtga tcagctgcgg ctcaccggaa ctcactgggg ctgtgatacc agcaactgcg 240
ggacatgcgt ggtggaggtc gacggcgtgc cggtgaaatc ctgcacgatg ctcgccgtga 300
tggcctccgg gc 312

711

255

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

711
agcggctggt tacgactccc tgtttgtgat ggaccacttc taccaactgc ccatgttggg 60
gacgcccgnc cntccgatgc tggaagccta cactgccctt ggtgcgctgg ccncngcgac 120
cgagcggctg caactgggcg cnttggtgac cngcaatacc taccgcaccc cnaccctgct 180
ggncaaanat catcaccacg ctcgacttgg ttagcgccgg tcgancgatc ctcggcattg 240
gaaccggttg gtttn 255

712

304

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

712
acgcgcgccg atcatatctg ctatggatgt acaattcagc tcttgctgtt ataccagtat 60
atggtgtact atttgatcta tgctgacgtg tgagatgcgg gaatcggccc tggctcgact 120
cggccgggct ctggctgatc cgacgcggtg ccggattctg gtggcgttgc tggatggcgt 180
ttgctatccc ggccagctag ctgcgcacct cgggttgacc cgatcgaatg tgtccaacca 240
tctgtcgtgt ttgcggggct gcgggctggt antcccaacc tatgagggcc ggcaggttcg 300
gtat 304

713

352

DNA

Mycobacterium bovis

713
ccgcgctgct gctgacgtcg gtcgaacgtg cgacacgtct gcgaataccg gccgaacgct 60
gggtttatcc acaggctggc accgacgccc acgacacacc ggccgtcgcc gaccgccacc 120
gactgcatcg gtcgacggcc attcggatcg ccggtgcccg ggcgctggaa ctggctgggc 180
tggggctcga tgacatcgaa tacgtcgacc tgtattcgtg ctttccctcc gctgtccaag 240
tcgccgcaat cgaactcggc ctggacaccg acgatcctgc ccgcccgctg accgtcaccg 300
ggggcctgac cttcgccggc gggccgtgga gcaattacgt cacgcactcc at 352

714

233

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

714
caggcgtgca atgacctgca ctgcgccgga nantccctaa cccactaaac cggggccgct 60
cacaagccgt gcagctcggt cagcgtcagg tgcgcgacca ggaantaaat gagcagaccc 120
gtgccgtcaa cgatggtggc gatcatcggc cccgaaacga tggccgggtc natgcgcaac 180
ttcttcagca gcggcggaag gacggcancc accagcgacn accacaccac gat 233

715

335

DNA

Mycobacterium bovis

715
gcgaacactt cgtcaacttc cagggctgcc cgcaccaagt atttcgacga gtatttccgt 60
cgggccgccg ccgccggcgc gcggcaggtg gtcatcctgg cggcggggct ggactcgcgc 120
gcgtaccggc tgccttggcc cgacgggacc acggtttttg agctggaccg cccgcaggtc 180
cttgatttca agcgcgaggt gctcgccagc cacggtgccc aaccgcgcgc cctgcgccgc 240
gagatcgccg tcgacctgcg tgacgattgg ccacaagcct tgcgggacag tggtttcgat 300
gcggctgcac cgtcggcatg gattgccgaa gggct 335

716

274

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

716
ttgggcnttg cccncaatan ggccccaatc aaaagccgag caggtggaac ctanncgcat 60
tcgcctcntc gtntgtgcac ccgagccatc gcacgcgcgg gaattcccgg atntcnccgt 120
attctccggc ggccgggcta acccatccca ngccgaacgg ttggctcntg ccgtgggtcc 180
cgtgttggcc gatcggggcg tcaccggggg tgctcgggtg cggntgacca tggcnaactg 240
ccccnatggg ccgaccctgg tgcagataaa cctg 274

717

327

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

717
tggtggaggt ccccaccaan acccggccgt aactctgctc acggaaatgc ggncaggccg 60
cgcgtagcac gtggtatccg ccataaaggt gcaccttaag cacggcgtcc caattctcga 120
acgacatctt gtggaaggtg ccgtcgcgca agatcccggc gttgctcacc acaccgtgca 180
cggcgccgaa ttcgtcaagc gcggtcttga tgatgttcgc tgcgccgtcc tcggtggcga 240
cgctgtcggt anttggcgac cgcccggccc cccttgtcgc gaaatctcgg cgacgacctc 300
atcggccatc gccgaaccgg gcgcccg 327

