Claims
- 1. Peptide nucleic acid probe for detecting a target sequence of one or more mycobacteria optionally present in a sample, said probe being capable of hybridising to a target sequence of mycobacterial rDNA, precursor rRNA or rRNA forming detectable hybrids, and a mixture of such probes.
- 2. Peptide nucleic acid probe according to claim 1, said probe being capable of hybridising to a target sequence of mycobacterial rDNA, precursor rRNA, or 23S, 16S or 5S rRNA forming detectable hybrids, and a mixture of such probes.
- 3. Peptide nucleic acid probe according to claim 1, said probe being capable of hybridising to a target sequence of mycobacterial rDNA, precursor rRNA, or 23S, 16S or 5S rRNA forming detectable hybrids, said target sequence being obtainable by
(a) comparing the nucleobase sequences of said mycobacterial rRNA or rDNA of one or more mycobacteria to be detected with the corresponding nucleobase sequence of organism(s), in particular other mycobacteria, in particular other mycobacteria, from which said one or more mycobacteria are to be distinguished, (b) selecting a target sequence of said rRNA or rDNA which includes at least one nucleobase differing from the corresponding nucleobase of the organism(s), in particular other mycobacteria, from which said one or more mycobacteria are to be distinguished, and (c) determining the capability of said probe to hybridise to the selected target sequence to form detectable hybrids, and a mixture of such probes.
- 4. Peptide nucleic acid probe according to claim 1, said probe being capable of hybridising to a target sequence of mycobacterial rDNA, precursor rRNA or 23S, 16S or 5S rRNA forming detectable hybrids, said probe being obtainable by
(a) comparing the nucleobase sequences of said mycobacterial rRNA or rDNA of one or more mycobacteria to be detected with the corresponding nucleobase sequence of organism(s), in particular other mycobacteria, in particular other mycobacteria, from which said one or more mycobacteria are to be distinguished, (b) selecting a target sequence of said rRNA or rDNA which includes at least one nucleobase differing from the corresponding nucleobase of the organism(s), in particular other mycobacteria, from which said one or more mycobacteria are to be distinguished, (c) synthesising said probe, and (d) determining the capability of said probe to hybridise to the selected target sequence to form detectable hybrids, and a mixture of such probes.
- 5. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) or for detecting a target sequence of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT) optionally present in a sample, which probe comprises from 6 to 30 polymerised peptide nucleic acid moieties, said probe being capable of hybridising to a target sequence of mycobacterial rDNA, precursor rRNA or 23S, 16S or 5S rRNA forming detectable hybrids, and a mixture of such probes.
- 6. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of rDNA, precursor rRNA or 23S, 16S or 5S rRNA of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) or for detecting a target sequence of rDNA, precursor rRNA or 23S, 16S or 5S rRNA of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I)
- 7. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of 23S rRNA of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. tuberculosis 23S rRNA differing from the corresponding nucleobase of at least M. avium located within the following domains
Positions 149-158 in FIG. 1A, Positions 220-221 in FIG. 1A, Positions 328-361 in FIG. 1A and FIG. 1B, Positions 453-455 in FIG. 1B. Positions 490-501 in FIG. 1B, Positions 637-660 in FIG. 1C, Positions 706-712 in FIG. 1D, Positions 762-789 in FIG. 1D, Position 989 in FIG. 1D, Positions 1068-1072 in FIG. 1D, Position 1148 in FIG. 1E, Positions 1311-1329 in FIG. 1E, Positions 1361-1364 in FIG. 1F, Position 1418 in FIG. 1F, Positions 1563-1570 in FIG. 1F, Positions 1627-1638 in FIG. 1G, Positions 1675-1677 in FIG. 1G, Position 1718 in FIG. 1G, Positions 1734-1740 in FIG. 1H, Positions 1967-1976 in FIG. 1H, Positions 2403-2420 in FIG. 1H, Positions 2457-2488 in FIG. 1I, Positions 2952-2956 in FIG. 1I, Positions 2966-2969 in FIG. 1J, Positions 3000-3003 in FIG. 1J or Positions 3097-3106 in FIG. 1J, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 23S rRNA, and a mixture of such probes.
- 8. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of 16S rRNA of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. tuberculosis 16S rRNA differing from the corresponding nucleobase of at least M. avium located within the following domains
Positions 76-79 in FIG. 2A, Positions 98-101 in FIG. 2A, Positions 135-136 in FIG. 2A, Positions 194-201 in FIG. 2B, Positions 222-229 in FIG. 2B, Position 242 in FIG. 2B, Position 474 in FIG. 2C, Positions 1136-1145 in FIG. 2C, Positions 1271-1272 in FIG. 2C, Positions 1287-1292 in FIG. 2D, Position 1313 in FIG. 2D, or Position 1334 in FIG. 2D, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 16S rRNA, and a mixture of such probes.
- 9. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of 5S rRNA of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. tuberculosis 5S rRNA differing from the corresponding nucleobase of at least M. avium located within the following domain Positions 86-90 in FIG. 3and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 5S rRNA, and a mixture of such probes.
