METHODS AND COMPOSITIONS FOR WEED CONTROL

Abstract

The present invention provides novel compositions for use to enhance weed control. Specifically, the present invention provides for methods and compositions that modulate Acetyl-CoA carboxylase in weed species. The present invention also provides for combinations of compositions and methods that enhance weed control.

Description

FIELD OF THE INVENTION

The invention relates generally to the field of weed management. More specifically, the invention relates to acetyl-CoA carboxylase (ACCase) genes in weedy plants and compositions containing polynucleotide molecules for modulating their expression. The invention further provides methods and compositions useful for weed control.

BACKGROUND OF THE INVENTION

Weeds are plants that compete with cultivated plants in an agronomic environment and cost farmers billions of dollars annually in crop losses and the expense of efforts to keep weeds under control. Weeds also serve as hosts for crop diseases and insect pests. The losses caused by weeds in agricultural production environments include decreases in crop yield, reduced crop quality, increased irrigation costs, increased harvesting costs, reduced land value, injury to livestock, and crop damage from insects and diseases harbored by the weeds. The principal means by which weeds cause these effects are: 1) competing with crop plants for water, nutrients, sunlight and other essentials for growth and development, 2) production of toxic or irritant chemicals that cause human or animal health problem, 3) production of immense quantities of seed or vegetative reproductive parts or both that contaminate agricultural products and perpetuate the species in agricultural lands, and 4) production on agricultural and nonagricultural lands of vast amounts of vegetation that must be disposed of. Herbicide tolerant weeds are a problem with nearly all herbicides in use, there is a need to effectively manage these weeds. There are over 365 weed biotypes currently identified as being herbicide resistant to one or more herbicides by the Herbicide Resistance Action Committee (HRAC), the North American Herbicide Resistance Action Committee (NAHRAC), and the Weed Science Society of America (WSSA).

The Acetyl-CoA carboxylase (ACCase) enzyme catalyzes the biotin-dependent carboxylation of acetyl-CoA to produce malonyl-CoA, this is the first and the committed step in the biosynthesis of long-chain fatty acids. This enzyme is the target of many herbicides that include members of the chemical families of aryloxyphenoxypropionates, cyclohexanediones and phenylpyrazoline.

SUMMARY OF THE INVENTION

In one aspect, the invention provides a method of weedy plant control comprising an external application to a weedy plant of a composition comprising a polynucleotide and a transfer agent, wherein the polynucleotide is essentially identical or essentially complementary to an ACCase gene sequence or fragment thereof, or to the RNA transcript of said ACCase gene sequence or fragment thereof, wherein said ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof, whereby the weedy plant growth or development or reproductive ability is reduced or the weedy plant is more sensitive to an ACCase inhibitor herbicide relative to a weedy plant not treated with said composition. In this manner, plants that have become resistant to the application of an ACCase inhibitor contanining herbicides may be made more susceptible to the herbicidal effects of an ACCase inhibitor containing herbicide, thus potentiating the effect of the herbicide. The polynucleotide fragment is at least 18 contiguous nucleotides, at least 19 contiguous nucleotides, at least 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92 and the transfer agent is an organosilicone composition or compound. The polynucleotide fragment can also be sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA, or dsDNA/RNA hybrids. The composition can include more than one polynucleotide fragments, and the composition can include an ACCase inhibitor herbicide and/or other herbicides that enhance the weed control activity of the composition.

In another aspect of the invention, polynucleotide molecules and methods for modulating ACCase gene expression in weedy plant species are provided. The method reduces, represses or otherwise delays expression of an ACCase gene in a weedy plant comprising an external application to a weedy plant of a composition comprising a polynucleotide and a transfer agent, wherein the polynucleotide is essentially identical or essentially complementary to an ACCase gene sequence, represses or otherwise delays, or to the RNA transcript of the ACCase gene sequence, represses or otherwise delays, wherein the ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof. The polynucleotide fragment fragment is at least 18 contiguous nucleotides, at least 19 contiguous nucleotides, at least 20 contiguous nucleotides at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92 and the transfer agent is an organosilicone compound. The polynucleotide fragment can also be sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA, or dsDNA/RNA hybrids.

In a further aspect of the invention, the polynucleotide molecule containing composition of the invention may be combined with other herbicidal compounds to provide additional control of unwanted plants in a field of cultivated plants.

In a further aspect, the polynucleotide molecule composition may be combined with any one or more additional agricultural chemicals, such as, insecticides, fungicides, nematocides, bactericides, acaricides, growth regulators, chemosterilants, semiochemicals, repellents, attractants, pheromones, feeding stimulants, biopesticides, microbial pesticides or other biologically active compounds to form a multi-component pesticide giving an even broader spectrum of agricultural protection.

BRIEF DESCRIPTION OF THE FIGURES

The following drawings form part of the present specification and are included to further demonstrate certain aspects of the present invention. The invention may be better understood by reference to one or more of these drawings in combination with the detailed description of specific embodiments presented herein. The invention can be more fully understood from the following description of the figures:

FIG. 1. Treatment of Amaranthus palmer with ssDNA trigger polynucleotides and ACCase inhibitor herbicide, clethodim.

DETAILED DESCRIPTION

Provides are methods and compositions containing a polynucleotide that provide for regulation, repression or delay of ACCase (Acetyl-CoA carboxylase) gene expression and enhanced control of weedy plant species and importantly ACCase inhibitor resistant weed biotypes. Aspects of the method can be applied to manage various weedy plants in agronomic and other cultivated environments.

The following definitions and methods are provided to better define the present invention and to guide those of ordinary skill in the art in the practice of the present invention. Unless otherwise noted, terms are to be understood according to conventional usage by those of ordinary skill in the relevant art. Where a term is provided in the singular, the inventors also contemplate aspects of the invention described by the plural of that term.

By “non-transcribable” polynucleotides is meant that the polynucleotides do not comprise a complete polymerase II transcription unit. As used herein “solution” refers to homogeneous mixtures and non-homogeneous mixtures such as suspensions, colloids, micelles, and emulsions.

Weedy plants are plants that compete with cultivated plants, those of particular importance include, but are not limited to important invasive and noxious weeds and herbicide resistant biotypes in crop production, such as, Amaranthus species—A. albus, A. blitoides, A. hybridus, A. palmeri, A. powellii, A. retroflexus, A. spinosus, A. tuberculatus, and A. viridis; Ambrosia species—A. trifida, A. artemisifolia; Lolium species—L. multiflorum, L. rigidium, L perenne; Digitaria species—D. insularis; Euphorbia species—E. heterophylla; Kochia species—K. scoparia; Sorghum species—S. halepense; Conyza species—C. bonariensis, C. canadensis, C. sumatrensis; Chloris species—C. truncate; Echinochola species—E. colona, E. crus-galli; Eleusine species—E. indica; Poa species—P. annua; Plantago species—P. lanceolata; Avena species—A. fatua; Chenopodium species—C. album; Setaria species—S. viridis, Abutilon theophrasti, Ipomoea species, Sesbania, species, Cassia species, Sida species, Brachiaria, species and Solanum species.

Additional weedy plant species found in cultivated areas include Alopecurus myosuroides, Avena sterilis, Avena sterilis ludoviciana, Brachiaria plantaginea, Bromus diandrus, Bromus rigidus, Cynosurus echinatus, Digitaria ciliaris, Digitaria ischaemum, Digitaria sanguinalis, Echinochloa oryzicola, Echinochloa phyllopogon, Eriochloa punctata, Hordeum glaucum, Hordeum leporinum, Ischaemum rugosum, Leptochloa chinensis, Lolium persicum, Phalaris minor, Phalaris paradoxa, Rottboellia exalta, Setaria faberi, Setaria viridis var, robusta-alba schreiber, Setaria viridis var, robusta-purpurea, Snowdenia polystachea, Sorghum sudanese, Alisma plantago-aquatica, Amaranthus lividus, Amaranthus quitensis, Ammania auriculata, Ammania coccinea, Anthemis cotula, Apera spica-venti, Bacopa rotundifolia, Bidens pilosa, Bidens subalternans, Brassica tournefortii, Bromus tectorum, Camelina microcarpa, Chrysanthemum coronarium, Cuscuta campestris, Cyperus difformis, Damasonium minus, Descurainia sophia, Diplotaxis tenuifolia, Echium plantagineum, Elatine triandra var, pedicellata, Euphorbia heterophylla, Fallopia convolvulus, Fimbristylis miliacea, Galeopsis tetrahit, Galium spurium, Helianthus annuus, Iva xanthifolia, Ixophorus unisetus, Ipomoea indica, Ipomoea purpurea, Ipomoea sepiaria, Ipomoea aquatic, Ipomoea triloba, Lactuca serriola, Limnocharis flava, Limnophila erecta, Limnophila sessiliflora, Lindernia dubia, Lindernia dubia var, major, Lindernia micrantha, Lindernia procumbens, Mesembryanthemum crystallinum, Monochoria korsakowii, Monochoria vaginalis, Neslia paniculata, Papaver rhoeas, Parthenium hysterophorus, Pentzia suffruticosa, Phalaris minor, Raphanus raphanistrum, Raphanus sativus, Rapistrum rugosum, Rotala indica var, uliginosa, Sagittaria guyanensis, Sagittaria montevidensis, Sagittaria pygmaea, Salsola iberica, Scirpus juncoides var, ohwianus, Scirpus mucronatus, Setaria lutescens, Sida spinosa, Sinapis arvensis, Sisymbrium orientale, Sisymbrium thellungii, Solanum ptycanthum, Sonchus asper, Sonchus oleraceus, Sorghum bicolor, Stellaria media, Thlaspi arvense, Xanthium strumarium, Arctotheca calendula, Conyza sumatrensis, Crassocephalum crepidiodes, Cuphea carthagenenis, Epilobium adenocaulon, Erigeron philadelphicus, Landoltia punctata, Lepidium virginicum, Monochoria korsakowii, Solanum americanum, Solanum nigrum, Vulpia bromoides, Youngia japonica, Hydrilla verticillata, Carduus nutans, Carduus pycnocephalus, Centaurea solstitialis, Cirsium arvense, Commelina diffusa, Convolvulus arvensis, Daucus carota, Digitaria ischaemum, Echinochloa crus-pavonis, Fimbristylis miliacea, Galeopsis tetrahit, Galium spurium, Limnophila erecta, Matricaria perforate, Papaver rhoeas, Ranunculus acris, Soliva sessilis, Sphenoclea zeylanica, Stellaria media, Nassella trichotoma, Stipa neesiana, Agrostis stolonifera, Polygonum aviculare, Alopecurus japonicus, Beckmannia syzigachne, Bromus tectorum, Chloris inflate, Echinochloa erecta, Portulaca oleracea, and Senecio vulgaris. It is believed that all plants contain a phytoene desaturase gene in their genome, the sequence of which can be isolated and polynucleotides made according to the methods of the present invention that are useful for regulation, suppressing or delaying the expression of the target ACCase gene in the plants and the growth or development of the treated plants.

Some cultivated plants may also be weedy plants when they occur in unwanted environments. For example, corn plants growing in a soybean field. Transgenic crops with one or more herbicide tolerances will need specialized methods of management to control weeds and volunteer crop plants. The present invention enables the targeting of a transgene for herbicide tolerance to permit the treated plants to become sensitive to the herbicide. For example, transgene ACCase DNA sequences in transgenic events that include DAS-40278-9.

A “trigger” or “trigger polynucleotide” is a polynucleotide molecule that is homologous or complementary to a target gene polynucleotide. The trigger polynucleotide molecules modulate expression of the target gene when topically applied to a plant surface with a transfer agent, whereby a plant treated with said composition has its growth or development or reproductive ability regulated, suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said polynucleotide containing composition relative to a plant not treated with a composition containing the trigger molecule.

It is contemplated that the composition of the present invention will contain multiple polynucleotides and herbicides that include but not limited to ACCase gene trigger polynucleotides and an ACCase inhibitor herbicide and anyone or more additional herbicide target gene trigger polynucleotides and the related herbicides and anyone or more additional essential gene trigger polynucleotides. Essential genes are genes in a plant that provide key enzymes or other proteins, for example, a biosynthetic enzyme, metabolizing enzyme, receptor, signal transduction protein, structural gene product, transcription factor, or transport protein; or regulating RNAs, such as, microRNAs, that are essential to the growth or survival of the organism or cell or involved in the normal growth and development of the plant (Meinke, et al., Trends Plant Sci. 2008 September; 13(9):483-91). The suppression of an essential gene enhances the effect of a herbicide that affects the function of a gene product different than the suppressed essential gene. The compositions of the present invention can include various trigger polynucleotides that modulate the expression of an essential gene other than ACCase.

Herbicides for which transgenes for plant tolerance have been demonstrated and the method of the present invention can be applied, include but are not limited to: auxin-like herbicides, glyphosate, glufosinate, sulfonylureas, imidazolinones, bromoxynil, delapon, dicamba, cyclohezanedione, protoporphyrionogen oxidase inhibitors, 4-hydroxyphenyl-pyruvate-dioxygenase inhibitors herbicides. For example, transgenes and their polynucleotide molecules that encode proteins involved in herbicide tolerance are known in the art, and include, but are not limited to an 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS), for example, as more fully described in U.S. Pat. Nos. 7,807,791 (SEQ ID NO:5); 6,248,876 B1; 5,627,061; 5,804,425; 5,633,435; 5,145,783; 4,971,908; 5,3072,910; 5,188,642; 4,940,835; 5,866,775; 6,225,114 B1; 6,130,366; 5,3070,667; 4,535,060; 4,769,061; 5,633,448; 5,510,471; U.S. Pat. No. Re. 36,449; U.S. Pat. Nos. RE 37,287 E; and 5,491,288; tolerance to sulfonylurea and/or imidazolinone, for example, as described more fully in U.S. Pat. Nos. 5,605,011; 5,013,659; 5,141,870; 5,767,361; 5,7307,180; 5,304,732; 4,761,373; 5,3307,107; 5,928,937; and 5,378,824; and international publication WO 96/33270; tolerance to hydroxyphenylpyruvatedioxygenases inhibitiong herbicides in plants are described in U.S. Pat. Nos. 6,245,968 B1; 6,268,549; and 6,069,115; US Pat. Pub. 20110191897 and U.S. Pat. No. 7,3072,379 SEQ ID NO:3; U.S. Pat. No. 7,935,869; U.S. Pat. No. 7,304,209, SEQ ID NO:1, 3, 5 and 15; aryloxyalkanoate dioxygenase polynucleotides, which confer tolerance to 2,4-D and other phenoxy auxin herbicides as well as to aryloxyphenoxypropionate herbicides as described, for example, in WO2005/107437; U.S. Pat. No. 7,838,733 SEQ ID NO:5;) and dicamba-tolerance polynucleotides as described, for example, in Herman et al. (2005) J. Biol. Chem. 280: 24759-24767. Other examples of herbicide-tolerance traits include those conferred by polynucleotides encoding an exogenous phosphinothricin acetyltransferase, as described in U.S. Pat. Nos. 5,969,213; 5,489,520; 5,550,3078; 5,874,265; 5,919,675; 5,561,236; 5,648,477; 5,646,024; 6,177,616; and 5,879,903. Plants containing an exogenous phosphinothricin acetyltransferase can exhibit improved tolerance to glufosinate herbicides, which inhibit the enzyme glutamine synthase. Additionally, herbicide-tolerance polynucleotides include those conferred by polynucleotides conferring altered protoporphyrinogen oxidase (protox) activity, as described in U.S. Pat. Nos. 6,288,306 B1; 6,282,837 B1; and 5,767,373; and WO 01/12825. Plants containing such polynucleotides can exhibit improved tolerance to any of a variety of herbicides which target the protox enzyme (also referred to as protox inhibitors). Polynucleotides encoding a glyphosate oxidoreductase and a glyphosate-N-acetyl transferase (GOX described in U.S. Pat. No. 5,463,175 and GAT described in U.S. Patent publication 20030083480, dicamba monooxygenase U.S. Patent publication 20030135879, all of which are incorporated herein by reference); a polynucleotide molecule encoding bromoxynil nitrilase (Bxn described in U.S. Pat. No. 4,810,648 for Bromoxynil tolerance, which is incorporated herein by reference); a polynucleotide molecule encoding phytoene desaturase (crtI) described in Misawa et al, (1993) Plant J. 4:833-840 and Misawa et al, (1994) Plant J. 6:481-489 for norflurazon tolerance; a polynucleotide molecule encoding acetohydroxyacid synthase (AHAS, aka ALS) described in Sathasiivan et al. (1990) Nucl. Acids Res. 18:3078-2193 for tolerance to sulfonylurea herbicides; and the bar gene described in DeBlock, et al. (1987) EMBO J. 6:2513-2519 for glufosinate and bialaphos tolerance. The transgenic coding regions and regulatory elements of the herbicide tolerance genes are targets in which polynucleotide triggers and herbicides can be included in the composition of the present invention.

The composition of the present invention include a component that is an ACCase inhibitor herbicide, which include members of the chemical families of aryloxyphenoxypropionates, cyclohexanediones and phenylpyrazoline that include, but are not limited to an aryloxyphenoxypropionate comprising clodinafop (Propanoic acid, 2-[4-[(5-chloro-3-fluoro-2-pyridinyl)oxy]phenoxy]-,2-propynyl ester, (2R)), cyhalofop (butyl(2R)-2-[4-(4-cyano-2-fluorophenoxy)phenoxy]propionate), diclofop (methyl 2-[4-(2,4-dichlorophenoxy)phenoxy]propanoate), fenoxaprop (ethyl (R)-2-[4-(6-chloro-1,3-benzoxazol-2-yloxy)phenoxy]propionate), fluazifop (2R)-2-[4-[[5-(trifluoromethyl)-2-pyridinyl]oxy]phenoxy]propanoic acid), haloxyfop (2-[4-[[3-chloro-5-(trifluoromethyl)-2-pyridinyl]oxy]phenoxy]propanoic acid), propaquizafop (2-[[(1-methylethylidene)amino]oxy]ethyl (2R)-2-[4-[(6-chloro-2quinoxalinyl)oxy]phenoxy]propanoate) and quizalofop(2R)-2-[4-[(6-chloro-2-quinoxalinyl)oxy]phenoxy]propanoic acid; a cyclohexanedione comprising alloxydim (methyl 2,2-dimethyl-4,6-dioxo-5-[(1E)-1-[(2-propen-1-yloxy)imino]butyl]cyclohexanecarboxylate), butroxydim (2-[1-(ethoxyimino)propyl]-3-hydroxy-5-[2,4,6-trimethyl-3-(1-oxobutyl)phenyl]-2-cyclohexen-1-one), clethodim (2-[1-[[[(2E)-3-chloro-2-propen-1-yl]oxy]imino]propyl]-5-[2-(ethylthio)propyl]-3-hydroxy-2-cyclohexen-1-one), cycloxydim (2-[1-(ethoxyimino)butyl]-3-hydroxy-5-(tetrahydro-2H-thiopyran-3-yl)-2-cyclohexen-1-one), profoxydim (2-[1-[[2-(4-chlorophenoxy)propoxy]imino]butyl]-3-hydroxy-5-(tetrahydro-2H-thiopyran-3-yl)-2-cyclohexen-1-one), sethoxydim (2-[1-(ethoxyimino)butyl]-5-[2-(ethylthio)propyl]-3-hydroxy-2-cyclohexen-1-one), tepraloxydim (2-[1-[[[(2E)-3-chloro-2-propen-1-yl]oxy]imino]propyl]-3-hydroxy-5-(tetrahydro-2H-pyran-4-yl)-2-cyclohexen-1-one) and tralkoxydim (2-[1-(ethoxyimino)propyl]-3-hydroxy-5-(2,4,6-trimethylphenyl)-2-cyclohexen-1-one); a phenylpyrazoline comprising pinoxaden (8-(2,6-diethyl-4-methylphenyl)-1,2,4,5-tetrahydro-7-oxo-7H-pyrazolo[1,2-d][1,4,5]oxadiazepin-9-yl 2,2-dimethylpropanoate).

Numerous herbicides with similar or different modes of action (herein referred to as co-herbicides) are available that can be added to the composition of the present invention, for example, members of the herbicide families that include but are not limited to amide herbicides, aromatic acid herbicides, arsenical herbicides, benzothiazole herbicides, benzoylcyclohexanedione herbicides, benzofuranyl alkylsulfonate herbicides, carbamate herbicides, cyclohexene oxime herbicides, cyclopropylisoxazole herbicides, dicarboximide herbicides, dinitroaniline herbicides, dinitrophenol herbicides, diphenyl ether herbicides, dithiocarbamate herbicides, halogenated aliphatic herbicides, imidazolinone herbicides, inorganic herbicides, nitrile herbicides, organophosphorus herbicides, oxadiazolone herbicides, oxazole herbicides, phenoxy herbicides, phenylenediamine herbicides, pyrazole herbicides, pyridazine herbicides, pyridazinone herbicides, pyridine herbicides, pyrimidinediamine herbicides, pyrimidinyloxybenzylamine herbicides, quaternary ammonium herbicides, thiocarbamate herbicides, thiocarbonate herbicides, thiourea herbicides, triazine herbicides, triazinone herbicides, triazole herbicides, triazolone herbicides, triazolopyrimidine herbicides, uracil herbicides, and urea herbicides. In particular, the rates of use of the added herbicides can be reduced in compositions comprising the polynucleotides of the invention. Use rate reductions of the additional added herbicides can be 10-25 percent, 26-50 percent, 51-75 percent or more can be achieved that enhance the activity of the polynucleotides and herbicide composition and is contemplated as an aspect of the invention. Representative co-herbicides of the families include but are not limited to acetochlor, acifluorfen, acifluorfen-sodium, aclonifen, acrolein, alachlor, alloxydim, allyl alcohol, ametryn, amicarbazone, amidosulfuron, aminopyralid, amitrole, ammonium sulfamate, anilofos, asulam, atraton, atrazine, azimsulfuron, BCPC, beflubutamid, benazolin, benfluralin, benfuresate, bensulfuron, bensulfuron-methyl, bensulide, bentazone, benzfendizone, benzobicyclon, benzofenap, bifenox, bilanafos, bispyribac, bispyribac-sodium, borax, bromacil, bromobutide, bromoxynil, butachlor, butafenacil, butamifos, butralin, butroxydim, butylate, cacodylic acid, calcium chlorate, cafenstrole, carbetamide, carfentrazone, carfentrazone-ethyl, CDEA, CEPC, chlorflurenol, chlorflurenol-methyl, chloridazon, chlorimuron, chlorimuron-ethyl, chloroacetic acid, chlorotoluron, chlorpropham, chlorsulfuron, chlorthal, chlorthal-dimethyl, cinidon-ethyl, cinmethylin, cinosulfuron, cisanilide, clethodim, clodinafop, clodinafop-propargyl, clomazone, clomeprop, clopyralid, cloransulam, cloransulam-methyl, CMA, 4-CPB, CPMF, 4-CPP, CPPC, cresol, cumyluron, cyanamide, cyanazine, cycloate, cyclosulfamuron, cycloxydim, cyhalofop, cyhalofop-butyl, 2,4-D, 3,4-DA, daimuron, dalapon, dazomet, 2,4-DB, 3,4-DB, 2,4-DEB, desmedipham, dicamba, dichlobenil, ortho-dichlorobenzene, para-dichlorobenzene, dichlorprop, dichlorprop-P, diclofop, diclofop-methyl, diclosulam, difenzoquat, difenzoquat metilsulfate, diflufenican, diflufenzopyr, dimefuron, dimepiperate, dimethachlor, dimethametryn, dimethenamid, dimethenamid-P, dimethipin, dimethylarsinic acid, dinitramine, dinoterb, diphenamid, diquat, diquat dibromide, dithiopyr, diuron, DNOC, 3,4-DP, DSMA, EBEP, endothal, EPTC, esprocarb, ethalfluralin, ethametsulfuron, ethametsulfuron-methyl, ethofumesate, ethoxyfen, ethoxysulfuron, etobenzanid, fenoxaprop-P, fenoxaprop-P-ethyl, fentrazamide, ferrous sulfate, flamprop-M, flazasulfuron, florasulam, fluazifop, fluazifop-butyl, fluazifop-P, fluazifop-P-butyl, flucarbazone, flucarbazone-sodium, flucetosulfuron, fluchloralin, flufenacet, flufenpyr, flufenpyr-ethyl, flumetsulam, flumiclorac, flumiclorac-pentyl, flumioxazin, fluometuron, fluoroglycofen, fluoroglycofen-ethyl, flupropanate, flupyrsulfuron, flupyrsulfuron-methyl-sodium, flurenol, fluridone, fluorochloridone, fluoroxypyr, flurtamone, fluthiacet, fluthiacet-methyl, fomesafen, foramsulfuron, fosamine, glufosinate, glufosinate-ammonium, glyphosate, halosulfuron, halosulfuron-methyl, haloxyfop, haloxyfop-P, HC-252, hexazinone, imazamethabenz, imazamethabenz-methyl, imazamox, imazapic, imazapyr, imazaquin, imazethapyr, imazosulfuron, indanofan, iodomethane, iodosulfuron, iodosulfuron-methyl-sodium, ioxynil, isoproturon, isouron, isoxaben, isoxachlortole, isoxaflutole, karbutilate, lactofen, lenacil, linuron, MAA, MAMA, MCPA, MCPA-thioethyl, MCPB, mecoprop, mecoprop-P, mefenacet, mefluidide, mesosulfuron, mesosulfuron-methyl, mesotrione, metam, metamifop, metamitron, metazachlor, methabenzthiazuron, methylarsonic acid, methyldymron, methyl isothiocyanate, metobenzuron, metolachlor, S-metolachlor, metosulam, metoxuron, metribuzin, metsulfuron, metsulfuron-methyl, MK-66, molinate, monolinuron, MSMA, naproanilide, napropamide, naptalam, neburon, nicosulfuron, nonanoic acid, norflurazon, oleic acid (fatty acids), orbencarb, orthosulfamuron, oryzalin, oxadiargyl, oxadiazon, oxasulfuron, oxaziclomefone, oxyfluorfen, paraquat, paraquat dichloride, pebulate, pendimethalin, penoxsulam, pentachlorophenol, pentanochlor, pentoxazone, pethoxamid, petrolium oils, phenmedipham, phenmedipham-ethyl, picloram, picolinafen, pinoxaden, piperophos, potassium arsenite, potassium azide, pretilachlor, primisulfuron, primisulfuron-methyl, prodiamine, profluazol, profoxydim, prometon, prometryn, propachlor, propanil, propaquizafop, propazine, propham, propisochlor, propoxycarbazone, propoxycarbazone-sodium, propyzamide, prosulfocarb, prosulfuron, pyraclonil, pyraflufen, pyraflufen-ethyl, pyrazolynate, pyrazosulfuron, pyrazosulfuron-ethyl, pyrazoxyfen, pyribenzoxim, pyributicarb, pyridafol, pyridate, pyriftalid, pyriminobac, pyriminobac-methyl, pyrimisulfan, pyrithiobac, pyrithiobac-sodium, quinclorac, quinmerac, quinoclamine, quizalofop, quizalofop-P, rimsulfuron, sethoxydim, siduron, simazine, simetryn, SMA, sodium arsenite, sodium azide, sodium chlorate, sulcotrione, sulfentrazone, sulfometuron, sulfometuron-methyl, sulfosate, sulfosulfuron, sulfuric acid, tar oils, 2,3,6-TBA, TCA, TCA-sodium, tebuthiuron, tepraloxydim, terbacil, terbumeton, terbuthylazine, terbutryn, thenylchlor, thiazopyr, thifensulfuron, thifensulfuron-methyl, thiobencarb, tiocarbazil, topramezone, tralkoxydim, tri-allate, triasulfuron, triaziflam, tribenuron, tribenuron-methyl, tricamba, triclopyr, trietazine, trifloxysulfuron, trifloxysulfuron-sodium, trifluralin, triflusulfuron, triflusulfuron-methyl, trihydroxytriazine, tritosulfuron, [3-[2-chloro-4-fluoro-5-(-methyl-6-trifluoromethyl-2,4-dioxo-,2,3,4-t-etrahydropyrimidin-3-yl)phenoxy]-2-pyridyloxy]acetic acid ethyl ester (CAS RN 353292-3-6), 4-[(4,5-dihydro-3-methoxy-4-methyl-5-oxo)-H-,2,4-triazol-ylcarbonyl-sulfamoyl]-5-methylthiophene-3-carboxylic acid (BAY636), BAY747 (CAS RN 33504-84-2), topramezone (CAS RN 2063-68-8), 4-hydroxy-3-[[2-[(2-methoxyethoxy)methyl]-6-(trifluoro-methyl)-3-pyridi-nyl]carbonyl]-bicyclo[3.2]oct-3-en-2-one (CAS RN 35200-68-5), and 4-hydroxy-3-[[2-(3-methoxypropyl)-6-(difluoromethyl)-3-pyridinyl]carbon-yl]-bicyclo[3.2.]oct-3-en-2-one. Additionally, including herbicidal compounds of unspecified modes of action as described in CN101279950A, CN101279951A, DE10000600A1, DE10116399A1, DE102004054666A1, DE102005014638A1, DE102005014906A1, DE102007012168A1, DE102010042866A1, DE10204951A1, DE10234875A1, DE10234876A1, DE10256353A1, DE10256354A1, DE10256367A1, EP1157991A2, EP1238586A1, EP2147919A1, EP2160098A2, JP03968012B2, JP2001253874A, JP2002080454A, JP2002138075A, JP2002145707A, JP2002220389A, JP2003064059A, JP2003096059A, JP2004051628A, JP2004107228A, JP2005008583A, JP2005239675A, JP2005314407A, JP2006232824A, JP2006282552A, JP2007153847A, JP2007161701A, JP2007182404A, JP2008074840A, JP2008074841A, JP2008133207A, JP2008133218A, JP2008169121A, JP2009067739A, JP2009114128A, JP2009126792A, JP2009137851A, US20060111241A1, US20090036311A1, US20090054240A1, US20090215628A1, US20100099561A1, US20100152443A1, US20110105329A1, US20110201501A1, WO2001055066A2, WO2001056975A1, WO2001056979A1, WO2001090071A2, WO2001090080A1, WO2002002540A1, WO2002028182A1, WO2002040473A1, WO2002044173A2, WO2003000679A2, WO2003006422A1, WO2003013247A1, WO2003016308A1, WO2003020704A1, WO2003022051A1, WO2003022831A1, WO2003022843A1, WO2003029243A2, WO2003037085A1, WO2003037878A1, WO2003045878A2, WO2003050087A2, WO2003051823A1, WO2003051824A1, WO2003051846A2, WO2003076409A1, WO2003087067A1, WO2003090539A1, WO2003091217A1, WO2003093269A2, WO2003104206A2, WO2004002947A1, WO2004002981A2, WO2004011429A1, WO2004029060A1, WO2004035545A2, WO2004035563A1, WO2004035564A1, WO2004037787A1, WO2004067518A1, WO2004067527A1, WO2004077950A1, WO2005000824A1, WO2005007627A1, WO2005040152A1, WO2005047233A1, WO2005047281A1, WO2005061443A2, WO2005061464A1, WO2005068434A1, WO2005070889A1, WO2005089551A1, WO2005095335A1, WO2006006569A1, WO2006024820A1, WO2006029828A1, WO2006029829A1, WO2006037945A1, WO2006050803A1, WO2006090792A1, WO2006123088A2, WO2006125687A1, WO2006125688A1, WO2007003294A1, WO2007026834A1, WO2007071900A1, WO2007077201A1, WO2007077247A1, WO2007096576A1, WO2007119434A1, WO2007134984A1, WO2008009908A1, WO2008029084A1, WO2008059948A1, WO2008071918A1, WO2008074991A1, WO2008084073A1, WO2008100426A2, WO2008102908A1, WO2008152072A2, WO2008152073A2, WO2009000757A1, WO2009005297A2, WO2009035150A2, WO2009063180A1, WO2009068170A2, WO2009068171A2, WO2009086041A1, WO2009090401A2, WO2009090402A2, WO2009115788A1, WO2009116558A1, WO2009152995A1, WO2009158258A1, WO2010012649A1, WO2010012649A1, WO2010026989A1, WO2010034153A1, WO2010049270A1, WO2010049369A1, WO2010049405A1, WO2010049414A1, WO2010063422A1, WO2010069802A1, WO2010078906A2, WO2010078912A1, WO2010104217A1, WO2010108611A1, WO2010112826A3, WO2010116122A3, WO2010119906A1, WO2010130970A1, WO2011003776A2, WO2011035874A1, WO2011065451A1, all of which are incorporated herein by reference.

An agronomic field in need of plant control is treated by application of the composition of the present invention directly to the surface of the growing plants, such as by a spray. For example, the method is applied to control weeds in a field of crop plants by spraying the field with the composition. The composition can be provided as a tank mix, a sequential treatment of components (generally the polynucleotide containing composition followed by the herbicide), or a simultaneous treatment or mixing of one or more of the components of the composition from separate containers. Treatment of the field can occur as often as needed to provide weed control and the components of the composition can be adjusted to target specific weed species or weed families through utilization of specific polynucleotides or polynucleotide compositions capable of selectively targeting the specific species or plant family to be controlled. The composition can be applied at effective use rates according to the time of application to the field, for example, preplant, at planting, post planting, post harvest. ACCase inhibitor herbicides can be applied to a field at rates of 10 to 500 g ai/ha (active ingredient per hectare) or more. The polynucleotides of the composition can be applied at rates of 1 to 30 grams per acre depending on the number of trigger molecules needed for the scope of weeds in the field.

Crop plants in which weed control is needed include but are not limited to, i) corn, soybean, cotton, canola, sugar beet, alfalfa, sugarcane, rice, and wheat; ii) vegetable plants including, but not limited to, tomato, sweet pepper, hot pepper, melon, watermelon, cucumber, eggplant, cauliflower, broccoli, lettuce, spinach, onion, peas, carrots, sweet corn, Chinese cabbage, leek, fennel, pumpkin, squash or gourd, radish, Brussels sprouts, tomatillo, garden beans, dry beans, or okra; iii) culinary plants including, but not limited to, basil, parsley, coffee, or tea; or, iv) fruit plants including but not limited to apple, pear, cherry, peach, plum, apricot, banana, plantain, table grape, wine grape, citrus, avocado, mango, or berry; v) a tree grown for ornamental or commercial use, including, but not limited to, a fruit or nut tree; or, vi) an ornamental plant (e.g., an ornamental flowering plant or shrub or turf grass). The methods and compositions provided herein can also be applied to plants produced by a cutting, cloning, or grafting process (i.e., a plant not grown from a seed) include fruit trees and plants that include, but are not limited to, citrus, apples, avocados, tomatoes, eggplant, cucumber, melons, watermelons, and grapes as well as various ornamental plants.

Pesticidal Mixtures

The polynucleotide compositions may also be used as mixtures with various agricultural chemicals and/or insecticides, miticides and fungicides, pesticidal and biopesticidal agents. Examples include but are not limited to azinphos-methyl, acephate, isoxathion, isofenphos, ethion, etrimfos, oxydemeton-methyl, oxydeprofos, quinalphos, chlorpyrifos, chlorpyrifos-methyl, chlorfenvinphos, cyanophos, dioxabenzofos, dichlorvos, disulfoton, dimethylvinphos, dimethoate, sulprofos, diazinon, thiometon, tetrachlorvinphos, temephos, tebupirimfos, terbufos, naled, vamidothion, pyraclofos, pyridafenthion, pirimiphos-methyl, fenitrothion, fenthion, phenthoate, flupyrazophos, prothiofos, propaphos, profenofos, phoxime, phosalone, phosmet, formothion, phorate, malathion, mecarbam, mesulfenfos, methamidophos, methidathion, parathion, methyl parathion, monocrotophos, trichlorphon, EPN, isazophos, isamidofos, cadusafos, diamidaphos, dichlofenthion, thionazin, fenamiphos, fosthiazate, fosthietan, phosphocarb, DSP, ethoprophos, alanycarb, aldicarb, isoprocarb, ethiofencarb, carbaryl, carbosulfan, xylylcarb, thiodicarb, pirimicarb, fenobucarb, furathiocarb, propoxur, bendiocarb, benfuracarb, methomyl, metolcarb, XMC, carbofuran, aldoxycarb, oxamyl, acrinathrin, allethrin, esfenvalerate, empenthrin, cycloprothrin, cyhalothrin, gamma-cyhalothrin, lambda-cyhalothrin, cyfluthrin, beta-cyfluthrin, cypermethrin, alpha-cypermethrin, zeta-cypermethrin, silafluofen, tetramethrin, tefluthrin, deltamethrin, tralomethrin, bifenthrin, phenothrin, fenvalerate, fenpropathrin, furamethrin, prallethrin, flucythrinate, fluvalinate, flubrocythrinate, permethrin, resmethrin, ethofenprox, cartap, thiocyclam, bensultap, acetamiprid, imidacloprid, clothianidin, dinotefuran, thiacloprid, thiamethoxam, nitenpyram, chlorfluazuron, diflubenzuron, teflubenzuron, triflumuron, novaluron, noviflumuron, bistrifluoron, fluazuron, flucycloxuron, flufenoxuron, hexaflumuron, lufenuron, chromafenozide, tebufenozide, halofenozide, methoxyfenozide, diofenolan, cyromazine, pyriproxyfen, buprofezin, methoprene, hydroprene, kinoprene, triazamate, endosulfan, chlorfenson, chlorobenzilate, dicofol, bromopropylate, acetoprole, fipronil, ethiprole, pyrethrin, rotenone, nicotine sulphate, BT (Bacillus Thuringiensis) agent, spinosad, abamectin, acequinocyl, amidoflumet, amitraz, etoxazole, chinomethionat, clofentezine, fenbutatin oxide, dienochlor, cyhexatin, spirodiclofen, spiromesifen, tetradifon, tebufenpyrad, binapacryl, bifenazate, pyridaben, pyrimidifen, fenazaquin, fenothiocarb, fenpyroximate, fluacrypyrim, fluazinam, flufenzin, hexythiazox, propargite, benzomate, polynactin complex, milbemectin, lufenuron, mecarbam, methiocarb, mevinphos, halfenprox, azadirachtin, diafenthiuron, indoxacarb, emamectin benzoate, potassium oleate, sodium oleate, chlorfenapyr, tolfenpyrad, pymetrozine, fenoxycarb, hydramethylnon, hydroxy propyl starch, pyridalyl, flufenerim, flubendiamide, flonicamid, metaflumizole, lepimectin, TPIC, albendazole, oxibendazole, oxfendazole, trichlamide, fensulfothion, fenbendazole, levamisole hydrochloride, morantel tartrate, dazomet, metam-sodium, triadimefon, hexaconazole, propiconazole, ipconazole, prochloraz, triflumizole, tebuconazole, epoxiconazole, difenoconazole, flusilazole, triadimenol, cyproconazole, metconazole, fluquinconazole, bitertanol, tetraconazole, triticonazole, flutriafol, penconazole, diniconazole, fenbuconazole, bromuconazole, imibenconazole, simeconazole, myclobutanil, hymexazole, imazalil, furametpyr, thifluzamide, etridiazole, oxpoconazole, oxpoconazole fumarate, pefurazoate, prothioconazole, pyrifenox, fenarimol, nuarimol, bupirimate, mepanipyrim, cyprodinil, pyrimethanil, metalaxyl, mefenoxam, oxadixyl, benalaxyl, thiophanate, thiophanate-methyl, benomyl, carbendazim, fuberidazole, thiabendazole, manzeb, propineb, zineb, metiram, maneb, ziram, thiuram, chlorothalonil, ethaboxam, oxycarboxin, carboxin, flutolanil, silthiofam, mepronil, dimethomorph, fenpropidin, fenpropimorph, spiroxamine, tridemorph, dodemorph, flumorph, azoxystrobin, kresoxim-methyl, metominostrobin, orysastrobin, fluoxastrobin, trifloxystrobin, dimoxystrobin, pyraclostrobin, picoxystrobin, iprodione, procymidone, vinclozolin, chlozolinate, flusulfamide, dazomet, methyl isothiocyanate, chloropicrin, methasulfocarb, hydroxyisoxazole, potassium hydroxyisoxazole, echlomezol, D-D, carbam, basic copper chloride, basic copper sulfate, copper nonylphenolsulfonate, oxine copper, DBEDC, anhydrous copper sulfate, copper sulfate pentahydrate, cupric hydroxide, inorganic sulfur, wettable sulfur, lime sulfur, zinc sulfate, fentin, sodium hydrogen carbonate, potassium hydrogen carbonate, sodium hypochlorite, silver, edifenphos, tolclofos-methyl, fosetyl, iprobenfos, dinocap, pyrazophos, carpropamid, fthalide, tricyclazole, pyroquilon, diclocymet, fenoxanil, kasugamycin, validamycin, polyoxins, blasticiden S, oxytetracycline, mildiomycin, streptomycin, rape seed oil, machine oil, benthiavalicarbisopropyl, iprovalicarb, propamocarb, diethofencarb, fluoroimide, fludioxanil, fenpiclonil, quinoxyfen, oxolinic acid, chlorothalonil, captan, folpet, probenazole, acibenzolar-S-methyl, tiadinil, cyflufenamid, fenhexamid, diflumetorim, metrafenone, picobenzamide, proquinazid, famoxadone, cyazofamid, fenamidone, zoxamide, boscalid, cymoxanil, dithianon, fluazinam, dichlofluanide, triforine, isoprothiolane, ferimzone, diclomezine, tecloftalam, pencycuron, chinomethionat, iminoctadine acetate, iminoctadine albesilate, ambam, polycarbamate, thiadiazine, chloroneb, nickel dimethyldithiocarbamate, guazatine, dodecylguanidine-acetate, quintozene, tolylfluanid, anilazine, nitrothalisopropyl, fenitropan, dimethirimol, benthiazole, harpin protein, flumetover, mandipropamide and penthiopyrad.

Polynucleotides

As used herein, the term “DNA”, “DNA molecule”, “DNA polynucleotide molecule” refers to a single-stranded DNA (ssDNA) or double-stranded DNA (dsDNA) molecule of genomic or synthetic origin, such as, a polymer of deoxyribonucleotide bases or a DNA polynucleotide molecule. As used herein, the term “DNA sequence”, “DNA nucleotide sequence” or “DNA polynucleotide sequence” refers to the nucleotide sequence of a DNA molecule. As used herein, the term “RNA”, “RNA molecule”, “RNA polynucleotide molecule” refers to a single-stranded RNA (ssRNA) or double-stranded RNA (dsRNA) molecule of genomic or synthetic origin, such as, a polymer of ribonucleotide bases that comprise single or double stranded regions. Unless otherwise stated, nucleotide sequences in the text of this specification are given, when read from left to right, in the 5′ to 3′ direction. The nomenclature used herein is that required by Title 37 of the United States Code of Federal Regulations §1.822 and set forth in the tables in WIPO Standard ST.25 (1998), Appendix 2, Tables 1 and 3.

As used herein, “polynucleotide” refers to a DNA or RNA molecule containing multiple nucleotides and generally refers both to “oligonucleotides” (a polynucleotide molecule of typically 50 or fewer nucleotides in length) and polynucleotides of 51 or more nucleotides. Embodiments of this invention include compositions including oligonucleotides having a length of 18-25 nucleotides (18-mers, 19-mers, 20-mers, 21-mers, 22-mers, 23-mers, 24-mers, or 25-mers), for example, oligonucleotides SEQ ID NO:3901-4530 or fragments thereof or medium-length polynucleotides having a length of 26 or more nucleotides (polynucleotides of 26, 27, 28, 29, 30, 307, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, about 65, about 70, about 75, about 80, about 85, about 90, about 95, about 100, about 110, about 120, about 130, about 140, about 150, about 160, about 170, about 180, about 190, about 200, about 210, about 220, about 230, about 240, about 250, about 260, about 270, about 280, about 290, or about 300 nucleotides), for example, oligonucleotides SEQ ID NO:93-3900 or fragments thereof or long polynucleotides having a length greater than about 300 nucleotides (for example, polynucleotides of between about 300 to about 400 nucleotides, between about 400 to about 500 nucleotides, between about 500 to about 600 nucleotides, between about 600 to about 700 nucleotides, between about 700 to about 800 nucleotides, between about 800 to about 900 nucleotides, between about 900 to about 1000 nucleotides, between about 300 to about 500 nucleotides, between about 300 to about 600 nucleotides, between about 300 to about 700 nucleotides, between about 300 to about 800 nucleotides, between about 300 to about 900 nucleotides, or about 1000 nucleotides in length, or even greater than about 1000 nucleotides in length, for example up to the entire length of a target gene including coding or non-coding or both coding and non-coding portions of the target gene), for example, polynucleotides of Table 1 (SEQ ID NO:1-93) wherein the selected polynucleotides or fragments thereof are homologous or complementary to SEQ ID NO:1-93 suppresses, represses or otherwise delay the expression of the target ACCase gene. A target gene comprises any polynucleotide molecule in a plant cell or fragment thereof for which the modulation of the expression of the target gene is provided by the methods and compositions of the present invention. Where a polynucleotide is double-stranded, its length can be similarly described in terms of base pairs. Oligonucleotides and polynucleotides of the present invention can be made that are essentially identical or essentially complementary to adjacent genetic elements of a gene, for example, spanning the junction region of an intron and exon, the junction region of a promoter and a transcribed region, the junction region of a 5′ leader and a coding sequence, the junction of a 3′ untranslated region and a coding sequence.

Polynucleotide compositions used in the various embodiments of this invention include compositions including oligonucleotides or polynucleotides or a mixture of both, including RNA or DNA or RNA/DNA hybrids or chemically modified oligonucleotides or polynucleotides or a mixture thereof. In some embodiments, the polynucleotide may be a combination of ribonucleotides and deoxyribonucleotides, for example, synthetic polynucleotides consisting mainly of ribonucleotides but with one or more terminal deoxyribonucleotides or synthetic polynucleotides consisting mainly of deoxyribonucleotides but with one or more terminal dideoxyribonucleotides. In some embodiments, the polynucleotide includes non-canonical nucleotides such as inosine, thiouridine, or pseudouridine. In some embodiments, the polynucleotide includes chemically modified nucleotides. Examples of chemically modified oligonucleotides or polynucleotides are well known in the art; see, for example, US Patent Publication 20110171287, US Patent Publication 20110171176, and US Patent Publication 20110152353, US Patent Publication, 20110152346, US Patent Publication 20110160082, herein incorporated by reference. For example, including but not limited to the naturally occurring phosphodiester backbone of an oligonucleotide or polynucleotide can be partially or completely modified with phosphorothioate, phosphorodithioate, or methylphosphonate internucleotide linkage modifications, modified nucleoside bases or modified sugars can be used in oligonucleotide or polynucleotide synthesis, and oligonucleotides or polynucleotides can be labeled with a fluorescent moiety (for example, fluorescein or rhodamine) or other label (for example, biotin).

The polynucleotides can be single- or double-stranded RNA or single- or double-stranded DNA or double-stranded DNA/RNA hybrids or modified analogues thereof, and can be of oligonucleotide lengths or longer. In more specific embodiments of the invention the polynucleotides that provide single-stranded RNA in the plant cell are selected from the group consisting of (a) a single-stranded RNA molecule (ssRNA), (b) a single-stranded RNA molecule that self-hybridizes to form a double-stranded RNA molecule, (c) a double-stranded RNA molecule (dsRNA), (d) a single-stranded DNA molecule (ssDNA), (e) a single-stranded DNA molecule that self-hybridizes to form a double-stranded DNA molecule, and (f) a single-stranded DNA molecule including a modified Pol III gene that is transcribed to an RNA molecule, (g) a double-stranded DNA molecule (dsDNA), (h) a double-stranded DNA molecule including a modified Pol III gene that is transcribed to an RNA molecule, (i) a double-stranded, hybridized RNA/DNA molecule, or combinations thereof. In some embodiments these polynucleotides include chemically modified nucleotides or non-canonical nucleotides. In some embodiments, the oligonucleotides may be blunt-ended or may comprise a 3′ overhang of from 1-5 nucleotides of at least one or both of the strands. Other configurations of the oligonucleotide are known in the field and are contemplated herein. In embodiments of the method the polynucleotides include double-stranded DNA formed by intramolecular hybridization, double-stranded DNA formed by intermolecular hybridization, double-stranded RNA formed by intramolecular hybridization, or double-stranded RNA formed by intermolecular hybridization. In one embodiment the polynucleotides include single-stranded DNA or single-stranded RNA that self-hybridizes to form a hairpin structure having an at least partially double-stranded structure including at least one segment that will hybridize to RNA transcribed from the gene targeted for suppression. Not intending to be bound by any mechanism, it is believed that such polynucleotides are or will produce single-stranded RNA with at least one segment that will hybridize to RNA transcribed from the gene targeted for suppression. In certain other embodiments the polynucleotides further includes a promoter, generally a promoter functional in a plant, for example, a pol II promoter, a pol III promoter, a pol IV promoter, or a pol V promoter.

The term “gene” refers to chromosomal DNA, plasmid DNA, cDNA, intron and exon DNA, artificial DNA polynucleotide, or other DNA that encodes a peptide, polypeptide, protein, or RNA transcript molecule, and the genetic elements flanking the coding sequence that are involved in the regulation of expression, such as, promoter regions, 5′ leader regions, 3′ untranslated regions. Any of the components of the gene are potential targets for the oligonucleotides and polynucleotides of the present invention.

The polynucleotide molecules of the present invention are designed to modulate expression by inducing regulation or suppression of an endogenous ACCase gene in a plant and are designed to have a nucleotide sequence essentially identical or essentially complementary to the nucleotide sequence of an endogenous ACCase gene of a plant or to the sequence of RNA transcribed from an endogenous ACCase gene of a plant, including a transgene in a plant that provides for a herbicide resistant ACCase enzyme, which can be coding sequence or non-coding sequence. Effective molecules that modulate expression are referred to as “a trigger molecule, or trigger polynucleotide”. By “essentially identical” or “essentially complementary” is meant that the trigger polynucleotides (or at least one strand of a double-stranded polynucleotide or portion thereof, or a portion of a single strand polynucleotide) are designed to hybridize to the endogenous gene noncoding sequence or to RNA transcribed (known as messenger RNA or an RNA transcript) from the endogenous gene to effect regulation or suppression of expression of the endogenous gene. Trigger molecules are identified by “tiling” the gene targets with partially overlapping probes or non-overlapping probes of antisense or sense polynucleotides that are essentially identical or essentially complementary to the nucleotide sequence of an endogenous gene. Multiple target sequences can be aligned and sequence regions with homology in common, according to the methods of the present invention, are identified as potential trigger molecules for the multiple targets. Multiple trigger molecules of various lengths, for example 18-25 nucleotides, 26-50 nucleotides, 51-100 nucleotides, 101-200 nucleotides, 201-300 nucleotides or more can be pooled into a few treatments in order to investigate polynucleotide molecules that cover a portion of a gene sequence (for example, a portion of a coding versus a portion of a noncoding region, or a 5′ versus a 3′ portion of a gene) or an entire gene sequence including coding and noncoding regions of a target gene. Polynucleotide molecules of the pooled trigger molecules can be divided into smaller pools or single molecules inorder to identify trigger molecules that provide the desired effect.

The target gene RNA and DNA polynucleotide molecules (Table 1, SEQ ID NO: 1-93) are sequenced by any number of available methods and equipment. Some of the sequencing technologies are available commercially, such as the sequencing-by-hybridization platform from Affymetrix Inc. (Sunnyvale, Calif.) and the sequencing-by-synthesis platforms from 454 Life Sciences (Bradford, Conn.), Illumina/Solexa (Hayward, Calif.) and Helicos Biosciences (Cambridge, Mass.), and the sequencing-by-ligation platform from Applied Biosystems (Foster City, Calif.), as described below. In addition to the single molecule sequencing performed using sequencing-by-synthesis of Helicos Biosciences, other single molecule sequencing technologies are encompassed by the method of the invention and include the SMRT™ technology of Pacific Biosciences, the Ion Torrent™ technology, and nanopore sequencing being developed for example, by Oxford Nanopore Technologies. An ACCase target gene comprising DNA or RNA can be isolated using primers or probes essentially complementary or essentially homologous to SEQ ID NO:1-93 or a fragment thereof. A polymerase chain reaction (PCR) gene fragment can be produced using primers essentially complementary or essentially homologous to SEQ ID NO:1-93 or a fragment thereof that is useful to isolate an ACCase gene from a plant genome. SEQ ID NO: 1-93 or fragments thereof can be used in various sequence capture technologies to isolate additional target gene sequences, for example, including but not limited to Roche NimbleGen® (Madison, Wis.) and Streptavdin-coupled Dynabeads® (Life Technologies, Grand Island, N.Y.) and US20110015084, herein incorporated by reference in its entirety.

Embodiments of functional single-stranded polynucleotides have sequence complementarity that need not be 100 percent, but is at least sufficient to permit hybridization to RNA transcribed from the target gene or DNA of the target gene to form a duplex to permit a gene silencing mechanism. Thus, in embodiments, a polynucleotide fragment is designed to be essentially identical to, or essentially complementary to, a sequence of 18 or more contiguous nucleotides in either the target ACCase gene sequence or messenger RNA transcribed from the target gene. By “essentially identical” is meant having 100 percent sequence identity or at least about 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, or 99 percent sequence identity when compared to the sequence of 18 or more contiguous nucleotides in either the target gene or RNA transcribed from the target gene; by “essentially complementary” is meant having 100 percent sequence complementarity or at least about 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, or 99 percent sequence complementarity when compared to the sequence of 18 or more contiguous nucleotides in either the target gene or RNA transcribed from the target gene. In some embodiments of this invention polynucleotide molecules are designed to have 100 percent sequence identity with or complementarity to one allele or one family member of a given target gene (coding or non-coding sequence of a gene for of the present invention); in other embodiments the polynucleotide molecules are designed to have 100 percent sequence identity with or complementarity to multiple alleles or family members of a given target gene.

In certain embodiments, the polynucleotides used in the compositions that are essentially identical or essentially complementary to the target gene or transcript will comprise the predominant nucleic acid in the composition. Thus in certain embodiments, the polynucleotides that are essentially identical or essentially complementary to the target gene or transcript will comprise at least about 50%, 75%, 95%, 98% or 100% of the nucleic acids provided in the composition by either mass or molar concentration. However, in certain embodiments, the polynucleotides that are essentially identical or essentially complementary to the target gene or transcript can comprise at least about 1% to about 50%, about 10% to about 50%, about 20% to about 50%, or about 30% to about 50% of the nucleic acids provided in the composition by either mass or molar concentration. Also provided are compositions where the polynucleotides that are essentially identical or essentially complementary to the target gene or transcript can comprise at least about 1% to 100%, about 10% to 100%, about 20% to about 100%, about 30% to about 50%, or about 50% to a 100% of the nucleic acids provided in the composition by either mass or molar concentration.

“Identity” refers to the degree of similarity between two polynucleic acid or protein sequences. An alignment of the two sequences is performed by a suitable computer program. A widely used and accepted computer program for performing sequence alignments is CLUSTALW v1.6 (Thompson, et al. Nucl. Acids Res., 22: 4673-4680, 1994). The number of matching bases or amino acids is divided by the total number of bases or amino acids, and multiplied by 100 to obtain a percent identity. For example, if two 580 base pair sequences had 145 matched bases, they would be 25 percent identical. If the two compared sequences are of different lengths, the number of matches is divided by the shorter of the two lengths. For example, if there are 100 matched amino acids between a 200 and a 400 amino acid protein, they are 50 percent identical with respect to the shorter sequence. If the shorter sequence is less than 150 bases or 50 amino acids in length, the number of matches are divided by 150 (for nucleic acid bases) or 50 (for amino acids), and multiplied by 100 to obtain a percent identity.

Trigger molecules for specific gene family members can be identified from coding and/or non-coding sequences of gene families of a plant or multiple plants, by aligning and selecting 200-300 polynucleotide fragments from the least homologous regions amongst the aligned sequences and evaluated using topically applied polynucleotides (as sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA) to determine their relative effectiveness in inducing the herbicidal phenotype. The effective segments are further subdivided into 50-60 polynucleotide fragments, prioritized by least homology, and reevaluated using topically applied polynucleotides. The effective 50-60 polynucleotide fragments are subdivided into 19-30 polynucleotide fragments, prioritized by least homology, and again evaluated for induction of the yield/quality phenotype. Once relative effectiveness is determined, the fragments are utilized singly, or again evaluated in combination with one or more other fragments to determine the trigger composition or mixture of trigger polynucleotides for providing the yield/quality phenotype.

Trigger molecules for broad activity can be identified from coding and/or non-coding sequences of gene families of a plant or multiple plants, by aligning and selecting 200-300 polynucleotide fragments from the most homologous regions amongst the aligned sequences and evaluated using topically applied polynucleotides (as sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA) to determine their relative effectiveness in inducing the yield/quality phenotype. The effective segments are subdivided into 50-60 polynucleotide fragments, prioritized by most homology, and reevaluated using topically applied polynucleotides. The effective 50-60 polynucleotide fragments are subdivided into 19-30 polynucleotide fragments, prioritized by most homology, and again evaluated for induction of the yield/quality phenotype. Once relative effectiveness is determined, the fragments may be utilized singly, or in combination with one or more other fragments to determine the trigger composition or mixture of trigger polynucleotides for providing the yield/quality phenotype.

Methods of making polynucleotides are well known in the art. Chemical synthesis, in vivo synthesis and in vitro synthesis methods and compositions are known in the art and include various viral elements, microbial cells, modified polymerases, and modified nucleotides. Commercial preparation of oligonucleotides often provides two deoxyribonucleotides on the 3′ end of the sense strand. Long polynucleotide molecules can be synthesized from commercially available kits, for example, kits from Applied Biosystems/Ambion (Austin, Tex.) have DNA ligated on the 5′ end in a microbial expression cassette that includes a bacterial T7 polymerase promoter that makes RNA strands that can be assembled into a dsRNA and kits provided by various manufacturers that include T7 RiboMax Express (Promega, Madison, Wis.), AmpliScribe T7-Flash (Epicentre, Madison, Wis.), and TranscriptAid T7 High Yield (Fermentas, Glen Burnie, Md.). dsRNA molecules can be produced from microbial expression cassettes in bacterial cells (Ongvarrasopone et al. ScienceAsia 33:35-39; Yin, Appl. Microbiol. Biotechnol 84:323-333, 2009; Liu et al., BMC Biotechnology 10:85, 2010) that have regulated or deficient RNase III enzyme activity or the use of various viral vectors to produce sufficient quantities of dsRNA. In the present invention, ACCase gene fragments are inserted into the microbial expression cassettes in a position in which the fragments are express to produce ssRNA or dsRNA useful in the methods described herein to regulate expression on a target ACCase gene. In some embodiments design parameters such as Reynolds score (Reynolds et al. Nature Biotechnology 22, 326-330 (2004), Tuschl rules (Pei and Tuschl, Nature Methods 3(9): 670-676, 2006), i-score (Nucleic Acids Res 35: e123, 2007), i-Score Designer tool and associated algorithms (Nucleic Acids Res 32: 936-948, 2004. Biochem Biophys Res Commun 316: 1050-1058, 2004, Nucleic Acids Res 32: 893-901, 2004, Cell Cycle 3: 790-5, 2004, Nat Biotechnol 23: 995-1001, 2005, Nucleic Acids Res 35: e27, 2007, BMC Bioinformatics 7: 520, 2006, Nucleic Acids Res 35: e123, 2007, Nat Biotechnol 22: 326-330, 2004) are known in the art and may be used in selecting polynucleotide sequences effective in gene silencing. In some embodiments the sequence of a polynucleotide is screened against the genomic DNA of the intended plant to minimize unintentional silencing of other genes.