718

344

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

718
gccggccaaa ctggccggcg gggttgctgt cntcaaggtg ggttccgcca ccaanaccnc 60
actcaaggat cgcaaggaaa gcntcaagga tgcggtcgcg gccgccaagg ccgcggtcaa 120
ggagggcatc gtccctggtg ggggancctc cctcatccac caggcccgca aggcgctgac 180
cgaactgcnt gcgtcncnga ccggtgacaa ngtcctcggt gtccacgtgt nctccgaagc 240
ccttgccgct ccgttgttct ggatcnccnc caacnctggc ttggacggct cngtggtggt 300
caacaaggtc agcgagctac ccgccgggca tgggctgaac gtga 344

719

271

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

719
cgaacctnaa ttgtcctgta atgcccagct caccaangca tggctggtgg ccggggcggt 60
gaagccggcg tctgcggcac cgtccaactc natgtggatn gccggaatgg ggatgtccgg 120
nacggcgaat ccgtanttcg cttgtcccgt gaggcccagg tggatggggg gaaggatcnt 180
ggtgtccggg atgatnatgg ggccgatgcc gccggttgaa gtccactgga tcgggaattc 240
gggaatcgtg atnccgacgt tcaggccgaa c 271

720

302

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

720
ctaacggaat gaaagccctg gtggccgtnt cggcggtggc cgtcgtcgca ctgctcggtg 60
tatcttccgc ccaagctgat cccgaggcgg atcccggcgc aggtgaggcc aactatggtg 120
gccccccaag ttccccacgt cttgtcgatc acaccgaatg ggcgcantgg ggaattctgc 180
ccagcctccg ggtctacccg tcccaagttg ggcgtacanc ctcccgccgc ctcgggatgg 240
ccgctgccga cccggcctgg gccnaggttc tcgcgctgtc accggaagcc gacactgccg 300
gc 302

721

303

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

721
ccgcgggaca cncctcnatg ctgccgccat ggacgcggtc gaacgcaagc agctgatcga 60
gctacaacgc cgcgcggaac gcttccgccg cgggcgtgac cgcatcccgt tgaccgggcg 120
gatcgcggtg atcgtcgatg acggcatcgc caccggagcg acggccaagg cggcgtgcca 180
ggtcgcccgg gcgcacggtg cggacaaggt ggtgctggcg gtcccgatcg gcccanacga 240
catcgtggcg aagattcgcc gggtacgccg atgatgtggt gtgtttggcg acgccggcgt 300
tgt 303

722

280

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

722
ctctgggacc ggccacggtg ccnccggcgt tcccggacgt gctgcgccag gtgtccggcg 60
gccgcgtgca tggtgttccc ggatcggccg ctggccagag cccaccggtg aatctggcgc 120
ctggccgacc accgtgcgcc gtaggcttgc gatcgtgcag cgctggcgtg gccaggacga 180
gatcccgacg gattggggca gatgcgtgct caccatcggg gtatttgacg gcgtgcaccg 240
cgggcacgcc gaactgatcg cgcacgcggt caaaggcggc 280

723

333

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

723
aatactcaag ctttcgtcag ttcattgcgc cagcagacca acaanagcat cgggacatac 60
ggantcaact acccggccaa cggtgatttc ttggccgccg ctgacggcgc gaacgacgcc 120
agcgaccacn ttcagcaaat ggccancgcg tgccgggcca cgaggttggt gctcggcggc 180
tactcccagg gtgcggccgt gatcnacatc ntcaccgccg caccactgcc cggcctcggg 240
ttcacgcagc cgttgccgcc cgcagcggac natcacatcg ccgcgatcgc cctgttcggg 300
aatccctcng gccgcgctgg cgggctgatt aac 333

724

320

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

724
tgccgcggat ttggctggct gcccaatatt cagaatcggg cctttctttt tgcgcgacaa 60
taaggtcaca gtaaaccctc gttttgtgag atgcggggcg ggccgggcga antcgacctc 120
gagtgaatgg atctcgagtg aatggacagg gcatcgccta cgagtcgcat ccccatccaa 180
cagaccggtg ctcttgcatc ggaccctgaa ggtcccgcac ggagggtgtg gttgccggcg 240
cggggtcacg gtgcggtagc gacgtagtgt ttgaacgaat ttcttgatgc tccaacctgt 300
ttggtgttca atccagttct 320