- 10. Peptide nucleic acid probe according to claim 7 or 8 for detecting a target sequence of 23S or 16S rRNA of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. tuberculosis 23S or 16 S rRNA differing from the corresponding nucleobase of at least M. avium located within the following domains
Positions 149-158 in FIG. 1A, Positions 328-361 in FIG. 1A and FIG. 1B, Positions 490-501 in FIG. 1B, Positions 637-660 in FIG. 1C, Positions 762-789 in FIG. 1D, Positions 1068-1072 in FIG. 1D, Positions 1311-1329 in FIG. 1E, Positions 1361-1364 in FIG. 1F, Positions 1563-1570 in FIG. 1F, Positions 1627-1638 in FIG. 1G, Positions 1734-1740 in FIG. 1H, Positions 2457-248B in FIG. 1I, Positions 2952-2956 in FIG. 1I, Positions 3097-3106 in FIG. 1J, Positions 135-136 in FIG. 2A, or Positions 1287-1292 in FIG. 2D, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 23S or 16S rRNA, and a mixture of such probes.
- 11. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of 23S rRNA of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. avium 23S rRNA differing from the corresponding nucleobase of at least M. tuberculosis located within the following domains
Positions 99-101 in FIG. 4A, Position 183 in FIG. 4A, Positions 261-271 in FIG. 4A, Positions 281-284 in FIG. 4B, Positions 290-293 in FIG. 4B, Positions 327-335 in FIG. 4B, Positions 343-357 in FIG. 4B, Positions 400-405 in FIG. 4B and FIG. 4C, Positions 453-462 in FIG. 4C, Positions 587-599 in FIG. 4C, Positions 637-660 in FIG. 4D, Positions 704-712 in FIG. 4D, Positions 763-789 in FIG. 4E, Positions 1060-1074 in FIG. 4E, Positions 1177-1185 in FIG. 4E, Positions 1259-1265 in FIG. 4F, Positions 1311-1327 in FIG. 4F, Positions 1345-1348 in FIG. 4F, Positions 1361-1364 in FIG. 4G, Positions 1556-1570 in FIG. 4G, Positions 1608-1613 in FIG. 4H, Positions 1626-1638 in FIG. 4H, Positions 1651-1659 in FIG. 4H, Positions 1675-1677 in FIG. 4H, Positions 1734-1741 in FIG. 4H, Positions 1847-1853 in FIG. 4I, Positions 1967-1976 in FIG. 4I, Positions 2006-2010 in FIG. 4I, Positions 2025-2027 in FIG. 4I, Positions 2131-2132 in FIG. 4J, Positions 2252-2255 in FIG. 4J, Positions 2396-2405 in FIG. 4J and FIG. 4K, Positions 2416-2420 in FIG. 4K, Positions 2474-2478 in FIG. 4K, Position 2687 in FIG. 4K, Position 2719 in FIG. 4K, Position 2809 in FIG. 4L, Positions 3062-2068 in FIG. 4L, or Positions 3097-3106 in FIG. 4L, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 23S rRNA, and a mixture of such probes.
- 12. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of 16S rRNA of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. avium 16S rRNA differing from the corresponding nucleobase of at least M. tuberculosis located within the following domains
Positions 135-136 in FIG. 5A, Positions 472-475 in FIG. 5A. Positions 1136-1144 in FIG. 5A, Positions 1287-1292 in FIG. 5B, Position 1313 in FIG. 5B, or Position 1334 in FIG. 5B, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 16S rRNA, and a mixture of such probes.
- 13. Peptide nucleic acid probe according to claim 11 or 12 for detecting a target sequence of 23S or 16S rRNA of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase of M. avium 23S or 16S rRNA differing from the corresponding nucleobase of at least M. tuberculosis located within the following domains
Positions 99-101 in FIG. 4A, Positions 290-293 in FIG. 4B, Positions 400-405 in FIG. 4B and FIG. 4C, Positions 453-462 in FIG. 4C, Positions 637-660 in FIG. 4D, Positions 763-789 in FIG. 4E, Positions 1311-1327 in FIG. 4F, Positions 1361-1364 in FIG. 4G, Positions 1734-1741 in FIG. 4H, Positions 2025-2027 in FIG. 4I, Positions 2474-2478 in FIG. 4K, Positions 3062-2068 in FIG. 4L, or Positions 1287-1292 in FIG. 5B, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with a target sequence of said mycobacterial 23S or 16S rRNA, and a mixture of such probes.
- 14. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of 23S, 16S or 5S rRNA of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC) or for detecting a target sequence of 23S, 16S or 5S rRNA of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT) optionally present in a sample, which probe comprises from 10 to 30 polymerised moieties of formula (I) as defined in claim 6,
with the proviso that the Qs of adjacent moieties are selected so as to form a sequence of which a subsequence includes at least one nucleobase that is complementary to a nucleobase that differs from the corresponding nucleobase of 23S, 16S or 5S rRNA of said one or more mycobacteria located within the following domains
positions 2568-2569 in FIG. 6, Position 452 in FIG. 7, Positions 473-477 in FIG. 7, or Positions 865-866 in FIG. 7, and further with the proviso that the probe comprising such subsequence is capable of forming detectable hybrids with the target sequence of said mycobacterial 23S, 16S or 5S rRNA, and a mixture of such probes.