The trigger polynucleotide and oligonucleotide molecule polynucleotide compositions are useful in compositions, such as liquids that comprise these of polynucleotide molecules, at low concentrations, alone or in combination with other components, for example one or more herbicide molecules, either in the same solution or in separately applied liquids that also provide a transfer agent. While there is no upper limit on the concentrations and dosages of polynucleotide molecules that can useful in the methods of this invention, lower effective concentrations and dosages will generally be sought for efficiency. The concentrations can be adjusted in consideration of the volume of spray or treatment applied to plant leaves or other plant part surfaces, such as flower petals, stems, tubers, fruit, anthers, pollen, or seed. In one embodiment, a useful treatment for herbaceous plants using 25-mer oligonucleotide molecules is about 1 nanomole (nmol) of oligonucleotide molecules per plant, for example, from about 0.05 to 1 nmol per plant. Other embodiments for herbaceous plants include useful ranges of about 0.05 to about 100 nmol, or about 0.1 to about 20 nmol, or about 1 nmol to about 10 nmol of polynucleotides per plant. Very large plants, trees, or vines may require correspondingly larger amounts of polynucleotides. When using long dsRNA molecules that can be processed into multiple oligonucleotides, lower concentrations can be used. To illustrate embodiments of the invention, the factor 1×, when applied to oligonucleotide molecules is arbitrarily used to denote a treatment of 0.8 nmol of polynucleotide molecule per plant; 10×, 8 nmol of polynucleotide molecule per plant; and 100×, 80 nmol of polynucleotide molecule per plant.

The polynucleotide compositions of this invention are useful in compositions, such as liquids that comprise polynucleotide molecules, alone or in combination with other components either in the same liquid or in separately applied liquids that provide a transfer agent. As used herein, a transfer agent is an agent that, when combined with a polynucleotide in a composition that is topically applied to a target plant surface, enables the polynucleotide to enter a plant cell. In certain embodiments, a transfer agent is an agent that conditions the surface of plant tissue, e.g., leaves, stems, roots, flowers, or fruits, to permeation by the polynucleotide molecules into plant cells. The transfer of polynucleotides into plant cells can be facilitated by the prior or contemporaneous application of a polynucleotide-transferring agent to the plant tissue. In some embodiments the transferring agent is applied subsequent to the application of the polynucleotide composition. The polynucleotide transfer agent enables a pathway for polynucleotides through cuticle wax barriers, stomata and/or cell wall or membrane barriers into plant cells. Suitable transfer agents to facilitate transfer of the polynucleotide into a plant cell include agents that increase permeability of the exterior of the plant or that increase permeability of plant cells to oligonucleotides or polynucleotides. Such agents to facilitate transfer of the composition into a plant cell include a chemical agent, or a physical agent, or combinations thereof. Chemical agents for conditioning or transfer include (a) surfactants, (b) an organic solvent or an aqueous solution or aqueous mixtures of organic solvents, (c) oxidizing agents, (d) acids, (e) bases, (f) oils, (g) enzymes, or combinations thereof. Embodiments of the method can optionally include an incubation step, a neutralization step (e.g., to neutralize an acid, base, or oxidizing agent, or to inactivate an enzyme), a rinsing step, or combinations thereof. Embodiments of agents or treatments for conditioning of a plant to permeation by polynucleotides include emulsions, reverse emulsions, liposomes, and other micellar-like compositions. Embodiments of agents or treatments for conditioning of a plant to permeation by polynucleotides include counter-ions or other molecules that are known to associate with nucleic acid molecules, e.g., inorganic ammonium ions, alkyl ammonium ions, lithium ions, polyamines such as spermine, spermidine, or putrescine, and other cations. Organic solvents useful in conditioning a plant to permeation by polynucleotides include DMSO, DMF, pyridine, N-pyrrolidine, hexamethylphosphoramide, acetonitrile, dioxane, polypropylene glycol, other solvents miscible with water or that will dissolve phosphonucleotides in non-aqueous systems (such as is used in synthetic reactions). Naturally derived or synthetic oils with or without surfactants or emulsifiers can be used, e.g., plant-sourced oils, crop oils (such as those listed in the 9^th Compendium of Herbicide Adjuvants, publicly available on the worldwide web (internet) at herbicide.adjuvants.com can be used, e.g., paraffinic oils, polyol fatty acid esters, or oils with short-chain molecules modified with amides or polyamines such as polyethyleneimine or N-pyrrolidine. Transfer agents include, but are not limited to, organosilicone preparations.

In certain embodiments, an organosilicone preparation that is commercially available as Silwet® L-77 surfactant having CAS Number 27306-78-1 and EPA Number: CAL.REG.NO. 5905-50073-AA, and currently available from Momentive Performance Materials, Albany, N.Y. can be used to prepare a polynucleotide composition. In certain embodiments where a Silwet L-77 organosilicone preparation is used as a pre-spray treatment of plant leaves or other plant surfaces, freshly made concentrations in the range of about 0.015 to about 2 percent by weight (wt percent) (e.g., about 0.01, 0.015, 0.02, 0.025, 0.03, 0.035, 0.04, 0.045, 0.05, 0.055, 0.06, 0.065, 0.07, 0.075, 0.08, 0.085, 0.09, 0.095, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.5 wt percent) are efficacious in preparing a leaf or other plant surface for transfer of polynucleotide molecules into plant cells from a topical application on the surface. In certain embodiments of the methods and compositions provided herein, a composition that comprises a polynucleotide molecule and an organosilicone preparation comprising Silwet L-77 in the range of about 0.015 to about 2 percent by weight (wt percent) (e.g., about 0.01, 0.015, 0.02, 0.025, 0.03, 0.035, 0.04, 0.045, 0.05, 0.055, 0.06, 0.065, 0.07, 0.075, 0.08, 0.085, 0.09, 0.095, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.5 wt percent) is used or provided.

In certain embodiments, any of the commercially available organosilicone preparations provided such as the following Breakthru S 321, Breakthru S 200 Cat#67674-67-3, Breakthru OE 441 Cat#68937-55-3, Breakthru S 278 Cat #27306-78-1, Breakthru S 243, Breakthru S 233 Cat#134180-76-0, available from manufacturer Evonik Goldschmidt (Germany), Silwet® HS 429, Silwet® HS 312, Silwet® HS 508, Silwet® HS 604 (Momentive Performance Materials, Albany, N.Y.) can be used as transfer agents in a polynucleotide composition. In certain embodiments where an organosilicone preparation is used as a pre-spray treatment of plant leaves or other surfaces, freshly made concentrations in the range of about 0.015 to about 2 percent by weight (wt percent) (e.g., about 0.01, 0.015, 0.02, 0.025, 0.03, 0.035, 0.04, 0.045, 0.05, 0.055, 0.06, 0.065, 0.07, 0.075, 0.08, 0.085, 0.09, 0.095, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.5 wt percent) are efficacious in preparing a leaf or other plant surface for transfer of polynucleotide molecules into plant cells from a topical application on the surface. In certain embodiments of the methods and compositions provided herein, a composition that comprises a polynucleotide molecule and an organosilicone preparation in the range of about 0.015 to about 2 percent by weight (wt percent) (e.g., about 0.01, 0.015, 0.02, 0.025, 0.03, 0.035, 0.04, 0.045, 0.05, 0.055, 0.06, 0.065, 0.07, 0.075, 0.08, 0.085, 0.09, 0.095, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.5 wt percent) is used or provided.

Organosilicone preparations used in the methods and compositions provided herein can comprise one or more effective organosilicone compounds. As used herein, the phrase “effective organosilicone compound” is used to describe any organosilicone compound that is found in an organosilicone preparation that enables a polynucleotide to enter a plant cell. In certain embodiments, an effective organosilicone compound can enable a polynucleotide to enter a plant cell in a manner permitting a polynucleotide mediated suppression of a target gene expression in the plant cell. In general, effective organosilicone compounds include, but are not limited to, compounds that can comprise: i) a trisiloxane head group that is covalently linked to, ii) an alkyl linker including, but not limited to, an n-propyl linker, that is covalently linked to, iii) a poly glycol chain, that is covalently linked to, iv) a terminal group. Trisiloxane head groups of such effective organosilicone compounds include, but are not limited to, heptamethyltrisiloxane. Alkyl linkers can include, but are not limited to, an n-propyl linker. Poly glycol chains include, but are not limited to, polyethylene glycol or polypropylene glycol. Poly glycol chains can comprise a mixture that provides an average chain length “n” of about “7.5”. In certain embodiments, the average chain length “n” can vary from about 5 to about 14. Terminal groups can include, but are not limited to, alkyl groups such as a methyl group. Effective organosilicone compounds are believed to include, but are not limited to, trisiloxane ethoxylate surfactants or polyalkylene oxide modified heptamethyl trisiloxane.

In certain embodiments, an organosilicone preparation that comprises an organosilicone compound comprising a trisiloxane head group is used in the methods and compositions provided herein. In certain embodiments, an organosilicone preparation that comprises an organosilicone compound comprising a heptamethyltrisiloxane head group is used in the methods and compositions provided herein. In certain embodiments, an organosilicone composition that comprises Compound I is used in the methods and compositions provided herein. In certain embodiments, an organosilicone composition that comprises Compound I is used in the methods and compositions provided herein. In certain embodiments of the methods and compositions provided herein, a composition that comprises a polynucleotide molecule and one or more effective organosilicone compound in the range of about 0.015 to about 2 percent by weight (wt percent) (e.g., about 0.01, 0.015, 0.02, 0.025, 0.03, 0.035, 0.04, 0.045, 0.05, 0.055, 0.06, 0.065, 0.07, 0.075, 0.08, 0.085, 0.09, 0.095, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.1, 2.2, 2.3, 2.5 wt percent) is used or provided.

Compositions include but are not limited components that are one or more polynucleotides essentially identical to, or essentially complementary to an ACCase gene sequence (promoter, intron, exon, 5′ untranslated region, 3′ untranslated region), a transfer agent that provides for the polynucleotide to enter a plant cell, a herbicide that complements the action of the polynucleotide, one or more additional herbicides that further enhance the herbicide activity of the composition or provide an additional mode of action different from the complementing herbicide, various salts and stabilizing agents that enhance the utility of the composition as an admixture of the components of the composition.

Methods include one or more applications of a polynucleotide composition and one or more applications of a permeability-enhancing agent for conditioning of a plant to permeation by polynucleotides. When the agent for conditioning to permeation is an organosilicone composition or compound contained therein, embodiments of the polynucleotide molecules are double-stranded RNA oligonucleotides, single-stranded RNA oligonucleotides, double-stranded RNA polynucleotides, single-stranded RNA polynucleotides, double-stranded DNA oligonucleotides, single-stranded DNA oligonucleotides, double-stranded DNA polynucleotides, single-stranded DNA polynucleotides, chemically modified RNA or DNA oligonucleotides or polynucleotides or mixtures thereof.

Compositions and methods are useful for modulating the expression of an endogenous ACCase gene (for example, U.S. Pat. No. 7,297,541, U.S. Patent Publ. 20110185444, and 20110185445) or transgenic ACCase gene (for example, U.S. Pat. No. 7,3072,379, U.S. Patent Publ. 20110191897) or ACCase inhibitor inactivating genes (U.S. Pat. Nos. 6,268,549; 6,768,044; 7,3072,379; 7,304,209; WO 96/38567, WO 99/24585) in a plant cell. In various embodiments, an ACCase gene includes coding (protein-coding or translatable) sequence, non-coding (non-translatable) sequence, or both coding and non-coding sequence. Compositions of the invention can include polynucleotides and oligonucleotides designed to target multiple genes, or multiple segments of one or more genes. The target gene can include multiple consecutive segments of a target gene, multiple non-consecutive segments of a target gene, multiple alleles of a target gene, or multiple target genes from one or more species.

An aspect of the invention provides a method for modulating expression of an ACCase gene in a plant including (a) conditioning of a plant to permeation by polynucleotides and (b) treatment of the plant with the polynucleotide molecules, wherein the polynucleotide molecules include at least one segment of 18 or more contiguous nucleotides cloned from or otherwise identified from the target ACCase gene in either anti-sense or sense orientation, whereby the polynucleotide molecules permeate the interior of the plant and induce modulation of the target gene. The conditioning and polynucleotide application can be performed separately or in a single step. When the conditioning and polynucleotide application are performed in separate steps, the conditioning can precede or can follow the polynucleotide application within minutes, hours, or days. In some embodiments more than one conditioning step or more than one polynucleotide molecule application can be performed on the same plant. In embodiments of the method, the segment can be cloned or identified from (a) coding (protein-encoding), (b) non-coding (promoter and other gene related molecules), or (c) both coding and non-coding parts of the target gene. Non-coding parts include DNA, such as promoter regions or the RNA transcribed by the DNA that provide RNA regulatory molecules, including but not limited to: introns, 5′ or 3′ untranslated regions, and microRNAs (miRNA), trans-acting siRNAs, natural anti-sense siRNAs, and other small RNAs with regulatory function or RNAs having structural or enzymatic function including but not limited to: ribozymes, ribosomal RNAs, t-RNAs, aptamers, and riboswitches.

All publications, patents and patent applications are herein incorporated by reference to the same extent as if each individual publication or patent application was specifically and individually indicated to be incorporated by reference.

The following examples are included to demonstrate examples of certain preferred embodiments of the invention. It should be appreciated by those of skill in the art that the techniques disclosed in the examples that follow represent approaches the inventors have found function well in the practice of the invention, and thus can be considered to constitute examples of preferred modes for its practice. However, those of skill in the art should, in light of the present disclosure, appreciate that many changes can be made in the specific embodiments that are disclosed and still obtain a like or similar result without departing from the spirit and scope of the invention.

EXAMPLES

Example 1

Polynucleotides Related to the ACCase Gene Sequences

The target ACCase polynucleotide molecule naturally occurs in the genome of Amaranthus palmeri, Amaranthus rudis, Amaranthsu chlorostachys, Amaranthus thunbergii, Amaranthus graecizans, Amaranthus hybridus, Amaranthus lividus, Amanaranthus spinosus, theophrasti, Ambrosia trifida, Commelina diffusa, Conyza candensis, Lolium multiflorum, Sorghum halepense, Xanthium strumarium, Euphorbia heterophylla, Kochia scoparia and Digitaria sanguinalis and include molecules related to the expression of a polypeptide identified as an ACCase, that include regulatory molecules, cDNAs comprising coding and noncoding regions of an ACCase gene and fragments thereof as shown in Table 1.

Polynucleotide molecules were extracted from these plant species by methods standard in the field, for example, total RNA is extracted using Trizol Reagent (Invitrogen Corp, Carlsbad, Calif. Cat. No. 15596-018), following the manufacturer's protocol or modifications thereof by those skilled in the art of polynucleotide extraction that may enhance recover or purity of the extracted RNA. Briefly, start with 1 gram of ground plant tissue for extraction. Prealiquot 10 milliliters (mL) Trizol reagent to 15 mL conical tubes. Add ground powder to tubes and shake to homogenize. Incubate the homogenized samples for 5 minutes (min) at room temperature (RT) and then add 3 mL of chloroform. Shakes tubes vigorously by hand for 15-30 seconds(sec) and incubate at RT for 3 min. Centrifuge the tubes at 7,000 revolutions per minute (rpm) for 10 min at 4 degrees C. Transfer the aqueous phase to a new 1.5 mL tube and add 1 volume of cold isopropanol. Incubate the samples for 20-30 min at RT and centrifuge at 10,000 rpm for 10 min at 4 degrees C. Wash pellet with Sigma-grade 80 percent ethanol. Remove the supernatant and briefly air-dry the pellet. Dissolve the RNA pellet in approximately 200 microliters of DEPC treated water. Heat briefly at 65 degrees C. to dissolve pellet and vortex or pipet to resuspend RNA pellet. Adjust RNA concentraiton to 1-2 microgram/microliter.

DNA was extracted using EZNA SP Plant DNA Mini kit (Omega Biotek, Norcross Ga., Cat#D5511) and Lysing Matrix E tubes (Q-Biogen, Cat#6914), following the manufacturer's protocol or modifications thereof by those skilled in the art of polynucleotide extraction that may enhance recover or purity of the extracted DNA. Briefly, aliquot ground tissue to a Lysing Matrix E tube on dry ice, add 800 μl Buffer SP1 to each sample, homogenize in a bead beater for 35-45 sec, incubate on ice for 45-60 sec, centrifuge at ≧14000 rpm for 1 min at RT, add 10 microliter RNase A to the lysate, incubate at 65° C. for 10 min, centrifuge for 1 min at RT, add 280 μl Buffer SP2 and vortex to mix, incubate the samples on ice for 5 min, centrifuge at ≧10,000 g for 10 min at RT, transfer the supernatant to a homogenizer column in a 2 ml collection tube, centrifuge at 10,000 g for 2 min at RT, transfer the cleared lysate into a 1.5 ml microfuge tube, add 1.5 volumes Buffer SP3 to the cleared lysate, vortex immediately to obtain a homogeneous mixture, transfer up to 650 μl supernatant to the Hi-Bind column, centrifuge at 10,000 g for 1 min, repeat, apply 100 μl 65° C. Elution Buffer to the column, centrifuge at 10,000 g for 5 min at RT.

Next-generation DNA sequencers, such as the 454-FLX (Roche, Branford, Conn.), the SOLiD (Applied Biosystems,), and the Genome Analyzer (HiSeq2000, Illumina, San Diego, Calif.) were used to provide polynucleotide sequence from the DNA and RNA extracted from the plant tissues. Raw sequence data is assembled into contigs. The contig sequence is used to identify trigger molecules that can be applied to the plant to enable regulation of the gene expression. The target DNA sequence isolated from genomic (gDNA) and coding DNA (cDNA) from the various weedy plant species for the ACCase gene and the assembled contigs as set forth in SEQ ID NOs 1-93 and Table 1.

Example 2

Polynucleotides of the Invention Related to the Trigger Molecules

The gene sequences and fragments of Table 1 were divided into 200 polynucleotide (200-mer) lengths with 25 polynucleotide overlapping regions (SEQ ID NO:93-3900). These polynucleotides are tested to select the most efficacious trigger regions across the length of any target sequence. The trigger polynucleotides are constructed as sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA, or dsDNA/RNA hybrids and combined with an organosilicone based transfer agent to provide a polynucleotide preparation. The polynucleotides are combined into sets of two to three polynucleotides per set, using 4-8 nmol of each polynucleotide. Each polynucleotide set is prepared with the transfer agent and applied to a plant or a field of plants in combination with a ACCase inhibitor containing herbicide, or followed by a ACCase inhibitor treatment one to three days after the polynucleotide application, to determine the effect on the plant's susceptibility to an ACCase inhibitor. The effect is measured as stunting the growth and/or killing of the plant and is measured 8-14 days after treatment with the polynucleotide set and ACCase inhibitor. The most efficacious sets are identified and the individual polynucleotides are tested in the same methods as the sets are and the most efficacious single 200-mer identified. The 200-mer sequence is divided into smaller sequences of 50-70-mer regions with 10-15 polynucleotide overlapping regions and the polynucleotides tested individually. The most efficacious 50-70-mer is further divided into smaller sequences of 25-mer regions with a 12 to 13 polynucleotide overlapping region and tested for efficacy in combination with ACCase inhibitor treatment. By this method it is possible to identify an oligonucleotide or several oligonucleotides that are the most efficacious trigger molecule to effect plant sensitivity to an ACCase inhibitor or modulation of an ACCase gene expression. The modulation of ACCase gene expression is determined by the detection of ACCase siRNA moleclules specific to an ACCase gene or by an observation of a reduction in the amount of ACCase RNA transcript produced relative to an untreated plant or by merely observing the anticipated phenotype of the application of the trigger with the ACCase inhibitor containing herbicide. Detection of siRNA can be accomplished, for example, using kits such as mirVana (Ambion, Austin Tex.) and mirPremier (Sigma-Aldrich, St Louis, Mo.).

The target DNA sequence isolated from genomic (gDNA) and coding DNA (cDNA) from the various weedy plant species for the ACCase gene and the assembled contigs as set forth in SEQ ID NOs 1-92 were divided into polynucleotide fragments as set forth in SEQ ID NOs 93-3900.

The gene sequences and fragments of Table 1 were compared and 21-mers of contiguous polynucleotides were identified that have homology across the various ACCase gene sequences. The purpose was to identify trigger molecules that are useful as herbicidal molecules or in combination with an ACCase inhibitor herbicide across a broad range of weed species. The sequences, SEQ ID NO:3901-4530 represent the 21-mers that are present in the ACCase gene of at least eight of the weed species of Table 1. It is contemplated that additional 21-mers can be selected from the sequences of Table 1 that are specific for a single weed species or a few weeds species within a genus or trigger molecules that are at least 18 contiguous nucleotides, at least 19 contiguous nucleotides, at least 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92 or fragment thereof.

By this method it is possible to identify an oligonucleotide or several oligonucleotides that are the most efficacious trigger molecule to effect plant sensitivity to ACCase inhibitor or modulation of ACCase gene expression. The modulation of ACCase gene expression is determined by the detection of ACCase siRNA moleclules specific to ACCase gene or by an observation of a reduction in the amount of ACCase RNA transcript produced relative to an untreated plant or by merely observing the anticipated phenotype of the application of the trigger with the ACCase inhibitor containing herbicide. Detection of siRNA can be accomplished, for example, using kits such as mirVana (Ambion, Austin Tex.) and mirPremier (Sigma-Aldrich, St Louis, Mo.).

The target DNA sequence isolated from genomic (gDNA) and coding DNA (cDNA) from the various weedy plant species for the ACCase gene and the assembled contigs as set forth in SEQ ID NOs 1-92 were divided into fragments as set forth in SEQ ID NOs 3901-4530.

Example 3

Methods Used in the Invention Related to Treating Plants or Plant Parts with a Topical Mixture of the Trigger Molecules

Glyphosate-sensitive Palmer amaranth (A. palmeri R-22) plants where grown in the greenhouse (30/20 C day/night T; 14 hour photoperiod) in 4 inch square pots containing Sun Gro® Redi-Earth and 3.5 kg/cubic meter Osmocote® 14-14-14 fertilizer. Palmer amaranth plants at 5 to 10 cm in height were treated with a pool of eight 8 short (21-22mer) single-strand antisense oligo DNA polynucleotides (ssDNA) targeting ACCase shown in Table 2 at 16 nmol, formulated in 10 millimolar sodium phosphate buffer (pH 6.8) containing 2% ammonium sulfate and 0.5% Silwet L-77. Plants were treated manually by pipetting 10 μL of polynucleotide solution on four fully expanded mature leaves, for a total of 40 microliters of solution per plant. Twenty-four and forty-eight hours later, the plants were treated with clethodim (SelectMax®, 0.97 lb ai per gallon; ACCase inhibitor) at 272 g ai/ha, crop oil concentrate (COC) at 1% was added to the herbicide treatments. Four replications of each treatment were conducted. Plant height was determined just before ssDNA treatment and at intervals upto twelve days after herbicide treatments to determine effect of the oligonucleotide and herbicide treatments.

TABLE 2
ssDNA ACCase oligonucleotides
	OLIGO1	SEQ ID NO: 4531	gtcttacaagggttctcaa
	OLIGO2	SEQ ID NO: 4532	ATCTATGTTCACCTCCCTGTG
	OLIGO3	SEQ ID NO: 4533	ATAAACCATTAGCTTTCCcGG
	OLIGO4	SEQ ID NO: 4534	TTtATtGgAaCAaGCGgAgTT
	OLIGO5	SEQ ID NO: 4535	TATAGCACCACTTCCCGATAG
	OLIGO6	SEQ ID NO: 4536	GCACCACGAGGATCACAAGAA
	OLIGO7	SEQ ID NO: 4537	CCACCCGAGAAACCTCTCCAA
	OLIGO8	SEQ ID NO: 4538	CAGTCTTGaCGAGTGATTCCT

The results of the treatments are shown in FIG. 1 and demonstrated that plants treated with 16 nmol and the clethodim herbicide caused 22 percent reduction in plant height relative to the untreated control and clethodim alone caused 0 percent reduction in plant height. Surprising result since dicot plants are not normally sensitive to ACCase inhibitor herbicides.

An additional test was conducted to determine which of the ACCase oligonucleotides was responsible for the result. In this test, each oligonucleotide was applied to four plants at 4 nmol (nanomole) per plant, the herbicide was applied 24 hours after the oligonucleotide treatment and the plants were rated for growth effects. This followup test identified that formulated oligo6 (SEQ ID NO:4536) had the largest effect and was able to reduce the plant growth by and average of 40 percent relative to untreated plants. This result provides an opportunity to broaden the spectrum of use for ACCas inhibitor herbicides to include dicot weeds.

Example 4

A Method to Control Weeds in a Field

A method to control weeds in a field comprises the use of trigger polynucleotides that can modulate the expression of an ACCase gene in one or more target weed plant species. An analysis of ACCase gene sequences from seventeen plant species provided a collection of 21-mer polynucleotides that can be used in compositions to affect the growth or develop or sensitivity to ACCase inhibitor herbicide to control multiple weed species in a field. A composition containing 1 or 2 or 3 or 4 or more of the polynucleotides of SEQ ID NO: 3901-4530 would enable broad activity of the composition against the multiple weed species that occur in a field environment.

The method includes creating a composition that comprises components that include at least one polynucleotide of SEQ ID NO: 3901-4530 or any other effective gene expression modulating polynucleotide essentially identical or essentially complementary to SEQ ID NO:1-92 or fragment thereof, a transfer agent that mobilizes the polynucleotide into a plant cell and a ACCase inhibiting herbicide and optionally a polynucleotide that modulates the expression of an essential gene and optionally a herbicide that has a different mode of action relative to an ACCase inhibitor. The polynucleotide of the composition includes a dsRNA, ssDNA or dsDNA or a combination thereof. A composition containing a polynucleotide can have a use rate of about 1 to 30 grams or more per acre depending on the size of the polynucleotide and the number of polynucleotides in the composition. The composition may include one or more additional herbicides as needed to provide effective multi-species weed control. A field of crop plants in need of weed plant control is treated by spray application of the composition. The composition can be provided as a tank mix, a sequential treatment of components (generally the polynucleotide followed by the herbicide), a simultaneous treatment or mixing of one or more of the components of the composition from separate containers. Treatment of the field can occur as often as needed to provide weed control and the components of the composition can be adjusted to target specific weed species or weed families.