725

296

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

725
aancttgcgc gctcggccgg gtcnagcatc cagctgctcg gcaaggaggc cagctacncn 60
tcgctgcgta tgcccagcgg tgagatccgc cgggtcnacg tccgctgccg cgcgaccgtc 120
ggcgaagtgg gcaatgccga gcaggcaaac atcaactggg gcaaggccgg tcggatgcgg 180
tggaagggca agcgcccgtc ggtccggggc gtggtgatna acccggtcna ccacccgcac 240
ggcggtggtg agggtaaaac ctccggcggc cgtcacccgg ttagcccgtg gggcaa 296

726

304

DNA

Mycobacterium bovis

unsure

(various positions within the sequence)

applicants are uncertain of bases designated
as “n”

726
antcgaaagt gaccatctct accttgagtg ccataccgcc cgaccctatg cctcggatag 60
ctcggcggaa agaaacgctt gcagtgccgc cgaataggcg gctacgtcgt gagcgcccat 120
caactctcgc gcggagtgca tcgccagctg ggcggcgccg acgtcgaccg tggggattcc 180
ggtgcgcgcc gcggccaacg gcccgatcgt cgacccgcac ggcagatcgg cgcgatgttc 240
gtaacgctgc ataggcactc ccgcgcgctg gcaggccagt gcgaacgccg ccgcggtgcg 300
tccg 304

727

318

PRT

Mycobacterium sp.

727
Pro Thr Gln Thr Leu Thr Gly Arg Pro Leu Ile Gly Asn Gly Thr Pro
1 5 10 15
Gly Ala Val Gly Ser Gly Ala Thr Gly Ala Pro Gly Gly Trp Leu Leu
20 25 30
Gly Asp Gly Gly Ala Gly Gly Ser Gly Ala Ala Gly Ser Gly Ala Pro
35 40 45
Gly Gly Ala Gly Gly Ala Ala Gly Leu Trp Gly Thr Gly Gly Ala Gly
50 55 60
Gly Ala Gly Gly Ser Ser Ala Gly Gly Gly Gly Ala Gly Gly Ala Gly
65 70 75 80
Gly Ala Gly Gly Trp Leu Leu Gly Asp Gly Gly Ala Gly Gly Ile Gly
85 90 95
Gly Ala Ser Thr Val Leu Gly Gly Thr Gly Gly Gly Gly Gly Val Gly
100 105 110
Gly Leu Trp Gly Ala Gly Gly Ala Gly Gly Ala Gly Gly Thr Gly Leu
115 120 125
Val Gly Gly Asp Gly Gly Ala Gly Gly Ala Gly Gly Thr Gly Gly Leu
130 135 140
Leu Ala Gly Leu Ile Gly Ala Gly Gly Gly His Gly Gly Thr Gly Gly
145 150 155 160
Leu Ser Thr Asn Gly Asp Gly Gly Val Gly Gly Ala Gly Gly Asn Ala
165 170 175
Gly Met Leu Ala Gly Pro Gly Gly Ala Gly Gly Ala Gly Gly Asp Gly
180 185 190
Glu Asn Leu Asp Thr Gly Gly Asp Gly Gly Ala Gly Gly Ser Ala Gly
195 200 205
Leu Leu Phe Gly Ser Gly Gly Ala Gly Gly Ala Gly Gly Phe Gly Phe
210 215 220
Leu Gly Gly Asp Gly Gly Ala Gly Gly Asn Ala Gly Leu Leu Leu Ser
225 230 235 240
Ser Gly Gly Ala Gly Gly Phe Gly Gly Phe Gly Thr Ala Gly Gly Val
245 250 255
Gly Gly Ala Gly Gly Asn Ala Gly Trp Leu Gly Phe Gly Gly Ala Gly
260 265 270
Gly Val Gly Gly Ser Ala Gly Leu Ile Gly Thr Gly Gly Asn Gly Gly
275 280 285
Asn Gly Gly Thr Gly Ala Asn Ala Gly Ser Pro Gly Thr Gly Gly Ala
290 295 300
Gly Gly Leu Leu Leu Gly Gln Asn Gly Leu Asn Gly Leu Pro
305 310 315

728

334

PRT

Mycobacterium sp.