- 15. Peptide nucleic acid probe according to claim 6 of formula (II), (III), or (IV)
- 16. Peptide nucleic acid probe according to claim 6, wherein Z is NH, NCH3 or O, each R2, R3 and R4 independently designate H or the side chain of a naturally occurring amino acid, the side chain of a non-naturally occurring amino acid, or C1-4 alkyl, and each Q is a naturally occurring nucleobase or a non-naturally occurring nucleobase with the provisos defined in claims 6 to 14,
- 17. Peptide nucleic acid probe according to claim 6, wherein Z is NH or O, and R2 is H or the side chain of Ala, Asp, Cys, Glu, His, HomoCys, Lys, Orn, Ser or Thr, and 0 is a nucleobase selected from thymine, adenine, cytosine, guanine, uracil, iso-C and 2,6-diaminopurine with the provisos defined in claims 6 to 14,
- 18. Peptide nucleic acid probe according to claim 6 of formula (V)
- 19. Peptide nucleic acid probe according to claim 1 further comprising one or more labels and a mixture of such probes, which labels may be mutually identical or different, which probes optionally may comprise one or more linkers. and which probes may be mutually identical or different with the provisos defined in claims 6 to 14.
- 20. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of one or more mycobacteria, the nucleobase sequence of said probe being substantially complementary to the nucleobase sequence of said target sequence.
- 21. Peptide nucleic acid probe according to claim 1 for detecting a target sequence of one or more mycobacteria, the nucleobase sequence of said probe being complementary to the nucleobase sequence of said target sequence.
- 22. Peptide nucleic acid probes according to claim 6 wherein the Qs of adjacent moieties are selected so as to form the following subsequences
- 23. Peptide nucleic acid probes according to claim 22, wherein the Qs of adjacent moieties are selected so as to form the following subsequences
- 24. Peptide nucleic acid probes according to claim 22 selected from
- 25. Use of a peptide nucleic acid probe according to claim 1 or a mixture thereof for detecting a target sequence of one or more mycobacteria optionally present in a sample.
- 26. Use of a peptide nucleic acid probe or a mixture thereof according to claim 25 for detecting a target sequence of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC), in particular a target sequence of M. tuberculosis.
- 27. Use of a peptide nucleic acid probe or a mixture thereof according to claim 25 for detecting a target sequence of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex, in particular a target sequence of one or more mycobacteria of the Mycobacterium avium Complex.
- 28. Method for detecting a target sequence of one or more mycobacteria optionally present in a sample comprising
(1) contacting any rRNA or rDNA present in said sample with one or more peptide nucleic acid probes according to claim 1 or a mixture thereof under conditions, whereby hybridisation takes place between said probe(s) and said rRNA or rDNA, and (2) observing or measuring any formed detectable hybrids, and relating said observation or measurement to the presence of a target sequence of one or more mycobacteria in said sample.
- 29. Method according to claim 28 for detecting a target sequence of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC), in particular a target sequence of M. tuberculosis.
- 30. Method according to claim 28 for detecting a target sequence of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex.
- 31. Method according to claim 28, wherein the hybridisation takes place in situ.
- 32. Method according to claim 28, wherein the hybridisation takes place in vitro.
- 33. A method according to claim 28,
characterised in that a signal amplifying system is used for measuring the resulting hybridisation.
- 34. Method according to claim 28, wherein the sample is a sputum sample.
- 35. Kit for detecting a target sequence of one or more mycobacteria, in particular a target sequence of one or more mycobacteria of the Mycobacterium tuberculosis Complex (MTC), in particular a target sequence of M. tuberculosis, and/or for detecting a target sequence of one or more mycobacteria other than mycobacteria of the Mycobacterium tuberculosis Complex (MOTT), in particular a target sequence of one or more mycobacteria of the Mycobacterium avium Complex,
characterised in that said kit comprises at least one peptide nucleic acid probe according to claim 1, and optionally a detection system with at least one detecting reagent.
- 36. Kit according to claim 35,
characterised in that it further comprises a solid phase capture system.
Priority Claims (3)
Number |
Date |
Country |
Kind |
1096/96 |
Oct 1996 |
DK |
|
1156/96 |
Oct 1996 |
DK |
|
0512/97 |
May 1997 |
DK |
|
Parent Case Info
[0001] The present application claims priority under 35 USC 119(e) (1) from Provisional Application Nos. 60/028392 filed on Oct. 15, 1996, 60/029595 filed on Oct. 23, 1996 and 60/045,962 fled on May 8, 1997.
Provisional Applications (3)
|
Number |
Date |
Country |
|
60028392 |
Oct 1996 |
US |
|
60029595 |
Oct 1996 |
US |
|
60045962 |
May 1997 |
US |
Continuations (1)
|
Number |
Date |
Country |
Parent |
08943777 |
Oct 1997 |
US |
Child |
10347510 |
Jan 2003 |
US |