TABLE 1
ACCase gene sequences isolated from weedy plant species
SEQ ID NO	SPECIES	TYPE	LENGTH	SEQ
1	Abutilon	cDNA	1036	TTGCTGTAACTGATCTTGCCTGCAGTAAGAAACTGCCTTTA
	theophrasti	Contig		ATTTATTTGGCTGCGAACTCTGGTGCTCGTATTGGGGTAGC
				TGAAGAAGTCAAAGCCTGCTTTAAAGTTGGTTGGTCTGAT
				GAATCCAGCCCTGAGCGTGGTTTTCAGTACATTTACATAAC
				TCCTGAGGATTATACTAGGATTGGATCATCGGTCATTGCAC
				ATGAGATGAAGCTGGCCAGTGGAGAGAGCAGATGGGTGA
				TAGATACTATTGTTGGGAAGGAGGATGGTTTGGGGGATC
				GAGAACTTAACAGGTAGTGGAGCCATTGCTGGTGCATACT
				CTCGGGCATACAAAGAAACCTTTACCCTAACGTATGTGACT
				GGTAGAACTGTGGGAATTGGTGCTTATCTTGCTCGTCTTGG
				CATGCGGTGTATACAAAGACTCGATCAACCCATTATTTTGA
				CTGGTTTCTCAGCATTGAACAAACTTCTAGGTCGTGAGGTG
				TATAGCTCCCACATGCAACTTGGTGGACCTAAAATCATGGC
				AACAAATGGGGTGGTTCATCTCACCGTCTCAGATGATCTTG
				AAGGGGTGTCAGCTATTTTGAACTGGATAAGTTGCATACC
				TCCTCATATTGGTGGTCCACTTCCCATTTTAAACCCATCAGA
				TCCTCCAGAAAGGCCTGTGGAGTACATCCCGGAAAATTCA
				TGTGATCCTCGTGCCGCTATTTGTGGTGCTTTAGATAGTAA
				TGGCAAGTGGAAGGGCGGTATTTTTGACAGGGATAGCTTT
				GTGGAGACGCTCGAAGGTTGGGCTAGAACAGTTGTCACA
				GGAAGGGCAAAGCTTGGAGGAATTCCTGCAGGAATAGTT
				GCAGTTGAGACACAGACGGTGATGCAGGTTATCCCTGCCG
				ATCCAGGACAACTTGATTCCCATGAAAGAGTTGTCCCTCAA
				GCTGGACAGGTATGGTTTCCGGATTCTGCTACAAAGACAG
				CTCAGGCAATAATGGATTTCAACAGGGAAGAGCTTCCACT
				TTTCATTCTTGCCAATTGGAGAGGCT
2	Amaranthus	cDNA	1479	ACCACGAGAAGATGCTTTCTTCCTTGCGGTTACAAATCTTG
	graecizans	Contig		CTTGTGCGAAGAAACTTCCTCTTATTTATCTGGCTGCAAATT
				CAGGAGCTCGACTTGGTGTTGCCGAAGAGCTAAAATCCTG
				CTTTAAAGTTGGCTGGTCGGATGAGTCAAACCCCGAGAGT
				GGATTTCAGTATGTCTTCTTAACCCCGGAAGATTACGATCG
				TATCGGATCGTCAGTCATAGCCCACGAGTTAAAACTCGAA
				AGTGGAGAAAAAAGATGGGTTATAGACACAGTTGTCGGA
				AAGGAGGACGGATTAGGTGTCGAGAATCTATCAGGAAGT
				GGTGCTATAGCCAGTGCATACTCAAGGGCTTACAAGGAAA
				CATTTACTCTGACTTTTGTAACTGGTAGAACGGTCGGTATT
				GGTGCCTATCTTGCTCGCCTTGGGATGCGTTGTATACAGAG
				GCTTGACCAGCCTATAATTCTCACGGGTTTTTCTGCGTTAA
				ATAAACTTCTTGGTCGGGAGGTTTACAGTTCACACATGCAA
				CTTGGTGGACCGAAGATTATGGGCACAAACGGGGTAGTTC
				ATCTTACAGTTTCCGATGATCTTGAAGGCATTTCATCTATCT
				TGAAGTGGCTGAGCTATGTTCCACCCTATGCAGGTGGTGA
				ACTTCCGATTTCTCGGTGTTTAGACCCTCCAGAAAGACCCG
				TTGCGTATTTGCCTGAAAATTCTTGTGATCCTCGTGGTGCT
				ATATCTGGTACAGTTGACTCCACCGGTAAATGGCATGGGG
				GTATTTTCGACAAGGATAGTTTTGTGGAAACCTTAGAAGG
				CTGGGCACGAACAGTTGTCACGGGAAGGGCTAAACTTGG
				AGGAATTCCAGTTGGGATAGTTGCCGTTGAGACGCAGACT
				GTTATGCAAGTAATCCCAGCAGATCCCGGTCAACTCGACTC
				ACACGAGAGAGTCGTACCACAAGCAGGGCAAGTATGGTTC
				CCAGATTCCGCATCCAAGACAGCACAAGCGCTGATGGATT
				TCAACCGGGAAGAACTACCACTTTTCATTTTAGCTAATTGG
				AGAGGTTTCTCGGGTGGACAAAGGGATCTCTTTGAAGGGA
				TCCTTCAAGCCGGATCCACCATTGTCGAAAATCTTAGGACT
				TATAATCAACCCGTTTTTGTTTATATACCAATGATGGGGGA
				GCTTCGAGGAGGCGCATGGGTGGTCGTGGATAGTCGAAT
				TAATTCCGATCATATAGAAATGTACGCCGACCAAACAGCTA
				AAGGAAATGTGCTTGAACCCGAAGGAATGATCGAGATTAA
				GTTCAGAACCAAGGAACTTCTCGAGTGTATGGGAAGGCTT
				GATCAACAACTCATCGGTCTCAAGGAAAAACTAGCAGAAG
				CCAAGAGCTCTAATTCCTACGATAAAATCGACCCCCTGCAG
				CAACAAATAAAAGCCCGCGAGAAGCAACTATTGCCTCTAT
				ATACTCAGATAGCCACCAAATTTGC
3	Amaranthus	cDNA	638	AAATATACTCCTTCCCGTGATCGTCAATGGCATCTTTACAC
	graecizans	Contig		GGTTATTGATAAACCACTCATTCGGAGGATGTTTTTGAGAA
				CCCTTGTAAGACAACCCATCTCTGAGTTCACAGGCGTCGAA
				CTAAGCGCTCTTGAAACACAAAAGCCCATCTCTTTTACTTCA
				AGAAGCATCCTAAGGTCCTTAACAACCGCCATGGAGGAGT
				TGGAACTCAATGCACATAGTGCTTCATTGAAACCCGATCAC
				GCTCATATGTACTTGTACATTGTTCGAGAGCAACAAATATA
				CGATCTTGTGCCATATCACAGGGAGGTGAACATAGATTAC
				CAACAAGAAGAGGCTTCGGTTCAATTCTTTTTGGAAGAGC
				TCGCGCATGAAATCCACAGTCTTGCTGGTGTAAGGATGCA
				TAAACTAAATGTTTGTGAGTGGGAAGTGAAACTTCGGATA
				TCTTCTCCCGGGAAAGCTAATGGTTTATGGAGGGTGGCGG
				TTACTAATGTGACTGGTCAGACCTGTTCGGTACATGTTTAT
				CGTGAATTGGAAGATAGCAACCTACATGAAATGGTCTACC
				ATTCATTATCCGTTCACGGTCCCCACCATGGGGTACCTGTG
				AATGCACCCTATCAACCACTAGGTGGCAT
4	Amaranthus	cDNA	2174	TGAACATAGATTACCAACAAGAAGAGGCTTCGGTTCAATT
	hybridus	Contig		CTTTTTGGAAGATCTCGCGCATGAAATCCATAGTCTTGCTG
				GTGTAAGGATGCATAAACTAAATGTTTGTGAGTGGGAAGT
				GAAACTTCGGATATCATCTCCCGGGAAAGCTAATGGTTTAT
				GGAGGGTGGCAGTTACTAATGTGACTGGTCATACCTGTTC
				GGTACATGTTTATCGTGAATTGGAAGATAGCAACCTACAT
				GAAATGGTCTACCATTCAGTATCTGTTCACGGCCCCCACCA
				TGGGGTACCTGTGAATGCACCCTATCAACCACTCGGTGGC
				ATCTCCCGTAAGCGACTTCAGGCCATGAAGAGTAGCACAA
				CATACTGTTACGATTTTCCACTGGCTTTCTCAACTGCCCTGA
				AGCAATCATGGGCATCGGAAGCTCCGGATGTCAAGAAACC
				CTCGGACAAAGCACTTTTGAAAGTAACCGAGCTAGCATTT
				GCTGATCCAAAAGGCACATGGGGAACTCCGCTTGTTCCAA
				TAAATCGCAAGCCTGGTATGAACGATGTTGGCATGGTAGC
				CTGGTACTTGGAAATGTCCACCCCCGAGTTCCCTAACGGAA
				GAACAATAATGGTTGTAGCTAATGATGTTACCTTCAAGGCC
				GGATCTTTCGGACCACGAGAAGATGCTTTCTTCCTTGCTGT
				TACAAATCTTGCTTGCGCGAAGAAACTTCCTCTTATTTATCT
				GGCTGCCAATTCAGGAGCTCGACTTGGTGTTGCCGAAGAG
				CTAAAATCCTGCTTTAAAGTTGGCTGGTCGGATGAGTCAA
				ACCCCGAGAGTGGATTTCAGTATGTCTACTTAACCCCTGAA
				GATTACGATCGTATAGGATCGTCAGTCATAGCCCACGAGT
				TAAAACTCGAAAGTGGAGAAAAAAGATGGGTTATAGACA
				CCGTTGTCGGTAAGGAGGACGGATTAGGTGTCGAGAATCT
				ATCAGGAAGTGGTGCTATAGCCAGTGCATACTCAAGGGCT
				TACAAGGAAACATTTACTCTGACTTTTGTAACCGGTAGAAC
				GGTCGGTATTGGTGCCTATCTTGCTCGTCTTGGGATGCGTT
				GTATACAGAGGCTTGACCAGCCTATAATTCTCACGGGTTTT
				TCTGCGTTAAATAAACTTCTCGGTCGGGAGGTTTACAGTTC
				ACACATGCAACTTGGTGGACCGAAGATAATGGGCACAAAC
				GGGGTAGTTCATCTTACAGTTTCCGATGATCTTGAAGGCAT
				TTCATCTATCTTGAAGTGGCTGAGCTATGTTCCACCCTATTC
				AGGTGGTGAACTTCCGATTTCTCGGTGTTTAGACCCTCCCG
				AAAGACCGGTTGCGTATTTGCCTGAAAATTGTTGTGATCCT
				CGTGGGGCTATATCTGGTACGGTTGACTCCGCCGGTAAAT
				GGTTTGGGGGTATTTTCGACAAGGATAGTTTTGTGGAAAC
				CTTAGAAGGATGGGCACGAACAGTTGTCACGGGAAGGGC
				TAAACTCGGAGGAATTCCAGTTGGCATAGTTGCTGTTGAG
				ACACAGACTGTTATGCAAGTAATCCCAGCAGATCCCGGTC
				AACTCGACTCACATGAGAGAGTCGTACCACAAGCAGGGCA
				AGTATGGTTCCCAGATTCCGCATCCAAGACAGCACAAGCG
				CTGATGGATTTCAACCGGGAAGAACTCCCACTTTTCATTTT
				AGCTAATTGGAGAGGTTTCTCGGGTGGACAAAGGGATCTC
				TTTGAAGGGATCCTTCAGGCTGGATCCACCATAGTCGAAA
				ATCTTAGGACTTATAATCAACCCGTTTTTGTTTATATCCCTA
				TGATGGGGGAGCTTCGAGGAGGCGCATGGGTGGTCGTCG
				ATAGTCGAATTAATTCCGACCATATAGAAATGTACGCCGAC
				CAAACAGCTAAAGGAAATGTGCTTGAACCGGAAGGAATG
				ATCGAGATTAAGTTCCGAACCAAGGAACTTCTCGAGTGTAT
				GGGAAGGCTTGACCAACAACTCATCGGTCTCAAGGAAAAA
				CTAGCCGAAGCCAAGAGCTCTAATTCCTACGATAAAATCG
				AGCCCCTGCAGCAACAAATAAAAGCCCGCGAGAAGCAACT
				ATTGCCTCTTTATACTCAGATAGCCACCAAATTTGCCGAGT
				TGCATGATACGTCTTTAAGGATGGCTGCCAAA
5	Amaranthus	cDNA	530	CACTCGTCAAGACTGTTCGAGATGCTGCAGGTGAACGGTT
	hybridus	Contig		GACCCATAAGTCGGCTTTGGAGTTGATCCGGAAATGGTTC
				AATGAGTCAGATATTTCCGGAGAGGCTTCCGATGCTTGGG
				CTGATGATGCGACCTTCTTTAAGTGGAAGGACAATACCGC
				TAACTACGAGGAGAAGTTGAAAGAGTTGCGGGTTCAGAA
				GGTATTGGATCAGCTGTCGAATATTGGAGATTCGGTAACT
				AATTTGAGGGCTCTGCCTCAGGGTCTTGCTGCCCTACTTCA
				AAAGGTGGATCCATCGAGTCGAGAAGAACTAGTCGAGGA
				ACTCCGAAAAGTGCTCACTTGATTTCGCAACCGTTGATGGT
				GAAGTGAAACCTTCTTGGTTTCATCATGGTAGAAAATATTA
				TTAGGCAAATCTATAATTTTTAGTGACATCAATTGTTTTAGA
				CAATAGTATTGAACTAATTTATTTAATTAAATTGTATAAATA
				GGAGACCTTGAATTCATTTGAATTAAGTGGCTTATGCTTGC
				ATTA
6	Amaranthus	cDNA	527	TATAGATGAAGTAGTACAGAGTTTGCTGGAATGCCTTGAT
	hybridus	Contig		AGTCCCGAACTTCCATTCCTTCAATGGCAAGAATGCTTGTC
				TGTGCTGGCAACACGACTTCCCAAAGATCTGAGATACGAA
				TTGGAATCAAAATCTAGAGCTTTTGAAGGGATTACCAACAC
				CCAGAACGTAGAATTTCCTGCTAAGTTGTTGAAAAGCATTC
				TTGAGGACCATTTAAACTCATGCCACGAGAAAGATAAAGG
				AGCTCAAGAGAGGCTTATTGAGCCTCTTATGGCTCTTGTAA
				AGTCTTACGAAGGTGGGCGAGAAAGTCATGCTCGTTTTAT
				TGTTCAATCTTTATTTGAAGAGTATTTATCCGTTGAAGAATT
				GTTTAGCGACAATCTCCAGGCTGATGTGATTGAACGTCTCC
				GCCTTCAGTATAAGAAGGATCTGCTGAAGATTGTTGACATT
				GTACTGTCGCATCAGGGTGTTAAGAATAAAAATAAGCTGA
				TTCTACGACTCATGGAACAGCTGGTTTACCCAAATCCCG
7	Amaranthus	cDNA	1310	CGAGAGTGGATTTCAGTATGTCTACTTAACCCCTGAAGATT
	lividus	Contig		ACGATCGTATAGGATCGTCAGTCATAGCCCACGAGTTAAA
				ACTCGAAAGTGGAGAAAAAAGATGGGTTATAGACACCGTT
				GTCGGTAAGGAGGACGGATTAGGTGTCGAGAATCTATCA
				GGAAGTGGTGCTATAGCCAGTGCATACTCAAGGGCTTACA
				AGGAAACATTTACTCTGACTTTTGTAACCGGTAGAACGGTC
				GGTATTGGTGCCTATCTTGCTCGTCTTGGGATGCGTTGTAT
				ACAGAGGCTTGACCAGCCTATAATTCTCACGGGTTTTTCTG
				CGTTAAATAAACTTCTCGGTCGGGAGGTTTACAGTTCACAC
				ATGCAACTTGGTGGACCGAAGATAATGGGCACAAACGGG
				GTAGTTCATCTTACAGTTTCCGATGATCTTGAAGGCATTTC
				ATCTATCTTGAAGTGGCTGAGCTATGTTCCACCCTATTCAG
				GTGGTGAACTTCCGATTTCTCGGTGTTTAGACCCTCCCGAA
				AGACCGGTTGCGTATTTGCCTGAAAATTGTTGTGATCCTCG
				TGGGGCTATATCTGGTACGGTTGACTCCTCCGGTAAATGG
				TTTGGGGGTATTTTCGACAAGGATAGTTTTGTGGAAACCTT
				AGAAGGATGGGCACGAACAGTTGTCACGGGAAGGGCTAA
				ACTCGGAGGAATTCCAGTTGGCATAGTTGCTGTTGAGACG
				CAGACTGTTATGCAAGTAATCCCAGCAGATCCCGGTCAACT
				CGACTCACATGAGAGAGTCGTACCACAAGCAGGGCAAGTA
				TGGTTCCCAGATTCCGCATCCAAGACAGCACAAGCGCTGA
				TGGATTTCAACCGGGAAGAACTCCCACTTTTCATTTTAGCT
				AATTGGAGAGGTTTCTCGGGTGGACAAAGGGATCTCTTTG
				AAGGGATCCTTCAGGCTGGATCCACCATAGTCGAAAATCTT
				AGGACTTATAATCAACCCGTTTTTGTTTATATCCCTATGATG
				GGGGAGCTTCGAGGAGGCGCATGGGTGGTCGTCGATAGT
				CGAATTAATTCCGACCATATAGAAATGTACGCCGATCAAAC
				AGCTAAAGGAAATGTGCTTGAACCGGAAGGAATGATCGA
				GATTAAGTTCCGAACCAAGGAACTTCTCGAGTGTATGGGA
				AGGCTTGACCAACAACTCATCGGTCTCAAGGAAAAACTAG
				CCGTAGCCAAGAGCTCTAATTCCTACGATAAAATCGAGCCC
				CTGCAGCAACAAATAAAAGCCCGCGAGAAGCAACTATTGC
				CTCTTTATACTCAGATAG
8	Amaranthus	cDNA	1309	AAAGCATTCTTGAGGACCATTTAAATTCATGCCACGAGAAA
	lividus	Contig		GATAAAGGAGCTCAAGAGAGGCTTATTGAGCCTCTTATGG
				CTCTTGTAAAGTCTTACGAAGGTGGGCGAGAAAGTCATGC
				TCGTTTTATTGTTCAATCTTTATTTGAAGAGTATTTATCCGT
				TGAAGAATTGTTTAGCGACAATCTCCAGGCTGATGTGATT
				GAACGTCTCCGTCTTCAGTATAAGAAGGATCTGCTGAAGA
				TTGTTGACATTGTACTGTCGCATCAGGGTGTTAAGAATAAA
				ATAAGCTGATTCTACGACTCATGGAACAGCTGGTTTACCCA
				AATCCCGCTGCATACAGGGGGAAACTTATCCGTTTCTCTCA
				ATTGAACCATACAATGTATTCTGAGTTGGCACTAAAGGCCA
				GTCAATTGCTTGAACAAACGAAATTGAGTGAGCTCCGTTC
				GAACATTGCTAGAAACCTCTCTGAGCTAGAAATGTTTACCG
				AGGATGGCGAAAACATGGATACTCCAAAAAGAAAAAGTG
				CTATTAATGAACGTATGGAGGCGCTTGTGAGTACTCCTCTA
				GCTGTCGAAGATGCCCTTGTTGGTTTGTTTGATCATAGTGA
				TCATACACTTCAGAGGCGGGTTGTTGAGACCTATGTTCGG
				AGGCTTTATCAGCCTTATCTTGTCAAGGGAAGTGTCAGGAT
				GCTGTGGCACAGATCAGGCTTCATAGCTTTATGGGAATTT
				GTTGAGGAGAATATTGACCGAACAAATTTTTCTGATCTGAC
				TACAAACAGTGGGAACCATAGTGAGCGAAAGTGGGGGGC
				CATGGTCGTTATTAAAACTCTTCAGTTCTTGCCATCGGTAAT
				TGCTGCAGCATTGAGAGAAACAACTCATAGTTCCGATCAAT
				CAACTTCCACTGGCTCTATAGAATCAGTCATCCATGGAAAT
				ATGCTGCACATTGCACTAGTGGGGGTGAATAACCAGATGA
				GCTTGTTGCAGGATAGTGGTGATGAAGATCAGGCTCAAGA
				GAGAATCGATAAGTTGGCCAAAATTCTGAGAGAACAAGAA
				GTGAGTTCAGCCCTTCGTGCTGTTGGTGTTGGTGTGATTAG
				TTGCATCATACAGAGAGATGAAGGGCGAACTCCGATGAG
				GCATTCATTCTATTGGTCAGCAGAAAAACAATATTATAGTG
				AGGAACCTTTACTACGTCATTTGGAACCCCTCTATCTATGT
				ATCTCGAGCTGGACAAGCTTAAGGGTTATGAAGATATCAA
				ATATACTCCTTCCCGTGATCGTCAATGGCATCTTTACACGG
				TTATTGATAAAC
9	Amaranthus	cDNA	638	GGCAGTTACTAATGTGACTGGTCATACCTGTTCGGTACATG
	lividus	Contig		TTTATCGTGAATTGGAAGATAGCAACCTACATGAAATGGTC
				TACCATTCAGTATCTGTTCACGGCCCCCACCATGGGGTACC
				TGTGAATGCACCCTACCAACCACTCGGTGGCATCTCCCGTA
				AGCGACTTCAGGCCATGAAGAGTAGCACAACATACTGTTA
				TGATTTTCCACTGGCTTTCTCAACTGCCCTGAAGCAATCAT
				GGGCATCGGAAGCTCCGGATGTCAAGAAACCCTCGGACAA
				AGCACTTTTGAAAGTAACCGAGCTAGCATTTGCTGATCCAA
				AAGGCACATGGGGAACTCCGCTTGTTCCAATAAATCGCAA
				GCCTGGTATGAACGATGTTGGCATGGTAGCCTGGTACTTG
				GAAATGTCCACCCCCGAGTTCCCTAACGGAAGAACAATAA
				TGGTTGTAGCTAATGATGTTACCTTCAAGGCCGGATCTTTC
				GGACCACGAGAAGATGCTTTCTTCCTTGCTGTTACAAATCT
				TGCTTGCGCGAAGAAACTTCCTCTTATTATCTGGCTGCCAA
				TTCAGGAGCTCGACTTGGTGTTGCCGAAGAGCTAAAATCC
				TGCTTTAAAGTTGGCTGGTCGGATGAGTC
10	Amaranthus	cDNA	4689	CATAATACATTAAGTCCAGTATCTATACAAGAGATTAAACC
	palmeri	Contig		AGCTACAAAAAAGCTGATGAGCACAAGATACATCAAACAA
				AAACCAGCAGCTGATAGCAGTATTTCCTTTTTCTTAATGGC
				AAGAATGCTTGTCTGTGCTGGCAACACGACTCCCCAAAGA
				TCTGAGATACGAATTGGAATCAAAATCTAGAGCTTTTGAA
				GCGATTACCAACACCCCAAACATAGAATTTCCTGCTAAGTT
				GTTGAAAAGTATTCTTGAGGACCATTTAAACTCATGCCAAG
				AGAAAGATAAAGGAGCTCAAGAGAGGCTTATTGAGCCTCT
				TATGGTTCTTGTAAAGTCTTACGAAGGTGGGCGAGAAAGT
				CATGCTCGTTTTATTGTTCAATCTTTATTTGAAGAGTATTTA
				TCCGTTGAAGAATTGTTTAGCGACAATCTCCAGGCTGATGT
				GATTGAACGTCTCCGCCTTCAGTATAAGAAGGATCTGCTG
				AAGATTGTTGACATTGTACTGTCGCATCAGGGTGTTAAGA
				ATAAAAATAAGCTGATTCTACGACTCATGGAACAGCTGGTT
				TACCCAAATCCCGCTGCATACAGGGGGCAACTTATCCGTTT
				CTCTCAATTGAACCATACAATGTATTCTGAGTTGGCACTAA
				AGGCCAGTCAATTGCTTGAACAAACGAAATTGAGTGAGCT
				CCGTTCGAACATTGCTAGAAACCTCTCTGAGCTAGAAATGT
				TTACCGAGGATGGCGAAAACATGGATACTCCAAAAAGAAA
				AAGTGCTATTAATGAACGTATGGAGGCCCTTGTGAGTACT
				CCTCTAGCTGTTGAAGATGCCCTTGTCGGTTTGTTTGATCA
				TAGTGATCATACACTTCAGAGGCGGGTTGTTGAGACCTAT
				GTTCGGAGGCTTTATCAGCCTTATCTTGTCAAGGGAAGTGT
				CAGGATGCTGTGGCACAGATCAGGTTTCATAGCTTTATGG
				GAATTTGTTGAGGAGAATATTGACCGAACAAATTTTTCNG
				ATGATCTGACTACAAACAGTGGGAACCATAGTGAGCGAAA
				GTGGGGGGCCATGGTCGTTATTAAAACTCTTCAGTTCTTGC
				CATCGGTGATTGCTGCAGCATTGAGAGAAACAACTCATAG
				TTCCGATCAATCAACTTCCACTGGCTCTATAGAATCAGTCA
				TCCATGGAAATATGCTGCACATTGCACTAGTGGGGGTGAA
				CAACCAGATGAGCTTGTTGCAGGATAGTGGTGATGAAGAT
				CAGGCTCAAGAGAGAATCGATAAATTGGCCAAAATTCTGA
				GAGAGCAAGAAGTGAGTTCAGCCCTTCGTGCTGCTGGTGT
				TGGTGTGATTAGTTGCATCATACAGAGAGATGAAGGGCGA
				ACTCCGATGAGGCATTCATTCTATTGGTCAGCAGAAAAACA
				ATATTATAGTGAGGAGCCTTTACTACGTCATTTGGAACCCC
				CTCTATCTATGTATCTCGAGCTGGACAAGCTTAAGGGTTAT
				GAAGATATCAAATATACTCCTTCCCGTGATCGTCAATGGCA
				TCTTTACACGGTTATTGATAAACCATTCATTCGGAGGATGT
				TTTTGAGAACCCTTGTAAGACAACCCATCTCTGAGTTCACA
				GGCGTCGAACTAAGCGCTCTTGAAACACAAAAGCCTATCT
				CTTTCACTTCAAGAAGCATCCTAAGGTCCTTAACAACCGCC
				ATGGAGGAGTTGGAGCTCAATGCACATAGTGCTTCACTGA
				AACCCGATCACGCTCATATGTACTTGTACATTGTCCGAGAG
				CAACAAATATACGATCTTGTGCCATATCACAGGGAGGTGA
				ACATAGATCACCAACAAGAAGAGGCTTCGGTTCAATTCTTT
				TTGGAAGATCTCGCGCATGAAATCCATAGTCTTGCTGGTGT
				AAGGATGCATAAACTAAATGTTTGTGAGTGGGAAGTGAAA
				CTTCGGGTATCATCTCCCGGGAAAGCTAATGGTTTATGGA
				GGGTGGCAGTTACTAATGTGACTGGTCATACCTGTTCGGT
				ACATGTTTATCGTGAATTGGAAGATAGCAACCTACATGAA
				ATGGTCTACCATTCAGTATCTGTTCACGGCCCCCACCATGG
				GGTACCTGTGAATGCACCCTATCAACCACTCGGTGGCATC
				GCCCGTAAGCGACTTCAGGCCATGAAAAGTAGCACAACTT
				ACTGTTACGATTTTCCACTGGCTTTCTCAACTGCCCTGAAGC
				AATCATGGGCATCGGAAGCTCCGGATGTCAAGAAACCCTC
				GGACAAAGCGCTTTTGAAAGTAACCGAGCTTAGCATTTGC
				TGATCCAAAAGGCACATGGGGAACTCCGCTTGTTCCAATA
				AATCGCAAGCCTGGTATGAACGATGTTGGCATGGTAGCCT
				GGTACATGGAAATGTCCACCCCCGAGTTCCCTAACGGAAG
				AACAATAATGGTTGTAGCTAATGATGTTACCTTCAAGGCCG
				GATCTTTCGGACCACGAGAAGATGCTTTCTTCCTTGCTGTT
				ACAAATCTTGCTTGCGCGAAGAAACTTCCTCTTATTTATCTG
				GCTGCCAATTCAGGAGCTCGACTTGGTGTTGCCGAAGAGC
				TAAAATCCTGCTTTAAAGTTGGCTGGTCGGATGAGTCAAAT
				CCCGAGAGTGGATTTCAGTATGTCTACTTAACCCCTGAAGA
				TTACGATCGTATAGGATCGTCAGTCATAGCCCACGAGTTAA
				AACTCGAAAGTGGAGAAAAAAGATGGGTTATAGATACCGT
				TGTAGGTAAGGAGGACGGATTAGGTGTTGAGAACCTATC
				GGGAAGTGGTGCTATAGCCAGTGCATACTCAAGGGCTTAC
				AAGGAAACATTTACTCTGACTTTTGTAACCGGAAGAACGG
				TCGGTATTGGTGCCTATCTTGCTCGTCTTGGGATGCGTTGT
				ATACAGAGGCTTGACCAGCCTATAATTCTCACGGGTTTTTC
				TGCTTTAAATAAACTTCTCGGCCGGGAGGTTTATAGTTCAC
				ACATGCAACTTGGTGGACCGAAGATTATGGGCACAAACGG
				GGTAGTTCATCTTACAGTTTCCGATGATCTTGAAGGCATTT
				CATCTATCTTGAAGTGGCTGAGCTACGTTCCACCCTATTCA
				GGTGGTGAACTTCCGATTTCTCGGTGTTTAGACCCTCCAGA
				AAGACCGGTTGCGTATTTGCCTGAAAATTCTTGTGATCCTC
				GTGGTGCTATATCTGGTACGGTTGACTCCACCGGTAAATG
				GTTAGGGGGTATTTTCGACAAAGATAGTTTTGTGGAAACC
				TTAGAAGGATGGGCGCGAACAGTTGTCACGGGAAGGGCT
				AAGCTCGGAGGAATTCCAGTTGGCATAGTTGCCGTTGAGA
				CGCAGACTGTTATGCAAGTAATCCCAGCAGATCCCGGTCA
				ACTCGACTCACACGAGAGAGTCGTACCACAAGCAGGGCAA
				GTATGGTTCCCAGATTCCGCATCCAAGACAGCACAAGCGC
				TGATGGATTTCAACCGGGAAGAACTCCCACTTTTCATTTTA
				GCTAATTGGAGAGGTTTCTCGGGTGGACAAAGGGATCTCT
				TTGAAGGGATCCTTCAGGCCGGATCCACCATAGTTGAAAA
				TCTTAGGACTTATAATCAACCCGTTTTTGTTTATATCCCTAT
				GATGGGGGAGCTTCGAGGAGGCGCATGGGTGGTCGTCGA
				TAGTCGAATTAATTCCGACCATATAGAAATGTACGCCGACC
				AAACAGCTAAAGGAAATGTGCTTGAACCGGAAGGAATGA
				TCGAGATTAAGTTCCGAACCAAGGAACTTCTCGAGTGTAT
				GGGAAGGCTTGATCAACAACTCATCGGTCTCAAGGAAAAA
				CTAGCCGAAGCCAAGAGCTCTAATTCCTACAATAAAATCGA
				GCCCCTGCAGCAACAAATAAAAGCCCGCGAGAAGCAACTA
				TTGCCTCTATATACTCAAATAGCCACCAAATTTGCCGAGTT
				GCACGATACGTCTTTAAGGATGGCTGCCAAAGGAGTTATT
				AGGGACGTCTTGGAATGGAAAAGCTCGCGTTCGTTCTTTT
				ACAAAAGATTATACAGGAGAGTTATGGAGGAATCACTCGT
				CAAGACTGTTCGAGATGCTGCAGGTGAACGGTTGACCCAT
				AAGTCGGCTTTGGAGTTGATCCAAAAATGGTTCAATGAGT
				CGAATATCTCCGGAGAGGCTTCCGATGCTTGGGCTGATGA
				TGCGGCCTTCTTTAAGTGGAAGGACGATACCGCCAACTAC
				GAGGAGAAGTTGAAAGAGTTGCGCGTTCAGAAGGTATTG
				GATCAGCTGTCGAATATTGGAGATTCGGCAACTAATTTGA
				GGGCTCTGCCTCAGGGTCTTGCTGCCCTACTTCAAAAGGTG
				GATCCATCGAGTCGAGAAGAACTAGTCGAGGAACTCCGTA
				GAGTGCTCACTTGATTTCGCAACCGTTGATGGTGAAGTGA
				AACCTTCTTGGTTTCATCATGGTAGAAAATATTATTAGGCA
				AATCTATAATTCTAGTTACATCCATTGTTTTAGACAATAGTA
				TTGAACTAATTTATTTAATTAAATTGTATAAATAGGAGACC
				TTGAATTCATTTGAATTAAGTGGCTTATGCTTGCATTATTTT
				GTATTGAATCAAATAATTATTTACATACTTTTGATTATTAAT
				AATGGTAAATCCTCAAAATTTGAGGGATTTGTTACCT
11	Amaranthus	cDNA	1582	GTTGCAGCATTGCATAGCCGTGATTGCAGTGTCCAAAGGC
	palmeri	Contig		GGCACCAAAAGATCATTGAAGAAGGCCCAATAACGATAGC
				TCCACCAGAAACGGTGAAGAAGCTTGAGCAAGCAGCTAG
				AAGATTGGCTTTATGTGTGGGTTATGTTGGCGCAGCTACA
				GTTGAATATTTATACAGCATGGAAACAGGCGAGTTCCATTT
				CCTTGAGTTGAATCCTCGGTTACAGGTGGAGCATCCTGTTA
				CTGAGTGGATTGCTGAGGTAAATCTTCCAGCTGCTCAAGTT
				GCAGTTGGCATGGGTATCCCACTTTGGCAAATTCCTGAAAT
				CCGTCGGTTCTATGGGAAGGAACATGGTGGGGGTTATGAT
				ACTTGGATGAGGACATCTGCTTTGGCTACTGCTTTTGATTT
				TAACGAGGCACAGTCGGTGAAACCTAAAGGTCATTGTATT
				GCTGCGCGTGTGACAAGTGAGGATCCCGATGACGGTTTTA
				AGCCTACAAGCGGGAAAGTACAGGAGCTGAGTTTTAAAA
				GTAAACCGAATGTGTGGGCCTACTTCTCTGTTAAGTCTGGG
				GGAGGCATTCATGAGTTCTCGGATTCTCAATTTGGCCATGT
				TTTTGCATTTGGTGAAAACCGAGGTTTGGCCATAGCAAATA
				TGATTCTTGGATTAAAAGAAATTCAAATTCGTGGAGAAATT
				CGAACTAATGTTGATTACACCATCGATCTTTTAAATTGTTTG
				GATTATAGAGAAAACCAAATTCATACAGGTTGGTTGGATA
				GTAGAATTGCGATGAGGGTCAGAGCTGAAAGGCCACCTT
				GGTACATCTCTGTTGTGGGAGGAGGGCTTTACAAAGCATC
				GACTAGTAGTGCAGCGACTGTTTCAGAGTATATAGGCTAT
				CTTGAAAAAGGTCAAATTCCTCCGAAGCATATATCACTCGT
				CCACTATGAAGTTGCTCTAAATATCGAGGGGATGAAATAT
				ACCATTGAGATGATTAGGGGTGGACCAGGAAGCTACAAA
				ATGTGGTTGAATGGGTCCGTAGTTGAGGCGGAAATACATA
				CTTTAAGAGATGGGGGTCTCTTGATGCAGTTGGACGGAAA
				CAGCCATGTGATATATGCCGAGGAAGAAGCTGCAGGAACT
				CGCCTTCTGATTGATGGAAGAACTTGTTTGCTTCAGAACGA
				TCACGATCCTTCAAAGCTAATTGCGGAGACTCCGTGTAAGC
				TTATGCGGTATTTGGTACCAGATAACAGTCACATAGATGCA
				GATACTCCGTATGCTGAAGTTGAGGTCATGAAGATGTGTA
				TGCCTTTGCTTTCCCCTGCATCCGGTGTTTTACAATTTAAGA
				TGTCCGAAGGTCAAGCTATGCAGGCTGGTGAACTCATAGC
				TAGTCTAGAGTTGGATGATCCTTCAGCTGTAAGAAAAGCC
				GAACCTTTCAGTGGAAGCTTTCCTGTCATGGGCTCACCAAC
				TGCAATATCTGGAAAAGTTCATCAGAGGTGTGCCGCAAGT
				TTAAATGCCGCTCGGATGATTTTGGCTGGTTATGAACACAA
				TATAGATGAAGTAGTACAGAGTTTGCTGGAATGCCTTGAT
				AGTCCCG
12	Amaranthus	cDNA	822	AGATGTGTATAAGAGACAGTATAATCAAGTTTTTTAGTACC
	palmeri	Contig		CAAAGCTCTAAATGTTACTTAAAGTTTTGATCTTTTAATGGT
				TTCTTCTATTTAATCCAATAATTTAAAGTACCCAGATTTCAA
				TTTTTAGAATAAATTGAGTTTTTGAATTGCCCAAGTTGTAAT
				TGTTGCTGAATTCTCTTGCTTTGATTTGGGTTTTCTGATTCT
				ATCCCTTCTGATTCATACAGTTTCAGGAGCAGTGGTCTCAT
				TTTCGAGCAATACAAAAAGTGCCGTGCTTCTCTAAACAACG
				ACGATTCAGACATGTCTTCTCCTTCCCACAATAATGAAAAC
				CCGAACGGACCGATGATGCCACTCCTGAGGAATTCATCTG
				TAGTATCCATTGTTGATAAGTTCTGTTATGCTCTTGGAGGG
				ACGCGGCCAATCCATAGTATTTTGATAGCAAACAATGGGA
				TGGCTGCTGTCAAATTTATAAGAAGTATCCGAACATGGGC
				TTACGAGACTTTTGGTACTGAGAAGGCTATATTATTGGTAG
				CCATGGCTACTCCCGAAGACATGAAAATCAATGCCGAGCA
				TATTCGAATGGCTGATCAGTTTGTTGAAGTCCCCGGAGGA
				ACTAACAACAATAACTACGCCAATGTGCAGCTCATTGTTGA
				GTTAGCGGAAGTTACACGAGTTGACGCAGTTTGGCCTGGT
				TGGGGACATGCATCGGAGATCCCCGAGTTGCCAGATTCAT
				TAGCTACGAAGGGAATTGTGTTTCTGGGCCCCCCAGCTGC
				ATCTATGGCTGCTCTTGGAGATAAAATTGGTTCATCATTGA
				TTGCAC
13	Amaranthus	gDNA	17981	AAACCAAACCAACCTCCTTAAACTTCTCTTCTTCTACTCACC
	palmeri	Contig		ATTTTTTCCTCTTTTTATTGATTATTGATTTTAAATATACATT
				ATATTGTAGGAATTTAATGAAATTTTCATTAAATTCTGATA
				AAGTTTTGATTTTTTTTAGTGTATGAGATTTTTCAGAAGTAC
				CCAAATGGTAAATTTCAAGTATAATCAAGTTTTTTAGTACC
				CAAAGCTCTAAATGTTACTTAAAGTTTTGATCTTTTAATGGT
				TTCTTGTATTTAATCCAATAATTTAAAGTACCCAGATTTCAA
				TTTTTAGAATAAATTGAGTTTTTGAATTGCCCAAGTTGTAAT
				TGTTGCTGAATTCTCTTGCTTTGATTTGGGTTTTCTGATTCT
				ATCCCTTCTGATTCATACAGGTATTCTGATTTTTTCTTGCTT
				GATTACTTTTTGTTAGTGTATGGTTGAGCTAATTTAGTTTAT
				AGTAGTGTGAATTTTATTTTATTTTTTTTCAATTTTTTCAATT
				ATTTCAATTTGTAGAGTAGATTCTCCTATTATGATTTGTTTT
				TGTAGCTGGGTTTTAATTTTTATTGTCTGATGATTTATCTTA
				GCAATGTTTTAATGGGTGTGCTGTTTTTCAATTTATAGTGT
				AATTTAGTTGATTCCTCTTTTCCAATAGAGTGTACAAAACC
				GACCTGATTAACTGAAACCGAGTATTATCCAACGGGAACA
				ATCCCTGTTACAAAATTCAAATTAGAATGTCAAGTACCGAA
				ATCAACCCGACCCCACATATTATACCCGAGATCCACCCGAA
				CACCCGAATGAACACCTCTGAGATCATAGAGAGGATATAA
				AGAAAAGTGGAACTAGAATGGGGAATTTAGTTTATTTGAG
				CTACATTGAGCAAAATTTTTTTTAGTGACTGATTATTGTAGC
				TGGCTTTTGTTGTATAACTCATCTAAGCAATGTTTTTGATGT
				GTGTGCAGTAGCATTGGATTGTTTTGATTTTTTGTTATATTG
				TCTATACAATTCAAATCTTGAATCACACTTGACTTTTAGTTC
				CATTTTCATCTTCACAAATTCTTGTGAGAGACTGTCAACTGT
				GAGACGCTCTCTGTACATGGGCTAAATAGCGTAACTAATA
				CAACTATTAGCATATGAGCTTCTTATTTTGAGGTCGTCTCTC
				ATAAGAGTAGCTCTCTGTTCTTTTATGATTTATGATTCAATG
				CAAATAAATTATTTACGGCCCGTGTGGTAGGTGGTAATAA
				ACAATAGTAATGAGAATGAAAAACAAGTGTAATTTTGGTT
				AAAAAATCTCTTGGTTACGTTGATGGTCATGCTTGTCCAAC
				TTAAATCATCTCACACTATCATTGGGAGAGGTGGTGTTAG
				GTGGTAATGAAAATTTGTAAACAAAAAAACTTGTTTGTGAT
				CAAAGTTTCATTACCATAGGAACGATACGGAACTTTTGATG
				AAATTTTACACTATAAATCATTTCCATTACCACCATTTAGTA
				CCTCTAACCAAACGGGACGTTAGAGTTTTGCTTACCTACAA
				TATCTTCTTAGCTCATAAGCTCAGAACCTTACTTCAATTTTG
				ACCATATGTTTCTAGCTATACTTTCAGTAAGTATTTAAAAAT
				TCATTTTCATTTTATCTATGTATAGTTGCGAATGATGTTTGT
				TATAAAGGGTCAATCGAAAAACTTCCTCTTTGTTATTAGTA
				ACAAGGGTAAGGTTATGTACATCCAATCCCTCCAAACCCTT
				TTTGGGTGGGAGCTACTAATGGCGCTGGGACAATGGAGTT
				GTTGTTTGTCGAATTCAAGCGGGGAAGTTTGTTTAGAATG
				AATGTTATTTCTAAAAATAGATGGTATAAGTATGTTAATCA
				ACAATTAATAATAGAGAACTGTTTTATTGGTGTGATAAACA
				GTTTCAGGAGCAGTGGTCTCATTTTCGAGCAATACAAAAA
				GTGCCGTGCTTCTCTAAACAACGACGATTCAGACATGACTT
				CTCCTTCCCACAATAATGAAAACCCGAACGGACCGATGAT
				GCCACTCCTGAGGAATTCATCTGTAGTATCCATTGTTGATA
				AGTTCTGTTATGCTCTTGGAGGGACGCGGCCAATCCATAG
				TATTTTGATAGCAAACAATGGGATGGCTGCTGTCAAATTTA
				TAAGAAGTATCCGAACATGGGCTTACGAGACTTTTGGTAC
				TGAGAAGGCTATATTATTGGTAGCCATGGCTACTCCCGAA
				GACATGAAAATCAATGCCGAGCATATTCGAATGGCTGATC
				AGTTTGTTGAAGTCCCCGGAGGAACTAACAATAATAACTA
				CGCCAATGTGCAGCTCATTGTTGAGGTAATGTATCGTGAG
				ATTAGAAATTTCTAGCCTGTAATCCATAGTTACATGGAATG
				TGGAACATAGCCACGTTCCGCGATTCGGGAACATTCAATCC
				CAATCACCATGAAACCCGACCTAAATCACTAAAGGTGACG
				TCCCGGTGTAGAACACCTTTTTTTTAAAATGTATTTTTGGCC
				TTCATTTACAAATTAAAGGAAAAAGAAAGGAGGAAAAAAC
				AAGATGTAACCCAGAAACCTAAACAAATCCACTTGAAAAT
				AATTTCTTAAAGCAAATTAATCATTTTAGTTTAATTTTGTTT
				CAAATATATATATTATACATAATGTGTCTCATACCCAATCGT
				TCTTGAGTAAATCTAGGTTGCGTTCTGTGTTCCCATTCTTGT
				TTCCCGTTCGAAACCAAATGTCGTTCAGTTAACAATGCTGT
				TATCTGCTTTACTGTGATTTATTAAATGTGTCCTTTGAAAAA
				AAGGCAATATCAGAGCGACTCGACGCAGTTTGGCCTGGCC
				GGGGACATGCGTAATATGTAATATGAGATTACAAATTTAT
				AACCTTTTATATGGTAAAATCTTGTGGTAGGACTAACTTAA
				ATCCTTTTTCTTTCAGTTAGCGGAAGTTACACGAGTTGACG
				CAGTTTGGCCTGGTTGGGGACATGCATCGGAGATCCCCGA
				GCTGCCAGATTCATTAGCTACGAAGGGAATTGTGTTTCTG
				GGGCCCCCAGCTGCATCTATGGCTGCTCTTGGAGATAAAA
				TTGGTTCATCATTGATTGCACAAGCTGCAGATGTCCCAACT
				CTTCCATGGAGTGGTTCTCATGTACGTACTACACGTTTTTTT
				TTTCTTTTTTTTTTCCTTCCAAATTTCTGATCTTTAGAGTTTT
				AGTGATAGATTTATATACGTCTCTATCCCTCAGGTGAAAAT
				TCCTGCTGAGAGTTGCCTAGACGTAATTCCCGATGAAGTAT
				ATAAAGCGGCATGTGTTTTTACTACAGAGGAAGCAATTGC
				TAGCTGTCAAGTTGTTGGTTATCCGGCTATGATCAAAGCTT
				CTTGGGGTGGTGGAGGGAAGGGAATAAGAAAGGTAAAAT
				TTTTTTGGATGATGATGCTCTTAAAAGACTAAAAGGAGGTT
				ACACATATCCCCATTACTTGTTTATCATCAGAAGCAGAGCA
				AAAATTGACAAAGATTTAAAGACTCTGTGCAATTTCAAAAA
				TATGATATATTTCTAACAACGTATCTTCAAACACTTTAAACA
				TACTACCTATTTTAATACTGCGGCCCCTATTTTTTTGAGGCC
				GTGTGTGGTCGAACATATTGAATATGCTTAGAACCACTCCT
				GTTTATCACTAATATGCCATCTTCCACAGTCGAACCTCTACT
				TTGACCCAGATTCCTTGAAAGGGATTTCGATTTAGACTCGA
				GCTATGGTCAATTATTAGCAATAGCAAAAGCTTCTTAATAG
				TTAATAGATTCTCAAACACTTCCGTCATGCCAACACTTTATG
				AAGACTCATGGGTATTCTCTCTTTTAGGTTCATAATGATGA
				CGAAGTACGGGCATTATTTAAGCAAGTGCAGGGTGAAGTT
				CCCGGCTCACCCATATTTATAATGAAGGTGGCTTCACAGGT
				TAGACTTTCTTCAACATTGGTCCGATATTCGAGTAAATTGC
				ATTAAAAAAGGTTAAATATACAATTTTTTTGGATAAGTATT
				GTATGAGAGACTACTACTAAGATAAAGTATTATTAATATGT
				GCAGAGTCGACACTTAGAAGTACAGTTACTGTGTGATGAA
				TATGGCAATGTTGCAGCATTGCATAGCCGTGATTGCAGTG
				TCCAAAGGCGGCACCAAAAGGTGGGTCTTTGGTAGATTAT
				GGTTATGATCTACGGTTTGTTATTGTTTAAGAAAAATATTT
				GATTTTAAGCATTATTTAGCTTGCTGGGATTTGAACTTTTCT
				GTTCATCATTTTAACTAATCAGATCATTGAAGAAGGCCCAA
				TAACAATAGCTCCACCAGAAACGGTGAAGAAGCTTGAGCA
				AGCAGCTAGAAGATTGGCTTTATGTGTGGGTTATGTTGGC
				GCAGCTACAGTTGAATATTTATACAGCATGGAAACAGGCG
				AGTTCCATTTCCTTGAGTTGAATCCTCGGTTACAGGTATGG
				AGCTTCCCCAACTTCTTTTAAGTACCCATTATGTAACTGCAT
				ATTTATGTAATCCCTCCATTCCAAATTAGTCGCTATGTATTC
				CTATGGGGATGTCCCAAATTAGTTGCAACATTTCTGTATAT
				GGTAAAGTTTTCCCCTCCAAACCTTAAAACCTAGTTGACCA
				TAATCTAACTAAACCCAATTCTTGACCCACTTTGAAAAACA
				GGTCAAATGTTGGTGTTTGAACCACCTTTAAACAAATTTAA
				GATTTTGGGTTGGTAATGGCTTATCAGAGATTTGGGTTTTT
				GGCATCGGCATTATTTTGGTGTCGATTTGCAAATGATATCC
				CGGGATTTCGAACTAGGAGGGGATTCAATTGGTTTTTGAG
				GAATTTATGTAATTATTCCTTTAATTAGTGATCATTGAATTG
				ATTGTATTTGTGTTGGGGAATTGGACCCGTGAAGAAAAAA
				ATGACGGGTTAGCTTTTGGATTAGTGAGTGATTATGTGAG
				TTTAATTTGTCTATGAAAGGTCAACTTCAAGCAACATTTTCT
				GTTTTAGCTTAGTAATTTTTGGGATGCGATGGAACATTTGA
				GCACCTTCTGGATTATCAACAGAAATGATCATCGAAATTGA
				TTTTTTTAGTTGTTGACAGTAGAAAAGTATCAGATAAGGTA
				GAATAATACAGTATAATCTTTAGTTGCGACAATTTCCAACG
				TTTTTATAATAGCTAAAGCTACATTCTCATGTTGCTTGATGA
				AAGTGACCGTATTTATTCTGTGTGCTTATACAGGTGGAGCA
				TCCTGTTACTGAGTGGATTGCCGAGGTAAATCTTCCAGCTG
				CTCAAGTTGCAGTTGGCATGGGTATCCCACTTTGGCAAATT
				CCTGGTAAATGTCCAGTACTCTTTTTTCGGTTATGTAACTTA
				TATATTATATCTAATTCTTATTTACGAACCGAATTGATCACA
				CATTTTTAAAACAGAAATCCGTCGGTTCTATGGGAAGGAA
				CATGGTGGGGGTTATGATACTTGGATGAGGACATCTGCTT
				TGGCTACTGCTTTTGATTTTAACGAGGCACAGTCGGTGAAA
				CCTAAAGGTCATTGTATTGCTGCGCGTGTGACAAGTGAGG
				ATCCCGATGACGGTTTTAAGCCTACAAGCGGGAAAGTACA
				GGTTAGACCATCCTGGTTTTGTCGATTTACTTCCACAATTG
				GTCTTGTTTTGTTTTTGCCTTTGCGGTGAAGAATTTTCTTTA
				ATGGGTGCTTTGTTTAGGAGCTGAGTTTTAAAAGTAAACC
				GAATGTGTGGGCCTACTTCTCTGTTAAGGTATTTTCCATATT
				TCTTTAATTCTTTGATTTTCGCGTTTACAATTTCAGTTCACTC
				CATTATGGGCTTGATGATGATAAACACTTTTATTTGCAGTC
				TGGGGGAGGCATTCATGAGTTCTCGGATTCTCAATTTGGT
				AAGTTAATGGTGCAAACTCTTGTCAGTAATGTTAACTACAG
				TTTCACATGATTTACTAATCTCTTCGTGAATTGCGAACTAAA
				AAAGAGAATTATTGTCAGTTTTGGGCTATTTTTTATTCCATT
				TTGAGCCAATGGAAATTCAAAAAGCGAATAGCTAGCGAAT
				TTTGTTGATATTCTGGAGGTGTATATTGATGAGAATTTTAC
				AAAAAGTTGCTGCTGCTGCACTGTGTTATTTTTTAGAAACA
				CTGGGTGACTTTCAATTGTTTGTAAAACTTGCATATTCGAG
				TCACAACATGATGTCATAATGAAATGCGAGCGGTTTTTATT
				AAATAATAGAGCCATAGTGTAATCGACCAATATTTAGGTG
				GTGCAATGACCGCATCACTCCCGTTACCGCATTACCGTTCC
				CTACCGCGATCACGATCGTTAGCGCATTTTTACGCTATGAA
				TAGACCTTCAGTTCATATTTTATGATGGCTAAAATCAATCA
				CTTGGTTAATGGTATATCATATACGAAGGCTAACAAAAGA
				ATTTCTTTACAGGCCATGTTTTTGCATTTGGTGAAAACCGA
				GGTTTGGCCATAGCAAATATGATTCTTGGATTAAAAGAAAT
				TCAAATTCGTGGAGAAATTCGAACTAATGTTGATTACACCA
				TCGATCTTTTAAATGTGAGTTTGAATGTAATTTTTGTTGTCT
				TTTTTTAGTTTTCGCCTTTCTTCTGTTAAACCTTTGAAGTTCT
				CACACTTAACTTTTTTTTCCTCCAGTGTTTGGATTATAGAGA
				AAACCAAATTCATACAGGTTGGTTGGATAGTAGAATTGCG
				ATGAGGGTTAGAGCCGAAAGGCCACCTTGGTACATCTCTG
				TTGTGGGAGGAGGGCTTTACGTATGTACAACTTTTTCATAG
				CTATCATTAATTTTTCCGTTGTTATGATCTGTGTTACTTGGA
				CTCGGGTTGTTGGATACTGGTATGTGTCCACGTGTCGGAT
				ACGTCTAAATATTCAATTTTACGCCTAAAATGAAGTATCTA
				AGTGCCATGTCCGAGCATCAAGAATCGGACACGGGTACGT
				GAAGCCAAATGAAGAGTCCGAGTAACATAAGTTATGATTA
				ATGTTAAATAACTTGTTTTCTTTATCCTCTATATCCAGAAAG
				CATCGACTAGTAGTGCAGCGACTGTTTCAGAGTATATAGG
				CTATCTTGAAAAAGGTCAAATTCCTCCGAAGGTATGTAACA
				TACAATTGGTTGGCGGGTGTTTAGATTAACTTATTCTATTA
				ATATCAATTATACTTTCAGTGTTCTGCTTTAATTCTGGTTTC
				ATGATTGCAGCATATATCACTCGTCCACTATGAAGTTGCTC
				TAAATATCGAGGGGATGAAATATACCGTATGTTCCATGCC
				ATTCGTACTTTCCTCGTGAATTTTTGTTATGGATGCTATTTT
				TGACATTTTCTTTCTAAATATATTTTCTTGAAATTAATGAAC
				ATGTCGTTTCGGATTGCCAGATTGAGATGATTAGGGGTGG
				ACCAGGAAGCTACAAAATGTGGTTGAATGGGTCCGTAGTT
				GAGGCGGAAATACATACTTTAAGAGATGGGGGTCTCTTGA
				TGCAGGTATCAAATGTTTTTTGATATTTTTTTTTCTGATATA
				CGGTATTTATATTTTATATCCAAAGCATGGTGATAATACCC
				TGGATTTGTAAAGCATTAGATAATATGTTATCAAACAAGTA
				GAAGGTAGTTTCGTGAAACCATGAAGCGTTTAGTTTAGAT
				TTGAATTTTAATACTTCTACAATGCTTGGGATATTAATCAAT
				AATCATGCTTCTAATAGTAAAGAGAAATATTGTCATAGACT
				CATAGGTATAATGGCTCGTTAAATCATATGCACTTCTTGTTT
				ATGTGAAGTCCGAGTTGGTGTTTGCAATCAACGTTTGAAAT
				CAAGGGCATAGTGCAAAATCTCGAATGTGGTCACTTTTGT
				GGTCAATGTAGATGGTTTCATTTCTATCGTGGTATAAATAT
				GGGTCGCAGTAATCTTAAGAACCTATATAGTAGACGATAA
				CTTGTTATTAAAAGGGTAAAGGCTGCATACATCCGATGTCC
				CATTTACCCGGTCTAGATGTGAGCTACTTGGGGTTTTTGTT
				ATTGAAGTTAAAGATACAAGAAGGATTATTGCTAAAAAAA
				AAAAAGAATATTTGAACTACAAAAAAAGTAATTAGTTTATG
				TACTAGTTCGTTCTAGCCCATATAACTCATTTAAAAAAATAT
				ATGAAAAAGGGCTTTCAATGTCATGAACGGAAGGGAGGA
				AATGGACTGTGGAAGAGTCAACAAAGATTACATATGAATT
				CTCTTTTGTTGTTTAAAAAACTTTGAAATTGAAAATTGTTGG
				CTTTTTGTTGAAGAAACGATGTGTGTCAGTTGAAAACAGA
				ATATTTAAACTACAAAAAAAGCAATTAGTATATACACAATA
				CACTTGTTCATTTAAACCCATATAGTACATTTAAATAATTAT
				TTGAAAAGGGCTGTTAATGTGTGAAGACTTTCGCTATATTG
				ATCTGATTGGATATGTGTAATACCTTGAAACGTCATGCAGT
				TGGACGGAAACAGCCATGTGATATATGCCGAGGAAGAAG
				CTGCAGGAACTCGCCTTCTGATTGATGGAAGAACTTGTTTG
				CTTCAGGTAATGCCGTGTGATTCTCTTTTTTTTTTTTTTTTGT
				GAATTCTAAACCTTAAAAATCATTCTTCACCGGACATGTTC
				ATTTTTCCATATAGAACGATCACGATCCTTCAAAGCTGATT
				GCGGAGACTCCGTGTAAGCTTATGCGGTATTTGGTACCAG
				ATAACAGTCACATAGATGCAGATACTCCGTATGCTGAAGTT
				GAGGTCATGAAGATGTGTATGCCTTTGCTTTCCCCAGCATC
				CGGTGTTTTACAATTTAAGATGTCCGAAGGTCAAGCTATGC
				AGGTATGCATCATTTTAATCGTAAATTCAGCAACCTCGTTT
				ATATTGGATTCTATATATGGTCTTGCTGTGTAGGCTGGTGA
				ACTCATAGCTAGTCTAGAGTTGGATGATCCTTCAGCTGTAA
				GAAAAGCCGAACCTTTCAGTGGAAGCTTTCCTGCCATGGG
				CTCTCCAACTGCAATATCTGGAAAAGTTCATCAGAGGTGTG
				CCGCAAGTTTAAATGCCGCTCGGATGATTTTGGCTGGTTAT
				GAACACAATATAGATGAAGTAAGTTTCAAACCACCATTTCA
				TTTTTCATCAACATAGTTTTTAGGCTAGCCTCTTAATGGGTT
				GATGCCATAGTGTAAAAACAAGGCCACATCGCATCACGTC
				ACCGCGTTGTTAAGGATTTCAAAAACAACGAACCGATATTT
				CCCATGTTGTGGGCCGTACCAAGGGATATCTTATGGTTTTG
				ACCGGTATTTAGGCGTTACAATAACCGCATCACTCCCGTTA
				CCGCATCATTGTTCTGTTACACTATGGATGCCGAACCTTGA
				GATGCATTTCCCATTTTTCAATAGAGCCCCTAGTTTTTTTCT
				TCCTGTTTGGAAATTTTTTACATGTGAGCCTTTTATTTTCTC
				AGGTAGTACAGAGTTTGCTGGAATGCCTTGATAGTCCCGA
				ACTTCCATTCCTTCAATGGCAAGAATGCTTGTCTGTGCTGG
				CAACACGACTCCCCAAAGATCTGAGATACGAAGTGTGTAT
				TCTATCATCTGTTCTTTATTTAGTTATTTATATTTCCTTATAA
				TAATTTTGAACTTTTTCCTCGGAGTTTACAGTTGGAATCAA
				AATCTAGAGCTTTTGAAGCGATTACCAACACCCCAAACGTA
				GAATTTCCTGCTAAGTTGTTGAAAAGTATTCTTGAGGTTAG
				TACCTCACTTTGTTACCTTCTGTAAATTATTCATTCGGCGAG
				TTACTCATGTTAGTAACATGTTTATTCTTCGTAGGACCATTT
				AAACTCATGCCAAGAGAAAGATAAAGGAGCTCAAGAGAG
				GCTTATTGAGCCTCTTATGGTTCTTGTAAAGTCTTACGAAG
				GTGGGAGAGAAAGTCATGCTCGTTTTATTGTTCAATCTTTA
				TTTGAAGAGTATTTGTCCGTTGAAGAATTGTTTAGCGACAA
				TCTCCAGGTTTGTCCATCTATCTAGAGCAATTTGATTATGAT
				GTTTTTTTAAAGTTCATAAATTTTAGCTTGGTGCCACACCGT
				CAGTGGCTGATGATCGTCGCTTTGTGATCATTAAGCTTTTA
				AAAGCTGTCTCCTGTTCTCCATCACTATTTTTAGAAATTTTG
				AGTTCTGATGTATATACTCGGTACCCGAGGGACTCTTTGGC
				CGCTTTCTTCTTTATGGGTATGAGTTGCCTCCTTCCTTCCCT
				CCCCAGATCCTGATCATAGTTTCTATGAGCGGGATACATTG
				GGTATGATGATGATGATGTATATACTCGGTGCTGAGCCAG
				CATATGAAAAGCAAACTGTCGTGAATTTATCTTATGTCTTT
				AAAGAATACCGAGGCACCTGATTTTACATTTTATCTTTATTT
				TTTTCTGTATGAAGAAATAGTAAATTATATTCTTCAATAGTT
				GACTCGGAGTGATGTTTGTAATATGTTTAGAAAAAATGTT
				GGACTAGAAAGTCAGCGCAGCGCATATATTAGTTTATGAT
				TGTGGCTTTAATCAGTTTATGCTTTTGATGTTAATCTTTCCA
				GGCTGATGTGATTGAACGTCTCCGCCTTCAGTATAAGAAG
				GATCTGCTGAAGATTGTTGACATTGTACTGTCGCATCAGGT
				ACGTATTCTTGATTTACTGTTGTTCCTTTTGTTCTCTTCGGC
				ATTTCTATTTTTTTTTAATATATTTTATGGTTTTCAGGGTGTT
				AAGAATAAAAATAAGCTGATTCTACGACTCATGGAACAGC
				TGGTTTACCCAAATCCCGCTGCATACAGGGGGCAACTTATC
				CGTTTCTCTCAATTGAACCATACAATGTATTCTGAGGTTGG
				TGATCCTCAAACACCCAAAGCTATGTATTTCTCATAATGCTT
				AAGTAGAGTAATAATTAATAATTGTCCAATGATTGCAGTTG
				GCACTAAAGGCCAGTCAATTGCTTGAACAAACGAAATTGA
				GTGAGCTCCGTTCGAACATTGCTAGAAACCTCTCTGAGCTA
				GAAATGTTTACCGAGGATGGTGAAAACATGGATACTCCAA
				AAAGAAAAAGTGCTATTAATGAACGTATGGAGGCCCTTGT
				GAGTACTCCTCTAGCTGTTGAAGATGCCCTTGTTGGTTTGT
				TTGATCATAGTGATCATACACTTCAGAGGCGGGTTGTTGA
				GACCTATGTTCGGAGGCTTTATCAGGTGAATACATACTTTA
				AATGCGGACTCGGTCCTATTCATTGTAGAAACTTCTCTTGA
				TCTTTCTCGAGTCGGGGGACTCTTTGGCCGCACTCTCCTTT
				ATGGGTATGAGTTGCCGCCTTCCTTCCCTCCCCAGACCCTG
				CACATAGTTTTTCTATGGGAAGGATACTCTGGGTATGATGA
				TGATGATTATTATTATCGCTACTTGAACAATTTTTCTTATGT
				TATTTAACTCCTTTTTTGTTTTTGGCAACCGCTTTCTCAGCCT
				TATCTTGTCAAGGGAAGTGTCAGGATGCTGTGGCACAGAT
				CAGGTTTCATAGCTTTATGGGAATTTGTTGAGGAGAATATT