728
Pro Thr Gln Thr Leu Thr Gly Arg Pro Leu Ile Gly Asn Gly Thr Pro
1 5 10 15
Gly Ala Val Gly Ser Gly Ala Thr Gly Ala Pro Gly Gly Trp Leu Leu
20 25 30
Gly Asp Gly Gly Ala Gly Gly Ser Gly Ala Ala Gly Ser Gly Ala Pro
35 40 45
Gly Gly Ala Gly Gly Ala Ala Gly Leu Trp Gly Thr Gly Gly Ala Gly
50 55 60
Gly Ile Gly Gly Ala Ser Thr Val Leu Gly Gly Thr Gly Gly Gly Gly
65 70 75 80
Gly Val Gly Gly Leu Trp Gly Ala Gly Gly Ala Gly Gly Ala Gly Gly
85 90 95
Thr Gly Leu Val Gly Gly Asp Gly Gly Ala Gly Gly Ala Gly Gly Thr
100 105 110
Gly Gly Leu Leu Ala Gly Leu Ile Gly Ala Gly Gly Gly His Gly Gly
115 120 125
Thr Gly Gly Leu Ser Thr Asn Gly Asp Gly Gly Val Gly Gly Ala Gly
130 135 140
Gly Asn Ala Gly Met Leu Ala Gly Pro Gly Gly Ala Gly Gly Ala Gly
145 150 155 160
Gly Asp Gly Glu Asn Leu Asp Thr Gly Gly Asp Gly Gly Ala Gly Gly
165 170 175
Ser Ala Gly Leu Leu Phe Gly Ser Gly Gly Ala Gly Gly Ala Gly Gly
180 185 190
Phe Gly Phe Leu Gly Gly Asp Gly Gly Ala Gly Gly Asn Ala Gly Leu
195 200 205
Leu Leu Ser Ser Gly Gly Ala Gly Gly Phe Gly Gly Phe Gly Thr Ala
210 215 220
Gly Gly Val Gly Gly Ala Gly Gly Asn Ala Gly Trp Leu Gly Phe Gly
225 230 235 240
Ala Gly Gly Ile Gly Gly Ile Gly Gly Asn Ala Asn Gly Gly Ala Gly
245 250 255
Gly Asn Gly Gly Thr Gly Gly Gln Leu Trp Gly Ser Gly Gly Ala Gly
260 265 270
Val Glu Gly Gly Ala Ala Leu Ser Val Gly Asp Thr Gly Gly Ala Gly
275 280 285
Gly Val Gly Gly Ser Ala Gly Leu Ile Gly Thr Gly Gly Asn Gly Gly
290 295 300
Asn Gly Gly Thr Gly Ala Asn Ala Gly Ser Pro Gly Thr Gly Gly Ala
305 310 315 320
Gly Gly Leu Leu Leu Gly Gln Asn Gly Leu Asn Gly Leu Pro
325 330

729

650

DNA

Mycobacterium sp.

729
gcggccgcaa ggggttcgcg tcagcgggtg ttggcgggtg tcggggctgg cttaactatg 60
cggcatcaga gcagattgta ctgagagtgc accatatgcg gtgtgaaata ccgcacagat 120
gcgtaaggag aaaataccgc atcaggcgcc attcgccatt caggctgcgc aactgttggg 180
aagggcgatc ggtgcgggcc tcttcgctat tacgccagct ggcgaaaggg ggatgtgctg 240
caaggcgatt aagttgggta acgccagggt tttcccagtc acgacgttgt aaaacgacgg 300
ccagtgaatt gtaatacgac tcactatagg gcgaattcga gctcggtacc cggggatcct 360
ctagagtcga cctgcaggca tgcaagcttg agtattctat agtgtcacct aaatagcttg 420
gcgtaatcat ggtcatagct gtttcctgtg tgaaattgtt atccgctcac aattccacac 480
aacatacgag ccggaagcat aaagtgtaaa gcctggggtg cctaatgagt gagctaactc 540
acattaattg cgttgcgctc actgcccgct ttccagtcgg gaaacctgtc gtgccagctg 600
cattaatgaa tcggccaacg cgaacccctt gcggccgccc gggccgtcga 650

730

8

PRT

Mycobacterium sp.

Unsure

(1-8)

applicants are uncertain of residues
designated as “xaa”

730
Asn Xaa Gly Xaa Gly Asn Xaa Gly
1 5

731

9

PRT

Mycobacterium sp.

Unsure

(1-9)

applicants are unsure of residues
designated as “xaa”

731
Gly Xaa Xaa Ser Val Pro Xaa Xaa Trp
1 5

732

29

PRT

Mycobacterium sp.