				GACCGAACAAATTTTTCTGATGATCTGACTACAAACAGTGG
				GAACCATAGTGAGCGAAAGTGGGGGGCCATGGTCGTTAT
				TAAAACTCTTCAGTTCTTGCCATCGGTGATTGCTGCAGCAT
				TGAGAGAAACAACTCATAGTTCCGATCAATCAACTTCCACT
				GGCTCTATAGAATCAGTCATCCATGGAAATATGCTGCACAT
				TGCACTAGTGGGGGTGAACAACCAGATGAGCTTGTTGCAG
				GATAGGTAAATAAGACTAGCCTGTAACATATGGTGTAATA
				ATCTTTATTATGTAACCTTGTGCTTCTAATGTCCTTTAGTTCT
				ATGGACTATATTAAAGTACACTTCTTGTTCATGTGATGTTG
				ATGTTGATAATTGCTATCGGGTCAATCACAAACAACCTCTT
				TGTTATCACTTGAGGTGTTCAAAATAGACCCGATGACTCGA
				TATTCATCAGATCTTGTAACTGAACTCGACTTCAAAATGAA
				TTTAAAATTATATAAAAATCAATATGGACACAAGACCGGAT
				ATCAATCCGACCCGAAATAGTTGACTCGAAATCAACTTGAT
				GATCCGAATGAACACCTCTAGTTATCACTAACAAGGGTCA
				GATTGCGTACATCAAACCCCTCAAATCCTGCTTAGGTGGGA
				GCTTGTCAATGGCTTAGGGGTAACGGGAATGTGTGTGCTA
				TGTACATTGTGCATCTATTCTTATACTTATGTTGAGTTTTTT
				GGATCAAATATAAAGAACTTAACTTTTGTATTTTCTTGATGT
				GGTGTAGTGGTGATGAAGATCAGGCTCAAGAGAGAATCC
				ATAAATTGGCCAAAATTCTGAGAGAGCAAGAAGTGAGTTC
				AGCCCTTCGTGCTGCTGGTGTTGGTGTGATTAGTTGCATCA
				TACAGAGAGATGAAGGGCGAACTCCGATGAGGCATTCATT
				CTATTGGTCAGCAGAAAAACAATATTATAGTGAGGAGCCT
				TTACTACGTCATTTGGAACCCCCTCTATCTATGTATCTCGAG
				CTGGTACTAGTCTCTGAACCGATTGCCTTTCTTCTGCTTTGT
				TATTCTGTGTGATATTTCGACTTAAGTCTAATTTACATCGTT
				TTGTACATTTGTTATCCAAAGCACGTTAAAAGATACTTCCTT
				CGTTTTTTTACAAGCACCCAAACACCTTTTTACGCAGCCCAA
				TTGGTTTGTCGGGTTGCTTATATATAGAATTATACTCAACTT
				AAAAATTATAAAATTTGATATTATGAAAGTATTCGACGTGA
				CGAATTAAACAAAATCCCATATGACTATGTTTTTTTCTCGTT
				TAATAGCTGTAATATGTAAAATACTATCGAATGATGAATAG
				TGTAAAAACTGGTTTGGGTGCAACTAAAAAAATGGAGGAA
				GTATAATTATGCAGCCAAAATTGATGGCTTTTAACTTTTCAT
				CAAATCAGGACAAGCTTAAGGGTTATGAAGATATCAAATA
				TACTCCTTCCCGTGATCGTCAATGGCATCTTTACACAGTTAT
				TGATAAACCATTCATTCGGAGGATGTTTTTGAGAACCCTTG
				TAAGACAACCCATCTCTGAGTTCACAGGCGTCGAACTAAG
				CGCTCTTGAAACACAAAAGCCTATCTCTTTTACTTCAAGAA
				GCATCCTAAGGTCCTTAACAACCGCCATGGAGGAGTTGGA
				GCTCAATGCACATAGTGCTTCACTGAAACCCGATCACGCTC
				ATATGTACTTGTACATTGTTCGAGAGCAACAAATATACGAT
				CTTGTGCCATATCACAGGTATCTATTGCTGCGTGCCTCATTT
				TTTTTTTTGTTTATTATTGGTCATTAGTACACCTTATTCTTAG
				AAGAAACTTTTTTCGGCCAATTATTTCCAGGGAGGTGAACA
				TAGATCACCAACAAGAAGAGGCTTCGGTTCAATTCTTTTTG
				GAAGATCTCGCGCATGAAATCCATAGTCTTGCTGGTGTAA
				GGATGCATAAACTAAATGTTTGTGAGTGGGAAGTGAAACT
				TCGGGTATCTTCTCCCGGGAAAGCTAATGGTTTATGGAGG
				GTGGCAGTTACTAATGTGACTGGTCATACCTGTTCGGTACA
				TGTAAGTCATAAGTTTGAGAACCTCTTTTTTGATCTAGTCAC
				AATTTTGATTTTTCACAAATTCTTGTATGAGACGGTCTCACC
				GTGAGAATCACCCCATACTTGGATTAAATAGCCGAATAATA
				GAAACTTTTAGCATAATGGACCTTTTGTATGAACTCGTCTC
				ACGGAGAGAAGGTCTCATACAATAGGGGCAATTAATTTTT
				AGCTTTTTATCGGTAAATTTTGCATAGTACATAGTTTTGAAT
				TTTGAGAGGTTGAGTCTATGTGACAACGAATATTTAATTGA
				GTATAATGTTGTTTAATCCAAATATGATATAAAAGGGTGTG
				GCATATGTGATTGAGCATTCTTTTTTCTTTTCTATGGGAAGT
				TAAAGGTCTAAACCTTGGTATAATTTCCTTCAATGATGAGC
				AATCAAAGGGTTTCAGACCTGTTTATTTATGACTCGAAAGT
				CGAACCCAAACCAGAACCCGAACCCGACTCAACTTGATTTT
				TTTGACATGCCTAAATGGAACTACAGATGTATTGGGGAAA
				ATAATTAAACTAGAAAATGGGGAAAATAATTAAACTAGAA
				AATGGGGAAAACAATTTACCTAGAATATGTTTTCAGCCAAA
				ACAAACACTCCCAAATACATTTCTTAGCATCCACAAATGCC
				GAGGAATTGCAATGGAACTCCAGTTCCTCGGTTCTTCAACG
				TAGAGACGTATATAATTCTTTTTTGCACGATATCATTAAGG
				TTAATTGACCTGTTTTTTCTATGAAATATAATTTAATTTTTAT
				GCTCTTTAGTTTGTTTTACTACACATGAATAGTTTTGGTTTT
				GAGTGATCATTTTCTTACATTATTGATGCCCAGGTTTATCGT
				GAATTGGAAGATAGCAACCTTCATGAAATGGTCTACCATTC
				AGTATCTGTTCACGGCCCCCACCATGGGGTACCTGTGAAT
				GCACCCTATCAACCACTCGGTGGCATCGCCCGTAAGCGAC
				TTCAGGCCATGAAAAGTAGCACAACTTACTGTTACGATTTT
				CCACTGGTACGGAATTTGAAAATTTCATCACTCCCTCCCCC
				GTCTTCCCCTTAATATACTTTGTCGCCCGTTATTTCATATTCC
				GTTTTATCAACCATGCAAGGATCTTCCAGGGTTCCGAATTT
				CATTTTTTCGTACTTCCAAAGTTTCAGGCAAACTTACTTTTT
				TTGACGCTGTTGTTTTCAGGCTTTCTCAACTGCCCTGAAGC
				AATCATGGGCATCGGAAGCTCCGGATGTCAAGAAACCCTC
				GGACAAAGCGCTTTTGAAAGTAACGGAGTTAGCGTTTGCT
				GATCCAAAAGGCACATGGGGAACTCCGCTTGTTCCAATAA
				ATCGCAAGCCTGGTATGAACGATGTTGGCATGGTAGCCTG
				GTACATGGAAATGTCCACCCCCGAGTTCCCTAATGGAAGA
				ACAATAATGGTTGTAGCTAATGATGTTACCTTCAAGGCCG
				GATCTTTTGGACCACGAGAAGATGCTTTCTTCCTTGCTGTT
				ACAAATCTTGCTTGCGCGAAGAAACTTCCTCTTATTTATCTG
				GCTGCCAATTCAGGAGCTCGACTTGGTGTTGCCGAAGAGC
				TAAAATCCTGCTTTAAAGTTGGCTGGTCGGATGAGTCAAAT
				CCCGAGAGTGGATTTCAGTATGTCTACTTAACCCCTGAAGA
				TTACGATCGTATAGGATCGTCAGTCATAGCCCACGAGTTAA
				AACTCGAAAGTGGAGAAAAAAGATGGGTTATAGATACCGT
				TGTAGGTAAGGAGGACGGATTAGGTGTTGAGAACCTATC
				GGGAAGTGGTGCTATAGCCAGTGCATACTCAAGGGCTTAC
				AAGGAAACATTTACTCTGACTTTTGTAACCGGAAGAACGG
				TCGGTATTGGTGCCTATCTTGCTCGTCTTGGGATGCGTTGT
				ATACAGAGGCTTGACCAGCCTATAATTCTCACGGGTTTTTC
				TGCGTTAAATAAACTTCTCGGTCGGGAGGTTTATAGTTCAC
				ACATGCAACTTGGTGGACCGAAGATTATGGGCACAAACGG
				GGTAGTTCATCTTACAGTATCCGATGATCTTGAAGGCATTT
				CATCTATCTTGAAGTGGCTGAGCTACGTTCCACCCTATTCA
				GGTGGTGAACTTCCGATTTCTCGGTGTTTAGACCCTCCAGG
				AAGACCGGTTGCGTATTTGCCTGAAAATTCTTGTGATCCTC
				GTGGTGCTATATCTGGTACGGTTGACTCCACCGGTAAATG
				GTTTGGGGGTATTTTCGACAAGGATAGTTTTGTGGAAACC
				TTAGAAGGATGGGCACAAACAGTTGTCACGGGAAGGGCT
				AAACTCGGAGGAATTCCAGTTGGCATAGTTGCCGTTGAGA
				CGCAGACTGTTATGCAAGTAATCCCAGCAGATCCCGGTCA
				ACTCGACTCACACGAGAGAGTCGTACCACAAGCAGGGCAA
				GTATGGTTCCCAGATTCCGCATCCAAGACAGCACAAGCGC
				TGATGGATTTCAACCGGGAAGAACTCCCACTTTTCATTCTA
				GCTAATTGGAGAGGTTTCTCGGGTGGACAAAGGGATCTCT
				TTGAAGGGATCCTTCAGGCCGGATCCACCATAGTTGAAAA
				TCTTAGGACTTATAATCAACCCGTTTTTGTTTATATCCCTAT
				GATGGGGGAGCTTCGAGGAGGCGCATGGGTGGTCGTCGA
				TAGTCGAATTAATTCCGACCATATAGAAATGTACGCCGACC
				AAACAGCTAAAGGAAATGTGCTTGAACCGGAAGGAATGA
				TTGAGATTAAGTTCCGAACCAAGGAACTTCTCGAGTGTAT
				GGGAAGGCTTGATCAACAACTCATCGGTCTCAAGGAAAAA
				CTAGCCGAAGCCAAGAGCTCTAATTCCTACAATAAAATCGA
				GCCCCTGCAGCAACAAATAAAAGCCCGTGAGAAGCAACTA
				TTGCCTCTATATACTCAAATAGCCACCAAATTTGCCGAGTT
				GCACGATACGTCTTTAAGGATGGCTGCCAAAGGAGTCATT
				AGGGACGTCTTGGAATGGAAAAGCTCGCGTTCGTTCTTTT
				ACAAAAGATTATACAGGAGAGTTATGGAGGAATCACTCGT
				CAAGACTGTTCGAGATGCTGCAGGTGAACGGTTGACCCAT
				AAGTCGGCTTTGGAGTTGATCCAAAAATGGTTCAATGAGT
				CGAATATTTCCGGAGAGGCTTCCGATGCTTGGGCTGATGA
				TGCGGCCTTCTTTAAGTGGAAGGACAATACCGCCAACTAC
				GAGGAGAAGTTGAAAGAGTTGCGCGTTCAGAAGGTATTG
				GATCAGCTGTCGAATATTGGAGATTCGGCAACTAATTTGA
				GGGCTCTGCCTCAGGGTCTTGCTGCCCTACTTCAAAAGGTA
				ATCTGATTTATTTTATGTACATTCTTTGTTCTTTCTCGTTTGG
				GTTGGATGTCGCTTTTGTAACGGGTCGGGTCGGATCAATA
				TTTTAATGGGCCGGGTCAAGTCATGTCAAATTAAATTGGG
				CTTATGGGCTTTTTGTTTTGAGGTTGTCTCACCGTGAGACG
				GTCTCATACAAGACGGGCAGAAATCTAAAACAAAAAGTGG
				TAAAAGGCCCTTTAATGTTCTGACCTGTTATTGACCTGACC
				CACCGATGACCCATTAAAATGTAACCAGACTCTTGACCCGT
				CGGGTCAACCCACCCTGTTAAACTCCTTATTCTAATTGCAC
				ACAAAATCTTTGGGAGATGTTTTGATATCACACCTCAAAAA
				AACTCGGAAAAACTCCTATTAATTCCTACGATAAACATACA
				TCCTCGATGCCATGTATATTTTTCGATATCTACTTGTTTTTCT
				ATTGACATTTTGCTACGGAGAAGTGACGTTTTAGATTGAAC
				GCAGGTGGATCCATCGAGTCGAGAAGAACTAGTCGAGGA
				ACTCCGAAAAGTGCTCACTTGATTTCGCAACCGTTGATGGT
				CAAGTGAAACCTTCTTGGTTTCATCATGGTAGAAAATATTA
				TTAGGCAAATCTATAATTCTAGTTACATCCATTGTTTTAGAC
				AATAGTATTGAACTAATTTATTTAATTAAATTGTATAAATAG
				GAGACCTTGAATTCATTTGAATTAAGTGGCTTATGCTTGCA
				TTATTTTGTATTGAATCAAATAATTATTTACATACTTTTGATT
				ATTAATAATGGTAAATCCTCAAAATTTGAGGGATTTGTTCC
				TACAATGAAATCAAGGACAAAATGTATAGTTTGAGGGAAT
				GGTGCTTGTACACTTGTCTAAACAATAACAGGTGCTCTCTT
				GAGAGACCGTCTTATGTAAAGACGACTCTCAAAAGTTCAG
				CCCAAATCTA
14	Amaranthus	gDNA	9312	ATAGCTCCACCAGAAACGGTGAAGAAGCTTGAGCAAGCA
	palmeri	Contig		GCTAGAAGATTGGCTTTATGTGTGGGTTATGTTGGCGCAG
				CTACAGTTGAATATTTATACAGCATGGAAACAGGCGAGTT
				CCATTTCCTTGAGTTGAATCCTCGGTTACAGGTATGGAGCT
				TCCCCAACTTCTTTTAAGTACCCATTATGTAACTGCATATTT
				ATGTAATCCCTCCATTCCAAATTAGTCGCTATGTATTCCTAT
				GGGGATGTCCCAAATTAGTTGCAACGTTTCTGTAATATGGT
				AAAGTTTTCCCCTCCAAACCTTAAAACCTAGTTGACCATAAT
				CTAACTAAACCCAATTCTCGACCCACTTTGAAAAACAGGTC
				AAATGTTGGTGTTTGAACCACCTTTGAAGAAATTTAAGATT
				TTGGGTTGGTAATGCTTATTAGAGATTTGGGTTTGTGGCAT
				CGGCATTATTTTGGTGTCGATTTGCAAATGATATCCCGGGA
				TTTCGAACTAGGAGGGGATTCAATTGGTTTTTGAGGAATTT
				ATGTAATTATTCCTTTAATTAGTGATCATTGAATTGATTGTA
				TTTGTGTTGGGGAATTGGACCCGTGAAGAAAAAAATGACG
				GGTTAGCTTTTGGATTAGTGAGTGATTATGTGAGTTTAATT
				TGTCTATGAATGGTCAATTTCAAGCAACATTTTCTGTTTTAG
				CTTAGTAATTTTTGGGATGCGATTGAACATTTGAGCACCTT
				CTGGATTATTAACAGAAATGATCATCGAAATTGATTTTTTT
				AGTTGTTGACAGTAGAATAGTAACAGATAAGGTAGAATAA
				TACAGTATAATCTTTAGTTGCGACAATTTCCAACGTTTTTAT
				AATAGCTAAAGCTACATTCTCATGTTGCTTGATGAAAGTGA
				CTGTATTTATTCCGTGTGCTTATACAGGTGGAGCATCCTGT
				TACTGAGTGGATTGCCGAGGTAAATCTTCCAGCTGCTCAA
				GTTGCAGTTGGCATGGGTATCCCACTTTGGCAAATTCCTGG
				TAAATGTCCAGTACTCTTTTTTCGGTTATGTAACTTATATAT
				TATATCTAATTCTTATTTACGAACCGAATTGATCACACATTT
				TTAAAACAGAAATCCGTCGGTTCTATGGGAAGGAACATGG
				TGGGGGTTATGATACTTGGATGAGGACATCTGCTTTGGCT
				ACTGCTTTTGATTTTAACGAGGCACAGTCGGTGAAACCTAA
				AGGTCATTGTATTGCTGCGCGTGTGACAAGTGAGGATCCC
				GATGACGGTTTTAAGCCTACAAGCGGGAAAGTACAGGTTA
				GACCATCCTGGTTTTGTCGATTTACTTCCACAATTGGTCTTG
				TTTTTATTTTGCCTTTGCGGCGAAGAATTTTCTTTAATGGGT
				GCTTTGTTTAGGAGCTGAGTTTTAAAAGTAAACCGAATGT
				GTGGGCCTACTTCTCTGTTAAGGTATTTTCCATATTTCTTTA
				ATTCTTTGATTTTCGCGTTAACAATTTCAGTTCACTCCATTA
				TGGGTTTGATGATGATAAACACTTTTATTTGCAGTCTGGGG
				GAGGCATTCATGAGTTCTCGGATTCTCAATTTGGTAAGTTA
				ATGGTGCAAACTCTTGTCAGTAATGTTAACTCCAGTTTCAC
				ATGATTTGCTAGTCTTTTTGTGATTTGCGAATCAAAAAAGA
				GAATTATTGTCGGTTTTGGGCTATTTTTTATTCCATTTGGAG
				CCAATGGACATTCAAAAAGCAAATAGCTAGCGAATTTTGTT
				GATATTCTGGAGGTGTATATTGATGAGAATTTTACAATAAA
				TTGCTGCTGCTGCACTGTGCTATATTTTGGAAACACTGAAT
				GACTTTCAATTGTTTGTAAAGTTTGCATATTCGAGTCACAA
				CATGATGTCATAATGAAATGCGAGCGGTTTTTATTAAATAA
				TAGAGCCGTAGTGTAAAAACAAGGCCGCATTGCATCGTGT
				TGGCTGCATTGTAAAGGTTTTCAAAAACAATGAACTGATAT
				TTCCCACGTTGTAAAGGCATAAAACATTGCGTTTAGGGAA
				ATATCAAAGAATATCTTAAGGTTTCAACCGATATTTAGGTG
				GTGCAATGACCGCATTACTCCCGTTACCGCATTACCGTTCC
				TTGCTGCGATCACGATCGTTACCGCATTTTTACACTATGAA
				TAGACCTTCAGTTCATATTTTATGATGGCTAAAATCAATTAC
				TTGGTTAAAGGTATATACGAAGGCTAACAAAAGCATTTCTT
				TACAGGCCATGTTTTTGCATTTGGTGAAAACCGAGGTTTGG
				CCATAGCAAATATGATTCTTGGATTAAAAGAAATTCAAATT
				CGTGGAGAAATTCGAACTAATGTTGATTACACCATCGATCT
				TTTAAATGTGAGTTTGAATGTAATTCTTGTTGTCTTTTTTTA
				GTTTTCGCCTTTCTTCTGTTAAACCTTTGAAGTTCTCACACTT
				AACTTTTTTTTCCTCCAGTGTTTGGATTATAGAGAAAACCA
				AATTCATACAGGTTGGTTGGATAGTAGAATTGCGATGAGG
				GTCAGAGCTGAAAGGCCACCTTGGTACATCTCTGTTGTGG
				GAGGAGGGCTTTACGTATGTACAACTTTTTCACAGCTATCA
				TTAATTTTTCCGTTGTTATGATCTGTGTTACTTGGACTCGGG
				TTGTTGGATACTGGTATGTGTCCACGTGTCGGATACGTCTA
				AATATTCAATTTTACGCCTAAAATGAAGTATCTAAGTGCCA
				TGTCCGAGCATCAAGGATCGGACACGGGTACGTGAAGCCA
				AATGAAGAGTCCGAGTAACATAAGTTATGATTAATGTTAA
				ATAACTTGTTTTCTTTATCCTCTATATCCAGAAAGCATCGAC
				TAGTAGTGCAGCGACTGTTTCAGAGTATATAGGCTATCTTG
				AAAAAGGTCAAATTCCTCCGAAGGTATGTAACATACAATT
				GGTTGGCGGGTGTTTAGATTAACTTATTCTATTAATATCAA
				TTATACTTTCAGTGTTCTGCTTTAATTCTGGTTTCATGATTG
				CAGCATATATCACTCGTCCACTATGAAGTTGCTCTAAATAT
				CGAGGGGATGAAATATACCGTATGTTCCATGCCATTCGTA
				CTTTCCTCGTGAATTTTTGTTATGGATGCTATTTTTGACATT
				TTCTTTCTAAATATATTTTCTTGAAATTAATGAACATGTCGT
				TTCGGATTGCCAGATTGAGATGATTAGGGGTGGACCAGGA
				AGCTACAAAATGTGGTTGAATGGGTCCGTAGTTGAGGCGG
				AAATACATACTTTAAGAGATGGGGGTCTCTTGATGCAGGT
				ATCAAATGTTTTTTGATATTTTTTTTTCTGATATACGGTATTT
				ATATTTTATATCCAAAGCATGGTGATAATACCCTGGATTTG
				TAAAGCATTAGATAATGTGTTATCAAACAAGTAGAATGTA
				GTTTTGTGAAATCGTGAAGCGTTTAGTTTAGATTTAAATTT
				TAATACTCCTACAATGCTTGGGATATTAATCAATAATCATG
				CTTCAAATAGTAAAGAGAAATATTGTCATAGACTCATAGGT
				ATAATGGCTCGTTAAATCATATGCACTTCTTGTTTATGTGA
				AGTCCGAGTTGGTGTTTGCAATCAACGTTTGAAATCAAGG
				GCATAGTGCTAAATCTCGAATGTGGTCACTTTTGTGGTCAA
				TGTAGATGGTTTCATTTCTATCGTGGTATAAATATGGGTCG
				CAGTAATCTTAAGAACCTATATAGTAGACGATAACTTGTTA
				TTAAAAGGGTAAAGGCTGCATACATCCGATGTCCCATTTAC
				CCGGTCTAGATGTGAGCTACTTGGGGTTATTGTTATTGAAG
				TTAAAGATACAAGAGGGATTACTGTTTGAAAAAACGGAAT
				ATTTGAACTACAAAAAAAGTAATTAGTTTAGGTACTAGTTC
				GTTCTAGCCCATATAACACATTTTAAAAAAATATATGAAAA
				AGGGCTTTCAATGTCATGAACGGAAGGGAGCAAATGGAC
				AGTGGAAGAGTCAACAAAGATTACATATGATTTATGAATT
				CTCTTTCGTTGTTTAAAAAACTTTGAAATTGAAAATTGTTG
				GCTTTTTGTTGAAGAAACGATGTGTGTCAGTTGAAATCAG
				AATATTTAAACTACAAAAAAAGCTATTAGTTTATACACAAT
				ACACTTGTTCGTTTAAACCCATATAGTACATTTAAATAATTA
				TTTGAAAAGGGCTGTTAATGTGTGAAAACTTTCGATATGTT
				GATCTGATTGGATATGTGTCATACCTTGAAACGTCATGCAG
				TTGGACGGAAACAGCCATGTGATATATGCCGAGGAAGAA
				GCTGCAGGAACTCGCCTTCTGATTGATGGAAGAACTTGTTT
				GCTTCAGGTAATGCCGTGTGATTCTCTTTTTTTTTTTTTTTTG
				TGAATTCTAAACCTTAAAAATCATTCTCCACCAAACTTGTTC
				ATTTTTTCATATAGAACGATCACGATCCTTCAAAGCTGATT
				GCGGAGACACCGTGTAAGCTTATGCGGTATTTGGTACCAG
				ATAACAGTCACATAGATGCAGATACTCCGTATGCTGAAGTT
				GAGGTCATGAAGATGTGTATGCCTTTGCTTTCCCCAGCATC
				CGGTGTTTTACAATTTAAGATGTCCGAAGGTCAAGCTATGC
				AGGTATGCATCATTTTAATCGTAAATTCAGCAACCTCGTTT
				ATATTGGATTCTAAATATGGTCTTGCTGTGTAGGCTGGTGA
				ACTCATAGCTAGTCTAGAGTTGGATGATCCTTCAGCTGTAA
				GAAAAGCCGAACCTTTCAGTGGAAGCTTTCCTGTCATGGG
				CTCACCAACTGCAATATCTGGAAAAGTTCATCAGAGGTGT
				GCCGCAAGTTTAAATGCCGCTCGGATGATTTTGGCTGGTTA
				TGAACACAATATAGATGAAGTAAGTTTCAAACCACCATTTC
				ATTTTTCATCAACATAGTTTTTAGGCTAGCCTCTTAATGGGT
				TGATGCCATAGTGTAAAAACAAGGCCACATCGCATCACGT
				CACCGCGTTGTAAAGGATTTCAAAAACAACGAACCGATAT
				TTCCCACATTGTGGGCTGTATCAAGGGATATTTTATGGTTT
				TGACCGGTATTTAGGCGTTACAATAACCGCATCACTCCCGT
				TACCGCATCATTGTTCTGTTACCGTGATCATGACCGTTACC
				GCATTTTTACACTATGGATGCCGAACCTTGAGATGCATTTC
				CCATTTTTCAATAGAGCCCCTAGTTTTTTTCTTCCTGTTTGG
				AAATTTTTTACATGTGAGCCTTTTATTTTCTCAGGTAGTACA
				GAGTTTGCTGGAATGCCTTGATAGTCCCGAACTTCCATTCC
				TTCAATGGCAAGAATGCTTGTCTGTGCTGGCAACACGACTC
				CCCAAAGATCTGAGATACGAAGTGTGTATTCTATCATCTGT
				TCTTGATTTAGTTATTTATATTTCCTTATAATAATTTTGAACT
				TTTTCCTCGGAATTTACAGTTGGAATCAAAATCTAGAGCTT
				TTGAAGCGATTACCAACACCCCAAACATAGAATTTCCTGCT
				AAGTTGTTGAAAAGTATTCTTGAGGTTAGTACCTCACTTTG
				TTACCTTCTGTAAATTATTCACTCGGCGAGTTACTCATGTTA
				GTAACAAGTTTATTCTTCATAGGACCATTTAAACTCATGCC
				AAGAGAAAGATAAAGGAGCTCAAGAGAGGCTTATTGAGC
				CTCTTATGGTTCTTGTAAAGTCTTACGAAGGTGGGCGAGA
				AAGTCATGCTCGTTTTATTGTTCAATCTTTATTTGAAGAGTA
				TTTATCCGTTGAAGAATTGTTTAGCGACAATCTCCAGGTTT
				GTCCATCTATCTAGAGCAATTTGATTATGATGTTTTTTTAAA
				GTTCATAAATTTTAGCTTGGTGCCACACCGTCAGTGGCTGA
				TGATCGTCGCTTTGTGATCATTAAGCTTTTAAAAGCTGTCTC
				CTGTTCTCCATCACTATTTTTAGAAATTTTGAGTTCTGATGT
				ATATACTCGGTACCTGAGGGACTCTTTGGCCGCTTTCTTCTT
				TATGGGTATGAATTGCCTCCTTCCTTCCCTCCCCAGATCCTG
				ATCATAGTTTCTATGAGCGGGATACATTGGGTATGATGAT
				GATTATTATTATTATTATCGCTATTTGAACAATTTTTCTTATG
				TTATTTAACTCCTTTTTGTTTTTGGCAACCGCTTTCTCAGCCT
				TATCTTGTCAAGGGAAGTGTCAGGATGCTGTGGCACAGAT
				CAGGTTTCATAGCTTTATGGGAATTTGTTGAGGAGAATATT
				GACCGAACAAATTTTTCTGATGATCTGACTACAAACAGTGG
				GAACCATAGTGAGCGAAAGTGGGGGGCCATGGTCGTTAT
				TAAAACTCTTCAGTTCTTGCCATCGGTGATTGCTGCAGCAT
				TGAGAGAAACAACTCATAGTTCCGATCAATCAACTTCCACT
				GGCTCTATAGAATCAGTCATCCATGGAAATATGCTGCACAT
				TGCACTAGTGGGGGTGAACAACCAGATGAGCTTGTTGCAG
				GATAGGTATATAAGACTAGCCTGTAACATATGGTGTAATA
				ATCTTTATTATGTAACCTTGTGCTTCTAATGTCCTTTATTTCT
				ATGGACTATATTGAAGTACACTTCTTGTTCATGTGATGTTG
				ATGTTGATAATTGCTACCGGGTCAATCGAAAACAACCTCTT
				TGTTATCACTTGAGGTGTTCAAAATAGACCCGATGACTCGA
				TATTCATCAGATCTTGTAACTGAACTCGACTTCAAAATGAA
				TTTAAAATTATATAAAAATCAATATGGACACAAGACCGGAT
				ATCAATCCGACCCGAAATAGTTGACTCGAAATCAACTTGAT
				GATCCGAATGAACACCTCTAGTTATCACTAACAAGGGTCA
				GATTGCGTACATCAAACCCCTCAAATCCTGCTTAGGTGGGA
				GCTTGTCAATGGCTTAGGGGTAACGGGAATGTGTGTGCTA
				TGTACATTGTGCATCTATTCTTATACTTATGTTGAGTTTTTT
				GGATCAAATATAAAGAACTTAACTTTTGTATTTTCTTGATGT
				GGTGTAGTGGTGATGAAGATCAGGCTCAAGAGAGAATCC
				ATAAATTGGCCAAAATTCTGAGAGAGCAAGAAGTGAGTTC
				AGCCCTTCGTGCTGCTGGTGTTGGTGTGATTAGTTGCATCA
				TACAGAGAGATGAAGGGCGAACTCCGATGAGGCATTCATT
				CTATTGGTCAGCAGAAAAACAATATTATAGTGAGGAGCCT
				TTACTACGTCATTTGGAACCCCCTCTATCTATGTATCTCGAG
				CTGGTACTAGTCTCTGAACCGATTGCCTTTCTTCTGCTTTGT
				TATTCTGTGTGATATTTCGACTTAAGTCTAATTTACATCGTT
				TTGTACATTTGTTATCCAAAGCACGTTAAAAGATACTTCCTT
				CGTTTTTTTACAAGCACCCAAACACCTTTTTACGCAGCCCAA
				TTGGTTTGTCGGGTTGCTTATATATAGAATTATACTCAACTT
				AAAAATTATAAAATTTGATATTATGAAAGTATTCGACGTGA
				CGAATTAAACAAAATCCCATATGACTATGTTTTTTTCTCGTT
				TGATAGCNNNAATATGTAAAATACTATCGAATGATGAATA
				GTGTAAAAACTGGTTTGGGTGCAACTAAAAAAATGGAGGA
				AGTATAATTATGCAGCCAAAATTGATGGCTTTTAACTTTTC
				ATCAAATCAGGACAAGCTTAAGGGTTATGAAGATATCAAA
				TATACTCCTTCCCGTGATCGTCAATGGCATCTTTACACAGTT
				ATTGATAAACCATTCATTCGGAGGATGTTTTTGAGAACCCT
				TGTAAGACAACCCATCTCTGAGTTCACAGGCGTCGAACTAA
				GCGCTCTTGAAACACAAAAGCCTATCTCTTTCACTTCAAGA
				AGCATCCTAAGGTCCTTAACAACCGCCATGGAGGAGTTGG
				AGCTCAATGCACATAGTGCTTCACTGAAACCCGATCACGCT
				CATATGTACTTGTACATTGTCCGAGAGCAACAAATATACGA
				TCTTGTGCCATATCACAGGTATCTATTGCTGCGTGCCTCAA
				CTTTTTTTGTTTATTATTGGTCATTAGTACACCTTATTCTTAG
				AAGAAACTTTTTTCGGCCAATTATTTCCAGGGAGGTGAACA
				TAGATCACCAACAAGAAGAGGCTTCAGTTCAATTCTTTTTG
				GAAGATCTCGCGCATGAAATCCATAGTCTTGCTGGTGTAA
				GGATGCATAAACTAAATGTTTGTGAGTGGGAAGTGAAACT
				TCGGGTATCATCTCCCGGGAAAGCTAATGGTTTATGGAGG
				GTGGCAGTTACTAATGTGACTGGTCATACCTGTTCGGTACA
				TGTAAGTCATAATTTTGAGAACCTCTTTTTTGATCAAGTCAC
				AATTTTAATTTTTCACAAATTCTTGTATGAGACGGTCTCACC
				GTGAGAAGCGCCCCATACTTGGATTAAATAGCCGAATAAA
				AGAAACTTTTAGCATAATGGACCTTTTGTATGGACTCGTCT
				CATGGTGAGAAGGTCTCATACAATAGGGGCAATTAATTTT
				TAGCTTCTTATCTGTAAATTTTGCATAGTACATAGTTTTGAA
				TTTTGAGAGGTTGAGTCTATGTGACAACGAATATTTAATTG
				AGTATAATGTTGTTTAATCCAAATATGATATAAAAGGGTGT
				GGCATAAGTGATTGAGCATTCTTTTTTCTTTTCAATGGGAA
				GTTAAAGGTCTAAACCTTGGTATAATTTCCTTCAATGATGA
				GCAATCAAAGGGATTCTAACCTGTTTATTTATGACTCGAAA
				GTCGAACCCAAACCAGAACCCGAACCCGACTCAACTTGATT
				TTTTTGACATGCCTAAATGGAACTACAGATGTATTGGGGA
				AAATAATTAAACTAGAAAATGGGGAAAATAATTAAACTAG
				AAAATGGGGAAAACAATTTACCTAGAATATGTTTTCAGCCA
				AAACAAACACTCCCAAATACATTTCTTAGCATCCACAAATG
				CCGAGGAATTGCAATGGAACTCCAGTTCCTCGGTTCAACTT
				AGAGAAGTATATAATTCTTTTTTGCACGATATCATTATGGT
				TAATTGACCTGTTTTTTCTATGAAATATAATTTAATTTTTAT
				GCTCTCTAGTTTGTTTTACTACACATGAATAGTTTTGGTTTA
				GAGTGATCATTTTCTTACAATATTGATGCCCAGGTTTATCG
				TGAATTGGAAGATAGCAACCTACATGAAATGGTCTACCATT
				CAGTAT
15	Amaranthus	gDNA	5302	AACCTTGTGCTTCTAATGTCCTTTATTTCTATGGACTATATT
	palmeri	Contig		AGAGTACACTTCTTGTTCATGTGATGTTGATGTTGATAATT
				GCTACCTGGTCAATCACAAACAACCTCTTTGTTATCACTTG
				AGGTGTTCAAAATAGACCCGATGACTCGATATTCATCAGAT
				CTTGTAACTGAACTCGACTTCAAAATGAATTTAAAATTATA
				TAAAAATCAATATGGACACAAGACCGGATATCAATCCGAC
				CCGAAATAGTTGACTCGAAATCAACTTGATGATCCGAATG
				AACACCTCTAGTTATCACTTACAAGGGTCAGATTGCGTACA
				TCAAACCCCTCAAATCCTGCTTAGGTGGGAGCAGTGTCACA
				TGATTCGCTAGTTAATTCGCATGTCTCGATTCGAGATTCGC
				TCAAAATGGACCAAAAATGGCCCAAAAACGACCAAAATTC
				GCTTTTTTCAATTCGCGATTCGCAGAGAGATTAACGAATTA
				TGTGACAGTGGGTGGGAGCTTGTCAATGGCTTAGGGGTA
				ACGGAATTGTGTGTGCTATGTATATTGTGCATCTATTCTTAT
				ACGTATGTTGAGTTTTTTGGATCAAATATAAAGAGCTTATC
				TTTTGTATTTTCTTGATGTGGTGTAGTGGTGATGAAGATCA
				GGCTCAAGAGAGAATCGATAAATTGGCCAAAATTCTGAGA
				GAACAAGAAGTGAGTTCAGCCCTTCGTGCTGCTGGTGTTG
				GTGTGATAAGTTGCATCATACAGAGAGATGAAGGGCGAA
				CTCCGATGAGGCATTCATTCTATTGGTCAGCAGAAAAACAA
				TATTATAGTGAGGAGCCTTTACTACGTCATTTGGAACCCCC
				TCTATCTATGTATCTCGAGCTGGTACTAGTCTCTGAACCGA
				TTGCCTTTCTTCTGCTTTGTTATTTTGTGTGATATTTCGACTT
				AAGTCTAATTTACATCGTTTTGTACATTTGTTATCCAAAGCA
				CGTTAAAAGATACTTCCTTCGTTTTTTTACAAGCACCCAAAC
				ACCTTTTTACGCAGTCCAATTGGTTTGTCGGGTTGCTTATAT
				ATAGAATTTTACTCAACTTAAAATTATAAAATTTGATATTAT
				GAAAGTATTCGACGAGACGAATAAAACAAAATCCCATATG
				ACTGTTTTTTTCTCGTTTAATAGCTGTAATATGTAAAATACT
				ATCGAATGATGAATAGTGTAAAAACTGGTTTGGGTGCAAC
				TAAAAAAATGGAGGAAGTATAATTATGCAGCCAAAACTGA
				TGGCTTCTAACTTTTCATCAACTCAGGACAAGCTTAAGGGT
				TATGAAGATATCAAATATACTCCTTCCCGTGATCGTCAATG
				GCATCTTTACACGGTTATTGATAAACCATTCATTCGGAGGA
				TGTTTTTGAGAACCCTTGTAAGACAACCCATCTCTGAGTTC
				ACAGGCGTCGAACTAAGCGCTCTTGAAACACAAAAGCCTA
				TCTCTTTCACTTCAAGAAGCATCCTAAGGTCCTTAACAACC
				GCCATGGAGGAGTTGGAGCTCAATGCACATAGTGCTTCAC
				TGAAACCCGATCACGCTCATATGTACTTGTACATTGTCCGA
				GAGCAACAAATATACGATCTTGTGCCATATCACAGGTATCT
				ATTGCTGCGTGCCTCATTTTTTTTTGTTTATTATTGGTCATTA
				GTACACCTTATTCTTAGAAGAAACTTTTTTCGGCCAATTATT
				TCCAGGGAGGTGAACATAGATCACCAACAAGAAGAGGCTT
				CGGTTCAATTCTTTTTGGAAGATCTCGCGCATGAAATCCAT
				AGTCTTGCTGGTGTAAGGATGCATAAACTAAATGTTTGTG
				AGTGGGAAGTGAAACTTCGGGTATCATCTCCCGGGAAAGC
				TAATGGTTTATGGAGGGTGGCAGTTACTAATGTGACTGGT
				CATACCTGTTCGGTACATGTAAGTCATAGTTTTGAGAACCT
				CTTTTTTGATCTAGTCACAATTTTGATTTTTCACAAATTCTTG
				TATGAGACGGTCTCACCGTGAGAATCACCCCATACTTGGAT
				TAAATAGCCGAATAATAGAAACTTTTAGCATAATGGACCTT
				TTGTATGAACTCGTCTCACGGAGAGAAGGTCTCATACAATA
				GGGGCAATTAATTTTTAGCTTTTTATCGGTAAATTTTGCATA
				GTACATAGTTTTGAATTTTGAGAGGTTGAGTCTACGTGACA
				ACGAATATTTAAGTGAGTATAATGTTGTTTAATCCAAATAT
				GATATAAAAGGGTGTGGCATATGTGATTGAGCATTCTTTTT
				TCTTTTCTATGGGAAGTTAAAGGTCTAAACCTTGGTATAAT
				TTCCTTCAATGATGAGCAATCAAAGGGTTTCAGACCTGTTT
				ATTTATGACTCGAACCTGAACCCGACTCTACTTGATTTTTTT
				GACATGCCTAAATGGAACTACAGATTTATTGGGGAAAATA
				ATTAAACTAGAAAATGGGGAAAACAATTTACCTAGAATGC
				GTTTTCCGCCAAAACAAACACTCCCAAATACATTTCTTAGC
				ATCCACAAATGCCGAGGAATTGCAACGGAACTACCGATCC
				TCGGTTCTTCAACGTAGAGACGTATATAATTCTTTTTTGCAC
				GATATCATTAAGGTTAATTGACCTGTTTTTTCTATGAAATAT
				AATTTAATTTTTATGCTCTTTAGTTTGTTTTACTACACATGA
				ATAGTTTTGGTTTTGAGTGATCATTTTCTTACATTATTGATG
				CCCAGGTTTATCGTGAATTGGAAGATAGCAACCTTCATGAA
				ATGGTCTACCATTCAGTATCTGTTCACGGCCCCCACCATGG
				GGTACCTGTGAATGCACCCTATCAACCACTCGGTGGCATC
				GCCCGTAAGCGACTTCAGGCCATGAAAAGTAGCACAACTT
				ACTGTTACGATTTTCCACTGGTACGGAATTTGAAAATTTCA
				TCACTCCCTCCCCCGTCTTCCCCTTAATATACTTTGTCGCCC
				GTTATTTCATATTCCGTTTTATCAACCATGCAAGGATCTTCC
				AGGGTTCCGAATTTCATTTTTTCGTACTTCCAAAGTTTCAGG
				CAAACTTACTTTTTTTGACGCTGTTGTTTTCAGGCTTTCTCA
				ACTGCCCTGAAGCAATCATGGGCATCGGAAGCTCCGGATG
				TCAAGAAACCCTCGGACAAAGCGCTTTTGAAAGTAACGGA
				GTTAGCGTTTGCTGATCCAAAAGGCACATGGGGAACTCCG
				CTTGTTCCAATAAATCGCAAGCCTGGTATGAACGATGTTGG
				CATGGTAGCCTGGTACATGGAAATGTCCACCCCCGAGTTC
				CCTAATGGAAGAACAATAATGGTTGTAGCTAATGATGTTA
				CCTTCAAGGCCGGATCTTTTGGACCACGAGAAGATGCTTTC
				TTCCTTGCTGTTACAAATCTTGCTTGCGCGAAGAAACTTCCT
				CTTATTTATCTGGCTGCCAATTCAGGAGCTCGACTTGGTGT
				TGCCGAAGAGCTAAAATCCTGCTTTAAAGTTGGCTGGTCG
				GATGAGTCAAATCCCGAGAGTGGATTTCAGTATGTCTACTT
				AACCCCTGAAGATTACGATCGTATAGGATCGTCAGTCATA
				GCCCACGAGTTAAAACTCGAAAGTGGAGAAAAAAGATGG
				GTTATAGATACCGTTGTAGGTAAGGAGGACGGATTAGGTG
				TTGAGAACCTATCGGGAAGTGGTGCTATAGCCAGTGCATA
				CTCAAGGGCTTACAAGGAAACATTTACTCTGACTTTTGTAA
				CCGGAAGAACGGTCGGTATTGGTGCCTATCTTGCTCGTCTT
				GGGATGCGTTGTATACAGAGGCTTGACCAGCCTATAATTC
				TCACGGGTTTTTCTGCGTTAAATAAACTTCTCGGTCGGGAG
				GTTTATAGTTCACACATGCAACTTGGTGGACCGAAGATTAT
				GGGCACAAACGGGGTAGTTCATCTTACAGTATCCGATGAT
				CTTGAAGGCATTTCATCTATCTTGAAGTGGCTGAGCTACGT
				TCCACCCTATTCAGGTGGTGAACTTCCGATTTCTCGGTGTTT
				AGACCCTCCAGGAAGACCGGTTGCGTATTTGCCTGAAAAT
				TCTTGTGATCCTCGTGGTGCTATATCTGGTACGGTTGACTC
				CACCGGTAAATGGTTTGGGGGTATTTTCGACAAGGATAGT
				TTTGTGGAAACCTTAGAAGGATGGGCACAAACAGTTGTCA
				CGGGAAGGGCTAAACTCGGAGGAATTCCAGTTGGCATAG
				TTGCCGTTGAGACGCAGACTGTTATGCAAGTAATCCCAGC
				AGATCCCGGTCAACTCGACTCACACGAGAGAGTCGTACCA
				CAAGCAGGGCAAGTATGGTTCCCAGATTCTGCATCCAAGA
				CAGCACAAGCGCTGATGGATTTCAACCGGGAAGAACTCCC
				ACTTTTCATTTTAGCTAATTGGAGAGGTTTCTCGGGTGGAC
				AAAGGGATCTCTTTGAAGGGATCCTTCAGGCCGGATCCAC
				CATAGTTGAAAATCTTAGGACTTATAATCAACCCGTTTTTG
				TTTATATCCCTATGATGGGGGAGCTTCGAGGAGGCGCATG
				GGTGGTCGTCGATAGTCGAATTAATTCCGACCATATAGAA
				ATGTACGCCGACCAAACAGCTAAAGGAAATGTGCTTGAAC
				CGGAAGGAATGATTGAGATTAAGTTCCGAACCAAGGAACT
				TCTCGAGTGTATGGGAAGGCTTGATCAACAACTCATCGGT
				CTCAAGGAAAAACTAGCCGAAGCCAAGAGCTCTAATTCCT
				ACAATAAAATCGAGCCCCTGCAGCAACAAATAAAAGCCCG
				TGAGAAGCAACTATTGCCTCTATATACTCAAATAGCCACCA
				AATTTGCCGAGTTGCACGATACGTCTTTAAGGATGGCTGCC
				AAAGGAGTCATTAGGGACGTCTTGGAATGGAAAAGCTCGC
				GTTCGTTCTTTTACAAAAGATTATACAGGAGAGTTATGGAG
				GAATCGCTCGTCAAGACTGTTCGAGATGCTGCAGGTGAAC
				GGTTGACCCATAAGTCGGCTTTGGAGTTGATCCAAAAATG
				GTTCAATGAGTCGAATATTTCCGGAGAGGCTTCCGATGCTT
				GGGCTGATGATGCGGCCTTCTTTAAGTGGAAGGACAATAC
				CGCCAACTACGAGGAGAAGTTGAAAGAGTTGCGCGTTCAG
				AAGGTATTGGATCAGCTGTCGAATATTGGAGATTCGGCAA
				CTAATTTGAGGGCTCTGCCTCAGGGTCTTGCTGCCCTACTT
				CAAAAGGTAATCTGATTTATTTTATGTACATTCTTTGTTCTT
				TCTC
16	Amaranthus	gDNA	1693	AAATCATTCCCATTACCGCCATTTAGTACCACTAACCAAAC
	palmeri	Contig		GGGACGGTAAAGTTTTGCTTACTACAATATCTTCTTAGCTC
				ATAAGCTCAGAACCTTACTTGAATTTTGACAATGTGTGTCT
				AGCTATACTTTCAATAAGTATTTAAGAATTCATTTTCTTTTT
				ATCTATGTAAAGTTGCATATGATGTTTGTTATAAAGGGTCA
				ATCAAAAAACTATCTCTTTGTTATTAGTAACAAGGGTAACT
				GGGTAAGGTTATGTACATCCAATCCCTCCAAACCCTTTTTG
				GGTGGGAGCTACTTAATGGCGCTGGGACAATGGAAGTTTT
				TGTTTGTCGAATTCAAGCGGGGAAGTTTGTTTAGAATGAA
				TGTTATTTCTAAAAATAGATGGTATAAGTATGTTAATCAAC
				AATTAATAATAGAGAACTGTTTTATTGGTGTGATAAACAGT
				TTCAGGAGCAGTGGTCTCATTTTCGAGCAATACAAAAAGT
				GCCGTGCTTCTCTAAACAACGACGATTCAGACATGTCTTCT
				CCTTCCCACAATAATGAAAACCCGAACGGACCGATGATGC
				CACTCCTGAGGAATTCATCTGTAGTATCCATTGTTGATAAG
				TTCTGTTATGCTCTTGGAGGGACGCGGCCAATCCATAGTAT
				TTTGATAGCAAACAATGGGATGGCTGCTGTCAAATTTATAA
				GAAGTATCCGAACATGGGCTTACGAGACTTTTGGTACTGA
				GAAGGCTATATTATTGGTAGCCATGGCTACTCCCGAAGAC
				ATGAAAATCAATGCCGAGCATATTCGAATGGCTGATCAGT
				TTGTTGAAGTCCCCGGAGGAACTAACAACAATAACTACGC
				CAATGTGCAGCTCATTGTTGAGGTAATGTATCTTGAGATTA
				GAAATTTCTAGCCTGTCATCCATAGTTACATGGAATGTGGA
				ACATAGCCACGTTCCGCGATTCGGGAACATTCATTCCCAAT
				CACCATGAAACCCGACCTAAATCGCTAAAGGTGACGTCCC
				GGTGTAGAACACCTTTTTTTTAAAATGTATTTTTGGCCTTCA
				TTTACAAATTGAAGAAAGGAGGAAAAAACAAGATGTAACC
				CAGAAACCTAAACAAATCCACTTGAAAATAATTTCTTAAAG
				CAAATTAATCATTTTAGTTTAATTTTGTTTCAAATATATATTT
				TATACATAATGTATCTCATACCCAATCGTTCTTGAGTAAATC
				TAGGTTGCGTTCTGTGTTCCCATTCTTGTTTCCTGTTCGAAA
				CCAAATGTCGTTCAGTTAACAATGCTGTTATCTGCTTTACTG
				TGATTTATTAAATGTGTCCTTCGAAAAAAGGCAATATCAGA
				GCGACTTGATGCAGTATGGCCTGGCCGGGGACATGCGTA
				GTTTGTTATATGAGATTGCAAATTTATAGCCTTTTATATGGT
				AAAATCTTGTGGTAGGACTAACTTAAATCCTTTTTCTTTCAG
				TTAGCGGAAGTTACACGAGTTGACGCAGTTTGGCCTGGTT
				GGGGACATGCATCGGAGATCCCCGAGTTGCCAGATTCATT
				AGCTACGAAGGGAATTGTGTTTCTGGGCCCCCCAGCTGCA
				TCTATGGCTGCTCTTGGAGATAAAATTGGTTCATCATTGAT
				TGCACAAGCTGCAGATGTCCCAACTCTTCCATGGAGTGGTT
				CTCATGTACGTACTACAC
17	Amaranthus	gDNA	1457	GGAGACATCTTGTGCCTCTAACCAAACCAAACCAACCTCCT
	palmeri	Contig		TAAACTTCTCTTCTTCTACTCACCATTTTTTCCTCTTTTTATTG
				ATTATTGATTATTCATTTTAAATATACATTATATTGTAGGAA
				TTTAATGAAATTTTCATTAAATTCTGATAAAGTTTTGATTTT
				TTTTAGTGTATGAGATTTTTCTTAAGTACCCAAATGGTAAA
				TTTCAAGTATAATCAAGTTTTTTAGTACCCAAAGCTCTAAAT
				GTTACTTAAAGTTTTGATCTTTTAATGGTTTCTTCTATTTAAT
				CCAATAATTTAAAGTACCCAGATTTCAATTTTTAGAATAAAT
				TGAGTTTTTGAATTGCCCAAGTTGTAATTGTTGCTGAATTCT
				CTTGCTTTGATTTGGGTTTTCTGATTCTATCCCTTCTGATTC
				ATACAGGTATTCTGATTTTTTCTTGCTTGATTACTTTTTGTTA
				GTGTATGGTTGAGCTAATTTAGTTTATAGTAGTGTGAATTT
				TATTTTATTTTTTTTCAATTTTTTCAATTATTTCAATTTGTAG
				AGTAGATTCTCCTATTATGATTTGTTTTTGTAGCTGGGTTTT
				AATTTTTATTGTCTGATGATTTATCTTAGCAATGTTTTATTG
				AAGTGTATTTTAGTTGATTCCATTTTTCCAATAGAGTGTACA
				AAATCGACCTGATTAACTGAAACTGAGTATTATCCAACGG
				GAACAATCACTGTTACAAAATTCAAATTAGAATGTCAAGTA
				CCGAAATCAACCCGACCCCACATATTATACCCGAGATCCAC
				CCGAACACCCGAATGAACACCTCTGAGATCATAGAGAGGA
				TATAAGAAAAGTGAAACTAGAATGGGGAATTTAGTTTATT
				TAAGCTACATTGAGCAAAAATTTTTTTAGTGACTGATTATT
				GTAGCTGGCTTTTGTTGTATAACTCATCTAAGCAATGTTTTT
				GATGTGTGTGCAGTAGCATTGGATTGTTTTGATTTTTTTGT
				TATATTGTCTATACAATTCAATTCTTGAATCACACTTGACTT
				TTAGTTCCATTTTCATCTTCACAAATTCTTGTGAGAGACGGT
				CTCAGTGTTAGACGCTCTCTGTACATGGGCTAAATAGCCCA
				ACTAATACAACTATTAGCATACGAGCTTCTTATTTTGAAGT
				CATCTCTCATAAGAGTAGCTCTCTATCTTTCGTTGGGTAGA
				TGGTAATAAACGGTAGTAATGAGGATGAAAAACAAGTGTA
				ATTTTGGTTGGAAAATATGTTGGTTACCTTGATGGTCATGC
				TTGTCCAACTTAAATCATCTTATTTTCTTCTCAAAATTCATTT
				CAATGCATTACCATTAGGAGAGGTGATATTAGGCGGTAAT
				GAAATTATGTAAACAAAAAAACTTTTTTGTGATTGAAGTTT
				CATTGCTATAGGAACGATATCGATATGGAACTTTTGATGAA
				ATTT
18	Amaranthus	gDNA	1175	TTTTTTTTTCCTTCCAAATTTCTGATCTTTAGAGTTTTAGTGA
	palmeri	Contig		TAGATTTATATACGTCTCTATCCCTCAGGTGAAAATTCCTGC
				TGAGAGTTGCCTAGACGTAATTCCCGATGAAGTATATAAA
				GCGGCATGTGTTTTTACTACAGAGGAAGCAATTGCTAGCT
				GTCAAGTTGTTGGTTATCCGGCTATGATCAAAGCTTCTTGG
				GGTGGTGGAGGGAAGGGAATAAGAAAGGTAAAATTTTTT
				TGGATGATGATGCTCTTAAAAGACTAAAAGGAGGTTACAC
				ATATCCCCATTACTTGTTTATCATCAGAGGCGGAGCAAAAA
				TTGACAAAGATTTAAAGGCTGTGTGCAATTTCAAAAAATAT
				GATATATTTCTAACAACGTATCTTCAAACACTTTAAACATAC
				TACCTATTCTAATATTGCGGCCCCTATTTTTTTGAGGCCGTG
				TGTGGTCGAACATATTGAATATGCTTAGAACCACTCCTGTT
				TATCACTAATATGCCATCTTCCACAATCAAACCTCTACTTTT
				GACCCAGATTCCTTGAAAGGGATTTCGATTTAGACTCGAG
				CTATGGTCAATTATTAGCAATAGCAAAAGCTTCTTAATAGT
				TAATAGATTCTCAAACACTTCCGTCATGCCAACACTTTATGA
				AGACTCATGGGTATTCTCTCTTTTAGGTTCATAATGATGAC
				GAAGTACGGGCATTATTTAAGCAAGTGCAGGGTGAAGTTC
				CCGGCTCACCCATATTTATAATGAAGGTGGCTTCACAGGTT
				AGACTTTCTTCAACATTGGTCCGATATTCGAGTAAATTGCA
				TTAAAAAAGGTTAAATATACAATTTTTTTGGATAAGTATTG
				TATGAGAGACTACTACTAAGATAAAGTATTATTAATATGTG
				CAGAGTCGACACTTAGAAGTACAGTTACTGTGTGATGAAT
				ATGGCAATGTTGCAGCATTGCATAGCCGTGATTGCAGTGT
				CCAAAGGCGGCACCAAAAGGTGGGTCTTTGGTAGATTATG
				GTTATGATCTACGGTTTCTTATTGTTTAAGAAAAATATTTGA
				TATTAAGCATTATTTAGCTTGCTGAGATTTGAACTTTTCTGT
				TCATCATATTAACTAATCAGATCATTGAAGAAGGCCCAATA
				ACGATAGCTCCACCAGAAACGGTGAAGA
19	Amaranthus	cDNA	5038	AAGAACTTGTTTGCTTCAGAACGATCACGATCCTTCAAAGC
	rudis	Contig		TGATTGCGGAGACACCGTGTAAGCTTATGCGGTATTTGGT
				ACCAGATAACAGTCACATAGATGCAGATACTCCGTATGCT
				GAAGTTGAGGTCATGAAGATGTGTATGCCTTTGCTTTCCCC
				TGCATCCGGTGTTTTACAATTTAAGATGTCCGAAGGTCAAG
				CTATGCAGGCTGGTGAACTCATAGCTAGTCTAGAGTTGGA
				TGATCCTTCAGCTGTAAGAAAAGCCGAACCTTTCCGTGGAA
				GCTTTCCTGTCATGGGCGCACCAACTGCAATATCTGGAAAA
				GTTCATCAGAGGTGTGCCGCAAGTTTAAATGCCACTCGGA
				TGATTTTGGCTGGTTATGAACACAATATAGATGAAGTAGT
				ACAGAGTTTGCTGGAATGCCTTGATAGTCCCGAACTTCCAT
				TCCTTCAATGGCAAGAATGCTTGTCTGTGCTGGCAACACGA
				CTTCCCAAAGATCTGAGATACGAATTGGAATCAAAATCTAG
				AGCTTTTGAAGGGATTACCAACACCCAGAACGTAGAATTTC
				CTGCTAAGTTGTTGAAAAGCATTCTTGAGGACCATTTAAAC
				TCATGCCACGAGAAAGATAAAGGAGCTCAAGAGAGGCTT
				ATTGAGCCTCTTATGGCTCTTGTAAAGTCTTACGAAGGTGG
				GCGAGAAAGTCATGCTCGTTTTATTGTTCAATCTTTATTTGA
				AGAGTATTTATCCGTTGAAGAATTGTTTAGCGACAATCTCC
				AGGCTGATGTGATTGAACGTCTCCGCCTTCAGTATAAGAA
				GGATCTGCTGAAGATTGTTGACATTGTACTGTCGCATCAG
				GGTGTTAAGAATAAAAATAAGCTGATTCTACGACTCATGG
				AACAGCTGGTTTACCCAAATCCCGCTGCATACAGGGGGAA
				ACTTATCCGTTTCTCTCAATTGAACCATACAATGTATTCTGA
				GTTGGCACTAAAGGCCAGTCAATTGCTTGAACAAACGAAA
				TTGAGTGAGCTCCGTTCGAACATTGCTAGAAACCTCTCTGA
				GCTAGAAATGTTTACCGAGGATGGCGAAAACATGGATACT
				CCAAAAAGAAAAAGTGCTATTAATGAACGTATGGAGGCGC
				TTGTGAGTACTCCTCTAGCTGTCGAAGATGCCCTTGTTGGT
				TTGTTTGATCATAGTGATCATACACTTCAGAGGCGGGTTGT
				TGAGACCTATGTTCGGAGGCTTTATCAGCCTTATCTTGTCA
				AGGGAAGTGTCAGGATGCTGTGGCACAGATCAGGCTTCAT
				AGCTTTATGGGAATTTGTTGAGGAGAATATTGACCGAACG
				AATTTTTCTGATCTGACTACAAACAGTGGGAACCATAGTGA
				GCGAAAGTGGGGGGCCATGGTCGTTATTAAAACTCTTCAG
				TTCTTGCCATCGGTAATTGCTGCAGCATTGAGAGAAACAAC
				TCATAGTTCCGATCAATCAACTTCCACTGGCTCTATAGAAT
				CAGTCATCCATGGAAATATGCTGCACATTGCACTAGTCGG
				GGTGAATAACCAGATGAGCTTGTTGCAGGATAGTGGTGAT
				GAAGATCAGGCTCAAGAGAGAATCGATAAGTTGGCCAAA
				ATTCTGAGAGAACAAGAAGTGAGTTCAGCCCTTCGTGCTG
				TTGGTGTTGGTGTGATTAGTTGCATCATACAGAGAGATGA
				AGGGCGAACTCCGATGAGGCATTCATTCTATTGGTCAGCA
				GAAAAACAATATTATAGTGAGGAACCTTTACTACGTCATTT
				GGAACCCCCTCTATCTATGTATCTCGAGCTGGACAAGCTTA
				AGGGTTATGAAGATATCAAATATACTCCTTCCCGTGATCGT
				CAATGGCATCTTTACACGGTTATTGATAAACCATTCATTCG
				GAGGATGTTTTTGAGAACCCTTGTAAGACAACCCATCTCCG
				AGTTCACTGGCGTCGAACTAAGCGCTCTTGAAACACAAAA
				GCCTATCTCTTTTACTTCAAGAAGCATCCTAAGGTCATTAAC
				AACCGCCATGGAGGAGTTGGAGCTCAATGCACATAGTGCT
				TCACTGAAACCCGATCACGCTCATATGTACTTGTACATTGT
				CCGAGAGCAACAAATATACGATCTTGTGCCATATAACAGG
				GAGGTGAACATAGATTACCAACAAGAAGAGGCTTCGGTTC
				AATTCTTTTTGGAAGATCTCGCGCATGAAATCCATAGTCTT
				GCTGGTGTAAGGATGCATAAACTAAATGTTTGTGAGTGGG
				AAGTGAAACTTCGGATATCATCTCCCGGGAAAGCTAATGG
				TTTATGGAGGGTGGCAGTTACTAATGTGACTGGTCATACCT
				GTTCGGTACATGTTTATCGTGAATTGGAAGATAGCAACCTA
				CATGAAATGGTCTACCATTCAGTATCTGTTCACGGCCCCCA
				CCATGGGGTACCTGTGAATGCACCCTATCAACCACTCGGT
				GGCATCTCCCGTAAGCGACTTCAGGCCATGAAGAGTAGCA
				CAACATACTGTTACGATTTTCCACTGGCTTTCTCAACTGCCC
				TGAAGCAATCATGGGCATCGGAAGCTCCGGATGTCAAGAA
				ACCCTCGGACAAAGCACTTTTGAAAGTAACCGAGCTAGCA
				TTTGCTGATCCAAAAGGCACATGGGGAACTCCGCTTGTTCC
				AATAAATCGCAAGCCTGGTATGAACGATGTTGGCATGGTA
				GCCTGGTACTTGGAAATGTCCACCCCCGAGTTCCCTAACGG
				AAGAACAATAATGGTTGTAGCTAATGATGTTACCTTCAAG
				GCCGGATCTTTCGGACCACGAGAAGATGCTTTCTTCCTTGC
				TGTTACAAATCTTGCTTGCGCGAAGAAACTTCCTCTTATTTA
				TCTGGCTGCCAATTCAGGAGCTCGACTTGGTGTTGCCGAA
				GAGCTAAAATCCTGCTTTAAAGTTGGCTGGTCGGATGAGT
				CAAACCCCGAGAGTGGATTTCAGTATGTCTACTTAACCCCT
				GAAGATTACGATCGTATAGGATCGTCAGTCATAGCCCACG
				AGTTAAAACTCGAAAGTGGAGAAAAAAGATGGGTTATAG
				ACACCGTTGTCGGTAAGGAGGACGGATTAGGTGTCGAGA
				ATCTATCAGGAAGTGGTGCTATAGCCAGTGCATACTCAAG
				GGCTTACAAGGAAACATTTACTCTGACTTTTGTAACCGGTA
				GAACGGTCGGTATTGGTGCCTATCTTGCTCGTCTTGGGATG
				CGTTGTATACAGAGGCTTGACCAGCCTATAATTCTCACGGG
				TTTTTCTGCGTTAAATAAACTTCTCGGTCGGGAGGTTTACA
				GTTCACACATGCAACTTGGTGGACCGAAGATTAATGGGCA
				CAAACGGGGTAGTTCATCTTACAGTTTCCGATGATCTTGAA
				GGCATTTCATCTATCTTGAAGTGGCTGAGCTATGTTCCACC
				CTATTCAGGTGGTGAACTTCCGATTTCTCGGTGTTTAGACC
				CTCCCGAAAGACCGGTTGCGTATTTGCCTGAAAATTGTTGT
				GATCCTCGTGGGGCTATATCTGGTACGGTTGACTCCGCCG
				GTAAATGGTTTGGGGGTATTTTCGACAAGGATAGTTTTGT
				GGAAACCTTAGAAGGATGGGCACGAACAGTTGTCACGGG
				AAGGGCTAAACTCGGAGGAATTCCAGTTGGCATAGTTGCT
				GTTGAGACACAGACTGTTATGCAAGTAATCCCAGCAGATC
				CCGGTCAACTCGACTCACATGAGAGAGTCGTACCACAAGC
				AGGGCAAGTATGGTTCCCAGATTCCGCATCCAAGACAGCA
				CAAGCGCTGATGGATTTCAACCGGGAAGAACTCCCACTTTT
				CATTTTAGCTAATTGGAGAGGTTTCTCGGGTGGACAAAGG
				GATCTCTTTGAAGGGATCCTTCAGGCTGGATCCACCATAGT
				CGAAAATCTTAGGACTTATAATCAACCCGTTTTTGTTTATAT
				ACCTATGATGGGGGAGCTTCGAGGAGGGCATGGGTGGTC
				GTCGATAGTCGAATTAATTCCGACCATATAGAAATGTACGC
				CGACCAAACAGCTAAAGGAAATGTACTTGAACCCGAAGGA
				ATGATCGAGATTAAGTTCAGAACCAAGGAACTTCTCGAGT
				GTATGGGAAGGCTTGATCAACAACTCATCGGTCTCAAAGA
				AAAACTAGCCGAAGCCAAGAGCTCTAATTCCTATGGTAAA
				ATCGACCCGCTTCAGCAACAAATAAAAGCCCGCGAGAAGC
				AACTATTGCCTCTATATACTCAGATAGCCACCAAATTTGCC
				GAGTTGCACGATACGTCTTTAAGGATGGCTGCCAAAGGAG
				TCATTAGGGACGTCTTGGAATGGAAAAGCTCGCGTTCTTTC
				TTTTACAAACGATTATACAGGAGAGTGATGGAAGAATCGC
				TCGTCAAGACCGTTCGAGATGCTGCAGGTGAACGGTTGAC
				CCATAAGTCGGCTTTGGAGTTGATCCGGAAATGGTTCAAT
				GAGTCGATATTTCCGGAGAGGCTTCCGATGCTTGGGCTGA
				TGATGCAGCCTTCTTTAAGTGGAAGGATAATACCGCTAACT
				ACGAGGAGAAGTTGAAAGAGTTGCGCGTTCAGAAGGTAT
				TGGATCAGCTGTCGAATATTGGAGATTCGGTAACTAATTTG
				AGGGCTCTGCCTCAGGGTCTTGCTGCCCTACTTCAAAAGGT
				GGATCCATCGAGTCGAGAAGAACTAGTTGAGGAACTCCGA
				AAAGTGCTCACTTGATTAGCGGCCGTTGATGGTGAAGTGA
				AACCTTCTTGGTTTCATCATGGTAGAAATTATTATTAGGCA
				AATCTATAATTCTAGTTACATCAATTGTATTAGACAATAGTA
				TGAACTAATTTATTTAATTAAATTGTATAAATAGGAAACCTT
				GAATTCATTTGAATTAATCGGCTTATGCTTGCATTATTTTGT
				ATTGATTCAATTAATAATTTACATACTTTTGAGTATTAATAA
				TGGAAAAAAAAAAGAAAAAAAAACAAAACATGTCGGCCG
				CCTCGGTCTCTACTGA
20	Amaranthus	cDNA	1529	CGGTTGCGTATTTGCCGGAAAATTCTTGTGATCCTCGTGGT
	rudis	Contig		GCTATATCTGGTACGGTTGACTCCACCGGTAAATGGTTTGG
				GGGTATCTTCGACAAAGATAGTTTTGTGGAAACCTTAGAA
				GGCTGGGCACGAACAGTTGTCACGGGAAGGGCTAAACTT
				GGAGGAATTCCAGTTGGCATAGTTGCCGTTGAGACGCAGA
				CTGTTATGCAAGTAATCCCAGCAGATCCCGGTCAACTCGAC
				TCACACGAGAGAGTCGTACCACAAGCAGGGCAAGTATGGT
				TCCCAGATTCCGCATCCAAGACAGCACAAGCGCTGATGGA
				TTTCAACCGGGAAGAACTCCCACTTTTCATTTTAGCTAATTG
				GAGAGGTTTCTCGGGTGGACAAAGGGATCTCTTTGAAGG
				GATCCTTCAGGCCGGATCCACCATTGTCGAAAATCTTAGGA
				CTTATAATCAACCCGTTTTTGTTTATATACCTATGATGGGG
				GAGCTTCGAGGAGGAGCATGGGTGGTCGTCGATAGTCGA
				ATTAATTCCGACCATATAGAAATGTACGCCGACCAAACAGC
				TAAAGGAAATGTACTTGAACCCGAAGGAATGATCGAGATT
				AAGTTCAGAACCAAGGAACTTCTCGAGTGTATGGGAAGGC
				TTGATCAACAACTCATCGGTCTCAAAGAAAAACTAGCCGA
				AGCCAAGAGCTCTAATTCCTATGGTAAAATCGACCCGCTTC
				AGCAACAAATAAAAGCCCGCGAGAAGCAACTATTGCCTCT
				ATATACTCAGATAGCCACCAAATTTGCCGAGTTGCACGATA
				CGTCTTTAAGGATGGCTGCCAAAGGAGTCATTAGGGACGT
				CTTGGAATGGAAAAGCTCGCGTTCTTTCTTTTACAAACGAT
				TATACAGGAGAGTGATGGAAGAATCGCTCGTCAAGACCGT
				TCGAGATGCTGCAGGTGAACGGTTGACCCATAAGTCGGCT
				TTGGAGTTGATCCGGAAATGGTTCAATGAGTCCGATATTTC
				CGGAGAGGCTTCTGATGCTTGGGCTGATGATGCAGCCTTC
				TTTAAATGGAAGGATAATACCGCTAACTACGAGGAGAAGT
				TGAAAGAGTTGCGCGTTCAGAAGGTATTGGATCAGCTGTC
				GAATATTGGAGATTCGGTAACTAATTTGAGGGCTCTGCCTC
				AGGGTCTTGCTGCCCTACTTCAAAAGGTGGATCCATCGAG
				TCGAGAAGAACTAGTTGAGGAACTCCGAAAAGTGCTCACT
				TGATTAGCGGCCGTTGATGGTGAAGTGAAACCTTCTTGGT
				TTCATCATGGTAGAAATTATTATTAGGCAAATCTATAATTCT
				AGTTACATCAATTGTATTAGACAATAGTATGAACTAATTTA
				TTTAATTAAATTGTATAAATAGGAAACCTTGAATTCATTTG
				AATTAATCGGCTTATGCTTGCATTATTTTGTATTGATTCAAT
				TAATAATTTACATACTTTTGATTATTAATAATGGAAATCCTC
				AAAGTTTAAGGGGATTGTTTCTAAAAAAAAA
21	Amaranthus	cDNA	1103	GGGGCCATGGTCGTTATTAAAACTCTTCAGTTCTTGCCATC
	rudis	Contig		GGTGATTGCCTGCAGCATTGAGAGAAACAACTCATGGTTC
				AGATCAATCAACTTCCACTGGCTCTATAGAACCAGTCATCC
				ATGGAAATATGTTGCACATTGCACTAGTCGGGGTGAATAA
				CCAGATGAGCTTGTTGCAGGATAGTGGTGATGAAGATCAG
				GCTCAAGAGAGAATCGATAAGTTGGCCAAAATTCTGAGAG
				AACAAGAAGTAAGTTCAGCCCTTCGTGCTGTTGGTGTTGG
				TGTGATTAGTTGCATCATACAGAGAGATGAAGGGCGAACT
				CCGATGAGGCATTCATTCTATTGGTCAGCAGAAAAACAAT
				ATTATAGTGAGGAGCCTTTACTACGTCATTTGGAACCCCCT
				CTGTCTATGTATCTCGAGCTGGACAAGCTTAAGGGTTATGA
				AGATATCAAATATACTCCTTCCCGTGATCGTCAATGGCATC
				TTTACACGGTTATTGATAAACCATTCATTCGGAGGATGTTT
				TTGAGAACCCTTGTAAGACAACCCATCTCCGAGTTCACAGG
				CGTCGAACTAAGCGCTCTTGAAACACAAAAGCCTATCTCTT
				TTACTTCAAGAAGCATCCTAAGGTCCTTAACAACCGCCATG
				GAGGAGTTGGAACTCAATGCACATAGTGCTTCACTGAAAC
				CCGATCACGCTCATATGTACTTGTACATTGTCCGAGAGCAA
				CAAATATACGATCTTGTGCCATATCACAGGGAGGTGAACA
				TAGATTACCAACAAGAAGAGACTTCGGTTCAATTCTTTTTG
				GAAGATCTCGCGCATGAAATCCACAGTCTTGCTGGTGTAA
				GGATGCATAAACTAAATGTTTGTGAGTGGGAAGTGAAACT
				TCGGATATCATCTCCCGGGAAAGCTAATGGTTTATGGAGG
				GTGGCGGTTACAAATGTGACTGGTCAGACCTGTTCGGTAC
				ATGTTTACCGTGAATTGGAAGATAACAACCTACATGAAAT
				GGTCTACCATTCAGTATCCGTTCACGGCCCCCACCATGGGG
				TACCTGTGAATGCACCCTATCAACCACTCGGTGGCATCGCC
				CGTAAGCGAC
22	Amaranthus	cDNA	541	AGATGCTTTCTTTCTTGCAGTTACAAATCTTGCTTGTGCAAA
	rudis	Contig		GAAACTTCCTCTTATTTATCTGGCTGCAAATTCAGGAGCTC
				GACTTGGTGTTGCCGAAGAGCTAAAATCCTGCTTTAAAGTT
				GGCTGGTCGGATGAGTCAAACCCCGAGAGTGGATTTCAGT
				ATGTCTACTTAACCCCGGAAGATTACGATCGTATCGGATCG
				TCAGTCATAGCCCACGAGTTAAAACTCGAAAGTGGAGAAA
				AAAGATGGGTTATAGACACAGTTGTCGGTAAGGAGGACG
				GATTAGGTGTCGAGAATTTATCAGGAAGTGGTGCTATAGC
				AAGTGCATACTCAAGGGCTTACAAGGAAACATTTACTCTG
				ACTTTTGTAACCGGTAGAACGGTCGGTATTGGTGCCTATCT
				TGCACGTCTTGGGATGCGTTGTATACAGAGGCTTGACCAG
				CCTATAATTCTCACGGGTTTTTCTGCGTTAAATAAACTTCTC
				GGTCGGGAGGTTTACAGTTCACACATGCAACTTGGTGGAC
				CGAAGATTATGGGC
23	Amaranthus	gDNA	1511	TTTTAAGAACGTAATTTCTTTTTATTTATGAGAAGTTGCAGA
	rudis	Contig		TGATGTTTGTTATAAATGGTCAATCGAAAAACTACCTCTTT
				GTTATCAGTAACAAGGGTAAGGTTGTATATATCCGACTCCT
				CCAAACTCTTCTTCGGTGGGAGCTACTTAATGTCGCTGGGG
				CAATGGAAGTTGTTGTTTGTCGAATTTAAGTGGAGAAGTTT
				GTTTACATTGAATTTTAATTAGATGGTATAAGTATGTTATC
				AAAGATTTATAATTGAAAACTGGTGTGATAAACAGTTTCAG
				GAGCAGTGGTCTCATTTTCGAGCAATACAAAAAGTGCCGT
				GCTTCTCTAAACAACGACGATTCAGACATGGCTTCTCATTC
				CCAAAATAGTGAATACCTGAATGGACCGATGATGCCACTC
				CTGAGGAATTCATCTGTATTACCCATTGTGGATAAGTTCTG
				TTATGCTCTTGGAGGGACGCGGCCAATCCATAGTATTTTGA
				TAGCAAACAATGGGATGGCTGCTGTCAAATTTATAAGAAG
				TATCCGAACATGGGCTTACGAGACTTTTGGTACAGAGAAG
				GCTATATTATTGGTAGCCATGGCTACTCCCGAAGACATGAA
				AATCAATGCCGAGCATATTCGAATGGCTGACCAGTTTGTTG
				AAGTCCCCGGAGGGACTAACAACAATAACTATGCCAATGT
				GCAGCTCATTGTTGAGGTAATGTATTGTGAGATTAGAAATT
				TCTAGCCTATTATCCATAGTTACATGGAACGTGGAACGTAG
				CCACGTTCCGTGATCCGGGAACATTCATTCCCCAATCACCA
				CGAAATGCGACCTAAATCGCTCAAGGTGACGTCTCGGTGT
				AGAACACCTTTTTTAAAATGTATTTTGGCCTTCATTTACAAA
				TTAAAGAAAAAAGAAAGGAGGAACAAACGAGATGTAACC
				CAGAAACCTAAAAAAGATCCACTTGAAAATAATTTCTTAAA
				GCAAATTAATCATTTTAGTTTAATTTTTTTTCAAATATATATT
				TTATACGTAATGTATCTCGTACCCAATCGAACCTGTCGTTCC
				AGGTAACAATGCTGTTATCTGCTTTATTGTAATTTATTAAAT
				GTGTCCTCTGAAAAAATGGCAATATCCGAGCAACTTGACG
				CAGTTTTGCCTGGCCAGAGACATGCGTAATTTGTTATATGA
				GATTACAAATTTATAGCCTTTTATATGGTAAAATCTTGTGG
				TAGGACTAACTTAAATCCTTTTTCTTTCAGTTAGCGGAAGTT
				ACACGAGTTGACGCAGTTTGGCCTGGTTGGGGACATGCGT
				CAGAGATCCCCGAGCTGCCAGATTCACTAAGTGCGAAGGG
				AATTGTGTTTCTAGGGCCCCCAGCTGCATCTATGGCTGCTC
				TTGGAGATAAAATTGGTTCATCATTGATTGCACAAGCTGCA
				GATGTCCCAACTCTTCCATGGAGTGGTTCTCATGTACGTAT
				TACACGTTTTTTCCAAATTTTTGATCATTAGAATTTTAG
24	Amaranthus	gDNA	1246	CATACCAATGTCCGAGCATCAAAAATCGGACACGGGTACG
	rudis	Contig		TGAAGCAAAATAAAGAGTCCGAGTAACATACTTATGATTA
				ATGTTAAATAACTTATTGTCTTTATTGTCTATATCCAGAAAG
				CATCGACTAGTAGTGCAGCGACTGTTTCAGAGTATATAGG
				CTATCTTGAAAAAGGTCAAATTCCTCCGAAGGTATGCAACA
				TACCAGTGGTTGGCGGGTGTTTAGATTAACTTATTCTATTT
				ATATCAATTATACTTTCAGTGTTCTGCTTTAATTCTGGTTTT
				ATGATTGCAGCATATATCACTCGTCCACTATGAAGTTGCTC
				TAAATATTGAGGGGATGAAATATACTGTATGTTCCATGCCA
				CTCGTACTTTCCTCGTGAATTTTTGTAATGGATGCTATTTTT
				GACATTATTCTTTCTAAATATGTTTTCCTGATATTAATGAAC
				ATGTGGTTTCGGATTGCCAGATTGAGATGATTAGGGGTGG
				ACCAGGAAGCTACAAAATGTGGTTGAATGGGTCCGTAATT
				GAGGCGGAAATACATACTTTAAGAGATGGGGGTCTCTTGA
				TGCAGGTATAACCTGTTTTTTTGGATTTTTTCCGATATACGG
				TATTTTTATTTTATATGGACCCTGGATTTGAAAAGCATTAG
				ATAATGTGCTATCGAACAAGTAGAAGGTAGTTTTGTGAGA
				CCGTGAAGCATTTAGTTAAACCCATTGTTAAGATTACCTTTT
				AGATTTAGTACTTCTACAATGCTTGGGATATTAATCAATAA
				TCATGCTTTTAATAATAAAGAGAAATATTGTCATAGACTCA
				TAGGTATAATGGCTCGTTAAATTATATGCACTTCTTGTTTAT
				GTGAAGTTCGAGATGCTGTTTGTAATCAACTTTGGAAATCG
				AGGGCATAGTGCAAAATCTCGGATGTGGTCACCTTTGATG
				CAACAATCTCAAAGCCACTTTTGTGGTCAATGTAGATGGTT
				TCATTTTTATCGTGGTATAAATATGGGTCGCGGTAATCTCA
				AGAACCCATATAGTAGACGATAACTTGTTATTAAAAGGGA
				TAAGGCTGCATACATCCGATGTCCCCTTTACCCTGTCTAGA
				TGTGAGCTACTTGGGGGTTTTCCTATTGAAGTTAAAGATAC
				AAGAAGGATTTCTGTTAAAAAAAAAGGAATATTTGAACTA
				CAAAAAAGTAATAAGTTTATATACTAGTTCGTTCTAACCCA
				TATAGCACATTTTAAAAAA
25	Amaranthus	gDNA	780	TCAGCCTTATCTTGTCAAGGGAAGTGTCAGGATGCTGTGG
	rudis	Contig		CACAGATCAGGCTTCATAGCTTTATGGGAATTTGTGGAGG
				AGAATATTGACCGAACAAATTTTTCTGATGATCTGACTACA
				AACAGTGAGCGAAAGTGGGGGGCCATGGTCGTTATTAAA
				ACTCTTCAGTTCTTGCCATCGGTGATTGCTGCAGCATTGAG
				AGAAACAACTCATGGTTCAGATCAATCAACTTCCACTGGCT
				CTATAGAACCAGTCATCCATGGAAATATGTTGCACATTGCA
				CTAGTCGGGGTGAATAACCAGATGAGCTTGTTGCAGGATA
				GGTACGTAAGACTAGCCTGTAACATATGGTTTAATAGTTTT
				ATTATGTAACCTTGTGCTTTTAATGTCATTTATTTCTAGCCG
				ATATTACGTAAGACTAGCCGATATTCATCCGATCTTGTAAC
				TGAACCCGACTTCAAAATCAAATTTAAATTATATATAAATC
				AACGTGGACATAAGACCCGATTTTAATCTGACCCGAAATCA
				ACCCAATGACCCGAATGAACACCTATAGTTATCACTAACAA
				GGGTCAGGTTACGTACATCAAACCCCTCAAATCCTGCTTAG
				GTGGGAGCTTGTCATTGGCATTGGGGTAACGGGAATGTGT
				GTGCTATGTACATTGTGCATCTATTCTTATACTTATGTTGTG
				AGTTTTTTGGATCGAATATAAAGAGCTTATCTTTTGTATTTT
				CTTGATGTGCTGTAGTGGTGATGAAGATCAGGCTCAAGAG
				AGAAT
26	Amaranthus	gDNA	342	TTGCTTGAACAAACGAAATTGAGTGAGCTCCGTTCGAACAT
	rudis	Contig		TGCTAGAAACCTCTCTGAGCTAGAAATGTTTACCGAGGAT
				GGCGAAAACATGGATACTCCAAAAAGAAAAAGTGCTATTA
				ATGAACGCATGGAGGCCCTTGTGAGTACTCCTCTAGCTGTT
				GAAGATGCCCTTGTTGGTTTGTTTGATCACAGTGATCATAC
				ACTTCAAAGGCGGGTTGTTGAGACCTATGTTCGGAGGCTT
				TATCAGGTGAATACATACTTAATTGCGGAGTTAGCTTCAGC
				TTCACTCAGTCCTATTCGTTGCAAGAACTTCTCTTGATCTTT
				CTCGAGTCGAGGGACT
27	Amaranthus	cDNA	755	TTCGAGGAGGCGCATGGGTGGTCGTCGATAGTCGAATTAA
	spinosus	Contig		TTCCGACCATATAGAAATGTACGCCGACCAAACAGCTAAA
				GGAAATGTGCTTGAACCGGAAGGAATGATCGAGATTAAGT
				TCCGAACCAAGGAACTTCTCGAGTGTATGGGAAGGCTTGA
				TCAACAACTCATCGGTCTCAAGGAAAAACTAGCCGAAGCC
				AAGAGCTCTAATTCCTACAATAAAATTGAGCCCCTGCAGCA
				ACAAATAAAAGCCCGTGAGAAGCAACTATTGCCTCTATATA
				CTCAAATAGCCACCAAATTTGCCGAGTTGCACGATACGTCT
				TTAAGGATGGCTGCCAAAGGAGTCATTAGGGACGTCTTGG
				AATGGAAAAGCTCGCGTTCGTTCTTTTACAAAAGATTATAC
				AGGAGAGTTATGGAGGAATCGCTCGTCAAGACTGTTCGAG
				ATGCTGCAGGTGAACGGTTGACCCATAAGTCGGCTTTGGA
				GTTGATCCAAAAATGGTTCAATGAGTCGAATATTTCCGGA
				GAGGCTTCCGATGCTTGGGCTGATGATGCGGCCTTCTTTAA
				GTGGAAGGACAATACCGCCAACTACGAGGAGAAGTTGAA
				AGAGTTGCGCGTTCAGAAGGTATTGGATCAGCTGTCGAAT
				ATTGGAGATTCGGCAACTAATTTGAGGGCTCTGCCTCAGG
				GTCTTGCTGCCCTACTTCAAAAGGTGGATCCATCGAGTCGA
				GAAGAACTAGTCGAGGAACTCCGAAAAGTG
28	Amaranthus	cDNA	605	AAGAACGGTCGGTATTGGTGCCTATCTTGCTCGTCTTGGG
	spinosus	Contig		ATGCGTTGTATACAGAGGCTTGACCAGCCTATAATTCTCAC
				GGGTTTTTCTGCCTTAAATAAACTTCTCGGCCGGGAGGTTT
				ATAGTTCACACATGCAACTTGGTGGACCGAAGATTATGGG
				CACAAACGGGGTAGTTCATCTTACAGTTTCCGATGATCTTG
				AAGGCATTTCATCTATCTTGAAGTGGCTGAGCTACGTTCCA
				CCCTATTCAGGTGGTGAACTTCCGATTTCTCGGTGTTTAGA
				CCCTCCAGAAAGACCGGTTGCGTATTTGCCTGAAAATTCTT
				GTGATCCTCGTGGTGCTATATCTGGTACGGTTGACTCCACC
				GGTAAATGGTTTGGGGGTATTTTCGACAAAGATAGTTTTG
				TGGAAACCTTAGAAGGATGGGCACGAACAGTTGTCACGG
				GAAGGGCTAAACTCGGAGGAATTCCAGTTGGCATAGTTGC
				CGTTGAGACGCAGACTGTTATGCAAGTAATCCCAGCAGAT
				CCCGGTCAACTCGACTCACACGAGAGAGTCGTACCACAAG
				CAGGGCAAGTATGGTTCCCAGATTCCGCATCCAAGACAG
29	Amaranthus	cDNA	577	GAGGTGAACATAGATCACCAACAAGAAGAGGCTTCAGTTC
	spinosus	Contig		AATTCTTTTTGGAAGATCTCGCGCATGAAATCCATAGTCTT
				GCTGGTGTAAGGATGCATAAACTAAATGTTTGTGAGTGGG
				AAGTGAAACTTCGGGTATCATCTCCCGGGAAAGCTAATGG
				TTTATGGAGGGTGGCAGTTACTAATGTGACTGGTCATACCT
				GTTCGGTACATGTTTATCGTGAATTGGAAGATAGCAACCTA
				CATGAAATGGTCTACCATTCAGTATCTGTTCACGGCCCCCA
				CCATGGGGTACCTGTGAATGCACCCTATCAACCACTCGGT
				GGCATCGCCCGTAAGCGACTTCAGGCCATGAAAAGTAGCA
				CAACTTACTGTTACGATTTTCCACTGGCTTTCTCAACTGCCC
				TGAAGCAATCATGGGCATCGGAAGCTCCGGATGTCAAGAA
				ACCCTCGGACAAAGCGCTTTTGAAAGTAACCGAGCTTGCA
				TTTGCGGATCCAAAAGGCACATGGGGAACTCCGCTTGTTC
				CAATAAATCGCAAGCCTGGTATGAACGATGTTGGCATGGT
				AGCCTGGTACA
30	Amaranthus	cDNA	1492	GTGCTATTAATGAACGTATGGAGGCGCTTGTGAGTACTCC
	thunbergii	Contig		TCTAGCTGTCGAAGATGCCCTTGTTGGTTTGTTTGATCATA
				GTGATCATACACTTCAGAGGCGGGTTGTTGAGACCTATGT
				TCGGAGGCTTTATCAGCCTTATCTTGTCAAGGGAAGTGTCA
				GGATGCTGTGGCACAGATCAGGCTTCATAGCTTTATGGGA
				ATTTGTTGAGGAGAATATTGACCGAACGAATTTTTCTGATC
				TGACTACAAACAGTGGGAACCATAGTGAGCGAAAGTGGG
				GGGCCATGGTCGTTATTAAAACTCTTCAGTTCTTGCCATCG
				GTAATTGCTGCAGCATTGAGAGAAACAACTCATAGTTCCG
				ATCAATCAACTTCCACTGGCTCTATAGAATCAGTCATCCAT
				GGAAATATGCTGCACATTGCACTAGTGGGGGTGAATAACC
				AGATGAGCTTGTTGCAGGATAGTGGTGATGAAGATCAGG
				CTCAAGAGAGAATCGATAAGTTGGCCAAAATTCTGAGAGA
				ACAAGAAGTGAGTTCAGCCCTTCGTGCTGTTGGTGTTGGT
				GTGATTAGTTGCATCATACAGAGAGATGAAGGGCGAACTC
				CGATGAGGCATTCATTCTATTGGTCAGCAGAAAAACAATAT
				TATAGTGAGGAACCTTTACTACGTCATTTGGAACCCCCTCT
				ATCTATGTATCTCGAGCTGGACAAGCTTAAGGGTTATGAA
				GATATCAAATATACTCCTTCCCGTGATCGTCAATGGCATCT
				TTACACGGTTATTGATAAACCATTCATTCGGAGGATGTTTT
				TGAGAACCCTTGTAAGACAACCCATCTCCGAGTTCACTGGC
				GTCGAACTAAGCGCTCTTGAAACACAAAAGCCTATCTCTTT
				TACTTCAAGAAGCATCCTAAGGTCATTAACAACCGCCATGG
				AGGAGTTGGAGCTCAATGCACATAGTGCTTCACTGAAACC
				CGATCACGCTCATATGTACTTGTACATTGTCCGAGAGCAAC
				AAATATACGATCTTGTGCCATATCACAGGGAGGTGAACAT
				AGATTACCAACAAGAAGAGGCTTCGGTTCAATTCTTTTTGG
				AAGATCTCGCGCATGAAATCCATAGTCTTGCTGGTGTAAG
				GATGCATAAACTAAATGTTTGTGAGTGGGAAGTGAAACTT
				CGGATATCATCTCCCGGGAAAGCTAATGGTTTATGGAGGG
				TGGCAGTTACTAATGTGACTGGTCATACCTGTTCGGTACAT
				GTTTATCGTGAATTGGAAGATAGCAACCTACATGAAATGG
				TCTACCATTCAGTATCTGTTCACGGCCCCCACCATGGGGTA
				CCTGTGAATGCACCCTATCAACCACTCGGTGGCATCTCCCG
				TAAGCGACTTCAGGCCATGAAGAGTAGCACAACATACTGT
				TACGATTTTCCACTGGCTTTCTCAACTGCCCTGAAGCAATC
				ATGGGCATCGGAAGCTCCGGATGTCAAGAAACCCTC
31	Amaranthus	cDNA	1214	GATGGGTTATAGACACCGTTGTCGGTAAGGAGGACGGATT
	thunbergii	Contig		AGGTGTCGAGAATCTATCAGGAAGTGGTGCTATAGCCAGT
				GCATACTCAAGGGCTTACAAGGAAACATTTACTCTGACTTT
				TGTAACCGGTAGAACGGTCGGTATTGGTGCCTATCTTGCTC
				GTCTTGGGATGCGTTGTATACAGAGGCTTGACCAGCCTAT
				AATTCTCACGGGTTTTCTGCGTTAAATAAACTTCTCGGTCG
				GGAGGTTTACAGTTCACACATGCAACTTGGTGGACCGAAG
				ATAATGGGCACAAACGGGGTAGTTCATCTTACAGTTTCCG
				ATGATCTTGAAGGCATTTCATCTATCTTGAAGTGGCTGAGC
				TATGTTCCACACTATTCAGGTGGTGAACTTCCGATTTCTCG
				GTGTTTAGACCCTCCCGAAAGACCGGTTGCGTATTTGCCTG
				AAAATTGTTGTGATCCTCGTGGGGCTATATCTGGTACGGTT
				GACTCCGCCGGTAAATGGTTTGGGGGTATTTTCGACAAGG
				ATAGTTTTGTGGAAACCTTAGAAGGATGGGCACGAACAGT
				TGTCACGGGAAGGGCTAAACTCGGAGGAATTCCAGTTGGC
				ATAGTTGCTGTTGAGACGCAGACTGTTATGCAAGTAATCCC
				AGCAGATCCCGGTCAACTCGACTCACATGAGAGAGTCGTA
				CCACAAGCAGGGCAAGTATGGTTCCCAGATTCCGCATCCA
				AGACAGCACAAGCGCTGATGGATTTCAACCGGGAAGAACT
				CCCACTTTTCATTTTAGCTAATTGGAGAGGTTTCTCGGGTG
				GACAAAGGGATCTCTTTGAAGGGATCCTTCAGGCTGGATC
				CACCATAGTCGAAAATCTTAGGACTTATAATCAACCCGTTT
				TTGTTTATATCCCTATGATGGGGGAGCTTCGAGGAGGCGC
				ATGGGTGGTCGTCGATAGTCGAATTAATTCCGACCATATA
				GAAATGTACGCCGACCAAACAGCTAAAGGAAATGTGCTTG
				AACCGGAAGGAATGATCGAGATTAAGTTCCGAACCAAGG
				AACTTCTCGAGTGTATGGGAAGGCTTGACCAACAACTCATC
				GGTCTCAAGGAAAAACTAGCCGAAGCCAAGAGCTCTAATT
				CCTACGATAAAATCGAGCCCCTGCAGCAACAAATAAAAGC
				CCGCGAGAAGCAACTATTGCCTCTTTATACTCAGATAGCCA
				CCA
32	Amaranthus	cDNA	1121	TAAGAGATGGGGGTCTCTTGATGCAGTTGGATGGAAACA
	thunbergii	Contig		GCCATGTGATATATGCAGAGGAAGAAGCTGCAGGAACTC
				GCCTTCTGATTGATGGAAGAACTTGTTTGCTTCAGAACGAT
				CACGATCCTTCAAAGCTGATTGCGGAGACACCGTGTAAGC
				TTATGCGGTATTTGGTACCAGATAACAGTCACATAGATGCA
				GATACTCCGTATGCTGAAGTTGAGGTCATGAAGATGTGTA
				TGCCTTTGCTTTCCCCTGCATCCGGTGTTTTACAATTTAAGA
				TGTCCGAAGGTCAAGCTATGCAGGCTGGTGAACTCATAGC
				TAGTCTAGAGTTGGATGATCCTTCAGCTGTAAGAAAAGCC
				GAACCTTTCCGTGGAAGCTTTCCTGTCATGGGCGCACCAAC
				TGCAATATCTGGAAAAGTTCATCAGAGGTGTGCCGCAAGT
				TTAAATGCCACTCGGATGATTTTGGCTGGTTATGAACACAA
				TATAGATGAAGTAGTACAGAGTTTGCTGGAATGCCTTGAT
				AGTCCCGAACTTCCATTCCTTCAATGGCAAGAATGCTTGTC
				TGTGCTGGCAACACGACTTCCCAAAGATCTGAGATACGAA
				TTGGAATCAAAATCTAGAGCTTTTGAAGGGATTACCAACAC
				CCAGAACGTAGAATTTCCTGCTAAGTTGTTGAAAAGCATTC
				TTGAGGACCATTTAAACTCATGCCACGAGAAAGATAAAGG
				AGCTCAAGAGAGGCTTATTGAGCCTCTTATGGCTCTTGCAA
				AGTCTTACGAAGGTGGGCGAGAAAGTCATGCTCGTTTTAT
				TGTTCAATCTTTATTTGAAGAGTATTTATCCGTTGAAGAATT
				GTTTAGCGACAATCTCCAGGCTGATGTGATTGAACGTCTCC
				GCCTTCAGTATAAGAAGGATCTGCTGAAGATTGTTGACATT
				GTACTGTCGCATCAGGGTGTTAAGAATAAAAATAAGCTGA
				TTCTACGACTCATGGAACAGCTGGTTTACCCAAATCCCGCT
				GCATACAGGGGGAAACTTATCCGTTTCTCTCAATTGAACCA
				TACAATGTATTCTGAGTTGGCACTAAAGGCCAGTCAATTGC
				TTGAACAAACGAAATTGAGTGAGCTC
33	Amaranthus	cDNA	5705	AGGCACAGTCGGTGAAACCTAAAGGTCATTGTATTGCTGC
	viridis	Contig		GCGTGTGACAAGTGAGGATCCCGATGACGGTTTTAAGCCT
				ACAAGCGGGAAAGTACAGGAGCTGAGTTTTAAAAGTAAA
				CCGAATGTGTGGGCCTACTTCTCTGTTAAGTCTGGGGGAG
				GCATTCATGAGTTCTCGGATTCTCAATTTGGCCATGTTTTTG
				CATTTGGTGAAAACCGAGGTTTGGCCATAGCAAATATGAT
				TCTTGGATTAAAAGAAATTCAAATTCGTGGAGAAATTCGA
				ACTAATGTTGATTACACCATCGATCTTTTAAATTGTTTGGAT
				TATAGAGAAAACCAAATTCATACAGGTTGGTTGGATAGTA
				GAATTGCGATGAGGGTCAGAGCCGAAAGGCCACCTTGGT
				ACATCTCTGTTGTGGGAGGAGGGCTTTACAAAGCATCGAC
				TAGTAGTGCAGCGACTGTTTCAGAGTATATAGGCTATCTTG
				AAAAAGGTCAAATTCCTCCGAAGCATATATCACTCGTCCAC
				TATGAAGTTGCTCTAAATATCGAGGGGATGAAATATACCA
				TTGAGATGATTAGGGGTGGACCAGGAAGCTACAAAATGT
				GGTTGAATGGGTCCGTAGTTGAGGCGGAAATACATACTTT
				AAGAGATGGGGGTCTCTTGATGCAGTTGGATGGAAACAG
				CCATGTGATATATGCTGAGGAAGAAGCTGCAGGAACTCGC
				CTTCTGATTGATGGAAGAACTTGTTTGCTTCAGAACGATCA
				CGATCCTTCAAAGCTGATTGCGGAGACACCGTGTAAGCTT
				ATGCGGTATTTGGTACCAGATAACAGTCACATAGATGCAG
				ATACTCCGTATGCTGAAGTTGAGGTCATGAAGATGTGTAT
				GCCTTTGCTTTCCCCTGCATCCGGTGTTTTACAATTTAAGAT
				GTCCGAAGGTCAAGCTATGCAGGCTGGTGAGCTCATAGCT
				AGTCTAGAGTTGGATGATCCTTCAGCTGTAAGAAAAGCCG
				AACCTTTCCGTGGAAGCTTTCCTGTCATGGGCGCACCAACT
				GCAATATCTGGAAAAGTTCATCAGAGGTGTGCCGCAAGTT
				TAAATGCCACTCGGATGATTTTGGCTGGTTATGAACACAAT
				ATAGATGAAGTAGTACAGAGTTTGCTGGAATGCCTTGATA
				GTCCCGAACTTCCATTCCTTCAATGGCAAGAATGCTTGTCT
				GTGCTGGCAACACGACTTCCCAAAGATCTGAGATACGAAT
				TGGAATCAAAATCTAGAGCTTTTGAAGGGATTACCAACAC
				CCAGAACGTAGAATTTCCTGCTAAGTTGTTGAAAAGCATTC
				TTGAGGACCATTTAAACTCATGCCACGAGAAAGATAAAGG
				AGCTCAAGAGAGGCTTATTGAGCCTCTTATGGCTCTTGTAA
				AGTCTTACGAAGGTGGGCGAGAAAGTCATGCTCGTTTTAT
				TGTTCAATCTTTATTTGAAGAGTATTTATCCGTTGAAGAATT
				GTTTAGCGACAATCTCCAGGCTGATGTGATTGAACGTCTCC
				GTCTTCAGTATAAGAAGGATCTGCTGAAGATTGTTGACATT
				GTACTGTCGCATCAGGGTGTTAAGAATAAAATAAGCTGAT
				TCTACGACTCATGGAACAGCTGGTTTACCCAAATCCCGCTG
				CATACAGGGGGCAAACTTATCCGTTTCTCTCAATTGAACCA
				TACAATGTATTCTGAGTTGGCACTAAAGGCCAGTCAATTGC
				TTGAACAAACGAAATTGAGTGAGCTCCGTTCGAACATTGCT
				AGAAACCTCTCTGAGCTAGAAATGTTTACCGAGGATGGCG
				AAAACATGGATACTCCAAAAAGAAAAAGTGCTATTAATGA
				ACGTATGGAGGCGCTTGTGAGTACTCCTCTAGCTGTCGAA
				GATGCCCTTGTTGGTTTGTTTGATCATAGTGATCATACACTT
				CAGAGGCGGGTTGTTGAGACCTATGTTCGGAGGCTTTATC
				AGCCTTATCTTGTCAAGGGAAGTGTCAGGATGCTGTGGCA
				CAGATCAGGCTTCATAGCTTTATGGGAATTTGTTGAGGAG
				AATATTGACCGAACAAATTTTTCTGATCTGACTACAAACAG
				TGGGAACCATAGTGAGCGAAAGTGGGGGGCCATGGTCGT
				TATTAAAACTCTTCAGTTCTTGCCATCGGTAATTGCTGCAG
				CATTGAGAGAAACAACTCATAGTTCCGATCAATCAACTTCC
				ACTGGCTCTATAGAATCAGTCATCCATGGAAATATGCTGCA
				CATTGCACTAGTGGGGGTGAATAACCAGATGAGCTTGTTG
				CAGGATAGTGGTGATGAAGATCAGGCTCAAGAGAGAATC
				GATAAGTTGGCCAAAATTCTGAGAGAACAAGAAGTGAGTT
				CAGCCCTTCGTGCTGTTGGTGTTGGTGTGATTAGTTGCATC
				ATACAGAGAGATGAAGGGCGAACTCCGATGAGGCATTCAT
				TCTATTGGTCAGCAGAAAAACAATATTATAGTGAGGAACC
				TTTACTACGTCATTTGGAACCCCCTCTATCTATGTATCTCGA
				GCTGGACAAGCTTAAGGGTTATGAAGATATCAAATATACT
				CCTTCCCGTGATCGTCAATGGCATCTTTACACGGTTATTGA
				TAAACCATTCATTCGGAGGATGTTTTTGAGAACCCTTGTAA
				GACAACCCATCTCCGAGTTCACTGGCGTCGAACTAAGCGCT
				CTTGAAACACAAAAGCCTATCTCTTTTACTTCAAGAAGCAT
				CCTAAGGTCATTAACAACCGCCATGGAGGAGTTGGAGCTC
				AATGCACATAGTGCTTCACTGAAACCCGATCACGCTCATAT
				GTACTTGTACATTGTCCGAGAGCAACAAATATACGATCTTG
				TGCCATATCACAGGGAGGTGAACATAGATTACCAACAAGA
				AGAGGCTTCGGTTCAATTCTTTTTGGAAGATCTCGCGCATG
				AAATCCATAGTCTTGCTGGTGTAAGGATGCATAAACTAAAT
				GTTTGTGAGTGGGAAGTGAAACTTCGGATATCATCTCCCG
				GGAAAGCTAATGGTTTATGGAGGGTGGCAGTTACTAATGT
				GACTGGTCATACCTGTTCGGTACATGTTTATCGTGAATTGG
				AAGATAGCAACCTACATGAAATGGTCTACCATTCAGTATCT
				GTTCACGGCCCCCACCATGGGGTACCTGTGAATGCACCCT
				ATCAACCACTCGGTGGCATCTCCCGTAAGCGACTTCAGGCC
				ATGAAGAGTAGCACAACATACTGTTACGATTTTCCACTGGC
				TTTCTCAACTGCCCTGAAGCAATCATGGGCATCGGAAGCTC
				CGGATGTCAAGAAACCCTCGGACAAAGCACTTTTGAAAGT
				AACCGAGCTAGCATTTGCTGATCCAAAAGGCACATGGGGA
				ACTCCGCTTGTTCCAATAAATCGCAAGCCTGGTATGAACGA
				TGTTGGCATGGTAGCCTGGTACTTGGAAATGTCCACCCCC
				GAGTTCCCTAACGGAAGAACAATAATGGTTGTAGCTAATG
				ATGTTACCTTCAAGGCCGGATCTTTCGGACCACGAGAAGA
				TGCTTTCTTCCTTGCTGTTACAAATCTTGCTTGCGCGAAGAA
				ACTTCCTCTTATTTATCTGGCTGCCAATTCAGGAGCTCGACT
				TGGTGTTGCCGAAGAGCTAAAATCCTGCTTTAAAGTTGGCT
				GGTCGGATGAGTCAAACCCCGAGAGTGGATTTCAGTATGT
				CTACTTAACCCCTGAAGATTACGATCGTATAGGATCGTCAG
				TCATAGCCCACGAGTTAAAACTCGAAAGTGGAGAAAAAAG
				ATGGGTTATAGACACCGTTGTCGGTAAGGAGGACGGATTA
				GGTGTCGAGAATCTATCAGGAAGTGGTGCTATAGCCAGTG
				CATACTCAAGGGCTTACAAGGAAACATTTACTCTGACTTTT
				GTAACCGGTAGAACGGTCGGTATTGGTGCCTATCTTGCTC
				GTCTTGGGATGCGTTGTATACAGAGGCTTGACCAGCCTAT
				AATTCTCACGGGTTTTTCTGCGTTAAATAAACTTCTCGGTC
				GGGAGGTTTACAGTTCACACATGCAACTTGGTGGACCGAA
				GATAATGGGCACAAACGGGGTAGTTCATCTTACAGTTTCC
				GATGATCTTGAAGGCATTTCATCTATCTTGAAGTGGCTGAG
				CTATGTTCCACCCTATTCAGGTGGTGAACTTCCGATTTCTCG
				GTGTTTAGACCCTCCCGAAAGACCGGTTGCGTATTTGCCTG
				AAAATTGTTGTGATCCTCGTGGGGCTATATCTGGTACGGTT
				GACTCCGCCGGTAAATGGTTTGGGGGTATTTTCGACAAGG
				ATAGTTTTGTGGAAACCTTAGAAGGATGGGCACGAACAGT
				TGTCACGGGAAGGGCTAAACTCGGAGGAATTCCAGTTGGC
				ATAGTTGCTGTTGAGACGCAGACTGTTATGCAAGTAATCCC
				AGCAGATCCCGGTCAACTCGACTCACATGAGAGAGTCGTA
				CCACAAGCAGGGCAAGTATGGTTCCCAGATTCCGCATCCA
				AGACAGCACAAGCGCTGATGGATTTCAACCGGGAAGAACT
				CCCACTTTTCATTTTAGCTAATTGGAGAGGTTTCTCGGGTG
				GACAAAGGGATCTCTTTGAAGGGATCCTTCAGGCTGGATC
				CACCATAGTCGAAAATCTTAGGACTTATAATCAACCCGTTT
				TTGTTTATATCCCTATGATGGGGGAGCTTCGAGGAGGCGC
				ATGGGTGGTCGTCGATAGTCGAATTAATTCCGACCATATA
				GAAATGTACGCCGACCAAACAGCTAAAGGAAATGTGCTTG
				AACCGGAAGGAATGATCGAGATTAAGTTCCGAACCAAGG
				AACTTCTCGAGTGTATGGGAAGGCTTGACCAACAACTCATC
				GGTCTCAAGGAAAAACTAGCCGAAGCCAAGAGCTCTAATT
				CCTACGATAAAATCGAGCCCCTGCAGCAACAAATAAAAGC
				CCGCGAGAAGCAACTATTGCCTCTTTATACTCAGATAGCCA
				CCAAATTTGCCGAGTTGCATGATACGTCTTTAAGGATGGCT
				GCCAAAGGAGTCATTAGGGACGTCTTGGAATGGAAAAGCT
				CGCGTTCGTTCTTTTACAAAAGATTATACAGGAGAGTTATG
				GAGGAATCACTCGTCAAGACTGTTCGAGATGCTGCAGGTG
				AACGGTTGACCCATAAGTCGGCTTTGGAGTTGATCCGGAA
				ATGGTTCAATGAGTCAGATATTTCCGGAGAGGCTTCCGAT
				GCTTGGGCTGATGATGCGACCTTCTTTAAGTGGAAGGACA
				ATACCGCTAACTACGAGGAGAAGTTGAAAGAGTTGCGGGT
				TCAGAAGGTATTGGATCAGCTGTCGAATATTGGAGATTCG
				GTAACTAATTTGAGGGCTCTGCCTCAGGGTCTTGCTGCCCT
				ACTTCAAAAGGTGGATCCATCGAGTCGAGAAGAACTAGTC
				GAGGAACTCCGAAAAGTGCTCACTTGATTTCGCAACCGTT
				GATGGTGAAGTGAAACCTTCTTGGTTTCATCATGGTAGAA
				AATATTATTAGGCAAATCTATAATTTTAGTGACATCAATTG
				TTTTAGACAATAGTATTGAACTAATTTATTTAATTAAATTGT
				ATAAATAGGAGACCTTGAATTCATTTGAATTAAGTGGCTTA
				TGCTTGCATTATTTGTATTGAATCAAATAATTATTTACATAC
34	Ambrosia	cDNA	2186	CAGTTGGAATGGGAATTCCACTTTGGCAAATACCAGAAAT
	trifida	Contig		TAGACGGTTTTATGGGATGGATAATAGTGGAGGTTATGAT
				GCTTGGAGAAAAACATCGGCTCTTGCAACCCCTTTTGACTT
				TGACCAAGCAGAGTCAATTAGACCAAGGGGTCATTGTATT
				GCTGTTCGTGTAACGAGTGAGGATCCAGATGATGGTTTTA
				AGCCACCGGTGGAAAAGTACAGGAACTAGTTTTAAAAGCA
				AGCCAAATGTGTGGGCATACTTTTCTGTCAAGTCTGGAGG
				AGGCATTCATGAATTTTCGGATTCCCAATTTGGTCATGTTTT
				TGCATTTGGAGAGTCAAGAACGTTGGCTATTGCAAATATG
				GTTCTTGGGCTGAAGGAAATCCAAATTCGTGGAGAAATTC
				GTACTAATGTTGATTATACAATCGATCTATTACATGCTCTG
				GATTATAGAGAAAACAAAATCCATACAGGTTGGTTAGATA
				GCCGAATTGCTATGCGGGTTAGAGCAGAAAGGCCCCCATG
				GTACCTTTCAGTAGTTGGTGGAGCTCTTTATAAAGCTGCTG
				CTAGAAGTGCTTTACATGGTTTCTGACTATGTTGGTTATCTT
				GAAAAGGGTCAAATCCCTCCTAAGCATATATCATTGGTCAA
				CTCTCAAGTTTCTTTGAATATTGAGGGTAGTAAGATACACG
				ATTGATATGCTGAAAAGAGGACCAGGAAGTTACAGACTGA
				GAATGAATCAATCTGAAATTGAAGCAGAAATACATACTCT
				ACGTGATGGGGGTTTACTGATGCAGTTGGATGGAAATAGT
				CATATTATATACGCAGAGGAAGAAGCAGCTGGTACTCGTC
				TTCTAATTGATGGACGAACTTGCTTGCTTCAGAATGATCAT
				GATCCTTCCAAATTGGTGGCGGAAACACCATGCAAGCTTCT
				AAGATATTTAGTCTCAGATGGTAGCCATGTTGATGCTGACA
				CACCTTATGTTGAGGTTGAAGTGATGAAAATGTGTATGCC
				ACTTCTTTCGCCGGCTTCTGGAGTTATACAATTTAAAATGTC
				CGAAGGTCAAGCCATGCAGGCTGGTGAGCTTATAGCAAGA
				CTAGATCTTGATGATCCGTCAGCTGTAAGAAAAGCAGAGC
				CCTTTCCTGGAAGCTTTCCTGTTCTGGGCCCACCGACCGCC
				ATTTCAGATAAAGTTCATCTGAAATGTGCTGCAACTCTGAA
				TGCTGCTCGGATGATTCTTGCTGGCTATGATGACAACATTG
				ATGATGTTGTACAAAATCTGCTTCTTTGTCTGGATAGCCCG
				GAGCTTCCTTTCCTACAATGGCAAGAATGCTTCGCAGTATT
				AGCAAATCGACTTGATAAAGATCTAAGAAACAAGCTAGAA
				TCAAAGTTTAAGGAGTACGAAGGAATTTCCACTCAACAAG
				CTATCGACTTCCCCGCCAAAGTTTTACGGAACATTCTAGAA
				ACTCACCTCGGATCTTGCTCAGAAAAAGAGAAGGTGGCCC
				AGGAAAGACTCATTGAACCGTTAATGAGTCTCGTTAAGTC
				ATATGACGGTGGTAGAGAGAGTCATGCACGCGGGATTGTT
				CATGCTCTTTTTGAAGAGTATTTATCTGTTGAAGAATTATTT
				AGTGACAATATTCAGGCTGATGTAATCGAACGTCTACGACT
				CCAATACAACAAAGATCTCTTGAGGATTGTTGACATTGTGC
				TTTCCCATCAGGGAGTTAGGAGTAAAAACAAGCTGATACT
				ACGACTGATGGAGCATTTGGTCTACCCTAATCCAGCTCCTT
				ATAGAGAGAAACTCATACGGTTTTCTGCACTCAACCACACA
				AGTTATTCTGAGTTAGCATTGAAGGCAAGTCAATTGCTGG
				AACAAACTAAATTAAGTGAACTTCGTTCAAGTATTGCAAGA
				AGTCTATCTGAATTAGAAATGTTTACCGAAGAAGGTGAGA
				ATATCGATACCCCTAAAAGAAAAAGTGCAATTAACGAAAG
				AATGGAGGATATCGTGAGTGCTCCTTTGGCGGTTGAAGAT
				GCCCTTGTTGGTCTTTTTGACCATAGTGATCACACCCTTCAA
				AGGCGTGTTGTTGAGACCTATGTTAGAAGATTATATCAGC
				CATATCTGGTGAAGGGGAGTGTTAGAATGCAATGGCACAG
				ATTGGGACTTATTGCATCATGGCAATTCGTGGAAGGG
35	Ambrosia	cDNA	1838	TAATCCTGAAGATTACAGTCGAATCAAATCGTCAGTGATTG
	trifida	Contig		CACATGAATTTTGTCTGGAGAGTGGTGAAACCAGATGGAT
				TATTGATACAATTGTAGGAAAGGAAGACGGATTAGGGGTT
				GAGAATTTAAGCGGTAGCGGGGCCATTGCTGGTGCGTTTT
				CGAAAGCATATAAAGAAACGTTCACCTTAACATATGTGAC
				GGGAAGAACCGTTGGGATAGGAGCTTATTTGGCCCGTTTG
				GGAATGAGGTGCATACAACGGACCGACCAACCAATAATCT
				TGACCGGGTTTTCGGCCCTGAACAAGCTTTTGGGCCGAGA
				GGTTTACAGCTCGCAAATGCAACTTGGAGGGCCGAAGATC
				ATGGGGACAAACGGTGTTGTTCATTTAACGGTTTCTGACG
				ATCTGGAAGGCGTTATGGCAATCATAAATTGGTTGAGCTTT
				GTTCCACCGTATGTTGGTGGCCCGCTTCCTGTTTTGGCAGC
				AGTGGACCCGGTAGACCGGCCTGTGGAGTACCAGCCTGA
				AAACTCGTGTGATCCTCGTGCGGCTGTTTGTGGTACAGTG
				GATGGGAATGGGAAATGGTTAGGAGGGATTTTCGATAGA
				GACAGTTTTGTGGAAACATTGGAGGGTTGGGCTAGGACG
				GTTGTAACGGGCCGGGCCAAACTTGGTGGGATCCCCGTAG
				GGGTTATTGCTGTCGAGACGCAAACAGTGATGCAAATAAT
				ACCTGCGGATCCTGGGCAGCTCGACTCACACGAACGTGTT
				GTCCCGCAAGCTGGGCAGGTGTGGTTCCCTGATTCTGCTA
				GCAAAACTGCTCAAGCTTTAATGGATTTTAACCGCGAAGA
				GCTTCCGCTGTTCATCATGGCGAACTGGCGGGGGTTTTCTG
				CTGGTCAACGGGATCTTTTTGAAGGAATTTTACAGGCGGG
				ATCGACAATTGTTGAGAACCTTAGAACGTATAAACAGCCG
				GTTTTCGTTTACATCCCGAAAACCGGCGAGCTTCGTGGCG
				GCGCGTGGGTGGTTGTTGACAGTCGAATCAACTCGGACCA
				TATAGAAATGTATGCAGAAACAACCGCAAAAGGAAATGTT
				CTTGAACCCGAAGGTATGATTGAAATTAAGTTCCGAAACA
				AGGAATTGTTAGAATGTATGAACCGACTGGACCCGCAAAT
				CCGAAACCTCAAACAAAAATTACAAGAAACAAAATACGAC
				CAAACAATCACCGACCAGATAAAAGCCCGTGAGAAGCAAC
				TTCTGCCCATTTACACTCAGATCGCCACCAAGTTCGCGGAG
				CTTCACGACACATCTTTCCGAATGGCTGAAAAAGGCGTGG
				TGAAAAAGGTTGTTGACTGGAACATTTCTCGGTTTTTCTTC
				TACAAAAGGCTCCGCCGTCGGCTCGCAGAAGCTTCTTTAAT
				AAATACCACACGTGATGCCGCCGGTGACACACTTACCTACA
				ATGCTGCTTATGATATGATCAAGAAATGGTTTTTGGCCACG
				AAGACGGAAGAAGTTTGGCTTGATGATGATGTGTTTTTCA
				CATGGAAAGATGACCCGTCTAATTACACCGATAAGTTAGC
				CACATTACGTACACAGAAGGTTTCGAATCAGCTATTAAAGT
				TTGGTGGTTCACCGTCTGATCTGGAAGCTTTACCGCAGGG
				GCTTGCTGCACTTCTGCAAGAGGTGGATCCAGCGACTAAA
				AGTAAACTAATTGAAGACATCCGGCGTGTCATTGAGACTT
				GGCCGGCTAAATGAGAAGCCATTCGGGCAATGTATACTAT
				TTAGAACTACTACATGTAAGAATATTTATTTTCCTTGAATAT
				TTTTGTAAATAAATCACACATTTCCAATC
36	Ambrosia	cDNA	818	GCAGATTATTCCTGCAGATCCTGGGCAACTTGATTCACATG
	trifida	Contig		AACGGGTGGTCCCACAAGCTGGGCAGGTGTGGTTCCCGG
				ACTCTGCTAGTAAAACGGCTCAAGCTATAATGGATTTTAAC
				CGAGAAGAGCTCCCTCTTTTCATTATGGCCAACTGGCGGG
				GGTTTTCAGCGGGTCAACGTGACCTTTTTGAAGGGATTTTA
				CAGGCGGGATCCACAATTGTTGAGAATCTGAGAACGTATA
				AACAGCCGTTTTCGTTTACATTCCAAAAACCGGTGAACTTC
				GTGGTGGTGCATGGGTGGTTGTGGATAGTCGGATCAATTC
				AGACCATATTGAAATGTATGCAGAAACCACTGCCAGAGGA
				AATGTTCTTGAACCCAAGGAATGATTGAAATCAAATTCCGA
				AATAAAGAATTGTTGGACTGCATGAGCCGACTCGATCCAC
				AAATCCAAATTCTTAAAGGAAAACTTAAAGAGTCCAAATAC
				GATCAAAGAATCGGCGACCAGATAAAAGCCCGTGAGAGA
				CAGCTTTTACCAATATACACTCAGATCGCCACGAAATTCGC
				TGAGCTTCATGACACATCGTTCCGAATGGCTGAAAAAGGG
				GTGGTAAAAGAAGTGGTTGACTGGAAAGCTTCTCGGTTTT
				TCTTCTACAAAAGGCTGCGGCGTAGGCTGGGGGAGGCTTC
				TTTGATAAGTAGCATGCGTGATGCTGCGGGTGGGACGCTG
				TCGTACAAGTCGGCTTATGATATGATTAAGAAATGGTTTCT
				GGAGAGCAAAGGGGAAGCAGAGTTGTGGGTTGATGATGA
				TGCTTTTTTCACA
37	Ambrosia	cDNA	505	TTGATTGCTCNGTTTGGCAGTGGAAGCATGTCAGAAGCTC
	trifida	Contig		AAAGACTGCCTTTAAATGGAAGCAGCTTAAACTACAACATT
				TCCTTGAGGTCTTCTGCAGCTAGATCTGCTGCCATTGATGA
				GTTTTGTTATGCACTTGGTGGAAATAGGCCCATTCATAATA
				TTCTTGTTGCAAACAATGGAATGGCTGCTGTTAAGTTTATA
				ACAAGTGTCAGAACATGGAGCTACGAAACATTTGGTTCAG
				AAAAAGCTATTTCATTGGTCGCCATGGCTACTCCAGAAGAT
				ATGAGGATAAATGCAGAGCATATTAGAATCGCTGATCAGT
				TTGTTGAAGTCCCTGGTGGTACAAATAATAATAATTATGCT
				AATGTGCAACTCATTGTAGAGACTGCTGAGATAACACATG
				TCGATGCGGTTTGGCCTGGTTGGGGTCCATGCATCTGAAA
				TCCCTGAACTACCAGATGCATTGGAGGCTAAAGGAATTAT
				ATTTCTTGGGCCACCTGCT
38	Ambrosia	gDNA	4795	AAATACCATTTCTTACATTATGAGGCAAATAAAAAAAAATA
	trifida	Contig		TCAGTTACTTCTAAAAGTTCATTTCATTAAATAAACAAATTA
				TCAAACAGCGTTCTTACGTTGGTCATTTTCTGTGCATAATGT
				TCTTTTTGCTTGCTATTTTATAAAGTGGAACTGATTGTTATA
				AATAGCTGTTATATTTTACTTTCTATGAGATGCATACATATG
				ATATTTTTAGTGTTTTGAAATCGTAAATATGATTTTATGAAA
				TGTTGAGGTTTTGGAAGGATTATAAGACTTGCCCAAAGGT
				TTGTTTTCATTATCTAACATATTGACTTGAATTGCACTTTTG
				TAGGAGCTTAGTTTCAAAAGCAAGCCAAATGTGTGGGCAT
				ACTTTTCTGTCAAGGTAAATTTATATTTACATATTTTGATGC
				AATTTCCCAATTCAAAAATATAAATATATTTTTATTTAAAAA
				TTGCAGTCCGGAGGAGGCATTCATGAATTCTCAGATTCTCA
				ATTTGGTAAGAAAACTGAATCTTGTTTGGTTTTAGTTTTTAA
				CAGTCATACTGCTGGTGTAGTTGGCTTTACACGATTCTTTG
				CTAAAGCATTCGTTATCTTATTTAATTATTATTTTGTACGCTT
				TAGGTCATGTTTTTGCATTTGGAGAGTCAAGAGCACTGGC
				CATTGCAAATATGGTTCTTGGGTTGAAAGAAATCCAAATTC
				GTGGTGAAATCCGTACTAATGTTGATTATACAATCGACTTA
				TTACATGTGAGCATCTTGGTTCTTTTGCTCCCTTTGTTCCAA
				ATTTTATTGCCTACAAAAAGTACTCCATAATTTAAGAAATG
				CACAAGCAAATCAGATTTTAATCAGCAGAGTGCCAGTTTAC
				CCTGAATGCATCTAAAATACGGTAAAATTTTAAGATAAGTG
				TAATCAAGGGTGAAACTAGAAAACTAATAAATTACAACAT
				TTCATTTCTAGAACAGGACAGTTATTATGATACAAATTAAA
				AAAGAAAAGTAGACAAATTTTGAGACGGGTCGACTGTCAT
				GAAGTTAATAGATTACATACGTTTTTTTTACAGAATTACTTA
				TGTACATGCTTCATATTGAGAAATTGATTAAATTTACAAAT
				TCTTTATTTCTTGTACATTAGCTTTATGATTTTGATTCTTTTA
				CACTTAATAATTTTATTATTATTATTTCTACATTTGTAGGCTC
				CGGATTATAGCGAAAACAAAATCCATACAGGTTGGTTAGA
				TAGCCGAATTGCTATGCGGGTTAGAGCAGAAAGGCCCCCA
				TGGTACCTTTCAGTAGTTGGTGGAGCTCTTTATGTAAGTGG
				TTTGTTAATAATACTTTTCCTTTTCTATATTCACCACCGTTTA
				ATGTACTCTTGTCTTACTGTTGATTTTTGTTGACCTCAGAAA
				GCTGCTGCTAGAAGTGCAGCCATGGTATCAGATTATGTTG
				GTTATCTTGAAAAGGGTCAAATCCCTCCTAAGGTATTTTGA
				CTTAGCATTGACCTTTATGTTGACCTCAGAATGCCCTTTGCT
				TAATTTTTTTTTCTTTTCTTGAAGCATATATCATTGGTCAACT
				CTCAAGTTTCTTTGAATATTGAGGGTAGTAAGTACACGGTA
				AGTAATAACATAAATTTCTGTTCTTGATCTCTGTTTTTTTTTA
				ATTATTATTTTTCTTCTAATTTATGTGTTTGTTTTTTGTAAGA
				TTGATATGGTAAAAAAAGGACCAGGAAGTTACAGATTAAA
				AATGAATCACTCTGAGATTGAAGCAGAAATACATACTCTAC
				GCGATGGGGGTTTGTTAATGCAGGTAAACATTTTTGTTTAT
				TTTTCAAGTTAAAGTCCTATGGGTATGGGATACATGATTTG
				CTTCATAAATAAAATCAAAAGATACAATATTTACAGTCATG
				CAAATTTGTTACATTTTTACATGTATTTACACATTTGTTTGTC
				ACATGCCTATATTTATATAATATTGATTGGATAATTTAATAT
				TGTAGTTGGATGGAAATAGCCATATTATATATGCAGAGGA
				AGAAGCTGCCGGTACTCGACTCCTAATTGATGGACGAACT
				TGCTTGCTTCAGGTGTCAACAACTACTTCTTTTTGTTGTTGT
				TTACTTCTTTTTGTTGTTGTTGTTATTATTATTATTATTTATT
				ATAGATGTGGCTGTTTCTATGCATTTACTTTTGAGTTGATTG
				ATTTAGGTCATATGTTATCTTTAATGGGTAAAAAAGTTTAG
				CCTAAAACGAGACGGGTCAGTTGGATCCATTAGGTTGAAA
				GTCACCTGTAGTTTATCTATTACGCATAATGTGATTAGACC
				ACCTGATTGCATTAAAAAAAATATAAAACCCTCATTTCAAT
				CCAAACGGACTCGTTTAGACAATCTTCCATTTTTGACCAAT
				ACCCGCCCATTATCCCACATCTGTTTGTTATTCACTAATTTG
				TTCTATATTTGGTTTAATTTGTTGTTAGAATGATCATGATCC
				TTCCAAGTTGATGGCAGAAACGCCATGCAAGCTTCTAAGA
				TACTTAGTGTCTGATGGTAGCCATGTTGATGCTGACACACC
				TTATGTTGAGGTTGAAGTGATGAAAATGTGTATGCCACTTC