732
Gly Gly Ala Gly Gly Ala Gly Gly Ser Ser Ala Gly Gly Gly Gly Ala
1 5 10 15
Gly Gly Ala Gly Gly Ala Gly Gly Trp Leu Leu Gly Asp
20 25

733

45

PRT

Mycobacterium sp.

733
Gly Ala Gly Gly Ile Gly Gly Ile Gly Gly Asn Ala Asn Gly Gly Ala
1 5 10 15
Gly Gly Asn Gly Gly Thr Gly Gly Gln Leu Trp Gly Ser Gly Gly Ala
20 25 30
Gly Val Glu Gly Gly Ala Ala Leu Ser Val Gly Asp Thr
35 40 45

734

21

DNA

Mycobacterium sp.

734
agttagctca ctcattaggc a 21

735

21

DNA

Mycobacterium sp.

735
ggatgtgctg caaggcgatt a 21

736

27

DNA

Mycobacterium sp.

736
aaacagctat gaccatgatt acgccaa 27

737

24

DNA

Mycobacterium sp.

737
tcctctagag tcgacctgca ggca 24

738

18

DNA

Mycobacterium sp.

variation

(1-18)

bases designated as “n” may be A,T,C or G

738
tctagannnn nntccggc 18

739

18

DNA

Mycobacterium sp.

variation

(1-18)

bases designated as “n” may be A, T, C or G

739
tctagannnn nngggccc 18

740

20

DNA

Mycobacterium sp.

variation

(1-20)

bases designated as “n” may be A, T, C, or G

740
cgtttaaann nnnwaggccg 20

741

21

DNA

Mycobacterium sp.

variation

(1-21)

bases designated as “n” may be A, T, C, or G

741
ggtactagtn nnnnwtccgg c 21

742

22

DNA

Mycobacterium sp.

742
acgacctcat attccgaatc cc 22

743

23

DNA

Mycobacterium sp.

743
gcatctgttg agtacgcact tcc 23

Number	Date	Country
WO9303187	Feb 1993	WO
WO9318186	Sep 1993	WO
WO-9723624	Jul 1997	WO
WO9954487	Oct 1999	WO

Method for isolating a polynucleotide of interest from the genome of a mycobacterium using a bac-based DNA library: application to the detection of mycobacteria

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Abstract

Description

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Parent Case Info

Foreign Referenced Citations (4)

Non-Patent Literature Citations (13)

Entry
GenEmbl AD00001 Dec. 3, 1996.*
GenEmbl AD000017 Dec. 10, 1996.*
GenEmbl U00013 Mar. 1, 1994.*
GenEmbl X63508 Nov. 20, 1996.*
Brosch et al., “Use of a Mycobacterium Tuberculosis H37Rv Bacterial Aritificial Chromosome Library for Genome Mapping Sequencing, and Comparative Genomics,” Infection and Immunity, vol. 66, No. 5, pp. 2221-2229 (May 1998).
Cole et al., “Deciphering the Biology of Mycobacterium Tuberculosis from the Complete Genome Sequence,” Nature, vol. 393, pp. 537-545 (Jun. 11, 1998).
Cole et al., Novartis Foundation Symposium, pp. 160-177 (1998).
Philipp et al., “Physical Mapping of Mycobacterium bovis BCG Pasteur Reveals Differences from the Genome Map of Mycobacterium tuberculosis H37Rv and from M. bovis,” Microbiology, vol. 142:3135-3145 (1996).
Philipp et al., “An Integrated Map of the Genome of the Tubercle Bacillus, Mycobacterium Tuberculosis H37Rv, and Comparison with Mycobacterium leprae,” Microbiology, vol. 93:3132-3137 (1996).
Zimmer et al., “Construction and Characterization of Large-Fragmented Chicken Bacterial Artificial Chromosome Library”, Genomics, vol. 42:217-226 (1997).
Kim et al., “Construction and Characterization of a Human Bacterial Artificial Chromosome Library,” Genomics, vol. 34, pp. 213-218 (Jun. 1, 1996).
International Search Report of PCT/IB99/00740.
Philipp et al., “An Integrated Map of the Genome of the Tubercle Bacilus, Mycobacterium Tuberculosis H37Rv, and Comparison with Mycobacterium leprae,” PNAS, vol. 93:3132-3137 (1996).