				TTTCGCCGGCTTCTGGAGTTATACAATTTAAAATGTCCGAA
				GGTCAAGCCATGCAGGTTAGATTTAAATATCTTCTTAATAT
				TTATTGTTTTTGCGAAATATATACAAAAATTTCCTTTTACGA
				ACATTAATGAAAAATCAATTCTGAATCTACATGAGAATTTA
				ATTTATTTATTTTTTTATATATGGACATCTTTTCTGAGTAAA
				ATTTTGGCATTGTAGTTGTTTTTTCTTTATTTTATAACTCTAA
				CTTTTTCAAAAAGGTAATATCTAAGATATTTAGAGGCATAA
				TGAGTCACTTTTTACAATTAATATTATTCCCAATTGTTTCAG
				TTACAAATATTATATTGGTACGTCAGTGCTCGATTTTTTGTT
				GTTTACACAAATTCTCTCCATAATACAATCATATCTTTATCT
				TCTATACAGCATGCATACATGGGATGCACTTTTTGTCCTAA
				ATTTTGAACATATGAATGTTTTTATATGTAGGCTGGTGAGC
				TTATAGCAAGACTAGATCTTGATGATCCGTCAGCTGTAAGA
				AAAGCAGAGCCCTTTCCTGGAAGCTTTCCTGTTCTGGGCCC
				ACCGACCGCCATTTCAGATAAAGTTCATCTGAAATGTGCTG
				CAACTCTGAATGCTGCTCGGATGATTCTTGCTGGCTATGAT
				GACAACATTGATGAAGTAATCTTGTTTTTATTTTATTCTTTT
				TGCCATTTAAATAACCCATATGAAATATTTTAATCAACTAAT
				CACAACTTTATGTAGTGGTGAAAAATTTAACCCACAATTTA
				TGAACGGGTCGACTTGGGTTATGTTGATCCATAAGTGGTC
				AAACACAAAAATAGAAATGCTCAAAAGATAATGGTCATAT
				GGGTCAAGTCAGCCAAAGTGTATTCTTATGCATAAAACCTC
				CTAAATCATTTTTATTCAAAAAAATTAACTTCTTTTAATAAT
				ATAAATTTTGGAATAGTATTTGATATGCTAATTATATATAA
				CTAAATTTAGTTTTTGAACAAGTGTTAAGGGTCAAGCAAGC
				CTAACTTGCTTTGATTGACACAAAATTATGCATTATTCCATA
				CCGGTTTTGACTCGTGACCCATCCCGCCAAGTCGTTCTTTTT
				TCTCACCATTAGCTTAGTTCTTCAATGAGCTTACTTTCTTTTA
				AATTTTTCTTTTTGTTATTTATAACATGTTTAATCTTTGATTT
				TAGGTTGTGCAAAACCTGCTTCTTTGTCTGGATAGTCCTGA
				GCTTCCTTTCCTTCAATGGCAAGAATGCTTTGCAGTTCTAG
				CAAATCGACTTCCTAAAGATCTAAGAAACAAGGCAAATTA
				ATGTCTTATAATCATGTTGTTTATTTAAGTTATTATTGTAAC
				ATTTTTTTTCTAATTTTTAATTCTTCTATAACAGTTGGAGTCG
				AAGTTTAAGGAGTACGAAGGAATTTCCACCCAACAAGCTA
				TCGAATTCCCCGCCAAAGTGTTACGGGCCATTCTAGAAGTT
				AGTTTACGATCAAATACTTATAATTTGACTTTTTTCGTATTT
				AAATATTTAGTTTACTTTATACTATACTTTTGTAATGTTTAT
				GGTTAGACGCACCTTGGATCTTGCTTAGAAAAAGAGAAAG
				TTGCCCAAGAAAGACTCATTGAACCGTTGATGAGTCTTGTT
				AAGTCATATGAAGGTGGCAGAGAGAGTCATGCACGTGGG
				ATTGTTCATGCACTTTTTGAAAAATATTTATCCATTGAAGAA
				TTATTTAGTGACAATATTCAGGTGAAGTTTTTAACTGATTA
				GTATAAAAAATGCAAAATTTCATATATAAACTTTATAGTAT
				CATATTTATTTTTTCAAATTTCCATGGTGAAACAAATAACGA
				ATGCAAAAGCAATGTTATTACTGTGAATCATGTCTACACAT
				AATGCTCTTATAAGTAATTAATTTGCATGCACTTTAACATCA
				TACTCTTTCATGTTGAGTAAATTTTTCTTAAATGTAAAATGA
				AATTTTTTTCTTTAGGCTGATGTAATCGAACGTCTACGACTC
				CAATACAACAAAGATCTCTTGAGGATTGTTGACATTGTGCT
				TTCCCATCAGGTATATATGTTATTTTTAGAGGTTGCAAAAT
				GGACTGTGGGATGGGTTTGTCAACGGGTCAAAATTTGCCA
				TTTTGCTAAGGGTTGATACCGGTTGGGTTGGGTTGGGTT
39	Ambrosia	gDNA	4587	TTTTCAAAAAAAAAAAATTAAAAAAAAAAATAGTGTCTACT
	trifida	Contig		TCTTTTTTGTATTAAATTTATTTGCACATAACTCTTTTATAAA
				GCAAGTCATGTTTGTACATTTTAACTTCAAAGACTCATGAC
				ACGAAAATAAAACGAATAAGTTAAATTTGTTTACATAATAT
				TGTGCTACATTTACATATATACTTGTTATCCAATAGTTAATT
				ATGATGATTTACATTTTTAATTATTTGTGTTCAAAGTTTGTT
				TAAACTCACTGGATAATCTTGGGAGTTAAGGCAAGTATGG
				CATTGAAAAGTAGAACCCTGGGCCCTGAAACAGCGATTGA
				AAAAAAGCAGTGGCGATGGGTCGAACTGGTCAATTCAAA
				GGGTCCCTTTATCAGCAAATTACTTGGACAATTTTGACTTTT
				ACTTTGACCTCTTCCAATAATATAGCTTTTTTTTATTCCTTCT
				AATTTTAACTACAAATATACATGTTTGTTTTTCTACACACTT
				TCAACATCTGTACATTTCTATCAGTTTGTCTACAGTATATAA
				TCGCAAGAATATTTCGACTTATAATCATAGATATTCTGTTTG
				CACTTATAGCATGCAAAATACAGATGCATAGAATTTGCATA
				CGCCTAAAAGTGCAGAGAAAAATCATGTGAACATTCTTAT
				GTCCGTTTTATAAATGTTGCTCACAAATAGACAAAAATATT
				ACTGTTTTTTTGTTATACTATGTAGAAAAAGTCATGCAAAT
				CACATACATATGGATTGTTTTATAACAATTACAAATTGTGT
				GCAGGAGAGTTGACGTAGATTCTGGGACCGAAGAGGGTG
				TGGTTGAGGCACTTTTGGTGAAGTTGGCTCGTGAGATACA
				CACAATGGTTGGTATAAAAATGCACCGGTTAGGTGTTTTTG
				AGTGGGAGGTTAAGCTTCGCATGGTGTCTTCTGGTCAAGC
				CAATGGTGCCTGGAGGGTGGTGGTCACTAATGTGACCGGT
				CATACGTGTATTGTACATGTAAGTTAAAAGGCCATTTTAGA
				CATTTCAACAATAGGTAAACTCTTTTTGCTCATACATGCTTA
				ATGTTACTCTTTGCGATTTTCATTTAGGTCTATCGGGAAATC
				GAGGATAATGTTGAACACAAGGTAGTTTATCATGCTACCTC
				GACATCAAGCCCCTTACATGGTGTATCTGTGAACACACCAT
				TTCAGCCTTTGAAATTACTCGATCAGAAACGTCTTTTGGCC
				CGTAAAAGCAATACTACTTACTGCTATGACTTTGCACTGGT
				AAAATTGCCATTTTGCCCTTCTACTTTTAATGCATGCATGTT
				CTTTTATTTAAAAGTAGTAAAATTACCATTCTGCCCTTTCGA
				ACTTGGATTATGGTTAATTCTTACGGATCTTGCTTTTGTATC
				CGCAGGCATTTGAAGCAGCCCTTGAGAATATCTGGTCATT
				GAAACTCCCAGGTGTCAACAAGCCCGTTGGTAAGCTTGTA
				AATGTGACAGAGCTCGCATTTGCTGACCCGAGAGGCTCAT
				GGGGTACACCGCTTGTGCAAATAAACCGTGAGCCGGGCCA
				GAACAATGCGGGCATGGTGGCTTGGACCATGGACCTCTGC
				ACACCTGAGTTTCCTCATGGAAGGACAATTTTGGTAGTTGC
				AAACGATGTCACGTTTAAAAATGGGTCTTTCGGCCCGATTG
				AGGACGCGTTTTTCGAGGCGGTCACCGAACTTGCCTGTTCC
				AAGAAACTGCCACTCATTTACCTGGCAGCGAACTCGGGGG
				CCCGAATTGGGGCGGCTGAGGAGGTTAGATCTTGCTTTAG
				AATTGGGTGGTCCGATGAATCGAACCCTGATTCAGGGTTC
				CAGTATTTGTACCTAACTCCTGAAGATTACAGTCGAATCAA
				ATCGTCAGTGATTGCACATGAATTTTGTTTGGAGAGTGGT
				GAAACCAGATGGATTATTGATACAATTGTAGGAAAGGAAG
				ACGGATTAGGGGTTGAGAATTTAAGCGGTAGCGGGGCCA
				TTGCTGGTGCGTTTTCGAAAGCATATAAAGAAACGTTCACC
				TTAACATATGTGACGGGAAGAACCGTTGGGATAGGAGCTT
				ATTTGGCCCGTTTGGGAATGAGGTGCATACAACGGACCGA
				CCAACCAATAATCTTGACCGGGTTTTCGGCCCTGAACAAGC
				TTTTGGGCCGAGAGGTTTACAGCTCGCAAATGCAACTTGG
				AGGGCCGAAGATCATGGGGACAAACGGTGTTGTTCATTTA
				ACGGTTTCTGACGATCTGGAAGGCGTTATGGCAATCATAA
				ATTGGTTGAGCTTTGTTCCACCGTATGTTGGTGGCCCGCTT
				CCTGTTTTGGCAGCAGTGGACCCGGTAGACCGGCCTGTGG
				AGTACCAGCCTGAAAACTCGTGTGATCCTCGTGCGGCTGTT
				TGTGGTACAGTGGATGGGAATGGGAAATGGTTAGGAGGG
				ATTTTCGATAGAGACAGTTTTGTGGAAACATTGGAGGGTT
				GGGCTAGGACGGTTGTAACGGGCCGGGCCAAACTTGGTG
				GGATCCCCGTAGGGGTTATTGCTGTCGAGACGCAAACAGT
				GATGCAAATAATACCTGCGGATCCTGGGCAGCTCGACTCA
				CACGAACGTGTTGTCCCGCAAGCTGGGCAGGTGTGGTTCC
				CTGATTCTGCTAGCAAAACTGCTCAAGCTTTAATGGATTTT
				AACCGCGAAGAGCTTCCGCTGTTCATCATGGCGAACTGGC
				GGGGGTTTTCTGCTGGTCAACGGGATCTTTTTGAAGGAAT
				TTTACAGGCGGGATCGACAATTGTTGAGAACCTTAGAACG
				TATAAACAGCCGGTTTTCGTTTACATCCCGAAAACCGGCGA
				GCTTCGTGGCGGCGCGTGGGTGGTTGTTGACAGTCGAATC
				AACTCGGACCATATAGAAATGTATGCAGAAACAACCGCAA
				AAGGAAATGTTCTTGAACCTGAAGGTATGATTGAAATTAA
				GTTCCGAAACAAAGAATTGTTAGAATGTATGAACCGACTG
				GACCCGCAAATCCGAAACCTCAAACAAAAATTACAAGAAA
				CAAAATACGACCAAACAATCACCGACCAGATAAAAGCCCG
				TGAGAAGCAACTTCTGCCCATTTACACTCAGATCGCCACCA
				AGTTCGCGGAGCTTCACGACACATCTTTCCGAATGGCTGA
				AAAAGGGGTGGTAAAAGAAGAAGTGGTGGTTGACTGGAA
				AGCTTCTTCTCGGTTTTTCTTCTACAAAAGGCTGCGGCGTA
				GGCTGGGGGAGGCTTCTTTGATAAGTAGCATGCGTGATGC
				TGCTGGTGACACGCTTACCTACAATGCTGCTTATGATATGA
				TCAAGAAATGGTTTTTGGAGAGCAAAGGGGAAGCAGAGT
				TGTGGGTTGATGATGATGCTTTTTTCACATGGAAAGATGAC
				CCGTCTAATTACACTGATAAGTTAGCCACATTACGTACACA
				GAAGATATCAAATCAGTTATTAAAGATTGGTGGTTCACCGT
				CCGATCTGGAAGCTTTACCGCAGGGGCTTGCTGCACTTCTG
				CAAGAGGTAACTGTTGTTTCTTGAATCTTGACGACTACATT
				CCTTTCACCATTTTGCAAGTCGAGAATAAGATTGTTTTTAAT
				GTCGTTTTGTTTGTTGTGTTTCAGGTGGATCCAGCGACTAA
				AAGTAAACTAATTGAAGACATCCGGCGTGTCATTGAGACT
				TGGCCGGCTAAATGAGAAGCCATTCGGGCAATGTATACTA
				TTTAGAACTACTACATGTAAGAATATTTATTTTCCTTGAATA
				TTTTTGTAAATAAATCACACATTTCGAATCATATCAAATAAT
				TATTCATTGTAGTCTTTTCTGTAATCGGTATTTGCGATATCT
				ATGTTTGAGTATTTATTAACTAATTATACAAATCTTTGTTGG
				GCTTTGCACTTTCTGGATCAACAACTCAGACCTCGTGATCA
				AGCTTTGGTGAACATGAATGAACTGCATCTGCAACAGTGA
				GAAAAATCTTGTTTTCCCCAATCAAGTCGGGGAAACCTGAT
				GCGTATAGCTTGTCTAGCACTTGTTGACCCGGGTTCGCAAG
				AATAAGCTGTCAAACCAAAATATTATTGTTTTAGCACGCAA
				TTGCGGAAATTATTATGAAAACTTTTTATCCGTTGTTAACC
				GTATAATAAATGAGTTGATGATATGTGTAGTAGTGTTTAAT
				CGCATAAAATTACATGTTTTGTTCTCAACTGGTTTTGGCAC
				GTTTACTTGTAATATTATAAACAGTATTGCTGCTGCTTACTT
				GGACATCTCTCTTTTGCAGACTACGGTATAACTCTTCCAAG
				GCATGGATTCCACTTGTGTCGATATCAGTAACCGCTGCAGT
				TAGAGAACACTCTTTAAACAAAGTATTCGCCCCGCTCATTA
				AATATTCATGACTGACTATAGGAAATAGAAGAGCTTCTTTC
				TTACGTGACAATTCCACTATCAAGAACTGAATTTTGGGTTG
				AAAAGTTGCTGCTTTTAGATTATCTTCTTCCTCAGCTAGCCA
				TCTTAATATCCTGCAACGAATTATAGCTTTCAAGGATGGAA
				ACATACATACATACATAGTTAAACTCC
40	Ambrosia	gDNA	2723	ATGGGGACAAACGGTGTTGTTCATTTAACGGTTTCTGACG
	trifida	Contig		ATCTGGAAGGCGTTATGGCAATCATAAATTGGTTGAGCTTT
				GTTCCACCGTATGTTGGTGGCCCGCTTCCTGTTTTGGCAGC
				AGTGGACCCGGTAGACCGGCCTGTGGAGTACCAGCCTGA
				AAACTCGTGTGATCCTCGTGCGGCTGTTTGTGGTACAGTG
				GATGGGAATGGGAAATGGTTAGGAGGGATTTTCGATAGA
				GACAGTTTTGTGGAAACATTGGAGGGTTGGGCTAGGACG
				GTTGTAACGGGCCGGGCCAAACTTGGTGGGATCCCCGTAG
				GGGTTATTGCTGTCGAGACGCAAACAGTGATGCAAATAAT
				ACCTGCGGATCCTGGGCAGCTCGACTCACACGAACGTGTT
				GTCCCGCAAGCTGGGCAGGTGTGGTTCCCTGATTCTGCTA
				GCAAAACTGCTCAAGCTTTAATGGATTTTAACCGCGAAGA
				GCTTCCGCTGTTCATCATGGCGAACTGGCGGGGGTTTTCTG
				CTGGTCAACGGGATCTTTTTGAAGGAATTTTACAGGCGGG
				ATCGACAATTGTTGAGAACCTTAGAACGTATAAACAGCCG
				GTTTTCGTTTACATCCCGAAAACCGGCGAGCTTCGTGGCG
				GCGCGTGGGTGGTTGTTGACAGTCGAATCAACTCGGACCA
				TATAGAAATGTATGCAGAAACAACCGCAAAAGGAAATGTT
				CTTGAACCCGAAGGTATGATTGAAATTAAGTTCCGAAACA
				AGGAATTGTTAGAATGTATGAACCGACTGGACCCGCAAAT
				CCGAAACCTCAAACAAAAATTACAAGAAACAAAATACGAC
				CAAACAATCACCGACCAGATAAAAGCCCGTGAGAAGCAAC
				TTCTGCCCATTTACACTCAGATCGCCACCAAGTTCGCGGAG
				CTTCACGACACATCTTTCCGAATGGCTGAAAAAGGCGTGG
				TGAAAAAGGTTGTTGACTGGAACATTTCTCGGTTTTTCTTC
				TACAAAAGGCTGCGGCGTAGGCTGGGGGAGGCTTCTTTG
				ATAAGTAGCATGCGTGATGCTGCGGGTGGGACGCTGTCGT
				ACAAGTCGGCTTATGATATGATTAAGAAATGGTTTCTGGA
				GAGCAAAGGGGAAGCAGAGTTGTGGGTTGATGATGATGC
				TTTTTTCACATGGAAAGATGAACCAAAGAACTACAGGCAC
				AAGTTAAGTGAGTTACGTGCACGCAAGGTTGCAAATGAGT
				TATTAAAGATTGGTGGTTCAGCGTCGGATGTGGAAGCGTT
				GGCGCAGGGGCTGGCTGCACTTCTAAAAGAGGTAACTGTT
				GTTTCTTGAATCTTGACGACTACATTCCTTTCACCATTTTGC
				AAGTCGAGAATAAGATTGTTTTTAATGTCGTTTTGTTTGTT
				GTGTTTCAGGTGGATCCAGCGACTAAAAGTAAACTAATTG
				AAGACATCCGGCGTGTCATTGAGACTTGGCCGGCTAAATG
				AGAAGCCATTCGGGCAATGTATACTATTTAGAACTACTACA
				TGTAAGAATATTTATTTTCCTTGAATATTTTTGTAAATAAAT
				CACACATTTCCAATCATATCAAATAATTATTCATTGTAGTCT
				TTTCTGTAATCGGTATTTGCGATATCTATGTTTGAGTATTTG
				TGAACCTTTTATTAACTAATTATACAAATCTTTGTTGGGCTT
				TGCACTTTCTGGATCAACAACTCAGACCTCGTGATCAAGCT
				TTGGTGAACATGAATGAACTGCATCTGCAACAGTGAGAAA
				AATCTTGTTTTCCCCAATCAAGTCGGGGAAACCTGATGCGT
				ATAGCTTGTCTAGCACTTGTTGACCCGGGTTCGCAAGAATA
				AGCTGTCAAACCAAAATATTATTGTTTTAGCACGCAATTGC
				GGAAATTATTATGAAAACTTTTTATCCGTTGTTAACGTATA
				ATAAATGAGTTGATGATATGTGTAGTAGTGTTTAATCGCAT
				AAAATTACATGTTTTGTTCTCAACTGGTTTTGGCACGTTTAC
				TTGTAATATTATAAACAGTATTGCTGCTGCTTACTTGGACA
				TCTCTCTTTTGCAGACTACGGTATAACTCTTCCAAGGCATG
				GATTCCACTTGTGTCGATATCAGTAACCGCTGCAGTTAGAG
				AACACTCTTTAAACAAAGTATTCGCCCCGCTCATTAAATAT
				AGGAAATAGAAGAGCTTCTTTCTTACGTGACAATTCCACTA
				TCAAGAACTGAATTTTGGGTTGAAAAGTTGCTGCTTTTAGA
				TTATCTTCTTCCTCAGCTAGCCATCTTAATATCCTGCAACGA
				ATTATAGCTTTCAAGGATGGAAACCTACATACACACATAGT
				TAAAATCCGATGGTTTGTACCTTTCTTTGATGTAATTTGAAT
				TTGAGAAATAAATAGCAGAATCAATCCTAACAATTACAACA
				CCCGGAATTTTATTCGCTTCTGGATACTGTCCGATATTCCG
				GTACACGCTGGTCATCGGAATCTTCCCAAGAAGCGCGGTT
				CGTGGGCGTGTAACTTGCAGAAGAATCTTAGCAAAAGATA
				TCGCCACCTGATTCAACAATCTTATTAAACAAAAGCTCAAA
				ATTGACCTAAAAACAATGTTTTCATAACCAGTTCAATGGTT
				GGGCCCAAATGCCATCATAAATAATTTATTTATTTATATGA
				ATAATATATAAACTATAAAGTAAGTAGTAAATGGATCACTA
				AATGAT
41	Ambrosia	gDNA	2408	GTTGACCTGAAACATGTTTTTGTTTTCAAAAGTTTTAGATA
	trifida	Contig		ATTTGTTAGTCAAATATGATGAAATATACAAATTATTATTTC
				AATAATAATCCAGTTTTTTTAAAAAGATATAGGTGATATGT
				GTACAGTAAAAAGATACAATTTGGTAGGTATTTCACAAGTT
				CAGGCGCTAGAAACATGTCCTTTTAAGATTTTGTTCTGCCT
				TGTACCTTTTGAACGTTTAAAGCAGAACCCGACTCGACCCA
				TTCATGAGTAAATGGGTTGAAATTGCCGTCTCTAGTTTTTC
				TGGTTTTATGTTTCCACTTATTAATATTAAATAAAATTTATT
				CTGAAGTCGATATTTTAAATTTAACAGGGAGTTAGGAGTA
				AAAACAAGCTGATACTACGACTGATGGAGCATTTGGTCTA
				CCCTAATCCAGCTCCTTATAGAGAGAAACTCATACGGTTTT
				CTGCACTCAACCACACAAGTTATTCTGAGGTCAATATCGTC
				ATTTAACATACTCAAAGGCTCTAACTAACTACTTTTTTTTAT
				TGGCATATTTAACTTCATTATCATTAATTTAACAGTTAGCAT
				TGAAGGCAAGTCAATTGCTGGAACAAACTAAATTAAGTGA
				ACTTCGTTCAAGTATTGCAAGAAGTCTATCTGAATTAGAAA
				TGTTTACCGAAGAAGGTGAGAATATCGATACCCCTAAAAG
				AAAAAGTGCAATTAACGAAAGAATGGAGGATATCGTGAG
				TGCTCCTTTGGCGGTTGAAGATGCCCTTGTTGGTCTTTTTG
				ACCATAGTGATCACACCCTTCAAAGGCGTGTTGTTGAGACC
				TATGTCAGAAGATTATACCAGGTATGCAGTTGGTTTTTCTC
				TTAAACATATACTATCTATCCATTTAAGTCGCCATTGACTAA
				TACAGCTCAATAAAAAAAGTTAAAAGGATGGATGTGATTA
				ATTTGTAAATATCAAAATCAAGTCTATTGTATATTGATATTT
				GGTATGATAAACAAGGGGCAAATGAGTAATTGTACCTTGT
				AATTCTATTTTCAGCCATATCTTGTGAAGGGGAGTGTTAGA
				ATGCAATGGCACAGATTGGGACTTATTGCATCATGGCAAT
				TCGTGGAAGGGCATACTGAGGAATTGAATGCTTCTGGACC
				ATTGGTTGATAGGAAATGGGGAGCTATGGTTATTATTAAA
				TCTCTTCAATTTTTGCCCGATGTGATAAGTGCAGCTCTTAAA
				GAAACGACTCAAACTGGGTCAGCAGGTCATACTATTACTA
				ACCATGGTAACATGATGCACATTGCATTGGCCGGCATCAA
				CAACCAAATGAGTTTGCTTCAAGACAGGTTTGACCATACAA
				GTCAACATCATCATGTTTGGTTATAAATCAATTTATAAAAAT
				TCATTATCTCTAGAATTGAAACCAAATTATATTTATATATTT
				GATATTAACTAATACGCGCATATTTTCTTATAAACTGCAGT
				GGTGATGAGGACCAGGCCCAAGAAAGAGTCAATCGGTTA
				GCAAAAATATTAAAGGACAAAGAACTAAGCTCGAGTCTAA
				AAAACGCAGGGTATGATGTTATAAGTTGTATAATACAAAG
				AGACGAAGGTAGGGGCCCAATGAGACATTCATTTCATTGG
				TCAGAAAGTAATCGTTATTATGTCGAAGAGCCATTATTGCG
				CCATGTGGAACCTCCATTATCTATTTACCTTGAACTGGTTTG
				TACTCATAGCCCGCTTCATTTTGTTTCCATTTCTTTAAATAGT
				AATAATACTAAGGACAAATGTCCACAAAAAGTGAAATCGA
				GTCAGCTTTTAGCACATTAGGCTTCCACGTTATCGTTTTTAC
				ATGATTGGATGCCATGTCAGCAGTTTTAAGCATTTTGTATG
				CCGTGTCAACTTATGCAACCTAACTCTTTGCAGTAACACAC
				ATTAAAGTGTTGCAATAGCGACACATTTTAGAAGAGAAGT
				AAATTTTATAAATACTCATAATTTTAGAAGGTTTCGGTAAA
				AAAGTATTAGTTTCCAGAAAGGTCTAAAATTATTTATGTCA
				CTATATATCTTGGCATTTTTATCCACACTCAGTGACCAGTTT
				TGTTGTGTTGCTAAATTTCAATTTTGGTGCAGCGACCCTCTT
				TTAAAGACTTAGTGAACAACGGGGACATTCGATTACCATTT
				AATGACATATTCCCTAATATTAGAAGAAAAGTTATATAAAT
				TTCCATGTATTATAAATTGGTTATTTTTTCAGGATAAACTGA
				AGGGCTATGAGAATATACAGTACACTCCATCGCGCGACAA
				ACAATGGCACATGTATACGGTTGATGCGAAACCACTTCCG
				GTTCGCAGAATGTTTCTTCGAGCACTTGTAAGACAACCAAC
				AAAAGAATGGTTTTCGCCCTCGGGATACCATGATTC
42	Ambrosia	gDNA	1771	TGGCGGCCGTAAAGTTTATAAGAAGTGTGAGAACATGGA
	trifida	Contig		GTTATGAAACATTTGGTTCAGAAAAAGCAATTTTGTTGGTA
				GCCATGGCGACTCCGGAGGATATGAGGATAAATGCAGAG
				CATATTAGAATTGCTGATCAATTTGTGGAAGTCCCAGGTG
				GTACAAATAATAATAATTATGCAAACGTGCAACTCATTGTG
				GAGGTATATAGGTTTCATACATATATAATTTATTTAGGCAT
				CAACTGATGTATTTTATGAACCACCATACACGCCATTTTATT
				GCAAAGTAACCATTGTTCTTTAGAACAGTCTTATTTTGACTT
				TTCGGTCAAATTATCTGTTTATAAACGTTCATTCCTGCAACG
				ATAAGTCAGATATGATGGTTCAAGAAGTCGGTCACTAAAC
				AAGGGTTGGATTTACCTTCACTTATTCAGAAGTCCTTAAAA
				TATTACATTTGCTCTCTACAAAGTATTTTTTACTATGAATTTT
				CAAGTGGACTACATCAATTTTGTAATTAATACGAAATTACA
				AATGTGTGTAACTTTTGATGAAAAATCCTACTTTGACATAC
				CTAACTATATCCTTAAGTTATAACATTGATATTGCAATGCTT
				AACTTTTGAGGAAAATCATTACCTACATCATGTTTAATGAT
				TGCAGACTGCTGAGATAACACATGTTGATGCTGTTTGGCCT
				GGTTGGGGTCATGCATCTGAAATCCCGGAACTACCAGATG
				CATTGGAGGCTAAAGGAATTATATTTCTTGGGCCACCTGCT
				GCTTCCATGGCAGCTTTAGGAGATAAAATCGGTTCATCGTT
				GATTGCACTAGCAGCTGATGTGCCAACACTTCCATGGAGT
				GGCTCTCATGTAAGTTTTGCCACTTTTATAGTCAGTCCTTTT
				TAGTTTTTTCAGAAAAAAAAAACTCATTTCATACCTCTTGTT
				TTTCAAAAAACTGGTTCCTAATGCTACTTATTTTTTAAAAAC
				TGCATCTTTACTAGTCTTTATAACACCTCATCTTTTTAGCTC
				GTATTCTTTTACAATTGCACCTATAAACCTCAAAAATCTCAT
				CTTTATTCTGCTTATTATATAAAATATCCTGCTTTAGGTGAA
				AATTCCTGTGGAAAGCTGTTTGGCCACAATCCCAGATGAT
				GTATATAGAAAAGCTTGTGTATCTACAACTGAAGAAGCAA
				TTGCTAGCTGTCAGTTTATTGGTTATCCGGCTATGATCAAG
				GCATCATGGGGCGGAGGTGGCAAAGGCATAAGAAAGGTT
				TGTTTCCTTCAACTTGACCTTTAAAAGTCAATAAACTAGTTT
				TGACCTCAAAGCACTTATTTATTTTTGTTAATTTAGGTGCAT
				AATGATGAAGAAGTCAAGGCACTTTTCAAGCAAGTTCAAG
				GTGAAGTGCCAGGTTCACCTATATTCATTATGAAAGTTGCC
				TCCCAGGTGAGAAAACGTTTGAATAACTCATCTGATCTTAA
				TGTGTGACTTAAAACTTATTATAACACTATTTAAATATTATT
				TTAAAACCAGAGCCGGCATCTAGAAGTTCAGCTACTGTGT
				GATCAGCATGGCAATGTAGCAGCCTTACATAGTCGTGATT
				GCAGTGTTCAAAGACGACACCAAAAGGTAGTCTGAGAATC
				GCAGTCTTTCTAAAAAATAACAAATCTTGATTTTAATATAAT
				TTTTTATATTTTTTTAAGATTATCGAGGAGGGTCCAATTACC
				GTAGCTCCACCTGACACAATAAAGAAGCTTGAGCAAGCAG
				CAAGAAGA
43	Ambrosia	gDNA	1320	CATGATGAGTGATGACATATGTGGTCTTTCACTCTAATTCT
	trifida	Contig		TGCAATTGTCGATGCTTTCGACTCTTGTCTTCTTTACGGTAA
				TTAGTCTTCTTCCCCTTTCCCCCAAATTTAAAAAAGAAACTA
				AAGTTTGATAGCTCTGTTTGGCAGTGGAAGCATGTCAGAA
				GCTCAAAGACTGCCTTTAAATGGAAGCAGCTTAAACTACA
				ACATTTCCTTGAGGTCTTCTGCAGCTAGATCTGCTGCCATT
				GATGAGTTTTGTTATGCACTTGGTGGAAATAGGCCCATTCA
				TAATATTCTTGTTGCAAACAATGGAATGGCGGCAGTAAAG
				CTTATAAGAAATGTGAGAACATGGAGGTATGAAACATTTG
				GTTCAGAAAAAGCAATTTTGTTGGTAGCCATGGCTACCCC
				GGAGGATATGAGGATAAATGCAGAGCATATTAGAATTGTT
				GGTCAATTTGTAGAAGTGCCTGGTGGAACAAATAATGATA
				ATAATGCAAACGTGCAACTCATTGTAGAGGTATATAGGTTT
				CATACATATATAATTTATTTAGGCATCAACTGATGTATTTTA
				TGAACCACCATACACGCCATTTTATTGCAAAGTAACCATTG
				TTCTTTAGAACAGTCTTATTTTGACTTTTCGGTCAAATTATC
				TGTTTATAAACGTTCATTCCTGCAACGATAAGTCAGATATG
				ATGGTTCAAGAAGTCGGTCACTAAACAAGGGTTGGATTTA
				CCTTCACTTATTCAGAAGTCCTTAAAATATTACATTTGCTCT
				CTACAAAGTATTTTTTACTATGAATTTTCAAGTGGACTACAT
				CAATTTTGTAATTAATACGAAATTACAAATGTGTGTAACTT
				TTGATGAAAAATCCTACTTTGACATACCTAACTATATCCTTA
				AGTTATAACATTGATATTGCAATGCTTAACTTTTGAGGAAA
				ATCATTACCTACATCATGTTTAATGATTGCAGACTGCTGAG
				ATAACACATGTCGATGCGGTTTGGCCTGGTTGGGGTCATG
				CATCTGAAATCCCTGAACTACCAGACGCATTGGAGGCCAA
				AGGAATTGTATTTCTTGGCCCCCCTGCTTCATCCATGGCGG
				CTTTAGGAGATAAAATTGGTTCTTCTTTGATTGCACAAGCG
				GCTGCTGTACCAACACTTCCATGGAGTGGTTCTCATGTAAA
				TATTGCCACTTTTATAGTCGGTCCTTTTTAGTTTTTTCAGAA
				AAAAAAAACTCATTTCATACCTCTTGTTTTTCAAAAAACTGG
				TTCCTAATGCTACTTATTTTTTAAAAACTGCATCTTTATTTTA
				TTTTTTT
44	Conyza	cDNA	7026	ATGAATTTTCGGGCATTTGATCTGAAGCTCAACATTTTTCT
	canadensis	Contig		GGGCGATTCAAATAAGCGTTTTACTGTTACAAAAAGTTTCG
				TCTCAACGGGTGACCACTACACGACTTCTGATAACACCAAT
				CCGACCAGTCTTACAAAGGTGAAGGTGAAGAAACATGTGA
				AGAGGGATAAATTTGGAGAAAGAATGGCATCACTAAAAC
				AGATAGTGTCACCCTATGGCAAGGATTTTGCTAAACATAGT
				TGTAAGGGTTATAGTTACAACACAATAGAATGGAGTCTAG
				ACTTGGACCATTGTGTTTTAGAGAAGAAGGGAATCGAACG
				CAAAGTTTGCGTTGTGATAGTCAGGAGACAGAAAGGGCA
				ATTTGTTTCTGTTCTTTTTAAGTTAGATAGTGGCACCATGTC
				AGAAGCTCAAAGAATGCTTCTAAGTGGAAGTTTCAATTATT
				ATGGTAATGGCATTGTAAATGGGGCGATTTCACTGAGGTC
				TTCTGCTAGTAGATCTGCAATTGATGAATTTTGTAATGCAC
				TTGGAGGCACCAGGCCAATCCAAAGTATTTTAATTGCAAAT
				AATGGAATGGCGGCTGTAAAGTTTATAAGAAGTGTGAGG
				ACATGGAGTTATGAAACATTTGGCTCAGATAAAGCTATTTT
				GCTGGTAGCCATGGCTACACCGGAAGATATGAGGATAAAT
				GCCGAGCATATTAGAATCGCTGATCAGTTTGTTGAAGTCCC
				TGGTGGTACAAATAATAATAATTATGCGAATGTGCAACTCA
				TTGTAGAGACTGCTGAGATAACACATGTTGATGCTGTTTG
				GCCTGGTTGGGGCCATGCATCCGAAATCCCTGAGCTGCCT
				GATGCATTGGAAGCAAAAGGTATTGTATTTCTTGGGCCAC
				CAGCTTCCTCCATGGCAGCTTTAGGTGATAAAATTGGTTCT
				TCTTTGATTGCACAAGCTGCTGATGTACCGACACTTCCTTG
				GAGCGGTTCTCATGTAAAAATTCCTGTGGATAGCTGTTTGG
				ACACACTCCCGGATGATGTATATAGAAAAGCGTGTGTGCA
				TACAACAGAAGAAGCAATTGCTAGTTGTCAAGTTGTTGGT
				TATCCAGCAATGATTAAGGCATCATGGGGTGGAGGTGGCA
				AAGGCATAAGAAAGGTGCATAATGACGAAGAAGTCAAGG
				CACTTTTTAAGCAAGTTCAGGGTGAAGTGCCTGGTTCCCCT
				ATTTTCATTATGAAAGTTGCTTCTCAGAGCCGACATCTAGA
				AGTGCAGCTACTATGCGATCAACATGGGAATGTAGCAGCT
				TTGCATAGTCGTGATTGCAGTGTTCAAAGGCGACATCAAA
				AGATTATTGAAGAGGGGCCAATAACCATAGCTCCACATGA
				CACAATAAAGAAGCTTGAGCAAGCGGCGAGAAGATTAGC
				AAAGTCGGTTAATTATGTTGGAGCAGCCACTGTAGAGTAT
				TTGTATAGCATGGAAACTGGAGACTATTACTTTTTGGAGCT
				CAATCCCCGGTTACAGGTTGAGCATCCAGTCACAGAGTGG
				ATAGCGGAAATCAATCTACCTGCAGCACAAGTTGCGGTTG
				GAATGGGCATTCCTCTTTGGCAAATACCAGAAATAAGACG
				ATTTTATGGAATGGACAATAGTGGAGGATACGATGCTTGG
				AGGAGAACATCTGCTCTTGCAACTCCATTTGACTTTGACAA
				GGCAGAGTCTATCAGCCCAAAAGGTCATTGTATTGCTGTA
				CGTGTAACAAGTGAGGACCCAGATGATGGATTTAAGCCCA
				CTAGTGGAAAAGTTCAGGAGCTAAGTTTTAAAAGCAAGCC
				AAATGTCTGGGCATACTTTTCTGTCAAGTCCGGAGGAGGC
				ATTCATGAATTCTCAGATTCTCAATTTGGCCACGTTTTTGCA
				TTTGGCGAGTCAAGACCTTTGGCTATTGCAAATATGGTTCT
				TGGGCTGAAGGAAATTCAAATTCGTGGCGAGATCCGTACG
				AATGTTGATTATACAATTGATCTGTTACATGCTCCTGATTAT
				AGAGAAAATAAAATACATACCGGTTGGTTAGATAGCCGAA
				TTGCTATGAGGGTTAGAGCAGAAAGGCCCCCTTGGTATCT
				TTCAGTAGTTGGGGGAGCACTTTATAAAGCTGCTGCTAGA
				AGTGCAGCCATGGTCTCGGACTATGTTGGTTACCTTGAAA
				AGGGCCAAATCCCTCCTAAGCATATATCATTGGTCAACTCA
				CAAGTTTCTTTGAATATTGAGGGCAGCAAATACACGATTGA
				TATGGTAAAAAGAGGGCCAGGAAGTTACAGATTGAGAAT
				GAATCAATCCGAGATTGAAGCAGAGATACATACACTACGT
				GACGGAGGCTTATTGATGCAGTTGGATGGGAATAGTCATA
				TATTATACGCCGAGGAAGAAGCTGCCGGTACTCGCTTGCT
				TATTGATGGACGGACTTGCTTGCTTCAGAATGATCATGATC
				CTTCCAAGTTGATGGCTGAAACACCATGCAAACTTCTAAGG
				TACTTGGTCTCAGATGATAGCCATGTTAATGCTGACACACC
				GTATGCTGAGGTTGAAGTTATGAAGATGTGTATGCCACTC
				CTTTCACCGGCTGCTGGAGTTATACAATTCAAGATGTCAGA
				AGGTCAAGCCATGCAGGCTGGTGAGCTTATAGCAAGGCTA
				GATCTTGACGATCCGTCAGCTGTAAGAAAAGCAGAGCCTT
				TCAATGGAAACTTTCCTCTTCTTGGGCCTCCAACGGCCATG
				TCAGACAAAGTGCATCAGAAGTGTGCTGCAACTTTAAATG
				CTGCTCGAATGATTCTCGCAGGCTATGATCATAACATTGAT
				GAATTGGAATCCAAGTTTAAGGAGTACGAAGGAATTTCCA
				CACAACAAACTATTGACTTTCCTGCTAGAGTTCTACGGGTC
				ATTCTTGAAACCCATCTTGGATCTTGCTCAGAAAAAGAAAA
				GGGAGCCCAAGAAAGGCTCGTTGAGCCATTAATGGGTCTT
				GTAAAGTCATATGAAGGGGGAAGAGAAAGTCATGCACGT
				GGGATCGTTCATGCTCTATTTGATGAATATTTATCTGTTGA
				AGAGTTGTTCAGCGACAACATTCAGGCTGATGTAATCGAA
				CGTCTTCGACAACTATACAAGAAAGATCTCTTGAGGATTGT
				CGACATTGTCCTTTCCCATCAGGGTGTTAGGAGTAAAAACA
				AATTGATACTACGGCTGATGGAGCATTTGGTTTACCCCAAT
				CCGGCTGCGTATAGGGAGAAACTGATACGATTTTCTCAAC
				TTAACCACACAAGTTATTCTGAGTTAGCACTGAAGGCAAGT
				CAACTTTTAGAACAAACTAAACTAAGTGAACTTCGTTCAAG
				CATTGCGCGAAGTCTTTCTGAATTAGAGATGTTTACTGAAG
				AAGGTGAAAATATGGATACCCCTAAGAGGAAGAGTGCCAT
				TAATGAAAGAATGGAGGATATTGTGAGTGCTCCATTGGCA
				GTTGAAGATGCCCTTGTTGGTCTTTTTGACCATAGCGATCA
				CACCCTTCAAAGGCGTGTTGTTGAGACCTATGTTCGAAGAT
				TATATCAGCCATATCTCGTGAAGGGGAGTGTTAGAATGCA
				GTGGCACAGATCCGGACTCATCGCTACATGGCAATTTATA
				GAAGGACTCATTGGAGAAGTTAATGTGCCTGACTATGAAC
				AGAATGAAGCTCCCTTGGAAGACAAGAAATGGGGAGCTA
				TGGTTATTATTAAATCTCTTCAATTTTTGCCTGATGTCATAA
				GTGCATCTCTTAAAGAAACGAGTCATAACCTTCCCAGAACA
				AGTCAGAATGGGTTTGCTGGTCATAGTAACCATGGTAATA
				TGATGCACATTGCTTTGGCCGGCATAAATAACCAGATGAG
				TTTGCTTCAAGACAGTGGTGATGAGGATCAGGCTCAAGAG
				AGAGTCAACAGGTTAGCAAAAATACTCAAAGATAAAGAAG
				TAAGCTCGAGTCTTAAAAACGCAGGGTATGGAGTGATCAG
				TTGTATAATACAAAGAGATGAAGGGAGAGGCCCCATGAG
				ACACTCATTTCACTGGTCAGAAGAGAATCATTATTATATTG
				AAGAGCCATTATTGCGTCACTTGGAGCCTCCATTATCGACA
				TATCTTGAACTGGACAAACTTAAGGGCTATGATAATATAAA
				GTACACTCCGTCGCGTGACCGTCAATGGCACATGTATACTG
				TTGATGCTAAACCACTTCCGGTACAAAGAATGTTTCTTAGA
				ACTCTTATAAGGCATCCAACAAAGGAATGGTTCTCGCCCTC
				AGGTTACCAAGGTTCAGAAGATGAGGGCCCACGGTCTCAG
				TTAAATCTCCCTTTTACATCAAGGAGCATCTTGAGATCATTA
				GTGACGGCTATGGAGGAGTTGGAACTTCATGTTCATAATG
				CTACTGTCAAGTCTGACCATGCTCATATGTACCTATATGTAT
				TGAAGGAGCAACAAATTGGTGATCTTGTTCCATACACAAC
				GAGAGTGGATGTAGATTCTGGGACAGAAGATTGCGTGGT
				TGAGACACTTTTGGTAAGGCTGGCTCGTGAAATCCATTCAA
				TGGTTGGTGTAAAGATGCACCGGTTGGGAGTTTTTGAGTG
				GGAGGTGAAGCTTTGCATGGCATCATCGGGTCAAGCCAAC
				GGTGCGTGGAGGGTTGTGGTCACAAATGTGACTGGTCATA
				CCTGCGTTGTGCATGTATATCGTGAACTGGAAGATACTGG
				TTTGCACAAGGTGTATCATGCTACCTCTACATTGGGTCCTTT
				GCATGGCGTACCTGTGAATACACCCTTTCAGCCTTTAGGAT
				TACTTGATCAGAAGCGTCTTTTGGCAAGGAAAAGCAATAC
				TACGTACTGCTACGACTTTGCACTGGCATTTGAAGCAGCTC
				TTGAGAATATCTGGGCGTCGAAAGTCGTAAGTGATAGCAG
				GCCTAAGGGTAAACTTGTGAATGTGACGGAGCTCATGTTT
				GCTGAGCCAAGTGGCTCATGGGGAACTCCCCTTGTTGCAG
				TAAATCGTGAGCCAGGGCAAAACAAGGTGGGCATGGTGG
				CGTGGACTATGGACCTCTGCACTCCTGAGTTTCCTGATGGA
				AGAACGATTTTGGTAGTAGCAAACGATGTTACGTTCAAAA
				ATGGATCTTTTGGTCCTCTTGAGGATGCCTTTTTTGAGGCA
				GTTACTGATCTCGCTTGTGCCAAGAAACTGCCACTAATATA
				CTTGGCAGCAAACTCGGGGGCCCGTATCGGAGCGGCTGA
				GGAAGTCAGATCTTGCTTTAGAATTGGGTGGTCTGATGAG
				TCGACTCCTGAATCGGGATTCCAGTATTTGTATCTTACTCCT
				GAAGATTATACCCACATCAAATCATCTGTAATAGCTCATGA
				GGTTCATCTATCAAATGGCGAAACAAGATATGTCATCGATA
				CTATTGTGGGAAAAGAAGACGGACTCGGGGTTGAAAATTT
				GAGTGGTAGCGGGGCAATTGCTGGTGCCTATTCGAAAGCA
				TATAAGGAAACGTTTACATTAACATATGTTACTGGAAGAAC
				AGTTGGGATAGGCGCATATCTGGCACGTCTTGGGATGCGG
				TGCATACAGCGGCTTGATCAACCGATTATATTAACGGGTTT
				TTCTGCACTGAACAAGCTTTTGGGCCGAGAGGTTTATAGCT
				CACAGATGCAACTAGGTGGGCCTAAAATTATGGCTACGAA
				TGGTGTTGTCCATTTAACGGTGTCCGATGATCTCGAAGGTG
				TCTCAGCTATCTTGAATTGGTTGAGCTTTGTTCCACCTTATG
				TCGGTGGCCCACTTCCTGTTTTAGCACCTGTGGATCCACCA
				GAAAGGCCCGTTGAGTACCTCCCTGAAAACTCATGTGATCC
				TCGGGCAGCTATTTGTGGGGTCGTGGATAGCAACGGTGAA
				TGGGCTGGTGGGATTTTCGATAGAGACAGTTTTGTGGAGA
				CATTGGAAGGTTGGGCGAGGACAGTCGTAACGGGTCGTG
				CCAAACTTGGCGGGATCCCAGTCGGGATCGTTGCTGTTGA
				GACACAAACAGTGATGCAAGAAATACCTGCAGATCCCGGG
				CAGCTTGATTCACACGAACGTGTTGTTCCTCAAGCAGGTCA
				GGTCTGGTTCCCGGATTCCGCCAGCAAAACAGCTCAGGCA
				TTGATGGATTTCAACCGAGAAGAGCTCCCACTTTTCATCAT
				GGCTAACTGGCGAGGCTTTTCTGCAGGTCAGCGGGATCTT
				TTTGAAGGGATTTTACAAGCAGGGTCAACAATTGTTGAGA
				ATCTCAGAACATATAACCAGCCTGTTTTTGTATACATCCCG
				AAAACTGGAGAACTTCGTGGCGGTGCATGGGTGGTTGTCG
				ACAGTCGAATCAATTCAGATCATATAGAAATGTATGCAGA
				AACCACAGCAAAAGGAAATGTCCTTGAACCTGAAGGTATG
				ATTGAGATTAAGTTCCGAAACAAAGAATTGATAGACTGTA
				TGGGTCGTCTAGATCCACAGATTCGAAGCCTTAAAGAAAG
				ACTTCGAGAAACAAAGTACGATCAAACGATCGTCCAACAG
				ATAAAATCTCGTGAAAAACAGCTTTTACCGATTTACACTCA
				AATTGCTACCAAATTCGCTGAACTTCATGACACATCATTGC
				GAATGGCTGAAAAAGGTGTGGTCAAACAAGTTGTTGACTG
				GAAAGTATCTCGGTTTTTCTTTTACAAAAGGCTTCGTCGTA
				GGCTCGCAGAGGCTTCCTTGATCAGTAGTGCTCGTGAAGC
				TGCTGGTGATACTCTTTCCTACAAGTCTGCTCATGAGTTGA
				TTAAGAAATGGTTTTTGGAATCGAAAACTGAAGATTTATG
				GCTTAGTGATGATGCTTTTTTCACTTGGAAAGACAATCTGA
				TGAACTATAATGACAAGTTAGCCAAGCTACGTACTCAGAA
				GCTCTTGGATCAGTTATTAAAGATTGGTAATTCACCATTGG
				ATCTACAAGCTTTACCACAAGGCCTCGCCGCACTTTTGCAA
				GAGGTGAACAAACTCTCTTTTATTTTCCCTTAG
45	Conyza	cDNA	6912	ATGAATTTTCGGGCATTTGATCTGAAGCTCAACATTTTTCC
	canadensis	Contig		GGGCGATTCAAATAAGCGTTTTACTGTTACAAAAAGTTTCG
				TCTCAACGGGTGACCACTACACGACTTCTGATAACACCAAT
				CCGACCAGTCTTACAAAGGTGAAGGTGAAGAAACATGTGA
				AGAGGGATAAATTTGGAGAAAGAATGGCATCACTAAAAC
				AGATAGTGTCACCCTATGGCAAGGAGTCTAGACTTGGACC
				ATTGTGTTTTAGAGAAGAAGGGAATCGAACGCAAAGTGGC
				ACCATGTCAGAAGCTCAAAGAATGCTTCTAAGTGGAAGTT
				TCAATTATTATGGTAATGGCATTGTAAATGGGGCGATTTCA
				CTGAGGTCTTCTGCTAGTAGATCTGCAATTGATGAATTTTG
				TAATGCACTTGGAGGCACCAGGCCAATCCAAAGTATTTTAA
				TTGCAAATAATGGAATGGCGGCTGTAAAGTTTATAAGAAG
				TGTGAGGACATGGAGTTATGAAACATTTGGCTCAGATAAA
				GCTATTTTGCTGGTAGCCATGGCTACACCGGAAGATATGA
				GGATAAATGCCGAGCATATTAGAATCGCTGATCAGTTTGTT
				GAAGTCCCTGGTGGTACAAATAATAATAATTATGCGAATG
				TGCAACTCATTGTAGAGACTGCTGAGATAACACATGTTGAT
				GCTGTTTGGCCTGGTTGGGGCCATGCATCCGAAATCCCTG
				AGCTGCCTGATGCATTGGAAGCAAAAGGTATTGTATTTCTT
				GGGCCACCAGCTTCCTCCATGGCAGCTTTAGGTGATAAAA
				TTGGTTCTTCTTTGATTGCACAAGCTGCTGATGTACCGACA
				CTTCCTTGGAGCGGTTCTCATGTAAAAATTCCTGTGGATAG
				CTGTTTGGACACACTCCCGGATGATGTATATAGAAAAGCG
				TGTGTGCATACAACAGAAGAAGCAATTGCTAGTTGTCAAG
				TTGTTGGTTATCCAGCAATGATTAAGGCATCATGGGGTGG
				AGGTGGCAAAGGCATAAGAAAGGTGCATAATGACGAAGA
				AGTCAAGGCACTTTTTAAGCAAGTTCAGGGTGAAGTGCCT
				GGTTCCCCTATTTTCATTATGAAAGTTGCTTCTCAGAGCCG
				ACATCTAGAAGTGCAGCTACTATGCGATCAACATGGGAAT
				GTAGCAGCTTTGCATAGTCGTGATTGCAGTGTTCAAAGGC
				GACATCAAAAGATTATTGAAGAGGGGCCAATAACCATAGC
				TCCACATGACACAATAAAGAAGCTTGAGCAAGCGGCGAGA
				AGATTAGCAAAGTCGGTTAATTATGTTGGAGCAGCCACTG
				TAGAGTATTTGTATAGCATGGAAACTGGAGACTATTACTTT
				TTGGAGCTCAATCCCCGGTTACAGGTTGAGCATCCAGTCAC
				AGAGTGGATAGCGGAAATCAATCTACCTGCAGCACAAGTT
				GCGGTTGGAATGGGCATTCCTCTTTGGCAAATACCAGAAA
				TAAGACGATTTTATGGAATGGACAATAGTGGAGGATACGA
				TGCTTGGAGGAGAACATCTGCTCTTGCAACTCCATTTGACT
				TTGACAAGGCAGAGTCTATCAGCCCAAAAGGTCATTGTATT
				GCTGTACGTGTAACAAGTGAGGACCCAGATGATGGATTTA
				AGCCCACTAGTGGAAAAGTTCAGGAGCTAAGTTTTAAAAG
				CAAGCCAAATGTCTGGGCATACTTTTCTGTCAAGTCCGGAG
				GAGGCATTCATGAATTCTCAGATTCTCAATTTGGCCACGTT
				TTTGCATTTGGCGAGTCAAGACCTTTGGCTATTGCAAATAT
				GGTTCTTGGGCTGAAGGAAATTCAAATTCGTGGCGAGATC
				CGTACGAATGTTGATTATACAATTGATCTGTTACATGCTCC
				TGATTATAGAGAAAATAAAATACATACCGGTTGGTTAGAT
				AGCCGAATTGCTATGAGGGTTAGAGCAGAAAGGCCCCCTT
				GGTATCTTTCAGTAGTTGGGGGAGCACTTTACAAAGCTGC
				TGCTAGAAGTGCAGCCATGGTCTCGGACTATGTTGGTTAC
				CTTGAAAAGGGCCAAATCCCTCCTAAGCATATATCATTGGT
				CAACTCACAAGTTTCTTTGAATATTGAGGGCAGCAAATACA
				CGATTGATATGGTAAAAAGAGGGCCAGGAAGTTACAGATT
				GAGAATGAATCAATCCGAGATTGAAGCAGAGATACATACA
				CTACGTGACGGAGGCTTATTGATGCAGTTGGATGGGAATA
				GTCATATATTATACGCCGAGGAAGAAGCTGCCGGTACTCG
				CTTGCTTATTGATGGACGGACTTGCTTGCTTCAGAATGATC
				ATGATCCTTCCAAGTTGATGGCTGAAACACCATGCAAACTT
				CTAAGGTACTTGGTCTCAGATGATAGCCATGTTAATGCTGA
				CACACCGTATGCTGAGGTTGAAGTTATGAAGATGTGTATG
				CCACTCCTTTCACCGGCTGCTGGAGTTATACAATTCAAGAT
				GTCAGAAGGTCAAGCCATGCAGGCTGGTGAGCTTATAGCA
				AGGCTAGATCTTGACGATCCGTCAGCTGTAAGAAAAGCAG
				AGCCTTTCAATGGAAACTTTCCTCTTCTTGGGCCTCCAACG
				GCCATGTCAGACAAAGTGCATCAGAAGTGTGCTGCAACTT
				TAAATGCTGCTCGAATGATTCTCGCAGGCTATGATCATAAC
				ATTGATGAATTGGAATCCAAGTTTAAGGAGTACGAAGGAA
				TTTCCACACAACAAACTATTGACTTTCCTGCTAGAGTTCTAC
				GGGTCATTCTTGAAACCCATCTTGGATCTTGCTCAGAAAAA
				GAAAAGGGAGCCCAAGAAAGGCTCGTTGAGCCATTAATG
				GGTCTTGTAAAGTCGTATGAAGGGGGAAGAGAAAGTCAT
				GCACGTGGGATCGTTCATGCTCTATTTGATGAATATTTATC
				TGTTGAAGAGTTGTTCAGCGACAACATTCAGGCTGATGTA
				ATCGAACGTCTTCGACAACTATACAAGAAAGATCTCTTGAG
				GATTGTCGACATTGTCCTTTCCCATCAGGGTGTTAGGAGTA
				AAAACAAATTGATACTACGGCTGATGGAGCATTTGGTTTAC
				CCCAATCCGGCTGCGTATAGGGAGAAACTGATACGATTTT
				CTCAACTTAACCACACAAGTTATTCTGAGTTAGCACTGAAG
				GCAAGTCAACTTTTAGAACAAACTAAACTAAGTGAACTTCG
				TTCAAGCATTGCGCGAAGTCTTTCTGAATTAGAGATGTTTA
				CTGAAGAAGGTGAAAATATGGATACCCCTAAGAGGAAGA
				GTGCCATTAATGAAAGAATGGAGGATATTGTGAGTGCTCC
				ATTGGCAGTTGAAGATGCCCTTGTTGGTCTTTTTGACCATA
				GCGATCACACCCTTCAAAGGCGTGTTGTTGAGACCTATGTT
				CGAAGATTATATCAGCCATATCTCGTGAAGGGGAGTGTTA
				GAATGCAGTGGCACAGATCCGGACTCATCGCTACATGGCA
				ATTTATAGAAGGACTCATTGGAGAAGTTAATGTGCCTGAC
				TATGAACAGAATGAAGCTCCCTTGGAAGACAAGAAATGGG
				GAGCTATGGTTATTATTAAATCTCTTCAATTTTTGCCTGATG
				TCATAAGTGCATCTCTTAAAGAAACGAGTCATAACCTTCCC
				AGAACAAGTCAGAATGGGTTTGCTGGTCATAGTAACCATG
				GTAATATGATGCACATTGCTTTGGCCGGCATAAATAACCAG
				ATGAGTTTGCTTCAAGACAGTGGTGATGAGGATCAGGCTC
				AAGAGAGAGTCAACAGGTTAGCAAAAATACTCAAAGATAA
				AGAAGTAAGCTCGAGTCTTAAAAACGCAGGGTATGGAGT
				GATCAGTTGTATAATACAAAGAGATGAAGGGAGAGGCCC
				CATGAGACACTCATTTCACTGGTCAGAAGAGAATCATTATT
				ATATTGAAGAGCCATTATTGCGTCACTTGGAGCCTCCATTA
				TCGACATATCTTGAACTGGACAAACTTAAGGGCTATGATAA
				TATAAAGTACACTCCGTCGCGTGACCGTCAATGGCACATGT
				ATACTGTTGATGCTAAACCACTTCCGGTACAAAGAATGTTT
				CTTAGAACTCTTATAAGGCATCCAACAAAGGAATGGTTCTC
				GCCCTCAGGTTACCAAGGTTCAGAAGATGAGGGCCCACGG
				TCTCAGTTAAATCTCCCTTTTACATCAAGGAGCATCTTGAG
				ATCATTAGTGACGGCTATGGAGGAGTTGGAACTTCATGTT
				CATAATGCTACTGTCAAGTCTGACCATGCTCATATGTACCT
				ATATGTATTGAAGGAGCAACAAATTGGTGATCTTGTTCCAT
				ACACAACGAGAGTGGATGTAGATTCTGGGACAGAAGATT
				GCGTGGTTGAGACACTTTTGGTAAGGCTGGCTCGTGAAAT
				CCATTCAATGGTTGGTGTAAAGATGCACCGGTTGGGAGTT
				TTTGAGTGGGAGGTGAAGCTTTGCATGGCATCATCGGGTC
				AAGCCAACGGTGCGTGGAGGGTTGTGGTCACAAATGTGA
				CTGGTCATACCTGCGTTGTGCATGTATATCGTGAACTGGAA
				GATACTGGTTTGCACAAGGTGTATCATGCTACCTCTACATT
				GGGTCCTTTGCATGGCGTACCTGTGAATACACCCTTTCAGC
				CTTTAGGATTACTTGATCAGAAGCGTCTTTTGGCAAGGAAA
				AGCAATACTACGTACTGCTACGACTTTGCACTGGCATTTGA
				AGCAGCTCTTGAGAATATCTGGGCGTCGAAAGTCGTAAGT
				GATAGCAGGCCTAAGGGTAAACTTGTGAATGTGACGGAG
				CTCATGTTTGCTGAGCCAAGTGGCTCATGGGGAACTCCCCT
				TGTTGCAGTAAATCGTGAGCCAGGGCAAAACAAGGTGGG
				CATGGTGGCGTGGACTATGGACCTCTGCACTCCTGAGTTTC
				CTGATGGAAGAACGATTTTGGTAGTAGCAAACGATGTTAC
				GTTCAAAAATGGATCTTTTGGTCCTCTTGAGGATGCCTTTTT
				TGAGGCAGTTACTGATCTCGCTTGTGCCAAGAAACTGCCA
				CTAATATACTTGGCAGCAAACTCGGGGGCCCGTATCGGAG
				CGGCTGAGGAAGTCAGATCTTGCTTTAGAATTGGGTGGTC
				TGATGAGTCGACTCCTGAATCGGGATTCCAGTATTTGTATC
				TTACTCCTGAAGATTATACCCACATCAAATCATCTGTAATA
				GCTCATGAGGTTCATCTATCAAATGGCGAAACAAGATATG
				TCATCGATACTATTGTGGGAAAAGAAGACGGACTCGGGGT
				TGAAAATTTGAGTGGTAGCGGGGCAATTGCTGGTGCCTAT
				TCGAAAGCATATAAGGAAACGTTTACATTAACATATGTTAC
				TGGAAGAACAGTTGGGATAGGCGCATATCTGGCACGTCTT
				GGGATGCGGTGCATACAGCGGCTTGATCAACCGATTATAT
				TAACGGGTTTTTCTGCACTGAACAAGCTTTTGGGCCGAGA
				GGTTTATAGCTCACAGATGCAACTAGGTGGGCCTAAAATT
				ATGGCTACGAATGGTGTTGTCCATTTAACGGTGTCCGATG
				ATCTCGAAGGTGTCTCAGCTATCTTGAATTGGTTGAGCTTT
				GTTCCACCTTATGTCGGTGGCCCACTTCCTGTTTTAGCACCT
				GTGGATCCACCAGAAAGGCCCGTTGAGTACCTCCCTGAAA
				ACTCATGTGATCCTCGGGCAGCTATTTGTGGGGTCGTGGA
				TAGCAACGGTGAATGGGCTGGTGGGATTTTCGATAGAGAC
				AGTTTTGTGGAGACATTGGAAGGTTGGGCGAGGACAGTC
				GTAACGGGTCGTGCCAAACTTGGCGGGATCCCAGTCGGG
				ATCGTTGCTGTTGAGACACAAACAGTGATGCAAGAAATAC
				CTGCAGATCCCGGGCAGCTTGATTCACACGAACGTGTTGTT
				CCTCAAGCAGGTCAGGTCTGGTTCCCGGATTCCGCCAGCA
				AAACAGCTCAGGCATTGATGGATTTCAACCGAGAAGAGCT
				CCCACTTTTCATCATGGCTAACTGGCGAGGCTTTTCTGCAG
				GTCAGCGGGATCTTTTTGAAGGGATTTTACAAGCAGGGTC
				AACAATTGTTGAGAATCTCAGAACATATAACCAGCCTGTTT
				TTGTATACATCCCGAAAACTGGAGAACTTCGTGGTGGTGC
				ATGGGTGGTTGTCGACAGTCGAATCAATTCAGATCATATA
				GAAATGTATGCAGAAACCACAGCAAAAGGAAATGTCCTTG
				AACCTGAAGGTATGATTGAGATTAAGTTCCGAAACAAAGA
				ATTGATAGACTGTATGGGTCGTCTAGATCCACAGATTCGA
				AGCCTTAAAGAAAGACTTCGAGAAACAAAGTACGATCAAA
				CGATCGTCCAACAGATAAAATCTCGTGAAAAACAGCTTTTA
				CCGATTTACACTCAAATTGCTACCAAATTCGCTGAACTTCAT
				GACACATCATTGCGAATGGCTGAAAAAGGTGTGGTCAAAC
				AAGTTGTTGACTGGAAAGTATCTCGGTTTTTCTTTTACAAA
				AGGCTTCGTCGTAGGCTCGCAGAGGCTTCCTTGATCAGTA
				GTGCTCGTGAAGCTGCTGGTGATACTCTTTCCTACAAGTCT
				GCTCATGAGTTGATTAAGAAATGGTTTTTGGAATCGAAAA
				CTGAAGATTTATGGCTTAGTGATGATGCTTTTTTCACTTGG
				AAAGACAATCTGATGAACTATAATGACAAGTTAGCCAAGC
				TACGTACTCAGAAGCTCTTGGATCAGTTATTAAAGATTGGT
				AATTCACCATTGGATCTACAAGCTTTACCACAAGGCCTCGC
				CGCACTTTTGCAAGAGGTGAACAAACTCTCTTTTATTTTCCC
				TTAG
46	Conyza	cDNA	6654	ATGCCAGAAGCTCAAAGAATGCCTCTAAATGGAAGCCTTA
	canadensis	Contig		ATCTTGGTAATGGTTATGTAAATGGGGCCATTTCATTGAGG
				TCTTCTGCTAGCAGATCTGCCATTGATGAATTTTGTAATGC
				ACTTGGGGGGAATAGGCCAATCCATAGTATTTTAATTGCA
				AACAATGGAATGGCTGCTGTAAAGTTTATAAGAAGTGTGA
				GGACATGGAGTTATGAAACGTTTGGTTCAGAAAAAGCAAT
				TTTGTTGGTAGCCATGGCTACACCTGAGGATATGAGGATT
				AATGCCGAGCATATTAGAATTGCTGATCAGTTTGTTGAAGT
				CCCAGGTGGTACAAATAATAATAATTATGCTAATGTGCAGC
				TCATCGTGGAGACTGCTGAGATAACACATGTTGATGCTGTT
				TGGCCTGGTTGGGGTCATGCCTCTGAAATTCCTGAATTACC
				TGATGCATTGGACGCAAAGGGAATTGTATTTCTTGGGCCG
				CCGGCTTCATCCATGGCGGCTTTAGGAGACAAAATCGGCT
				CTTCTTTAATTGCACAAGCTGCTGACGTGCCAACACTTCCTT
				GGAGTGGTTCTCATGTGAAAATTTCTGCAGAGAGCTGCTT
				AGACACAATTCCAGATGACGTATATAGAAAAGCTTGTGTC
				CATACAACCGAGGAAGCAGTTGCTTCTTGTCAAGTTATTGG
				TTATCCTGCTATGATCAAGGCATCATGGGGCGGTGGTGGC
				AAAGGCATAAGAAAGGTGCATAGTGATGAAGAAGTCAAG
				ACACTTTTTAAGCAAGTTCAGGGTGAAGTCCCTGGTTCCCC
				CATATTTATTATGAAAGTTGCTTCCCAGAGCCGACATCTAG
				AAGTACAACTCCTCTGTGATCAGCATGGCAATGTAGCGGC
				TTTACATAGTCGGGATTGCAGTGTTCAAAGGCGGCATCAA
				AAGATTATCGAGGAGGGGCCAATAACCATAGCCCCCCCTG
				ACACAATAAAAAAATTGGAGCAAGCGGCAAGAAGATTAG
				CCAAATCGGTCAATTATGTTGGAGCTGCAACTGTAGAGTA
				TTTGTACAGTATGGAAACCGGAGATTATTACTTTTTGGAGC
				TCAATCCCCGTTTACAGGTTGAGCATCCTGTCACTGAGTGG
				ATAGCGGAAGTTAATCTACCTGCAGCACAAGTTGCGGTTG
				GAATGGGCATTCCACTTTGGCAAATTCCCGAAATAAGACG
				GTTTTATGGAAAGGAAAACGGTGGAGGGTATGATGCTTG
				GAGGAGAACATCGGTTCTTGCAACCCCATTTGATTTTGATC
				GCGCCGAGTCAGTTAGGCCGAAGGGTCATTGTGTTGCTGT
				ACGTGTAACAAGTGAAGATCCGGATGATGGTTTTAAGCCC
				ACCAGTGGAAAAGTTCAGGAGCTAAGTTTTAAAAGCAAGC
				CAAACGTATGGGCATACTTTTCTGTCAAGTCTGGAGGAGG
				CATTCATGAATTCTCAGATTCTCAATTCGGTCATGTTTTTGC
				ATTTGGAGAGTCAAGAACATTGGCTATTGCAAATATGGTT
				CTTGGGCTAAAGGAAATTCAAATTCGTGGCGAAATGCGCA
				CTAATGTTGATTATACAATTGATTTATTACATGCTCCAGATT
				ATAGAGAAAACAAAATACACACGGGTTGGTTAGATAGCCG
				AATTGCGATGCGGGTTAGAGCAGAAAGGCCTCCTTGGTAT
				CTTTCGGTAGTGGGGGGAGCTCTTTACAAAGCCGCTGCTA
				GAAGTGCAGCCATGGCCTCTGACTATGTTGGTTATCTTGAA
				AAGGGGCAAATCCCTCCAAAGCATTTATCACTAGTCAACTC
				TCAAGTTACTTTGAATATTGAGGGGAGCAGATACACAATT
				GATATGGTAAAAAGAGGACCTGGAGGTTATAGATTGAAA
				ATGAACCAATCTGAGATTGAAGCAGAAATACATACTCTAC
				GTGACGGGGGTTTATTGATGCAGTTGGATGGGAATAGTCA
				TATTATATATGCTGAAGAAGAAGCCGCTGGTACTCGTCTCC
				TCATTGATGGACGGACATGTTTGCTTCAGAATGATCATGAT
				CCTTCCAAGCTGGTGGCCGAAACACCATGCAAACTTCTAAG
				ATACTTAGTCTCAGATAGTAGCCATGTCGATGCTGACACAC
				CTTATGCTGAGGTGGAGGTAATGAAGATGTGTATGCCGCT
				ACTTTCGCCGGCTTCTGGAGTTATACAGTTTAAGATGTCTG
				AAGGTCAAGCAATGCATGCTGGTGAGCTAATAGCAAGGCT
				TGATCTTGATGACCCATCAGCAGTAAGAAAAGCAGAGCCT
				TTCCATGGAACTTTTCCTCTTCTTGGGTCTTCAACTGCCATG
				TCAGATAAAGTTCATCAAAAGTGTGCTACAACTCTAAGTGC
				CGCTCGAATGATTCTTGCAGGCTATGATCACGATATTGATG
				AATTGGAAACAAAATTTAAGGAGTACGAAGGAATTTCCAC
				CCAACAAGCTATTGATTTCCCCGCCAAATTATTATGGGGAA
				TTCTTGAAACACATCTTGAATTGTGCTCGGAAAAGGAAAG
				GGGAGCCCAAGAAAGGCTTGCTGAGCCATTAATGAGTCTT
				GTCAAGTCCTATGAAGGTGGCAGAGAGAGTCATGCACGT
				GGGATCGTTCATGCTCTTTTTGAAGCATATTTATCTGTTGA
				AGAGCTATTTAGCGACAACATTCAGGCTGATGTAATTGAA
				CGTCTTAGACAACAATACAAGAAGGATCTGTCGAGGGTTG
				TTGACATCGTGATTTCACATCAGGGTGTTAAGACTAAAAAC
				AAACTGATACTACGACTGATGGAGCATTTGGTTTACCCTAA
				TCCAGCCGCCTATAGGGAAAATCTGATACGGTTTTCTCAAT
				TGAACCACACTAGTTATTCTGAGTTAGCATTGAAGGCAAGT
				CAGCTGCTAGAACAGACTAAACTGAGTGAACTTCGTTCAA
				GCATAGCTAGAAGTCTTTCTGAGTTAGAGATGTTTACCGAA
				GAAGGTGAGAATATAGATACCCCTAAGAGGAAGAGTGCC
				ATTGATGAAAGAATGGAGGATATTGTGAGTGCTCCTTTGG
				CGGTCGAAGATGCCCTTGTTGGTCTTTTTGATCACAGTGAT
				CACACCCTTCAAAGGCGTGTTGTTGAGACCTATGTTCGAAG
				GCTATATCAGCCATATCTCGTGAAGAGGAGTGTTAAGATG
				CAGTGGCACAGATCCGGACTTATTGCTTCATGGCAATTCAT
				GGAAGGACACGCTGAAGCTGTTAATGTGTCTGATTATGAA
				ACTATTGATACACAATTGGTAGATAAGAAATGGGGAGCTA
				TGGTTATTATTAGATCTCTTCAATTTTTACCTGATGTCATAA
				GTGCAGCTCTTAAAGAAACTACTTATAAACATCATGGCACA
				AGTCAAAATGGGGATGCCAATCCAAGTTATCAAGGTTATA
				TGATGCATATTGCATTGGTAGGCATCAACAACCAAATGAG
				TTTGCTTCAAGACAGTGGTGATGAGGATCAGGCTCAAGAG
				AGAGTCAACAAGTTAGCAAAAATACTCAAAGATAAAGAAA
				TAAGTGTGAAACTAAAAAATGCAGGATATGAAGTTGTAAG
				TTGCATAATACAAAGAGACGAAGGTAGAGGCCCGGTGAG
				ACACTCATTTCACTGGTCAGAAAAGAATCGTTATTATATCG
				AAGAGCCATCATTGCGTCATTTGGAGCCTCCATTATCGATT
				TATCTTGAACTGGACAAGCTTAAGGGCTATGAGAATGTAA
				AGTACACTCCATCACGTGACCGTCAATGGCACATGTATACT
				GTTGATGCTAAACCACTTCCGGTTCAAAGAATGTTTCTTAG
				AACGCTTGTAAGGCACCCGACAAAAGAATGGTTCTTGCCC
				TCAGGATACCAAGATTCGGAAGTTGTGGACCCACGGTCTC
				AGTTAACTTTACCTTTTACATCAAGGAGCATCTTGAGATCTT
				TAGTGACCGCCATGGAGGAGTTGGAACTTCATGTTCATAA
				TGCTATAGTCAAGTCGGACCATGCTCATATGTACCTCTATA
				TATTGAAAGAACAACAAATAAATGATCTTGTTCCATATACT
				AAGAGAGTGGATGTAGATTCTGGTAAAGAAGAAGGTGTG
				GTTGAGACGCTTTTGGTGAAGTTGGTCCGTGAACTTCATTC
				GATGGTTGGGGTAAAGATGCACCGGTTAGGTGTTTTTGAG
				TGGGAGGTGAAGCTTTGTATGGTATCATCTGGTGAAGCCA
				ACGGTGTTTGGAGGGTGGTGGTCACAAATGTGACTGGGC
				ATACCTGCAATGTACATGTGTATCGGGAAGTAGAAGATAC
				TGTTAAACACAAGGCAGTGTATCATGCTCCCTCTACATTGG
				GACCTTTACATGGTGTGCTGGTGAACACACCCTTTCAGCCT
				CTGGGATTACTCGATCAGAAGCGTCTTGTCGCCAGGAAAA
				GCAATACTACTTACTGCTACGACTTTGCACTGGCATTTGAA
				GCAGCCCTTGAGAATATCTGGTCATCAAAACTGCCTGGTGT
				AAGCAGGCCCAAGGGCAAACTTGTAAATGCGATGGAGCTT
				GTGTTTGCTGACCGAAGAGGTTTATGGGGCACTCCACTTG
				TGCCAGTAACGCGCGAGCCTGGACAAAATAATGTGGGAAT
				GGTAGCGTGGACTATGGACCTCTGCACACCAGAATTTCCT
				GATGGTAGGACGATTTTAGTTGTTTCAAATGACGTCACATT
				TAAAAACGGATCTTTTGGTCCTATCGAGGATGCGTTTTTTG
				AGGCAGTCACTGAGCTTGCTTGTGCCAAAAAACTGCCGCT
				CATTTACCTGGCGGCAAACTCAGGGGCCCGTATCGGGGTG
				GCCGAAGAGGTCAGATCCAGCTTTAGAATTGGGTGGTCTG
				ATGAGTCAACTCCCGACTCCGGCTTTCAGTATTTGTATCTA
				ACTCCCGAAGATTACTCTCGTTTGGAATCATCAGTAATAGC
				ACATGAAATTCGTCTATCCAGTGGTGAAACAAGATGGGTC
				ATTGATACTATTGTCGGGAAAGAGGATGGATTAGGGGTTG
				AGAATTTGAGTGGTAGTGGGGCGATTGCTGGGGCTTTTTC
				GAAGGCATATAAAGAAACTTTTACTTTAACCTACGTGACTG
				GAAGAACTGTTGGGATAGGTGCATATCTGGCCCGTCTTGG
				GATGCGATGCATACAAAGGCTTGATCAACCGATTATTTTAA
				CTGGGTTTTCTGCACTAAACAAGCTTTTGGGCCGAGAGGTT
				TATAGTTCGCAGATGCAACTTGGTGGACCTAAAATTATGG
				CCACGAATGGCGTTGTTCATCAAACTGTATCTGATGATTTG
				GAAGGTGTCTCGGCTATCTTGAACTGGTTGAGCTATGTTCC
				GCCTTACGTTGGCGGTCCACTTCCTGTTTTGCCACCCATGG
				ATCCACCAGACAGGCCCGTCGAGTACCTGCCTGAAAACTC
				ATGTGATCCTAGGGCAGCCATTTGTGGGACCGTGGATGGT
				AACGGGAAATGGGTTGGTGGGATTTTCGACAGAAACAGTT
				TTGTGGAGACGTTGGAAGGTTGGGCAAGGACAGTTGTAA
				CAGGTCGGGCGAAACTCGGTGGAATCCCTGTGGGGGTTG
				TTGCTGTCGAGACACAAACGATGATGCAAGTTATACCTGC
				GGATCCTGGGCAGCTCGATTCACATGAACGTGTAGTTCCTC
				AAGCTGGGCAGGTCTGGTTCCCGGATTCTGCTAGTAAGAC
				AGCTCAAGCGCTGATGGATTTTAATCGAGAAGAGCTCCCC
				CTTTTCATTATGGCAAACTGGCGAGGGTTTTCAGCCGGTCA
				ACGTGACCTTTTTGAAGGGATTCTACAAGCGGGATCGACA
				ATTGTAGAGAATCTTAGAACCTATAAACAGCCAGTTTTTGT
				CTACATTCCAAAAACAGGTGAGCTTCGAGGTGGTGCATGG
				GTGGTCGTTGACAGTCGAATCAATTCAGACCATATAGAAA
				TGTATGCAGAAACAACTGCGAAAGGAAATGTTCTTGAACC
				CGAAGGTATGATTGAAATAAAGTTCCGAAATAAAGAGCTG
				GTAGACTGCATGGGTCGATTGGACCCACTAATTTGCAATCT
				AAAAGAAAAACTTAAAGAAACGAAGCTCGATCAAGCAATC
				ACCCAGCAGATAAAAGCCCGTGAGAAACAGCTTTTACCAA
				TTTACACTCAAATCGCTACAAAGTTTGCTGAACTTCATGAC
				ACATCATTCCGAATGGCTGAAAAAGGTGTTGTCAAAAAGG
				TTGTTGACTGGGCAATTTCCCGGTTTTTCTTCTACAAAAGA
				CTCCAGCGTAGGCTGGCCGAGGCTTCTCTAATCAAGAGTG
				CTCGTGATGCTGCTGGTGACACGCTTTCACACAAATCTGCT
				CATGAAATGATCAAAAAATGGTTTTTGGACACAAAAAGTG
				AAGATATGTGGGTGAATGACGACGCCTTTTTCACATGGAA
				AGATGATCCATTGAACTATACTAGCAAATTAGCCGATCTAC
				GTACACAGAAGATATCAAATCAGTTATTAAAGATTGGCAG
				TTCACCTTCCGATCTGCAAGCTTTACCACAGGGACTCGCTG
				CACTTTTGCAAGAGGTGAATCCTGCAGCCAAAAATAAATT
				GATTGAAGAACTCAGGCGGATAATTGAGTAG
47	Conyza	cDNA	4804	CTACTTTCGCCGGCTTCTGGAGTTATACAGTTTAAGATGTC
	canadensis	Contig		TGAAGGTCAAGCAATGCATGCTGGTGAGCTAATAGCAAGG
				CTTGATCTTGATGACCCATCAGCAGTAAGAAAAGCAGAGC
				CTTTCCATGGAACTTTTCCTCTTCTTGGGTCTTCAACTGCCA
				TGTCAGATAAAGTTCATCAAAAGTGTGCTACAACTCTAAGT
				GCCGCTCGAATGATTCTTGCAGGCTATGATCACGATATTGA
				TGAAGTTGTCAAAAACCTTCTTCGTTGTCTAGATAATCCCA
				AGCTACCTTTCCTCCAGTGGCAAGAATGCTTTGCAGTTCTA
				GCCAATCGTCTCCCTAAAGATCTAAGAAACAAGTTGGAATC
				CAAGTTTAAGGAGTACGAAGGAATTTCCACACAACAAACT
				ATTGACTTTCCTGCTAGAGTTCTACGGGTCATTCTTGAAAC
				CCATCTTGGATCTTGCTCAGAAAAAGAAAAGGGAGCCCAA
				GAAAGGCTCGTTGAGCCATTAATGGGTCTTGTAAAGTCAT
				ATGAAGGGGGAAGAGAAAGTCATGCACGTGGGATCGTTC
				ATGCTCTATTTGATGAATATTTATCTGTTGAAGAGTTGTTCA
				GCGACAACATTCAGGCTGATGTAATCGAACGTCTTCGACA
				ACTATACAAGAAAGATCTCTTGAGGATTGTCGACATTGTCC
				TTTCCCATCAGGGTGTTAGGAGTAAAAACAAATTGATACTA
				CGGCTGATGGAGCATTTGGTTTACCCCAATCCGGCTGCGT
				ATAGGGAGAAACTGATACGATTTTCTCAACTTAACCACACA
				AGTTATTCTGAGTTAGCACTGAAGGCAAGTCAACTTTTAGA
				ACAAACTAAACTAAGTGAACTTCGTTCAAGCATTGCGCGA
				AGTCTTTCTGAATTAGAGATGTTTACTGAAGAAGGTGAAA
				ATATGGATACCCCTAAGAGGAAGAGTGCCATTAATGAAAG
				AATGGAGGATATTGTGAGTGCTCCATTGGCAGTTGAAGAT
				GCCCTTGTTGGTCTTTTTGACCATAGCGATCACACCCTTCAA
				AGGCGTGTTGTTGAGACCTATGTTCGAAGATTATATCAGCC
				ATATCTCGTGAAGGGGAGTGTTAGAATGCAGTGGCACAGA
				TCCGGACTCATCGCTACATGGCAATTTATAGAAGGACTCAT
				TGGAGAAGTTAATGTGCCTGACTATGAACAGAATGAAGCT
				CCCTTGGAAGACAAGAAATGGGGAGCTATGGTTATTATTA
				AATCTCTTCAATTTTTGCCTGATGTCATAAGTGCATCTCTTA
				AAGAAACGAGTCATAACCTTCCCAGAACAAGTCAGAATGG
				GTTTGCTGGTCATAGTAACCATGGTAATATGATGCACATTG
				CTTTGGCCGGCATAAATAACCAGATGAGTTTGCTTCAAGAC
				AGTGGTGATGAGGATCAGGCTCAAGAGAGAGTCAACAGG
				TTAGCAAAAATACTCAAAGATAAAGAAGTAAGCTCGAGTC
				TTAAAAACGCAGGGTATGGAGTGATCAGTTGTATAATACA
				AAGAGATGAAGGGAGAGGCCCCATGAGACACTCATTTCAC
				TGGTCAGAAGAGAATCATTATTATATTGAAGAGCCATTATT
				GCGTCACTTGGAGCCTCCATTATCGACATATCTTGAACTGG
				ACAAACTTAAGGGCTATGATAATATAAAGTACACTCCGTCG
				CGTGACCGTCAATGGCACATGTATACTGTTGATGCTAAACC
				ACTTCCGGTACAAAGAATGTTTCTTAGAACTCTTATAAGGC
				ATCCAACAAAGGAATGGTTCTCGCCCTCAGGTTACCAAGG
				TTCAGAAGATGAGGGCCCACGGTCTCAGTTAAATCTCCCTT
				TTACATCAAGGAGCATCTTGAGATCATTAGTGACGGCTAT
				GGAGGAGTTGGAACTTCATGTTCATAATGCTACTGTCAAG
				TCTGACCATGCTCATATGTACCTATATGTATTGAAGGAGCA
				ACAAATTGGTGATCTTGTTCCATACACAACGAGAGTGGAT
				GTAGATTCTGGGACAGAAGATTGCGTGGTTGAGACACTTT
				TGGTAAGGCTGGCTCGTGAAATCCATTCAATGGTTGGTGT
				AAAGATGCACCGGTTGGGAGTTTTTGAGTGGGAGGTGAA
				GCTTTGCATGGCATCATCGGGTCAAGCCAACGGTGCGTGG
				AGGGTTGTGGTCACAAATGTGACTGGTCATACCTGCGTTG
				TGCATGTATATCGTGAACTGGAAGATACTGGTTTGCACAA
				GGTGTATCATGCTACCTCTACATTGGGTCCTTTGCATGGCG
				TACCTGTGAATACACCCTTTCAGCCTTTAGGATTACTTGATC
				AGAAGCGTCTTTTGGCAAGGAAAAGCAATACTACGTACTG
				CTACGACTTTGCACTGGCATTTGAAGCAGCTCTTGAGAATA
				TCTGGGCGTCGAAAGTCGTAAGTGATAGCAGGCCTAAGG
				GTAAACTTGTGAATGTGACGGAGCTCATGTTTGCTGAGCC
				AAGTGGCTCATGGGGAACTCCCCTTGTTGCAGTAAATCGT
				GAGCCAGGGCAAAACAAGGTGGGCATGGTGGCGTGGACT
				ATGGACCTCTGCACTCCTGAGTTTCCTGATGGAAGAACGAT
				TTTGGTAGTAGCAAACGATGTTACGTTCAAAAATGGATCTT
				TTGGTCCTCTTGAGGATGCCTTTTTTGAGGCAGTTACTGAT
				CTCGCTTGTGCCAAGAAACTGCCACTAATATACTTGGCAGC
				AAACTCGGGGGCCCGTATCGGAGCGGCTGAGGAAGTCAG
				ATCTTGCTTTAGAATTGGGTGGTCTGATGAGTCGACTCCTG
				AATCGGGATTCCAGTATTTGTATCTTACTCCTGAAGATTAT
				ACCCACATCAAATCATCTGTAATAGCTCATGAGGTTCATCT
				ATCAAATGGCGAAACAAGATATGTCATCGATACTATTGTG
				GGAAAAGAAGACGGACTCGGGGTTGAAAATTTGAGTGGT
				AGCGGGGCAATTGCTGGTGCCTATTCGAAAGCATATAAGG
				AAACGTTTACATTAACATATGTTACTGGAAGAACAGTTGG
				GATAGGCGCATATCTGGCACGTCTTGGGATGCGGTGCATA
				CAGCGGCTTGATCAACCGATTATATTAACGGGTTTTTCTGC
				ACTGAACAAGCTTTTGGGCCGAGAGGTTTATAGCTCACAG
				ATGCAACTAGGTGGGCCTAAAATTATGGCTACGAATGGTG
				TTGTCCATTTAACGGTGTCCGATGATCTCGAAGGTGTCTCA
				GCTATCTTGAATTGGTTGAGCTTTGTTCCACCTTATGTCGGT
				GGCCCACTTCCTGTTTTAGCACCTGTGGATCCACCAGAAAG
				GCCCGTTGAGTACCTCCCTGAAAACTCATGTGATCCTCGGG
				CAGCTATTTGTGGGGTCGTGGATAGCAACGGTGAATGGGC
				TGGTGGGATTTTCGATAGAGACAGTTTTGTGGAGACATTG
				GAAGGTTGGGCGAGGACAGTCGTAACGGGTCGTGCCAAA
				CTTGGCGGGATCCCAGTCGGGATCGTTGCTGTTGAGACAC
				AAACAGTGATGCAAGAAATACCTGCAGATCCCGGGCAGCT
				TGATTCACACGAACGTGTTGTTCCTCAAGCAGGTCAGGTCT
				GGTTCCCGGATTCCGCCAGCAAAACAGCTCAGGCATTGAT
				GGATTTCAACCGAGAAGAGCTCCCACTTTTCATCATGGCTA
				ACTGGCGAGGCTTTTCTGCAGGTCAGCGGGATCTTTTTGA
				AGGGATTTTACAAGCAGGGTCAACAATTGTTGAGAATCTC
				AGAACATATAACCAGCCTGTTTTTGTATACATCCCGAAAAC
				TGGAGAACTTCGTGGCGGTGCATGGGTGGTTGTCGACAGT
				CGAATCAATTCAGATCATATAGAAATGTATGCAGAAACCA
				CAGCAAAAGGAAATGTCCTTGAACCTGAAGGTATGATTGA
				GATTAAGTTCCGAAACAAAGAATTGATAGACTGTATGGGT
				CGTCTAGATCCACAGATTCGAAGCCTTAAAGAAAGACTTC
				GAGAAACAAAGTACGATCAAACGATCGTCCAACAGATAAA
				ATCTCGTGAAAAACAGCTTTTACCGATTTACACTCAAATTG
				CTACCAAATTCGCTGAACTTCATGACACATCATTGCGAATG
				GCTGAAAAAGGTGTGGTCAAACAAGTTGTTGACTGGAAAG
				TATCTCGGTTTTTCTTTTACAAAAGGCTTCGTCGTAGGCTCG
				CAGAGGCTTCCTTGATCAGTAGTGCTCGTGAAGCTGCTGG
				TGATACTCTTTCCTACAAGTCTGCTCATGAGTTGATTAAGA
				AATGGTTTTTGGAATCGAAAACTGAAGATTTATGGCTTAGT
				GATGATGCTTTTTTCACTTGGAAAGACAATCTGATGAACTA
				TAATGACAAGTTAGCCAAGCTACGTACTCAGAAGCTCTTG
				GATCAGTTATTAAAGATTGGTAATTCACCATTGGATCTACA
				AGCTTTACCACAAGGCCTCGCCGCACTTTTGCAAGAGGTG
				GATCCAGTGACCAAAAATAAACTAGTCGAAGAACTCTTGC
				GCGTAATTAAGTAGGTAATTATACACAAAGCTCATCAGATT
				CTTTCTTTGTTTGTCAAAGTGAGAAGCCTTTTGAGCAGTGT
				ACATTATAAGTAGGTGTCATAAGAAAACAGGCTCAAAATA
				GTTTAAAGTATATGAGGTTTACCATGTTCAGATTGTTTTATT
				TTTCTTCATAAATTGTATAATACCATCACATTTCTATCGCAT
				TTTTTATATATCTATATATAAATGGTCA
48	Conyza	cDNA	454	GGTCATTGTGTTGCTGTACGTGTAACAAGTGAAGATCCGG
	canadensis	Contig		ATGATGGTTTTAAGCCCACCAGTGGAAAAGTTCAGGAGCT
				AAGTTTTAAAAGCAAGCCAAACGTATGGGCATACTTTTCTG
				TCAAGTCTGGAGGAGGCATTCATGAATTCTCAGATTCTCAA
				TTCGGTCATGTTTTTGCATTTGGAGAGTCAAGAACATTGGC
				TATTGCAAATATGGTTCTTGGGCTAAAGGAAATTCAAATTC
				GTGGCGAGATGCGCACTAATGTTGATTATACAATTGATTTA
				TTACATGCTCCAGATTATAGAGAAAACAAAATACACATACC
				GGTTGGTTAGATAGCCGAATTGCTATGAGGGTTAGAGCAG
				AAAGGCCCCCTTGGTATCTTTCAGTAGTTGGGGGAGCACT
				TTATAAAGCTGCTGCTAGAAGTGCAGCCATGGTCTCGGAC
				TATGTTGG
49	Conyza	gDNA	19367	TTTGGTGGTGGTTTCGTGGTCTAATTCGAAGAAACGAGTG
	canadensis	Contig		AGATATCGGTATTTTAAGTTTTCCGGCGAACTTTCCGATGA
				AAGTTAGCCGGAGAAGATGAAGATGATGACAACAGAAAA
				TTAAATTTCATTTTTTGTCCCTGAACTTGTCACTTTTCGCACT
				TTAAGTCCCTCACGTGTTTTGCACGTGTGGGACTTAACGGC
				TGAAACTTAACACCGTTTGGCGAGGGACGTCGATTGCAAA
				AATCTGTCAAGTTTAGGGTCAAAATTGTAATTTTTTCATTTT
				AGGGATGAAAAGTGAAAAACGCGCCAAGTTTAGGGACGA
				AAAATGTAATTTACTCTAAGTATTATGTAATTTGTTTTGTTA
				TTAATAAAACATATAAATTAAAAAAAGGTTAGTTATTTAAA
				GTTTATAAATGTTAAGGATAAATTATTAAAANNTGAAGAA
				AAGGTTGGGAGTTTTGGTTGCCACTAGAAAAAGGTTGAAA
				AAAAGGTTGGAGGGTTGAAATGAGGTGGAGTAATTTGAT
				TGGGTATTTAAAGGGAGATGAGAGGGTTGAACCCTCGGCT
				CCGTCCCCCCTTATAGGACACCTTGTTCATGAGGATACTTT
				GATATTTTAATGGGGAAATGATAAATTCTTTTAAATTAACC
				TAAAAATCATTCTAAAACTATAAGAAGATGATATGTGATAT
				CTACTAATTCTCTTCTCTACTCTCGCCCTTTTTTCACATATAA
				TCATCTCATTATTAAGAACATTTTTAGGTTATTTAGTTAAAA
				GAATGAATCATTTCTCATTTTAATATAAATGGTTAATTTGAA
				TTGACATCAATCACTGGCGAGAAACACAAAGGTAAAAGAG
				TAGTGAACACGAAGGTAAAAGAGTAGTAAATTACCAATCA
				TATCCTTCCTCCTTTATATTTTGATGGAACAAACACAAATTT
				ATTTTAGAATTTTTTAAAAAAATATATTAAACCGGGTAGAA
				CATAATCATTATTATTGTTACACGAAATTTATTGTACACCGT
				GTTAGCTGGTTACAGTAGTATTAATTAATTGGTCAAATATA
				TGTGCATTAAAATCAGGAACACATTTATAACAAACATAGCG
				AGATTTTAGGAGAACTTTAATTGAAAATTTTACCATTACAG
				TAATTAATTAACTTAAACACATACAAAACCCTATACATTATT
				TACATTGTCTACATTTCATTACTGTTGTTGGTTTCTGATCGA
				ATGCCATGAATTTTCGGGCATTTGATCTGAAGCTCAACATT
				TTTCTGGGCGATTCAAATAAGCGTTTTACTGTTACAAAAAG
				TTTCGTCTCAACGGGTGACCACTACACGACTTCTGATAACA
				CCAATCCGACCAGTCTTACAAAGGTGAAGGTGAGCGTCAA
				TATTTAGTTTAATCTCATCGTCTGTGTTTTAAGCTTTTTTGA
				GGTCTAAACCTTTTTGGTCAGCAAAATTTGAAAATTCTTTTA
				ATATGTTAACTTCTTTTGGAAGCTTTAGAGATTTATATATTC
				TTAATCCATAATAATCTATAATTCTATATTTCTTTACTCCTCT
				ATAAAGCATATTGCTTTTTTTATTTTTGGAAATTAAGCATTT
				TTTAAAATATTTTCATAATACCCTTACACCCCTACCTTCTTTC
				TAATCATTACACGCTCTCCTCGACCTTCTATCACCCTCCGCC
				GCCGCCCTCCTTCTCCACCACCGCCCTCGATCTCCACCACCG
				CCTCCCTTTTATATTGTCATCGCCTTTTAGCCGTTGCAACGC
				GCGGACACTATGCTCGTATTAAAAGTAGTAACGTAATAAA
				CATAAAGTTTACGTAAAGTTTATATATTTCATTATTTTGTTA
				TGATTTTGTACTGATGAATATATATTTAAGCTAAAATCATTC
				ACTCTAGAGTGTAAGTCGAACGGGTCCAAACTGAACTAAA
				CTATTTGTCTATGGTAGTCAAATTCTTAATCTTTTTGGTATC
				GATCGTTGTGTAGTGTTGCACACCTCACTTGATATTAGTTTT
				ATGTGATTATATATGGTTAATTTAATTTTTCTTTGATTTTTG
				ATCATGGTCTTAAATATTATTAAAGGTGAAGAAACATGTGA
				AGAGGGATAAATTTGGAGAAAGAATGGCATCACTAAAAC
				AGATAGTGTCACCCTATGGCAAGGTTAGTCCTTCTTTAAGT
				TTATTAATTATATGTAATTTGTTTGATTAGGTATATCATATA
				TGTATACTAGTTGTTTTGATTTCCAATCTATACAAGTAGGAT
				TTTGCTAAACATAGTTGTAAGGGTTATAGTTACAACACAAT
				AGAATGGTATACATACATTATACATATATAAAGATATATAA
				CTGTTTATTAATAATAATCTTTAACCGTCATGTAAACCAATT
				TACTTTGCTTTATCCATATCCTTAAAGGCTATGAATAGCATA
				GTCGATGTAAGTATATGGTTGCTTAGACGGTGTGTTAATGT
				TGATCTTACAGGAGTCTAGACTTGGACCATTGTGTTTTAGA
				GAAGAAGGGAATCGAACGCAAAGGTAAAACTTCCTTTATT
				TTTAAGAGCATAGTTATAATATCATTCAAATTTAACCAACA
				ATTTCTGTTACATACATCGAAATAGGCTTGATTACTCATACC
				TATAGAGATGAGTGACATGTGTGTATGAAGATTTATATATT
				GAATTGTAGGATATCATTTTCCCATTTCTAATGTACTAGTTA
				ATTATGGTTTGCGGTTTTTTTCTTTGTTGTATGTCCATTACA
				AAATTACAGTTGGACATCTTCTTGGTGGAATTCAGATGATA
				TAAAATAGTTAATTTTACCAAACACTACATCATTGGTAGAG
				AGAAATTAGAACGTAGATAAATGGTTTGTAAGTTTCAAAA
				GAGATACTCGTATTACATAAAATGTTGTCTTTTGCAATTCG
				CAGATTTCCAATTACAACAGATTTGACACAATGTTCTATTAT
				TTGTTAATCCAACCATGAACCACTAATAAAACAGTACAAAC
				ATCTTGAATAAAAAAAAGCCACCAATACATTATTGATTGTT
				GTATGCTTTTTGTCTCCATATAATGACCAGTAATATCAAAA
				AACATGTATTTTATTCTTATTCTAGCTTAAAAAGGTTCAAAA
				ATGCACATCCAACTTTCTCTCTTCTTTCCAATCATAGCTTTTC
				AAATTAAAAGCATACACGTAAAAGAAACATATGGATGTAG
				ATTGATATGTGTGTGGGGGGTAGTTGGTTAACCATGTCAC
				GTGCTCTGCATCACCTCCCATCCTTGGACCCCAATTTGTTTT
				TTGTACCTACTACATATTTAAGTAACTTTATGGCACCTCACC
				AAAAACCAACCAAACAAACCAAACTCCCAACTATACATCAC
				TTAATTGCACACACACATATACCTCAACAAGTACTTACATCT
				CTCCCAGATTTCTGTCATTCCAATTTTCTTGTTTTTAATCACA
				ATTTTGTTGTTGTTGTCAATGTCTGTCTCTTTTCAAACCAGC
				TAAAAAAAGAAGCAAATTCTTGATTTGATTCAGCTGTTGTT
				CCACTTGTTTATGGTTAGTCTTTCTCATTCTTTCACCCCCCAA
				GTTTAAATCTTTGAGTTAATTTCTTCAAATTCCTGTGTTTTTT
				GAACCGGGTTTTTATCAGTTTTGTTGAGTTTAGCAAAAAAG
				TAGAGTTGGGTATGTAAAGATTGAATCTTTTTACTGGGTTT
				ATGTAATTTCTTTGAAATTTATAAGTTTCTTGCAATGGGTAT
				ATGATTTTCTATTAATTGAAGTGGTTAATAACAGGATTTGG
				TGAGTAAAGTTTGAATCTTTCGAGTTATGGATTTATGTCAT
				ACCTTTTCTTGCCCTTCAAAATAAAGTCAAAGCTTTAGTTTT
				GTGATTTGACTTTGGTATGCTGTTGCTCCCATGAATATTTTC
				ATGCTGTTTGTAAATTGTAATATATATTTTGATAAATTCAAT
				TTTGTTATATTTGTTTCCTGATAAAGTTTTAATGTGATTAGT
				GATTACTTCAATTTGATGAGTTCAATAATAATAAGAAATTT
				AGAACTTTGAACCTCGTATTTCTAATTCGAGGTTTCCTAGCT
				CTATGTAAACCCCACTATATTCTCCATTATAACATACGTTTA
				TGTGTTACTTTATTTAGACATTTTAATATTTGACTCAATTAT
				AACATAGGTTCAGCTGAAAATTTAATTTCTTTGTTAGTGAA
				TTGTTGTGACTTTTTTTTTTGGTAGTTTGCGTTGTGATAGTC
				AGGAGACAGAAAGGGCAATTTGTTTCTGTTCTTTTTAAGTT
				AGATAGGTGACCATTTCGGTAGATACTAGATAGTGCAAAG
				ATATAGTGTTTTTTGTAAGTACCAAGTACTTTATGAACTTAC
				CCAATGATAACAACTTTTGATGGTTCAGTGGTTCAGCCTTC
				TCTTTGTCCCTAGACTAATTAGTCCAATCTATCTCTCAGTAT
				ATATTTTTTAGGTATTGACATATTTTATGATATTGGCAAGTT
				GGTAGTTTACTTTCAACTTTTAAGCAATATATGGACATATC
				CACATATATCAGTTCCATATTACTAGCATGTATCCTATTCTG
				GGTTAGTATGCTACAAAAAGGGTTTACATGTCAAATGCAG
				AATTGTTCAAAGAAAACGAGTTGTTAGACCTAATAAGTCA
				AAGTAATGCTTACTCTACACTTTGCTTACTGTTTGGCAGTG
				GCACCATGTCAGAAGCTCAAAGAATGCTTCTAAGTGGAAG
				TTTCAATTATTATGGTAATGGCATTGTAAATGGGGCGATTT
				CACTGAGGTCTTCTGCTAGTAGATCTGCAATTGATGAATTT
				TGTAATGCACTTGGAGGCACCAGGCCAATCCAAAGTATTTT
				AATTGCAAATAATGGAATGGCGGCTGTAAAGTTTATAAGA
				AGTGTGAGGACATGGAGTTATGAAACATTTGGCTCAGATA
				AAGCTATTTTGCTGGTAGCCATGGCTACACCGGAAGATAT
				GAGGATAAATGCCGAGCATATTAGAATCGCTGATCAGTTT
				GTTGAAGTCCCTGGTGGTACAAATAATAATAATTATGCGA
				ATGTGCAACTCATTGTAGAGGTATGTAGCTTATATACGTGG
				ATCCTACATCATGATTTATAAGCTTTAAAATGATCTATTTTA
				TGAAACATTGTGCATTTAATGATGCCTGAAAAGATTATGTT
				TCCAAGACTTATTTTGCTTAACTTGTTGGATCAAAATGTTG
				ATCTGCTTCCATGAATATAGTAATTCGAATATGTTGGTTTA
				ATCTTCACTTTCAAAAAAAAAAAAAAATACTTCTTTTTATGT
				TAGCATTTGAGTTTGAATCTCAAGAGAACTTATTTCACTTTT
				GAAATCGATATGGATGTGTTGAACATGTAATTGATAATCA
				GCAACATTTTAAAATTTATTAGAAAATGACGAGGGATGCCT
				CTTCAGGCTACGCGGCGAGCCTTTGGCTCTAATGTAAGCG
				GCCTAACCGGTATACCCGGGTCTCTTCTGAGATCTTTGGGT
				CACCTTACCACTAGACCCCCTTGGAGAAGGTTTTAAAAAGT
				ATTAGAAAGTATATAAATATAAAATAGAAACGATATGTAA
				AATTTTAAAAATATGTTTCATTGAGTTATCTTACACCTGACT
				ATTTGATATTGAGCATTAATACGAGTTTGATGGAAAATATA
				AAATAATTAATATTTAGCTATCATCATCAATTCCTTTAAAAT
				GGTTCATTTATGATTTATGACTTCAGACTGCTGAGATAACA
				CATGTTGATGCTGTTTGGCCTGGTTGGGGCCATGCATCCG
				AAATCCCTGAGCTGCCTGATGCATTGGAAGCAAAAGGTAT
				TGTATTTCTTGGGCCACCAGCTTCCTCCATGGCAGCTTTAG
				GTGATAAAATTGGTTCTTCTTTGATTGCACAAGCTGCTGAT
				GTACCGACACTTCCTTGGAGCGGTTCTCATGTAAGATTTTT
				TTTACTATTGTAGTCTTTGTCACATCAACAATGATCCTTATA
				CTTTTAACTCCATAAAGATTGCATCGTTCTATCTCATATTCT
				CTATAATCTAAAAAAATTCTATATTCCTCTTATTTGTGAAAA
				GTCTGAACTTCATAACAAAATCACATCTTGTACCTCTTATAT
				ATTAAACTGCATCTTTATGCCTCTAATTTATTGGAAACAAG
				ATCTTTAAATCCTTTAAAGGTTGCATCTTTATACCTCTTATTC
				TGTAGAAATTACATTTCATACCACTTGTTCTTTGCAATTTCG
				CATAGATATTAATGCCTACTCTTTAAAAGATACTTTTCTACT
				TCTTTACCTCTATAATCACATCTTTGTACCTTTCACCTCTCCA
				GTCTTCTTACTCTCTACAGTCACATTTTTAGGTAAAAATTCC
				TGTGGATAGCTGTTTGGACACACTCCCGGATGATGTATATA
				GAAAAGCGTGTGTGCATACAACAGAAGAAGCAATTGCTAG
				TTGTCAAGTTGTTGGTTATCCAGCAATGATTAAGGCATCAT
				GGGGTGGAGGTGGCAAAGGCATAAGAAAGGTTTGATTCT
				TTACAATTGGGAAATTATTTCTTCTCCTCAAAGTATACGGC
				AAACTTTTAAAACCAATTACCTATTGAAACTTTAGGTGCAT
				AATGACGAAGAAGTCAAGGCACTTTTTAAGCAAGTTCAGG
				GTGAAGTGCCTGGTTCCCCTATTTTCATTATGAAAGTTGCT
				TCTCAGGTAGGACAATGTTGTAATTGTTATTATTTTCCCAAT
				TTCAACTCAAAACCCATTATCATTATAATAATATGTTGATTT
				CTTGTATATACAGAGCCGACATCTAGAAGTGCAGCTACTAT
				GCGATCAACATGGGAATGTAGCAGCTTTGCATAGTCGTGA
				TTGCAGTGTTCAAAGGCGACATCAAAAGGTAAGTTCATGT
				TTGTCCTTTTTACTTTCTTTTTATCCTGTTTTGTAACTCTAATT
				TTATTTAATACTTGATATGTCAAGATTATTGAAGAGGGGCC
				AATAACCATAGCTCCACATGACACAATAAAGAAGCTTGAG
				CAAGCGGCGAGAAGATTAGCAAAGTCGGTTAATTATGTTG
				GAGCAGCCACTGTAGAGTATTTGTATAGCATGGAAACTGG
				AGACTATTACTTTTTGGAGCTCAATCCCCGGTTACAGGTGC
				TTGCAATTTCTGTTTTGTGGGTCCTAGTTATGTGTCCTAAGA
				AGTAAGATGAAATGGTGGGCTCCAAGATGGTTATGATTTG
				TTTTCTGAAGCTATGTATGTGGAACCTTTCTTTAGGTTGAG
				CATCCAGTCACAGAGTGGATAGCGGAAATCAATCTACCTG
				CAGCACAAGTTGCGGTTGGAATGGGCATTCCTCTTTGGCA
				AATACCAGGTTAGATATCAAAAGTTCGTTTTTTGTTGACTA
				TCATAGTTGGTCTTTTGCTACAATGCAACCATCATGTCAACT
				ATTTTCTTAATTGCTCTACATGTCTTGTTGGCTTAGAAATAA
				GACGATTTTATGGAATGGACAATAGTGGAGGATACGATGC
				TTGGAGGAGAACATCTGCTCTTGCAACTCCATTTGACTTTG
				ACAAGGCAGAGTCTATCAGCCCAAAAGGTCATTGTATTGC
				TGTACGTGTAACAAGTGAGGACCCAGATGATGGATTTAAG
				CCCACTAGTGGAAAAGTTCAGGTTTGGAAGCAGACTAACA
				TATACCATATACCCCTACAAATATAATATATATCCTTTTTTTT
				TTTTTTTTACCATATTGATCGAATTCCACTTTTAGGAGCTAA
				GTTTTAAAAGCAAGCCAAATGTCTGGGCATACTTTTCTGTC
				AAGGTACGCTGGGTTCAAACCTTTTTTTTTTTTTTTGAACTT
				CCAATTGACATATTCTAAAATGTTTGAACATTGCAGTCCGG
				AGGAGGCATTCATGAATTCTCAGATTCTCAATTTGGTAAAG
				ACGACTGGATCTTGTTTGGTTGAAATATCTTGAATACTCAC
				TTATTGGTGTAGTTCAAGTTTACATTCTTGGTCAAAACGTTC
				ATGTTCTCATTTTAATTCTGTATCTATCTTAGGCCACGTTTTT
				GCATTTGGCGAGTCAAGACCTTTGGCTATTGCAAATATGGT
				TCTTGGGCTGAAGGAAATTCAAATTCGTGGCGAGATCCGT
				ACGAATGTTGATTATACAATTGATCTGTTACATGTGAGCAT
				TTTGGGGTTTCACAGCTAACAAATTTCTTATTTTGTTTACCA
				TAATGAGTTACTTCATGGCGATATAAGGGGTGAGCCATGG
				AGCAAGTGCCATGTATCTTAACAGATAAATTGTTATGTTCA
				TGTTTGGCGAGTACTTACACATTTGAGAATGTCGAGAATTT
				GATTATATTTCACCAAACGTTCTTATTGCTTCACCTAAAATG
				TGAACGTTTTCTTACATGCTTAGTTTTTATTCCTTTTTCTATA
				CTTGTAGGCTCCTGATTATAGAGAAAATAAAATACATACCG
				GTTGGTTAGATAGCCGAATTGCTATGAGGGTTAGAGCAGA
				AAGGCCCCCTTGGTATCTTTCAGTAGTTGGGGGAGCACTTT
				ATGTAAGTACAAAATACCTCTTTCTTTCTATATTCGTCATTT
				TTAAAGTACTTTTACTTACCATTGATGTTTGTTAACTTCAGA
				AAGCTGCTGCTAGAAGTGCAGCCATGGTCTCGGACTATGT
				TGGTTACCTTGAAAAGGGCCAAATCCCTCCTAAGGTTTGTC
				AGATATTTTAGTATTTTTTTTTAATTTTTAAGAGTTGGTTCTC
				GTAATGTTTACATTGATGATCAGTATTTGTCTGTTTTCTTAC
				TTTCAGCATATATCATTGGTCAACTCACAAGTTTCTTTGAAT
				ATTGAGGGCAGCAAATACACGGTAAATAACAAGATAACTG
				CCTATCGTTATTCGTTCATAAAAATGGTTGTTCTTGAAGTTT
				TCTTTTGTGTGTTTTTTTTCTTCTGATTTTTTTCTTTTTATTTG
				TTAGATTGATATGGTAAAAAGAGGGCCAGGAAGTTACAGA
				TTGAGAATGAATCAATCCGAGATTGAAGCAGAGATACATA
				CACTACGTGACGGAGGCTTATTGATGCAGGTACTTAATCC
				ATACGCTCTATTTTTCTTTCTATTTGGTTTATTCTGTCAAATT
				TTCTTTTTATTTGGTTTATTCTGTCAAAATTTCTTTTTATTTG
				GTTTATTCCGTAGTTAGTTTGTGATTAACTGATTACTATATT
				AAGTCATTGGTTGGTATGTATACATATAAAACTCGAATATA
				AGCATTTTAATGATGCCAAACCTATATGTAGTTTTACTCTTT
				AGGATTTCATGATATACCTAGGAAATCCCTCGTGTCTTTGT
				GGCAGCTAGCAAGTTGAAGATTAATAATATCAATAAAGAA
				ATTCAGAGAATTTAATGCAGCATGTTCTAAGGGAGTGTTC
				GGGGATGCATTCTGAAAATAATTATGTGATATTTAGTAAAA
				TTGCAATTAAACGTGGTGCAAGAAATAGTGTTTGGATATG
				CTTCTGCTATAAAGTTCTGGCAATCGCTGTATTGAGTGTTT
				GACGGATTATGTCTATTTAAGAAGGTGGTAGATAAACTAA
				AAGTATACATGGTTAGTGGTGCTGTAAGCATTTGCCATCAA
				AAAGTAGGTAGATAAAGGAAGAGTGCTATAAGTAGTTTTA
				TGCTACTTTTTGGTTATCGAGTTCGTTGCAGCTAGTATCAA
				ACTAATTCTTTAACTATCGTAGCTGTAATAGGTCACCCTGA
				ACATTTCAATTTATTGCAACCTTAAGTTACATCATTTGATAA
				TCATGTTCAAGACACATTCTTATTTTATACTCTGATATCATA
				TGATTTGTGGTTGGTTGATTCAATGATGTAGTTGGATGGG
				AATAGTCATATATTATACGCCGAGGAAGAAGCTGCCGGTA
				CTCGCTTGCTTATTGATGGACGGACTTGCTTGCTTCAGGTG
				CGAACAACTAGTTCTTTTCTTGAACTTTATTTAGAGGTTGCC
				ATTTCAACCATTTATCTATGATGGGACAATTTAAACAATGT
				TTTACCCTTAATGGTGTATTCAAATGGGTCAACAGTGACCC
				AAAGTACATTCTCACTGGAGCAAACTGCCTGTATCATTTTT
				TTTTGTGAGGTTCATTGTTTTTGAATAATATTGTGTTAATTT
				TCATATTTAGTAGACTAAAGTAATTATGTAAGTTGTTGTGA
				ACCCGTTCGATCTGCTCAGGTTATACTCGACCGGTTGCAAT
				CCTCCTAATTTGCCACCTTTACTATTACTTACTATTTGGGTT
				ACCTGTTTATAGAATGATCATGATCCTTCCAAGTTGATGGC
				TGAAACACCATGCAAACTTCTAAGGTACTTGGTCTCAGATG
				ATAGCCATGTTAATGCTGACACACCGTATGCTGAGGTTGA
				AGTTATGAAGATGTGTATGCCACTCCTTTCACCGGCTGCTG
				GAGTTATACAATTCAAGATGTCAGAAGGTCAAGCCATGCA
				GGTTAGCATGTCACTTTTTCCCCATTTTTAAGAAGTATTTAC
				ATTGTTCAGTTTTTCCGAACATCCAAGAATAAAGCTCTTGG
				TTCTATGTTTTTGCCAACTACTTACAGCTATTTATATTTACAT
				GTTAATAAAATGTTCTATCGATTGACTTCTTGAGTCATTGT
				GCTTATCGCAACTCAATCTTCGTTATTGTACAGTGATTTTTT
				AAATGTAATACTGCCAACTTTTTGAATAAATCGTATCAAAT
				GTAATCTTTAAGCTATATAACAAACATATGAATTTCGATTTC
				CAAATAATATCTACAGTTCACAAACAAATGCTTGTTTCCTGT
				TTGTTAATACCATTTTTGTCTTCTCTAAATCATACATACCAA
				AACCAAAATTGTTGATCATTTCTGATGAATATAAATCTTTGT
				ATATGTAGGCTGGTGAGCTTATAGCAAGGCTAGATCTTGA
				CGATCCGTCAGCTGTAAGAAAAGCAGAGCCTTTCAATGGA
				AACTTTCCTCTTCTTGGGCCTCCAACGGCCATGTCAGACAA
				AGTGCATCAGAAGTGTGCTGCAACTTTAAATGCTGCTCGA
				ATGATTCTCGCAGGCTATGATCATAACATTGATGAAGTAAC
				TTGTTTGCCATTTACTGATTTCAAATTTTCTGAAAGATTATT
				CTGTTAACAGTTCTGATCTTTGATCGTAGGTTGTGCAAAAC
				TTGCTTCGTTGTCTTGATAGTCCCGAGCTTCCTTTCCTTCAG
				TGGCAAGAATGCTTTGCAGTTCTAGCAAATCGTCTCCCTAA
				AGATCTAAGAAACAAGGCAAATTGATATTTTACCCTTTTTT
				TTTTCTTTTCAAGCAGTTAACATTGGGATTATTTTTCTAAAT
				TCAATATGTTTTGTATATTCAGTTGGAATCCAAGTTTAAGG
				AGTACGAAGGAATTTCCACACAACAAACTATTGACTTTCCT
				GCTAGAGTTCTACGGGTCATTCTTGAAGTTAGTTGTGATCA
				GTAGTTTTCTTTATAAGTCCTTTCTTTGATTTAAAGACATAA
				TTTAGTTATATGTTACCTTTGTAATGTTTTCGTTCAGACCCA
				TCTTGGATCTTGCTCAGAAAAAGAAAAGGGAGCCCAAGAA
				AGGCTCGTTGAGCCATTAATGGGTCTTGTAAAGTCATATG
				AAGGGGGAAGAGAAAGTCATGCACGTGGGATCGTTCATG
				CTCTATTTGATGAATATTTATCTGTTGAAGAGTTGTTCAGC
				GACAACATTCAGGTGCGTTTGTTAGGATCGCCGATCCAGT
				ATTTTGGATTTTCGATAGGGCATGCACTTGCATTACCATAG
				TCAGTTTATATTTTATTTCATCTTGTTACACGACAACAAAGT
				ACCTTTTTTCAAAGTATAAAACTGCACAGGTTATGTGCTCC
				CAAAGGGTTTTTTAATACTTTGATCTATGTGGAAATGGTAT
				AAGAGTTTTAATCATTTTGACATTAATGTCTGGATAAATTT
				GTTACGGGTTAAACCAATCAATCTAAGCCAAACCAAAAGTT
				ACCTGCAAAAGCTATTACCTAACCCACCCATTTTGCCACCTC
				TGTTGGTTTTCTTTAGGTCTACTAATGGTTATCGAGTAAATT
				ATATTATAACATAAGTAGTAAACCAAAATCCTGTACCTTTT
				AGGCTGATGTAATCGAACGTCTTCGACAACTATACAAGAA
				AGATCTCTTGAGGATTGTCGACATTGTCCTTTCCCATCAGG
				TACACATGTTTTTTGGTTTTTGTTCTCCCCTTTAATGTGTATT
				TTATACCGATCATTAATATATGTCCATGCAGGGTGTTAGGA
				GTAAAAACAAATTGATACTACGGCTGATGGAGCATTTGGT
				TTACCCCAATCCGGCTGCGTATAGGGAGAAACTGATACGA
				TTTTCTCAACTTAACCACACAAGTTATTCTGAGGTCATCATC
				GTCATATATATACACTGTTACAATTTTGATCATCTCAATCAC
				TTTTCTGTTAGTACTGAGTTTATGTTAATTGATTATTATTAA
				TAGTTAGCACTGAAGGCAAGTCAACTTTTAGAACAAACTA
				AACTAAGTGAACTTCGTTCAAGCATTGCGCGAAGTCTTTCT
				GAATTAGAGATGTTTACTGAAGAAGGTGAAAATATGGATA
				CCCCTAAGAGGAAGAGTGCCATTAATGAAAGAATGGAGG
				ATATTGTGAGTGCTCCATTGGCAGTTGAAGATGCCCTTGTT
				GGTCTTTTTGACCATAGCGATCACACCCTTCAAAGGCGTGT
				TGTTGAGACCTATGTTCGAAGATTATATCAGGTTTTTACCTT
				TCATTTCTGCATCAACAGAGTTGTCAATTTGTTGTCATAGA
				AAATTGAAGGTGTTTGATCAGATTGTTTTAAATAAAATGTG
				GTTTAATATATGCATACATCTTTAAAAAAAGAAACGACATG
				TATTTATTGGTAAAAAACTAAAACATCAAATCAAGTGTGGA
				TTTTATACTGTTTTTTACAAAACTTTGTAAACTGATTATATG
				TTGTTTACTTGAACAGATAAATGTTTTAAACTATTAAGAAT
				ATTTAAAAGATGGAATAAGAATAAATTTAAAGTCATTTCTG
				AGTTGTGGCCCTTGAGAATAGCTGTTCATGTAGTTAGTAG
				ACCTATTTGACTTTTTTCTAAAATGTATACTACACTGTTTATT
				AATGCCTACTCAAATGAATCGGGTTGTCTAAAATAAAACAT
				CACTTATAACAACAATAAAAGAAGCAAAGCAGTCATTTTA
				GTTTGCACTTTTGCAATTCTCTTGGTAGGAAGAAATCTAAT
				ATGATTTTAACTGACCATGCTTCTCATATCTGTATCAGCCAT
				ATCTCGTGAAGGGGAGTGTTAGAATGCAGTGGCACAGATC
				CGGACTCATCGCTACATGGCAATTTATAGAAGGACTCATTG
				GAGAAGTTAATGTGCCTGACTATGAACAGAATGAAGCTCC
				CTTGGAAGACAAGAAATGGGGAGCTATGGTTATTATTAAA
				TCTCTTCAATTTTTGCCTGATGTCATAAGTGCATCTCTTAAA
				GAAACGAGTCATAACCTTCCCAGAACAAGTCAGAATGGGT
				TTGCTGGTCATAGTAACCATGGTAATATGATGCACATTGCT
				TTGGCCGGCATAAATAACCAGATGAGTTTGCTTCAAGACA
				GGTATGTGATGATAATGTTACATGAAAAGATACCATCAAA
				CCTGCTTTATGATCTTTGTGTCATGCTCAAGAAACAAAATA
				ACTGGATAAATATAAAAACTGAGACCCATCATCATTCGATG
				ATGCATGCCATGTTAACAGTCGGTAGATTTGATGGCTTATT
				CATTAGCTGGTGACATATATTTGCCCTGTTGATGTTATGTTC
				ACTTGTTATGTGATGAACTGTAGTGGTGATGAGGATCAGG
				CTCAAGAGAGAGTCAACAGGTTAGCAAAAATACTCAAAGA
				TAAAGAAGTAAGCTCGAGTCTTAAAAACGCAGGGTATGGA
				GTGATCAGTTGTATAATACAAAGAGATGAAGGGAGAGGC
				CCCATGAGACACTCATTTCACTGGTCAGAAGAGAATCATTA
				TTATATTGAAGAGCCATTATTGCGTCACTTGGAGCCTCCAT
				TATCGACATATCTTGAACTGGTTTGTGCTCAAAAGACCCTT
				CATAATTTTTCAATTCATTAATAATATTATAATACTAATGAA
				GTTGTAAATGTATTGCTTATGCAGGACAAACTTAAGGGCT
				ATGATAATATAAAGTACACTCCGTCGCGTGACCGTCAATG
				GCACATGTATACTGTTGATGCTAAACCACTTCCGGTACAAA
				GAATGTTTCTTAGAACTCTTATAAGGCATCCAACAAAGGAA
				TGGTTCTCGCCCTCAGGTTACCAAGGTTCAGAAGATGAGG
				GCCCACGGTCTCAGTTAAATCTCCCTTTTACATCAAGGAGC
				ATCTTGAGATCATTAGTGACGGCTATGGAGGAGTTGGAAC
				TTCATGTTCATAATGCTACTGTCAAGTCTGACCATGCTCATA
				TGTACCTATATGTATTGAAGGAGCAACAAATTGGTGATCTT
				GTTCCATACACAACGTAAGTATTCATGTCATCTTCATGAATT
				TTTTTTTATCATATGCACTCATTTAACAATGGTAATATGTTG
				TGAACAGGAGAGTGGATGTAGATTCTGGGACAGAAGATT
				GCGTGGTTGAGACACTTTTGGTAAGGCTGGCTCGTGAAAT
				CCATTCAATGGTTGGTGTAAAGATGCACCGGTTGGGAGTT
				TTTGAGTGGGAGGTGAAGCTTTGCATGGCATCATCGGGTC
				AAGCCAACGGTGCGTGGAGGGTTGTGGTCACAAATGTGA
				CTGGTCATACCTGCGTTGTGCATGTAAGTCATTAGATAGGA
				TTATAGACATTTCAGCAATACCCCTCAAACATGCTTTTACCT
				AAAGTCAATTGCTGCAATTTTGATTTAGGTATATCGTGAAC
				TGGAAGATACTGGTTTGCACAAGGTGTATCATGCTACCTCT
				ACATTGGGTCCTTTGCATGGCGTACCTGTGAATACACCCTT
				TCAGCCTTTAGGATTACTTGATCAGAAGCGTCTTTTGGCAA
				GGAAAAGCAATACTACGTACTGCTACGACTTTGCACTGGT
				ATAACTATCATTTTGCTCTTTCAATGCTTGATGGTCACCTAA
				ATTTGATTGTACAGAAACACTTATTACCATATCTATATTTCC
				AGGCATTTGAAGCAGCTCTTGAGAATATCTGGGCGTCGAA
				AGTCGTAAGTGATAGCAGGCCTAAGGGTAAACTTGTGAAT
				GTGACGGAGCTCATGTTTGCTGAGCCAAGTGGCTCATGGG
				GAACTCCCCTTGTTGCAGTAAATCGTGAGCCAGGGCAAAA
				CAAGGTGGGCATGGTGGCGTGGACTATGGACCTCTGCACT
				CCTGAGTTTCCTGATGGAAGAACGATTTTGGTAGTAGCAA
				ACGATGTTACGTTCAAAAATGGATCTTTTGGTCCTCTTGAG
				GATGCCTTTTTTGAGGCAGTTACTGATCTCGCTTGTGCCAA
				GAAACTGCCACTAATATACTTGGCAGCAAACTCGGGGGCC
				CGTATCGGAGCGGCTGAGGAAGTCAGATCTTGCTTTAGAA
				TTGGGTGGTCTGATGAGTCGACTCCTGAATCGGGATTCCA
				GTATTTGTATCTTACTCCTGAAGATTATACCCACATCAAATC
				ATCTGTAATAGCTCATGAGGTTCATCTATCAAATGGCGAAA
				CAAGATATGTCATCGATACTATTGTGGGAAAAGAAGACGG
				ACTCGGGGTTGAAAATTTGAGTGGTAGCGGGGCAATTGCT
				GGTGCCTATTCGAAAGCATATAAGGAAACGTTTACATTAAC
				ATATGTTACTGGAAGAACAGTTGGGATAGGCGCATATCTG
				GCACGTCTTGGGATGCGGTGCATACAGCGGCTTGATCAAC
				CGATTATATTAACGGGTTTTTCTGCACTGAACAAGCTTTTG
				GGCCGAGAGGTTTATAGCTCACAGATGCAACTAGGTGGGC
				CTAAAATTATGGCTACGAATGGTGTTGTCCATTTAACGGTG
				TCCGATGATCTCGAAGGTGTCTCAGCTATCTTGAATTGGTT
				GAGCTTTGTTCCACCTTATGTCGGTGGCCCACTTCCTGTTTT
				AGCACCTGTGGATCCACCAGAAAGGCCCGTTGAGTACCTC
				CCTGAAAACTCATGTGATCCTCGGGCAGCTATTTGTGGGG
				TCGTGGATAGCAACGGTGAATGGGCTGGTGGGATTTTCGA
				TAGAGACAGTTTTGTGGAGACATTGGAAGGTTGGGCGAG
				GACAGTCGTAACGGGTCGTGCCAAACTTGGCGGGATCCCA
				GTCGGGATCGTTGCTGTTGAGACACAAACAGTGATGCAAG
				AAATACCTGCAGATCCCGGGCAGCTTGATTCACACGAACG
				TGTTGTTCCTCAAGCAGGTCAGGTCTGGTTCCCGGATTCCG
				CCAGCAAAACAGCTCAGGCATTGATGGATTTCAACCGAGA
				AGAGCTCCCACTTTTCATCATGGCTAACTGGCGAGGCTTTT
				CTGCAGGTCAGCGGGATCTTTTTGAAGGGATTTTACAAGC
				AGGGTCAACAATTGTTGAGAATCTCAGAACATATAACCAG
				CCTGTTTTTGTATACATCCCGAAAACTGGAGAACTTCGTGG
				CGGTGCATGGGTGGTTGTCGACAGTCGAATCAATTCAGAT
				CATATAGAAATGTATGCAGAAACCACAGCAAAAGGAAATG
				TCCTTGAACCTGAAGGTATGATTGAGATTAAGTTCCGAAAC
				AAAGAATTGATAGACTGTATGGGTCGTCTAGATCCACAGA
				TTCGAAGCCTTAAAGAAAGACTTCGAGAAACAAAGTACGA
				TCAAACGATCGTCCAACAGATAAAATCTCGTGAAAAACAG
				CTTTTACCGATTTACACTCAAATTGCTACCAAATTCGCTGAA
				CTTCATGACACATCATTGCGAATGGCTGAAAAAGGTGTGG
				TCAAACAAGTTGTTGACTGGAAAGTATCTCGGTTTTTCTTTT
				ACAAAAGGCTTCGTCGTAGGCTCGCAGAGGCTTCCTTGAT
				CAGTAGTGCTCGTGAAGCTGCTGGTGATACTCTTTCCTACA
				AGTCTGCTCATGAGTTGATTAAGAAATGGTTTTTGGAATCG
				AAAACTGAAGATTTATGGCTTAGTGATGATGCTTTTTTCAC
				TTGGAAAGACAATCTGATGAACTATAATGACAAGTTAGCC
				AAGCTACGTACTCAGAAGCTCTTGGATCAGTTATTAAAGAT
				TGGTAATTCACCATTGGATCTACAAGCTTTACCACAAGGCC
				TCGCCGCACTTTTGCAAGAGGTGAACAAACTCTCTTTTATT
				TTCCCTTAGAACTATTTAATTTAATTATCTATGAATGCGCAA
				AAACAACAGTTTTATTTAAATATTTTTCTTTCACTATGCTGC
				AGGTGGATCCAGTGACCAAAAATAAACTAGTCGAAGAACT
				CTTGCGCGTAATTAAGTAGGTAATTATACACAAAGCTCATC
				AGATTCTTTCTTTGTTTGTCAAAGTGAGAAGCCTTTTGAGC
				AGTGTACATTATAAGTAGGTGTCATAAGAAAACAGGCTCA
				AAATAGTTTAAAGTATATGAGGTTTACCATGTTCAGATTGT
				TTTATTTTTCTTCATAAATTGTATAATACCATCACATTTCTAT
				CGCATTTTTTATATATCTATATATAAATGGTCATTTTTTATTT
				TATTTTATTTTTATAAAAGGTTCTCTTTGACCATCTTTGTGTT
				TCCTTTTGGCTCTTCTTGTCCATCTTCAGTTCTTCTCCTTCCT
				TCGCTTTCTTTTCGTCTCTTGAGTTATCTTTTCTTTATCTTCTC
				ATCGTGTACGGATTACGTTGATATGAGCACATATGGCAAA
				GTTGATTCAGATAACTCCACAACAAATTTTCACTTGATTTTT
				GAATGTTTATAAGCTTACAATACATCCATGCACTCATGTTC
				ATCTGCTAAATGTACTAGTACATAATCAAGTTAAAAACTTC
				AACCCAAGAACACTATTCCACTAAAAATTTCGGCATGATCT
				CATCATAAAATCTACAATCATTGTTTATTGTCAACCATCAAA
				GACCTGTAGAATACTAATGAACAATTGCAACAAGTGAACA
				GTTTGCCCCTTGTTACCGTTGAATGAATATTTCAAAGATCA
				TGATCGAGCCTCGATCTTGACCAGCACTGAAACATTATAAA
				AACAACTTCCATTTTAAATGTTTGTCTAATATAGGGAAGTG
				AGAGTCAGGTAGCCCACAATGTTTTAGACCCCAGAGCTAC
				TTGTTCTGGCTGTGGGGTTAAATATAGTTATATAGACTTAT
				GTTAAGTGCAGGCATTACACACTTTTTTGCATTATATGTTTA
				CGCGCAGATATATGTATTTGTGACCAGTTAAACCGGTGTG
				CTTCTCTTTTCTGTGTAATGAGCTCTGTTATGCAGTTTCGGG
				TTTGAGTCGCTTTGTGATAATTTTGTATGTGTTACTGGCCC
				GGCCAGATAAATGATCGGTTGATATAGGCTGGTTCTAGTC
				ACACTAGACGCTGATTAGTGGTTAGGCTTCGATGTATAAAT
				CAAAGTTATAGCTACATTCAAATCATTATTATAATTATTTCT
				ATTTCATTCAAAGTAGGAAGATTATATCATACATAAATATG
				ACACACAGGATGAATTTCATAAACTTCAATTCTACTTTTCAT
				TAAAAGCTTAATTTATCTAGTTGCCCGGTTTCCCATTCTTCT
				TCCCGTTGCCGCCACCAGGCCTTTTACTCCACCATGGCCAC
				CCCCTCCTTCCCCAACCACCAAATGGATATCCACCCCAGAT
				ACCTGGCCATCCACCACCTGGCCAAAATCCGCCACCAGGA
				AAATATCCACCACCTGGCCAATAACCCCCATAATACGGATA
				TGATGGGTCATAGCCCCCTCCATATCCTTTACCTCTTCCTGG
				TCCACCGTACCCTCCATATCCATCACCCGAATCATAACCTCC
				CCCTCCACCATATCTGCCACCATGATCTTTTCCACGTCCTTC
				ATCATAACCACCATCTTCTCCACCATGATCTTTTCCACGTCC
				TTCATCGTCGTCCCCTTTGCCTTCATGATCACCATCTTCACC
				ACCATGATCTTCTCCAGGTTCATCATCATCATGGTCATCGCC
				TTTTCCCCCTTCATCACCATGATCTCTTCCTGGTCCATCTTGT
				CCACCACCTTCATGATCACCACCTTCATCACCATGATCTTGT
				CCAGGTCCATCATCATCATGGTCACCACCTTTTCCCCCTTCG
				CCACCATGATCTCTTCCTGGTCCATCTTGTCCGCCACCTTCA
				TGATCACCGCCTTCACCA
50	Conyza	gDNA	17803	CATAATACTCTTACACCCCTACCTTCTTTCTAATCATTACAC
	canadensis	Contig		GCTCTCCTCGACCTTCTATCACCCTCCGCCGCCGCCCTCCTT
				CTCCACCACCGCCCTCGATCTCCACCACCGCCTCCCTTTTAT
				ATTGTCATCGCCTTTTAGCCGTTGCAACGCGCGGACACTAT
				GCTCGTATTAAAAGTAGTAACGTAATAAACATAAAGTTTAC
				GTAAAGTTTATATATTTCATTATTTTGTTATGATTTTGTACT
				GATGAATATATATTTAAGCTAAAATCATTCACTCTAGAGTG
				TAAGTCGAACGGGTCCAAACTGAACTAAACTATTTGTCTAT
				GGTAGTCAAATTCTTAATCTTTTTGGTATCGATCGTTGTGTA
				GTGTTGCACACCTCACTTGATATTAGTTTTATGTGATTATAT
				ATGGTTAATTTAATTTTTCTTTGATTTTTGATCATGGTCTTA
				AATATCATTAAAGGTGAAGAAACATGTGAAGAGGGATAA
				ATTTGGAGAAAGAATGGCATCACTAAAACAGATAGTGTCA
				CCCTATGGCAAGGTTAGTCCTTCTTTAAGTTTATTAATTATA
				TGTAATTTGTTTGATTAGGTATATCATATATGTATACTAGTT
				GTTTTGATTTCCAATCTATACAAGTAGGATTTTGCTAAACAT
				AGTTGTAAGGGTTATAGTTACAACACAATAGAATGGTATA
				CATACATTATATATATATAAAGATATATAACTGTTTATTAAT
				AATAATCTTTAACCGTCATGTAAACCAATTTACTTTGCTTTA
				TCCATATCCTTAAAGGCTATGAATAGCATAGTCGATGTAAG
				TATATGGTTGCTTAGACGGTGTGTTAATGTTGATCGTACAG
				GAGTCTAGACTTGGACCATTGTGTTTTAGAGAAGAAGGGA
				ATCGAACGCAAAGGTAAAACTTCCTTTATTTTTAAGAGCAT
				AGTTATAATATCATTCAAATTTAACCAACAATTTCTGTTACA
				TACATCGAAATAGGCTTGATTACTCATACCTATAGAGATGA
				GTGACATGTGTGTATGAAGATTTATATATTGAATTGTAGGA
				TATCATTTTCCCATTTCTAATGTACTAGTTAATTATGGTTTG
				CGGTTTTTTTCTTTGTTGTATGTCCATTACAAAATTACAGTT
				GGACATCTTCTTGGTGGAATTCAGATGATATAAAATAGTTA
				ATTTTACCAAACACTACATCATTGGTAGAGAGAAATTAGAA
				CGTAGATAAATGGTTTGTAAGTTTCAAAAGAGATACTCGTA
				TTACATAAAATGTTGTCTTTTGCAATTCGCAGATTTCCAATT
				ACAACAGATTTGACACAATGTTCTATTATTTGTTAATCCAAC
				CATGAACCACTAATAAAACAGTACAAACATCTTGAATAAAA
				AAAAGCCACCAATACATTATTGATTGTTGTATGCTTTTTGTC
				TCCATATAATGACCAGTAATATCAAAAAACATGTATTTTATT
				CTTATTCTAGCTTAAAAAGGTTCAAAAATGCACATCCAACT
				TTCTCTCTTCTTTCCAATCATAGCTTTTCAAATTAAAAGCAT
				ACACGTAAAAGAAACATATGGATGTAGATTGATATGTGTG
				TGGGGGGTAGTTGGTTAACCATGTCACGTGCTCTGCATCA
				CCTCCCATCCTTGGACCCCAATTTGTTTTTTGTACCTACTAC
				ATATTTAAGTAACTTTATGGCACCTCACCAAAAACCAACCA
				AACAAACCAAACTCCCAACTATACATCACTTAATTGCACAC
				ACACATATACCTCAACAAGTACTTACATCTCTCCCAGATTTC
				TGTCATTCCAATTTTCTTGTTTTTAATCACAATTTTGTTGTTG
				TTGTCAATGTCTGTCTCTTTTCAAACCAGCTAAAAAAAGAA
				GCAAATTCTTGATTTGATTCAGCTGTTGTTCCACTTGTTTAT
				GGTTAGTCTTTCTCATTCTTTCACCCCCCAAGTTTAAATCTTT
				GAGTTAATTTCTTCAAATTCCTGTGTTTTTTGAACCGGGTTT
				TTATCAGTTTTGTTGAGTTTAGCAAAAAAGTAGAGTTGGGT
				ATGTAAAGATTGAATCTTTTTACTGGGTTTATGTAATTTCTT
				TGAAATTTATAAGTTTCTTGCAATGGGTATATGATTTTCTAT
				TGATTGAAGTGGTTAATAACAGGATTTGGTGAGTAAAGTT
				TGAATCTTTCGAGTTATGGATTTATGTCATACCTTTTCTTGC
				CCTTCAAAATAAAGTCAAAGCTTTAGTTTTGTGATTTGACTT
				TGGTATCCCTTCAAAATAAAGTCAAAGCTTTAGTTTTGTGA
				TTTGACTTTGGTATGCTGTTGCTCCCATGAATATTTTCATGC
				TGTTTGTAAATTGTAATATATATTTTGATAAATTCAATTTTG
				TTATATTTGTTTCCTGATAAAGTTTTAATGTGATTAGTGATT
				ACTTCAATTTGATGAGTTCAATAATAATAAGAAATTTAGAA
				CTTTGAACCTCGTAGTTCTAATTCGAGGTTTCCTAGCTCTAT
				GTAAACCCCACTATATTCTCCATTATAACATACGTTTATGTG
				TTACTTTATTTAGACATTTTAATATTGACTCAATTATAACAT
				AGGTTCAGCTGAAAATTTAATTTCTTTGTTAGTGAATTGTT
				GTGACTTTTTTTTTTGGTAGTTTGCGTTGTGATAGTCAGGA
				GACAGAAAGGGCAATTTGTTTCTGTTCTTTTTAAGTTAGAT
				AGGTGACCATTTCGGTAGATACTAGATAGTGCAAAGATAT
				AGTGTTTTTTGTAAGTACCAAGTACTTTATGAACTTACCCA
				ATGATAACAACTTTTGATGGTTCAGTGGTTCAGCCTTCTCTT
				TGTCCCTAGACTAATTAGTCCAATCTATCTCTCAGTATATAT
				TTTTTAGGTATTGACATATTTTATGATATTGGCAAGTTGGT
				AGTTTACTTTCAACTTTTAAGCAATATATGGACATATCCACA
				TATATCAGTTCCATATTACTAGCATGTATCCTATTCTGGGTT
				AGTATGCTACAAAAAGGGTTTACATGTCAAATGCAGAATT
				GTTCAAAGAAAACGAGTTGTTAGACCTAATAAGTCAAAGT
				AATGCTTACTCTACACTTTGCTTACTGTTTGGCAGTGGCAC
				CATGTCAGAAGCTCAAAGAATGCTTCTAAGTGGAAGTTTC
				AATTATTATGGTAATGGCATTGTAAATGGGGCGATTTCACT
				GAGGTCTTCTGCTAGTAGATCTGCAATTGATGAATTTTGTA
				ATGCACTTGGAGGCACCAGGCCAATCCAAAGTATTTTAATT
				GCAAATAATGGAATGGCGGCTGTAAAGTTTATAAGAAGTG
				TGAGGACATGGAGTTATGAAACATTTGGCTCAGATAAAGC
				TATTTTGCTGGTAGCCATGGCTACACCGGAAGATATGAGG
				ATAAATGCCGAGCATATTAGAATCGCTGATCAGTTTGTTGA
				AGTCCCTGGTGGTACAAATAATAATAATTATGCGAATGTGC
				AACTCATTGTAGAGGTATGTAGCTTATATACGTGGATCCTA
				CATCATGATTTATAAGCTTTAAAATGATCTATTTTATGAAAC
				ATTGTGCATTTAATGATGCCTGAAAAGATTATGTTTCCAAG
				ACTTATTTTGCTTAACTTGTTGGATCAAAATGTTGATCTGCT
				TCCATGAATATAGTAATTCGAATATGTTGGTTTAATCTTCAC
				TTTCAAAAAAAAAAAAAAATACTTTCAACTTTTTATGTTAGC
				ATTGAGTTTGAATCTCAAGAGAACTTATTTCACTTTTGAAA
				TCGATATGGATGTGTTGAACATGTAATTGATAATCAGCAAC
				ATTTTAAAATTTATTAGAAAATGACGAGGGATGCCTCTTCA
				GGCTACGCGGCGAGCCTTTGGCTCTAATGTAAGCGGCCTA
				ACCGGTATACCCGGGTCTCTTCTGAGATCTTTGGGTCACCT
				TACCACTAGACCCCCTTGGAGAAGGTTTTAAAAAGTATTAG
				AAAGTATATAAATATAAAATAGAAACGATATGTAAAATTTA
				AAAAATATGTTTCATTGAGTTATCTTACACCTGACTATTTGA
				TATTGAGCATTAATACGAGTTTGATGGAAAATATAAAATAA
				TTAATATTTAGCTATCATCATCAATTCCTTTAAAATGGTTCA
				TTTATGATTTATGACTTCAGACTGCTGAGATAACACATGTT
				GATGCTGTTTGGCCTGGTTGGGGCCATGCATCCGAAATCC
				CTGAGCTGCCTGATGCATTGGAAGCAAAAGGTATTGTATT
				TCTTGGGCCACCAGCTTCCTCCATGGCAGCTTTAGGTGATA
				AAATTGGTTCTTCTTTGATTGCACAAGCTGCTGATGTACCG
				ACACTTCCTTGGAGCGGTTCTCATGTAAGATTTTTTTTACTA
				TTGTAGTCTTTGTCACATCAACAATGATCCTTATACTTTTAA
				CTCCATAAAGATTGCATCGTTCTATCTCATATTCTCTATAAT
				CTAAAAAAATTCTATATTCCTCTTATTTGTGAAAAGTCTGAA
				CTTCATAACAAAATCACATCTTGTACCTCTTATATATTAAAC
				TGCATCTTTATGCCTCTAATTTATTGGAAACAAGATCTTTAA
				ATCCTTTAAAGGTTGCATCTTTATACCTCTTATTCTGTAGAA
				ATTACATTTCATACCACTTGTTCTTTGCAATTTCGCATAGAT
				ATTAATGCCTACTCTTTAAAAGATACATTTTCTACTTCTTTA
				CCTCTATAATCACATCTTTGTACCTTTCACCTCTCCAGTCTTC
				TTACTCTCTACAGTCACATTTTTAGGTAAAAATTCCTGTGGA
				TAGCTGTTTGGACACACTCCCGGATGATGTATATAGAAAA
				GCGTGTGTGCATACAACAGAAGAAGCAATTGCTAGTTGTC
				AAGTTGTTGGTTATCCAGCAATGATTAAGGCATCATGGGG
				TGGAGGTGGCAAAGGCATAAGAAAGGTTTGATTCTTTACA
				ATTGGGAAATTATTTCTTCTCCTCAAAGTATACGGCAAACT
				TTTAAAACCAATTACCTATTGAAACTTTAGGTGCATAATGA
				CGAAGAAGTCAAGGCACTTTTTAAGCAAGTTCAGGGTGAA
				GTGCCTGGTTCCCCTATTTTCATTATGAAAGTTGCTTCTCAG
				GTAGGACAATGTTGTAATTGTTATTATTTTCCCAATTTCAAC
				TCAAAACCCATTATCATTATAATAATATGTTGATTTCTTGTA
				TATACAGAGCCGACATCTAGAAGTGCAGCTACTATGCGAT
				CAACATGGGAATGTAGCAGCTTTGCATAGTCGTGATTGCA
				GTGTTCAAAGGCGACATCAAAAGGTAAGTTCATGTTTGTC
				CTTTTTACTTTCTTTTTATCCTGTTTTGTAACTCTAATTTTATT
				TAATACTTGATATGTCAAGATTATTGAAGAGGGGCCAATA
				ACCATAGCTCCACATGACACAATAAAGAAGCTTGAGCAAG
				CGGCGAGAAGATTAGCAAAGTCGGTTAATTATGTTGGAGC
				AGCCACTGTAGAGTATTTGTATAGCATGGAAACTGGAGAC
				TATTACTTTTTGGAGCTCAATCCCCGGTTACAGGTGCTTGC
				AATTTCTGTTTTGTGGGTCCTAGTTATGTGTCCTAAGAAGT
				AAGATGAAATGGTGGGCTCCAAGATGGTTATGATTTGTTT
				TCTGAAGCTATGTATGTGGAACCTTTCTTTAGGTTGAGCAT
				CCAGTCACAGAGTGGATAGCGGAAATCAATCTACCTGCAG
				CACAAGTTGCGGTTGGAATGGGCATTCCTCTTTGGCAAAT
				ACCAGGTTAGATATCAAAAGTTCGTTTTTTGTTGACTATCA
				TAGTTGGTCTTTTGCTACAATGCAACCATCATGTCAACTATT
				TTCTTAATTTCTCTACATGTCTTGTTGGCTTAGAAATAAGAC
				GATTTTATGGAATGGACAATAGTGGAGGATACGATGCTTG
				GAGGAGAACATCTGCTCTTGCAACTCCATTTGACTTTGACA
				AGGCAGAGTCTATCAGCCCAAAAGGTCATTGTATTGCTGT
				ACGTGTAACAAGTGAGGACCCAGATGATGGATTTAAGCCC
				ACTAGTGGAAAAGTTCAGGTTTGGAAGCAGACTAACATAT
				ACCATATACCCCTACAAATATAATATATATCCTTTTTTTTTTT
				TTTTTACCATATTGATCGAATTCCACTTTTAGGAGCTAAGTT
				TTAAAAGCAAGCCAAATGTCTGGGCATACTTTTCTGTCAAG
				GTACGCTGGGTTCAAACCTTTTTTTTTTTTTTTGAACTTCCA
				ATTGACATATTCTAAAATGTTTGAACATTGCAGTCCGGAGG
				AGGCATTCATGAATTCTCAGATTCTCAATTTGGTAAAGACG
				ACTGGATCTTGTTTGGTTGAAATATCTTGAATACTCACTTAT
				TGGTGTAGTTCAAGTTTACATTCTTGGTCAAAACGTTCATG
				TTCTCATTTTAATTCTGTATCTATCTTAGGCCACGTTTTTGCA
				TTTGGCGAGTCAAGACCTTTGGCTATTGCAAATATGGTTCT
				TGGGCTGAAGGAAATTCAAATTCGTGGCGAGATCCGTACG
				AATGTTGATTATACAATTGATCTGTTACATGTGAGCATTTT
				GGGGTTTCACAGCTAACAAATTTCTTATTTTGTTTACCATAA
				TGAGTTACTTCATGGCGATATAAGGGGTGAGCCATGGAGC
				AAGTGCCATGTATCTTAACAGATAAATTGTTATGTTCATGT
				TTGGCGAGTACTTACACATTTGAGAATGTCGAGAATTTGAT
				TATATTTCACCAAACGTTCTTATTGCTTCACCTAAAATGTGA
				ACGTTTTCTTACATGCTTAGTTTTTATTCCTTTTTCTATACTT
				GTAGGCTCCTGATTATAGAGAAAATAAAATACATACCGGT
				TGGTTAGATAGCCGAATTGCTATGAGGGTTAGAGCAGAAA
				GGCCCCCTTGGTATCTTTCAGTAGTTGGGGGAGCACTTTAC
				GTAAGTACAAAATACCTCTTTCTTTCTATATTCGTCATTTTT
				AAAGTACTTTTACTTACCATTGATGTTTGTTAACTTCAGAAA
				GCTGCTGCTAGAAGTGCAGCCATGGTCTCGGACTATGTTG
				GTTACCTTGAAAAGGGCCAAATCCCTCCTAAGGTTTGTCAG
				ATATTTTAGTATTTTTTTTTAATTTTTAAGAGTTGGTTCTCGT
				AATGTTTACATTGATGATCAGTATTTGTCTGTTTTCTTACTT
				TCAGCATATATCATTGGTCAACTCACAAGTTTCTTTGAATAT
				TGAGGGCAGCAAATACACGGTAAATAACAAGATAACTGCC
				TATCGTTATTCGTTCATAAAAATGGTTGTTCTTGAAGTTTTC
				TTTTGTGTGTTTTTTTTCTTCTGATTTTTTTCTTTTTATTTGTT
				AGATTGATATGGTAAAAAGAGGGCCAGGAAGTTACAGATT
				GAGAATGAATCAATCCGAGATTGAAGCAGAGATACATACA
				CTACGTGACGGAGGCTTATTGATGCAGGTACTTAATCCATA
				CGCTCTATTTTTCTTTCTATTTGGTTTATTCTGTCAAATTTTC
				TTTTTATTTGGTTTATTCTGTCAAAATTTCTTTTTATTTGGTT
				TATTCCGTAGTTAGTTTGTGATTAACTGATTACTATATTAAG
				TCATTGGTTGGTATGTATACATATAAAACTCGAATATAAGC
				ATTTTAATGATGCCAAACCTATATGTAGTTTTACTCTTTAGG
				ATTTCATGATATACCTAGGAAATCCCTCGTGTCTTTGTGGC
				AGCTAGCAAGTTGAAGATTAATAATATCAATAAAGAAATT
				CAGAGAATTTAATGCAGCATGTTCTAAGGGAGTGTTCGGG
				GATGCATTCTGAAAATAATTATGTGATATTTAGTAAAATTG
				CAATTAAACGTGGTGCAAGAAATAGTGTTTGGATATGCTT
				CTGCTATAAAGTTCTGGCAATCGCTGTATTGAGTGTTTGAC
				GGATTATGTCTATTTAAGAAGGTGGTAGATAAACTAAAAG
				TATACATGGTTAGTGGTGCTGTAAGCATTTGCCATCAAAAA
				GTAGGTAGATAAAGGAAGAGTGCTATAGGTAGTTTTATGC
				TACTTTTTGGTTATCGAGTTCGTTGCAGCTAGTATCAAACT
				AATTCTTTAACTATCGTAGCTGTAATAGGTCACCCTGAACA
				TTTCAATTTATTGCAACCTTAAGTTACATCATTTGATAATCA
				CGTTCAAGACACATTCTTATTTTATACTCTGATATCATATGA
				TTTGTGGTTGGTTGATTCAATGATGTAGTTGGATGGGAAT
				AGTCATATATTATACGCCGAGGAAGAAGCTGCCGGTACTC
				GCTTGCTTATTGATGGACGGACTTGCTTGCTTCAGGTGCGA
				ACAACTAGTTCTTTTCTTGAACTTTATTTAGAGGTTGCCATT
				TCAACCATTTATCTATGATGGGACAATTTAAACAATGTTTT
				ACCCTTAATGGTGTATTCAAATGGGTCAACAGTGACCCAAA
				GTACATTCTCACTGGAGCAAACTGCCTGTATCATTTTTTTTT
				GTGAGGTTCATTGTTTTTGAATAATATTGTGTTAATTTTCAT
				ATTTAGTAGACTAAAGTAATTATGTAAGTTGTTGTGAACCC
				GTTCGATCTGCTCAGGTTATACTCAACCGGTTGCAATCCTC
				CTAATTTGCCACCTTTACTATTACTTACTATTTGGGTTACCT
				GTTTATAGAATGATCATGATCCTTCCAAGTTGATGGCTGAA
				ACACCATGCAAACTTCTAAGGTACTTGGTCTCAGATGATAG
				CCATGTTAATGCTGACACACCGTATGCTGAGGTTGAAGTTA
				TGAAGATGTGTATGCCACTCCTTTCACCGGCTGCTGGAGTT
				ATACAATTCAAGATGTCAGAAGGTCAAGCCATGCAGGTTA
				GCATGTCACTTTTTCCCCATTTTTAAGAAGTATTTACATTGT
				TCAGTTTTTCCGAACATCCAAGAATAAAGCTCTTGGTTCTA
				TGTTTTTGCCAACTACTTACAGCTATTTATATTTACATGTTA
				ATAAAATGTTCTATCGATTGACTTCTTGAGTCATTGTGCTTA
				TCGCAACTCAATCTTCGTTATTGTACAGTGATTTTTTAAATG
				TAATACTGCCAACTTTTTGAATAAATCGTATCAAATGTAATC
				TTTAAGCTATATAACAAACATATGAATTTCGATTTCCAAATA
				ATATCTACAGTTCACAAACAAATGCTTGTTTCCTGCTTGTTA
				ATACCATTTTTGTCTTCTCTAAATCATACATACCAAAACCAA
				AATTGTTGATCATTTCTGATGAATATAAATCTTTGTATATGT
				AGGCTGGTGAGCTTATAGCAAGGCTAGATCTTGACGATCC
				GTCAGCTGTAAGAAAAGCAGAGCCTTTCAATGGAAACTTT
				CCTCTTCTTGGGCCTCCAACGGCCATGTCAGACAAAGTGCA
				TCAGAAGTGTGCTGCAACTTTAAATGCTGCTCGAATGATTC
				TCGCAGGCTATGATCATAACATTGATGAAGTAACTTGTTTG
				CCATTTACTGATTTCAAATTTTCTGAAAGATTATTCTGTTAA
				CAGTTCTGATCTTTGATCGTAGGTTGTGCAAAACTTGCTTC
				GTTGTCTTGATAGTCCCGAGCTTCCTTTCCTTCAGTGGCAA
				GAATGCTTTGCAGTTCTAGCAAATCGTCTCCCTAAAGATCT
				AAGAAACAAGGCAAATTGATATTTTACCCTTTTTTTTTTCTT
				TTCAAGCAGTTAACATTGGGATTATTTTTCTAAATTCAATAT
				GTTTTGTATATTCAGTTGGAATCCAAGTTTAAGGAGTACGA
				AGGAATTTCCACACAACAAACTATTGACTTTCCTGCTAGAG
				TTCTACGGGTCATTCTTGAAGTTAGTTGTGATCAGTAGTTT
				TCTTTATAAGTCCTTTCTTTGATTTAAAGACATAATTTAGTT
				ATATGTTACCTTTGTAATGTTTTCGTTCAGACCCATCTTGGA
				TCTTGCTCAGAAAAAGAAAAGGGAGCCCAAGAAAGGCTC
				GTTGAGCCATTAATGGGTCTTGTAAAGTCGTATGAAGGGG
				GAAGAGAAAGTCATGCACGTGGGATCGTTCATGCTCTATT
				TGATGAATATTTATCTGTTGAAGAGTTGTTCAGCGACAACA
				TTCAGGTGCGTTTGTTAGGATCGCCGATCCAGTATTTTGGA
				TTTTCGATAGGGCATGCACTTGCATTACCATAGTCAGTTTA
				TATTTTATTTCATCTTGTTACACGACAACAAAGTACCTTTTT
				TCAAAGTATAAAACTGCACAGGTTATGTGCTCCCAAAGGG
				TTTTTTAATACTTTGATCTATGTGGAAATGGTATAAGAGTTT
				TAATCATTTTGACATTAATGTCTGGATAAATTTGTTACGGG
				TTAAACCAATCAATCTAAGCCAAACCAAAAGTTACCTGCAA
				AAGCTATTACCTAACCCACCCATTTTGCCACCTCTGTTGGTT
				TTCTTTAGGTCTACTAATGGTTATCGAGTAAATTATATTATA
				ACATAAGTAGTAAACCAAAATCCTGTACCTTTTAGGCTGAT
				GTAATCGAACGTCTTCGACAACTATACAAGAAAGATCTCTT
				GAGGATTGTCGACATTGTCCTTTCCCATCAGGTACACATGT
				TTTTTGGTTTTTGTTCTCCCCTTTAATGTGTATTTTATACCGA
				TCATTAATATATGTCCATGCAGGGTGTTAGGAGTAAAAAC
				AAATTGATACTACGGCTGATGGAGCATTTGGTTTACCCCAA
				TCCGGCTGCGTATAGGGAGAAACTGATACGATTTTCTCAA
				CTTAACCACACAAGTTATTCTGAGGTCATCATCGTCATATA
				TATACACTGTTACAATTTTGATCATCTCAATCACTTTTCTGTT
				AGTACTGAGTTTATGTTAATTGATTATTATTAATAGTTAGC
				ACTGAAGGCAAGTCAACTTTTAGAACAAACTAAACTAAGT
				GAACTTCGTTCAAGCATTGCGCGAAGTCTTTCTGAATTAGA
				GATGTTTACTGAAGAAGGTGAAAATATGGATACCCCTAAG
				AGGAAGAGTGCCATTAATGAAAGAATGGAGGATATTGTG
				AGTGCTCCATTGGCAGTTGAAGATGCCCTTGTTGGTCTTTT
				TGACCATAGCGATCACACCCTTCAAAGGCGTGTTGTTGAG
				ACCTATGTTCGAAGATTATATCAGGTTTTTACCTTTCATTTC
				TGCATCAACAGAGTTGTCAATTTGTTGTCATAGAAAATTAA
				AGGTGTTTGATCAGATTGTTTTAAATAAAATGTGGTTTAAT
				ATATGCATACATCTTTAAAAAAAGAAACGACATGTATTTAT
				TGGTAAAAAACTAAAACATCAAATCAAGTGTGGATTTTATA
				CTGTTTTTTACAAAACTTTGTAAACTGATTATATGTTGTTTA
				CTTGAACAGATAAATGTTTTAAACTATTAAGAATATTTAAA
				AGATGGAATAAGAATAAATTTAAAGTCATTTCTGAGTTGTG
				GCCCTTGAGAATAGCTGTTCATGTAGTTAGTAGACCTATTT
				GACTTTTTTCTAAAATGTATACTACACTGTTTATTAATGCCT
				ACTCAAATGAATCGGGTTGTCTAAAATAAAACATCACTTAT
				AACAACAATAAAAGAAGCAAAGCAGTCATTTTAGTTTGCA
				CTTTTGCAATTCTCTTGGTAGGAAGAAATCTAATATGATTTT
				AACTGACCATGCTTCTCATATCTGTATCAGCCATATCTCGTG
				AAGGGGAGTGTTAGAATGCAGTGGCACAGATCCGGACTC
				ATCGCTACATGGCAATTTATAGAAGGACTCATTGGAGAAG
				TTAATGTGCCTGACTATGAACAGAATGAAGCTCCCTTGGAA
				GACAAGAAATGGGGAGCTATGGTTATTATTAAATCTCTTCA
				ATTTTTGCCTGATGTCATAAGTGCATCTCTTAAAGAAACGA
				GTCATAACCTTCCCAGAACAAGTCAGAATGGGTTTGCTGG
				TCATAGTAACCATGGTAATATGATGCACATTGCTTTGGCCG
				GCATAAATAACCAGATGAGTTTGCTTCAAGACAGGTATGT
				GATGATAATGTTACATGAAAAGATACCATCAAACCTGCTTT
				ATGATCTTTGTGTCATGCTCAAGAAACAAAATAACTGGATA
				AATATAAAAACTGAGACCCATCATCATTCGATGATGCATGC
				CATGTTAACAGTCGGTAGATTTGATGGCTTATTCATTAGCT
				GGTGACATATATTTGCCCTGTTGATGTTATGTTCACTTGTTA
				TGTGATGAACTGTAGTGGTGATGAGGATCAGGCTCAAGA
				GAGAGTCAACAGGTTAGCAAAAATACTCAAAGATAAAGAA
				GTAAGCTCGAGTCTTAAAAACGCAGGGTATGGAGTGATCA
				GTTGTATAATACAAAGAGATGAAGGGAGAGGCCCCATGA
				GACACTCATTTCACTGGTCAGAAGAGAATCATTATTATATT
				GAAGAGCCATTATTGCGTCACTTGGAGCCTCCATTATCGAC
				ATATCTTGAACTGGTTTGTGCTCAAAAGACCCTTCATAATTT
				TTCAATTCATTAATAATATTATAATACCAATGAAGTTGTAAA
				TGTATTGCTTATGCAGGACAAACTTAAGGGCTATGATAATA
				TAAAGTACACTCCGTCGCGTGACCGTCAATGGCACATGTAT
				ACTGTTGATGCTAAACCACTTCCGGTACAAAGAATGTTTCT
				TAGAACTCTTATAAGGCATCCAACAAAGGAATGGTTCTCGC
				CCTCAGGTTACCAAGGTTCAGAAGATGAGGGCCCACGGTC
				TCAGTTAAATCTCCCTTTTACATCAAGGAGCATCTTGAGAT
				CATTAGTGACGGCTATGGAGGAGTTGGAACTTCATGTTCA
				TAATGCTACTGTCAAGTCTGACCATGCTCATATGTACCTAT
				ATGTATTGAAGGAGCAACAAATTGGTGATCTTGTTCCATAC
				ACAACGTAAGTATTCATGTCATCTTCATGAATTTTTTTTTAT
				CATATGCACTCATTTAACAATGGTAATATGTTGTGAACAGG
				AGAGTGGATGTAGATTCTGGGACAGAAGATTGCGTGGTT
				GAGACACTTTTGGTAAGGCTGGCTCGTGAAATCCATTCAAT
				GGTTGGTGTAAAGATGCACCGGTTGGGAGTTTTTGAGTGG
				GAGGTGAAGCTTTGCATGGCATCATCGGGTCAAGCCAACG
				GTGCGTGGAGGGTTGTGGTCACAAATGTGACTGGTCATAC
				CTGCGTTGTGCATGTAAGTCATTAGATAGGATTATAGACAT
				TTCAGCAATACCCCTCAAACATGCTTTTACCTAAAGTCAATT
				GCTGCAATTTTGATTTAGGTATATCGTGAACTGGAAGATAC
				TGGTTTGCACAAGGTGTATCATGCTACCTCTACATTGGGTC
				CTTTGCATGGCGTACCTGTGAATACACCCTTTCAGCCTTTA
				GGATTACTTGATCAGAAGCGTCTTTTGGCAAGGAAAAGCA
				ATACTACGTACTGCTACGACTTTGCACTGGTATAACTATCA
				TTTTGCTCTTTCAATGCTTGATGGTCACCTAAATTTGATTGT
				ACAGAAACACTTATTACCATATCTATATTTCCAGGCATTTGA
				AGCAGCTCTTGAGAATATCTGGGCGTCGAAAGTCGTAAGT
				GATAGCAGGCCTAAGGGTAAACTTGTGAATGTGACGGAG
				CTCATGTTTGCTGAGCCAAGTGGCTCATGGGGAACTCCCCT
				TGTTGCAGTAAATCGTGAGCCAGGGCAAAACAAGGTGGG
				CATGGTGGCGTGGACTATGGACCTCTGCACTCCTGAGTTTC
				CTGATGGAAGAACGATTTTGGTAGTAGCAAACGATGTTAC
				GTTCAAAAATGGATCTTTTGGTCCTCTTGAGGATGCCTTTTT
				TGAGGCAGTTACTGATCTCGCTTGTGCCAAGAAACTGCCA
				CTAATATACTTGGCAGCAAACTCGGGGGCCCGTATCGGAG
				CGGCTGAGGAAGTCAGATCTTGCTTTAGAATTGGGTGGTC
				TGATGAGTCGACTCCTGAATCGGGATTCCAGTATTTGTATC
				TTACTCCTGAAGATTATACCCACATCAAATCATCTGTAATA
				GCTCATGAGGTTCATCTATCAAATGGCGAAACAAGATATG
				TCATCGATACTATTGTGGGAAAAGAAGACGGACTCGGGGT
				TGAAAATTTGAGTGGTAGCGGGGCAATTGCTGGTGCCTAT
				TCGAAAGCATATAAGGAAACGTTTACATTAACATATGTTAC
				TGGAAGAACAGTTGGGATAGGCGCATATCTGGCACGTCTT
				GGGATGCGGTGCATACAGCGGCTTGATCAACCGATTATAT
				TAACGGGTTTTTCTGCACTGAACAAGCTTTTGGGCCGAGA
				GGTTTATAGCTCACAGATGCAACTAGGTGGGCCTAAAATT
				ATGGCTACGAATGGTGTTGTCCATTTAACGGTGTCCGATG
				ATCTCGAAGGTGTCTCAGCTATCTTGAATTGGTTGAGCTTT
				GTTCCACCTTATGTCGGTGGCCCACTTCCTGTTTTAGCACCT
				GTGGATCCACCAGAAAGGCCCGTTGAGTACCTCCCTGAAA
				ACTCATGTGATCCTCGGGCAGCTATTTGTGGGGTCGTGGA
				TAGCAACGGTGAATGGGCTGGTGGGATTTTCGATAGAGAC
				AGTTTTGTGGAGACATTGGAAGGTTGGGCGAGGACAGTC
				GTAACGGGTCGTGCCAAACTTGGCGGGATCCCAGTCGGG
				ATCGTTGCTGTTGAGACACAAACAGTGATGCAAGAAATAC
				CTGCAGATCCCGGGCAGCTTGATTCACACGAACGTGTTGTT
				CCTCAAGCAGGTCAGGTCTGGTTCCCGGATTCCGCCAGCA
				AAACAGCTCAGGCATTGATGGATTTCAACCGAGAAGAGCT
				CCCACTTTTCATCATGGCTAACTGGCGAGGCTTTTCTGCAG
				GTCAGCGGGATCTTTTTGAAGGGATTTTACAAGCAGGGTC
				AACAATTGTTGAGAATCTCAGAACATATAACCAGCCTGTTT
				TTGTATACATCCCGAAAACTGGAGAACTTCGTGGTGGTGC
				ATGGGTGGTTGTCGACAGTCGAATCAATTCAGATCATATA
				GAAATGTATGCAGAAACCACAGCAAAAGGAAATGTCCTTG
				AACCTGAAGGTATGATTGAGATTAAGTTCCGAAACAAAGA
				ATTGATAGACTGTATGGGTCGTCTAGATCCACAGATTCGA
				AGCCTTAAAGAAAGACTTCGAGAAACAAAGTACGATCAAA
				CGATCGTCCAACAGATAAAATCTCGTGAAAAACAGCTTTTA
				CCGATTTACACTCAAATTGCTACCAAATTCGCTGAACTTCAT
				GACACATCATTGCGAATGGCTGAAAAAGGTGTGGTCAAAC
				AAGTTGTTGACTGGAAAGTATCTCGGTTTTTCTTTTACAAA
				AGGCTTCGTCGTAGGCTCGCAGAGGCTTCCTTGATCAGTA
				GTGCTCGTGAAGCTGCTGGTGATACTCTTTCCTACAAGTCT
				GCTCATGAGTTGATTAAGAAATGGTTTTTGGAATCGAAAA
				CTGAAGATTTATGGCTTAGTGATGATGCTTTTTTCACTTGG
				AAAGACAATCTGATGAACTATAATGACAAGTTAGCCAAGC
				TACGTACTCAGAAGCTCTTGGATCAGTTATTAAAGATTGGT
				AATTCACCATTGGATCTACAAGCTTTACCACAAGGCCTCGC
				CGCACTTTTGCAAGAGGTGAACAAACTCTCTTTTATTTTCCC
				TTAGAACTATTTAATTTAATTATCTATGAATGCGCAAAAAC
				AACAGTTTTATTTAAATATTTTTCTTTCACTATGCTGCAGGT
				GGATCCAGTGACCAAAAATAAACTAGTCGAAGAACTCTTG
				CGCGTAATTAAGTAGGTAATTATACACAAAGCTCATCAGAT
				TCTTTCTTTGTTTGTCAAAGTGAGAAGCCTTTTGAGCAGTG
				TACATTATAAGTAGGTGTCATAAGAAAACAGGCTCAAAAT
				AGTTTAAAGTATATGAGGTTTACCATGTTCAGATTGTTTTA
				TTTTTCTTCATAAATTGTATAATACCATCACATTTCTATCGC
				ATTTTTTATATATCTATATATAAATGGTCATTTTTTATTTTAT
				TTTATTTTTATAAAAGGTTCTCTTTGACCATCTTTGTGTTTCC
				TTTTGGCTCTTCTTGTCCATCTTCAGTTCTTCTCCTTCCTTCG
				CTTTCTTTTCGTCTCTTGAGTTATCTTTTCTTTATCTTCTCATC
				GTGTACGGATTACGTTGATATGAGCACATATGGCAAAGTT
				GATTCAGATAACTCCACAACAAATTTTCACTTGATTTTTGAA
				TGTTTATAAGCTTACAATACATCCATGCACTCATGTTCATCT
				GCTAAATGTACTAGTACATAATCAAGTTAAAAACTTCAACC
				CAAGAACACTATTCCACTAAAAATTTCGGCATGATCTCATC
				ATAAAATCTACAATCATTGTTTATTGTCAACCATCAAAGAC
				CTGTAGAATACTAATGAACAATTGCAACAAGTGAACAGTTT
				GCCCCTTGTTACTGTTGAATGAATATTTCAAAGATCATGAT
				CGAGCCTCGATCTTGACCAGCACTGAAACATTATAAAAACA
				ACTTCCATTTTAAATGTTTGTCTAATATAGGGAAGTGAGAG
				TCAGGTAGCCCACAATGTTTTAGACCCCAGAGCTACTTGTT
				CTGGCTGTGGGGTTAAATATAGTTATATAGACTTATGTTAA
				GTGCAGGCATTACACACTTTTTTGCATTATATGTTTACGCG
				CAGATATATGTATTTGTGACCAGTTAAACCGGTGTGCTTCT
				CTTTTCTGTGTAATGAGCTCTGTTATGCAGTTTCGGGTTTG
				AGTCGCTTTGTGATAATTTTGTATGTGTTACTGGCCCGGCC
				AGATAAATGATCGGTTGATATAGGCTGGTTCTAGTCACACT
				AGACGCTGATTAGTGGTTAGGCTTCGATGTATAAATCAAA
				GTTATAGCTACATTCAAATCATTATTATAATTATTTCTATTTC
				ATTCAAAGTAGGAAGATTATATCATACATAAATATGACACA
				GAGGATGAATTTCATAAACTTCAATTCTACTTTTCATTAAAA
				GCTTAATTTATCTAGTTGCCCGGTTTCCCATTCTTCTTCCCG
				TTGCCGCCACCAGGCCTTTTACTCCACCATGGCCACCCCCT
				CCTTCCCCAACCACCAAATGGATATCCACCCCAGATACCTG
				GCCATCCACCACCTGGCCAAAATCCGCCACCAGGAAAATA
				TCCACCACCTGGCCAATAACCCCCATAATACGGATATGATG
				GGTCATAGCCCCCTCCATATCCTTTACCTCTTCCTGGTCCAC
				CGTACCCTCCATATCCATCACCCGAATCATAACCTCCCCCTC
				CACCATATCTGCCACCATGATCTTTTCCACGTCCTTCATCAT
				AACCACCATCTTCTCCACCATGATCTTTTCCACGTCCTTCAT
				CGTCGTCCCCTTTGCCTTCATGATCACCATCTTCACCACCAT
				GATCTTCTCCAGGTTCATCATCATCATGGTCATCGCCTTTTC
				CCCCTTCATCACCATGATCTCTTCCTGGTCCATCTTGTCCAC
				CACCTTCATGATCACCACCTTCATCACCATGATCTTGTCCAG
				GTCCATCATCATCATGGTCACCACCTTTTCCCCCTTCGCCAC
				CATGATCTCTTCCTGGTCCATCTTGTCCGCCACCTTCATGAT
				CACCGCCTTCACCA
51	Conyza	gDNA	16098	AGTAGAGTCTAGATTAAAATTTCATATACGATTGATATTAT
	canadensis	Contig		AAAGTGAATAATAGTAGCCTTGACGAGTCAAAGAGATATC
				ACAGAGAGATATTAGAATCCGGACATTACTAACGGCATAG
				GATTAACGGAATTTGTGGTTTTAAAACAGTAATTATCTAAG
				AAATATGAAACAAGAAGTTATATATTCGAATAAACTTGGAT
				ACAATAATTTGATTACATGTTAGTTCAACCATAATCAAATA
				CTCGAAAGTCGTAATACACTACCAATATCTTGATTCATATC
				ATTTGCATTGACTAAATCACTAAAATCATCATTAAATTACAA
				CAAAAATATTATGTATTGGACTATTGGGGGTGGGGTGGGG
				TAGGGTAGGGTAGGGGGTTTGGTTACCCATCTCACGTGGC
				ATGCATCACCTCTCATATTATATGCAGGCATACTAAACAAA
				CCAAATACCCAACAAAAAACACCCATATTTCAGCAATTCCA
				ACTTTCTTGCAACAACGTTATTATTATTTTTATCTTGTAAATT
				CTTGATTGATTCAACTGCTTTTCCACTTGTTCATGGTTAGTC
				TTTCTCATTCTTTATATTTTGAAAAAAAGATGATTTTTAGTG
				ATTAAAGATTGAATCTTTTTTCTAAGTTTATGTCATTTCTTG
				AAATTTTTGTGCTTCTAGAATTGGGTTTACTGTGTTATATGA
				ATTTAATAAGTAAAAAAGATGATTTTAGTGATTAAAGACTG
				AATCTTTTTTCTAAGTTTATGTCATTTCTTGAAATTCTTGTGC
				TTCTTGAACTGGGTTTACTGTGTTATATGAATTTAACAAGT
				AAAAAAGATGATTTTAGTGATTAAAGATTGAATTATTTTAC
				TGGGTGTAATGTCATTTCTTAAAATTCTTGTGTTTCTTGAAT
				TATTATGAATTTAAGTAGTAAGTATACAAAAGATGATTTAC
				TGGGGTAAAGGTTGAATCATTTTACTGGGTGTTATGTCATT
				TTGTGAAATACTTGTGATTTTTGAATTGGGTTTACTGGGTT
				TTATGAATTCAAGTAGTAGTGCAAAAAAATGATGAAGAGG
				GTGTTGGAAAGATTAACTCATTACTGAATTTAGGAAAGCC
				AAATAATGAGAGATTAGTGTTTGGCAGAACAAATGAATTT
				TCTGGGTCTTGAACATAGTTTGAAAAAGCATGCTGGGACA
				TGTTTTTCCAAAAATGCTATTTTGTAAACAAAATTTCAAACT
				CCTCCTTTGCAGTTAAAGATTGAATCTTTCTTACCGGGTATA
				TGTCGTTTCTTGAAATTCGTGTCTTTCTTGAATTGGGTTTAC
				TGTTTAACGATTAAACTTTGAGACTTTTTACTATGTTTATGT
				TAATTTCTTTCTCTCAATGTTGTGATTTGACTTTGGAATGCT
				GTCTAATTAACTATAGTTTTGTTGATTTTGACATTTTTTTTG
				GCATATGGGTATGCATCTTAGGAGGATCTTTTATGTGTTTT
				GTTGGGTTACATTTGTTTGATAAGATTTTGGATTAATCAAG
				TGGACATGATGAAACTTTATGTGATGAAATAATATAAAAAT
				CCCAATATAGAATTAAACACAGAATTAAAAAGTAGATATG
				ATGCGCACATTCCGCCTTTTTGATCCCACAAGTAACTTTTAG
				ATTGGATCACTGACTATAAAATATTCCACATCATTCTATAAA
				AAATCAGAATTCTGGATTATAAAATACACATTGGTATCCAT
				TTTTTGAAGCACCAAAGTTTGATCCCTTTGTGATACTTCATA
				TTCAGTTTCACGTGGTTATTAATTTATTATCTGAAATTGTAA
				TTTTCATTTGAATTCGCCTGTTTGATTTACAAAATTTGAGTT
				GCAAGTTCTGTTTTTATCCCCCTTAAGTTTGCTTCAAGAAAA
				TAGTTAAGATTATTAAAGAAGAAAAAACCCAGTTGTTTGAC
				CATTTAGGAATTTAAGTAATGCTGAACTAAACTTTGATTGG
				TCTACTTGGCAGTGGAACCATGCCAGAAGCTCAAAGAATG
				CCTCTAAATGGAAGCCTTAATCTTGGTAATGGTTATGTAAA
				TGGGGCCATTTCATTGAGGTCTTCTGCTAGCAGATCTGCCA
				TTGATGAATTTTGTAATGCACTTGGGGGGAATAGGCCAAT
				CCATAGTATTTTAATTGCAAACAATGGAATGGCTGCTGTAA
				AGTTTATAAGAAGTGTGAGGACATGGAGTTATGAAACGTT
				TGGTTCAGAAAAAGCAATTTTGTTGGTAGCCATGGCTACA
				CCTGAGGATATGAGGATTAATGCCGAGCATATTAGAATTG
				CTGATCAGTTTGTTGAAGTCCCAGGTGGTACAAATAATAAT
				AATTATGCTAATGTGCAGCTCATCGTGGAGGTAAGTATGG
				ATCCGACACTCGTTTATTTACATACCACTAAGTGACTGACTT
				TATGAGCCGGGTCATATTTGGCTTTTTATCGCACATCAGCT
				GTAGCTGTTTTGTATATGCCGAAAGACCAGTATATTGGGT
				GATCACTATCAATTTTCTTTAGAAGTTTGAGTTTGTGTCTGA
				TTATTTCAGACTGCTGAGATAACACATGTTGATGCTGTTTG
				GCCTGGTTGGGGTCATGCCTCTGAAATTCCTGAATTACCTG
				ATGCATTGGACGCAAAGGGAATTGTATTTCTTGGGCCGCC
				GGCTTCATCCATGGCGGCTTTAGGAGACAAAATCGGCTCT
				TCTTTAATTGCACAAGCTGCTGACGTGCCAACACTTCCTTG
				GAGTGGTTCTCATGTAAAATTTTCCACCATTGTTTTATTACT
				TTTACCATTACAGTGAGCTTGACACCTCTTATTTTTCAAAAT
				TGGAGATTAATGCCCCTCAGCTATAAGAATTTGGATATTTA
				TACCTTCTGATTTCCAACCAACATATCTATGTGTTTTTGAAA
				ATCATACGTGTATCTATACCTCTTACTCTTAAATAATCTAAT
				CCTTTTTTTTTCTTTGTTCAAAATCACACAAATATGTTGCTCA
				TTTGTCAAATTTATATCTTTCAGGTGAAAATTTCTGCAGAG
				AGCTGCTTAGACACAATTCCAGATGACGTATATAGAAAAG
				CTTGTGTCCATACAACCGAGGAAGCAGTTGCTTCTTGTCAA
				GTTATTGGTTATCCTGCTATGATCAAGGCATCATGGGGCG
				GTGGTGGCAAAGGCATAAGAAAGGTGTGCTTCCTTACATT
				TGAGAATAATTTTTATGTGAAGTTGTCAAAGGTGTAGAAT
				GAAGTGATAACACATTAATCTGTAGGTGCATAGTGATGAA
				GAAGTCAAGACACTTTTTAAGCAAGTTCAGGGTGAAGTCC
				CTGGTTCCCCCATATTTATTATGAAAGTTGCTTCCCAGGTG
				AGAAAACATTCTAATATCTTTCTAACCGTAATATGCATTTAT
				CATTTTTTCTTTCTAAAAGCATTTTTTGTCATTTATCATTTGT
				TGTCGGAAAATAGAGCCGACATCTAGAAGTACAACTCCTC
				TGTGATCAGCATGGCAATGTAGCGGCTTTACATAGTCGGG
				ATTGCAGTGTTCAAAGGCGGCATCAAAAGGTTCACCCAAT
				TCAATTGTTTAATTCATTTTTTCCTTTTTATCTTGTTTTTAATC
				TTTTTTTTTTGGATAATTTCAAGATTATCGAGGAGGGGCCA
				ATAACCATAGCCCCCCCTGACACAATAAAAAAATTGGAGC
				AAGCGGCAAGAAGATTAGCCAAATCGGTCAATTATGTTGG
				AGCTGCAACTGTAGAGTATTTGTACAGTATGGAAACCGGA
				GATTATTACTTTTTGGAGCTCAATCCCCGTTTACAGGTGCA
				AGTGTTTTTTTTGGTGCTGTATATTGGAGGACACTAGATGT
				GATTCATTCTCAGTCATATCTGACACCTTTTTATTAGGTTGA
				GCATCCTGTCACTGAGTGGATAGCGGAAGTTAATCTACCT
				GCAGCACAAGTTGCGGTTGGAATGGGCATTCCACTTTGGC
				AAATTCCCGGTAATATGTCAGAATAAGCCATAAATGTAATG
				AACGGTTGACAATTGTTGGCCATCATACTTGTCTACCTAGC
				ACTTGTCATTGAAATTTATAAAAAAGACCTGTCTATTTAGG
				AGTATCTTTTGAACCTTTTTTTCTTTGCTTTAGAAATAAGAC
				GGTTTTATGGAAAGGAAAACGGTGGAGGGTATGATGCTT
				GGAGGAGAACATCGGTTCTTGCAACCCCATTTGATTTTGAT
				CGCGCCGAGTCAGTTAGGCCGAAGGGTCATTGTGTTGCTG
				TACGTGTAACAAGTGAAGATCCGGATGATGGTTTTAAGCC
				CACCAGTGGAAAAGTTCAGGTTTTTGAAAAGACTTATGCA
				CCCTTACGAAAATACCAAATATTATAAGTATTGATTATATA
				GCATACTGATTGACAACTTTTTAGGAGCTAAGTTTTAAAAG
				CAAGCCAAACGTATGGGCATACTTTTCTGTCAAGGTACTCT
				TGTCTCCCATTTATAGACATTTATGTAACTGCTTGATTGCCA
				AACTACATTTTTTTACTTGCTAACACCTTGGACTCTTGCAGT
				CTGGAGGAGGCATTCATGAATTCTCAGATTCTCAATTCGGT
				AAAGGCCGAATCTTGTTTGGGTTCTGTTTAAATGTTTGAAT
				CTCCAATTGTTAGCGTAGTTAAATTTTATGAGAATCACTGC
				CAAGATGTTTTTTTCTCATTTTAGTTTTTTACATACCTCAGGT
				CATGTTTTTGCATTTGGAGAGTCAAGAACATTGGCTATTGC
				AAATATGGTTCTTGGGCTAAAGGAAATTCAAATTCGTGGC
				GAAATGCGCACTAATGTTGATTATACAATTGATTTATTACA
				TGTGAGCAACTTGGCCTTCAAAGTTAAATTCGTTTTGATAA
				TATTCATTTACTTCAAATAAATTACATTTTTTCTTTGTAATCT
				TCAAAATATATAAATTTATAAAGTACACACATCACATTGGG
				CGAAGAAAAGTACACTCCATAAAGTTTAGAATTTTTTTAAA
				AAAATTTTCATTCTTTTTTCTTATTCTTACACTTATTAGTGTG
				AACTTTCACATTCTTGATTTTTCTTTCTTATTTCTGCACATGT
				AGGCTCCAGATTATAGAGAAAACAAAATACACACGGGTTG
				GTTAGATAGCCGAATTGCGATGCGGGTTAGAGCAGAAAG
				GCCTCCTTGGTATCTTTCGGTAGTGGGGGGAGCTCTTTACG
				TAAGTCATTTCATATCACAATGTGGTTTCTCTATTACTTATC
				ATCTTTTGAAGCACTTCCACTTACCATCGGCTTTTGTCGACC
				TCAGAAAGCCGCTGCTAGAAGTGCAGCCATGGCCTCTGAC
				TATGTTGGTTATCTTGAAAAGGGGCAAATCCCTCCAAAGG
				TATCATGCATTCCGAAATTTAGAACTTGGGTTTTGTTTTTAT
				AAAAATTGGTTAAAAGTCGTTATGTTTGTTTTACTTATTAAT
				GTTTCATTACTTGCAGCATTTATCACTAGTCAACTCTCAAGT
				TACTTTGAATATTGAGGGGAGCAGATACACAGTGAGTAAC
				AAGATACACAAGCTACTAGGATTTTTTTTGTGTGTATATTA
				ATTCATCTTTTCTGATTCTCGTATTTGTTGTTAGATTGATAT
				GGTAAAAAGAGGACCTGGAGGTTATAGATTGAAAATGAA
				CCAATCTGAGATTGAAGCAGAAATACATACTCTACGTGAC
				GGGGGTTTATTGATGCAGGTATGTAATTCATAATGATTCAT
				TTTCGTTTTCTGGGTTTATTTAGAACTGTACAATGTGTATCA
				TATAAAATGCATCTTAACATTGGGGTGCATCTGTGAATCAA
				AATGATAATCACTATAATGTTACATAAATTGTTACTATTTAA
				GAAAAATGGGTATAACTGAATATACCAGAAATTATGTTTTA
				CCGATTGATAATCAGTTTTCTTGCAGTTAGTTACAAACTGA
				TAGTCGTAGCTGAAATGGGTCACCCAAACACTTGAAAGTG
				ATTACTGCGACTTGAAGTTGCATTAATTGGATAATCACTTT
				CAAAGCGAATTGTTATATACACCAATAACACAATGATATCT
				AACTGGTTGATTTAATGTGGTAGTTGGATGGGAATAGTCA
				TATTATATATGCTGAAGAAGAAGCCGCTGGTACTCGTCTCC
				TCATTGATGGACGGACATGTTTGCTTCAGGTGCCAACAACT
				TTTTTTGTTAACTTTTGCTGTAGTGGTGGCAACATTTACTCA
				TCTATTTTTAAATTAGTCAGTTTGAGTCATATTTAAGATCTA
				AAGTGTCAAACGGGTTAAATAGAAAAAACTGAAGGAAACT
				GGTCAAATAGGCGGTAAGTGGCCTGTGTGTATTCAACACA
				CATAACCTTCCAAATTATTTTTTGTTGGAAATATATCATTCT
				TATATCATATTCGGAGGACTAGTTTACATAAATAATTTTACT
				TTTTATACAAAAAGTGTTTGTGTTCAATCCAAAATCAACCC
				AACCTGTACTGTACAAAATTACCTGTTTTGACCTGAACCAG
				ATCTGTTACCCAGCCTGATGGGATATCTCAATTTGTCACCTT
				TACCATATCCTTGCTTGTGTGGATTTTAAGTTTGCATTACTT
				CTTTTTAGAATGATCATGATCCTTCCAAGCTGGTGGCCGAA
				ACACCATGCAAACTTCTAAGATACTTAGTCTCAGATAGTAG
				CCATGTCGATGCTGACACACCTTATGCTGAGGTGGAGGTA
				ATGAAGATGTGTATGCCGCTACTTTCGCCGGCTTCTGGAGT
				TATACAGTTTAAGATGTCTGAAGGTCAAGCAATGCATGTTA
				GCCCTTTTTCTCTATTTTTTATTCCATTTTCGTCTTCTTCAAAT
				CATACACCGTGGACCCACGAAACAAAGAAAGTTTATTTATT
				TGAGCTGTTATGAATGACTTCATTTGTAGGCTGGTGAGCTA
				ATAGCAAGGCTTGATCTTGATGACCCATCAGCAGTAAGAA
				AAGCAGAGCCTTTCCATGGAACTTTTCCTCTTCTTGGGTCTT
				CAACTGCCATGTCAGATAAAGTTCATCAAAAGTGTGCTACA
				ACTCTAAGTGCCGCTCGAATGATTCTTGCAGGCTATGATCA
				CGATATTGATGAAGTAATCTTTTCGCCGTATAAGGATTTTA
				CAGTTTCAAAAAGAAGTTGTTCTTCTGTTAACAAGTTTAAC
				CTTTTATTGTAGGTTGTCAAAAACCTTCTTCGTTGTCTAGAT
				AATCCCAAGCTACCTTTCCTCCAGTGGCAAGAATGCTTTGC
				AGTTCTAGCCAATCGACTTCCTAAAGATTTAAAAAACAAGG
				CAAATTTACATCTTATAATTCTTATCTATTTTTCTTTTCTTTCA
				AATTGGAACATTGAAATGTATTTTTCTAATTCTGTTATTTGT
				ATATTCAGTTGGAAACAAAATTTAAGGAGTACGAAGGAAT
				TTCCACCCAACAAGCTATTGATTTCCCCGCCAAATTATTATG
				GGGAATTCTTGAAGTTAGTTTGCGATTAATAATTTTTTTTAT
				TATACACATACACTTTTTCATATTTAAAGATGTAATATGGTA
				ATGCTATCTGCACAGACACATCTTGAATTGTGCTCGGAAAA
				GGAAAGGGGAGCCCAAGAAAGGCTTGCTGAGCCATTAAT
				GAGTCTTGTCAAGTCCTATGAAGGTGGCAGAGAGAGTCAT
				GCACGTGGGATCGTTCATGCTCTTTTTGAAGCATATTTATC
				TGTTGAAGAGCTATTTAGCGACAACATTCAGGTGCGTTTTT
				TTCTGCTGTGTTGATCCATGTTTTTTTTTTGGGATTTCTGAT
				CGGGCATGTACTACCATAACAGTTCTTTCTATTTTATCTTTT
				TACACTACACAGCCCAATTTTTTTCAAGGTTAACACATTCCC
				ACCTTAGCTTTAAAAACCTATTTACCTATGACCGGGTCGGC
				AAAAGTTATCCCTTTATTTCAAACTTTGAAACTGGTAAAAA
				GTCAACCAAAGTGTAGTTATTAATTCATTAAACCCTTTGAA
				TTACTTTTCCAAAACTTGGATTATTATAAAATAAAGTTTCTG
				GGCAATAGTGTTTCCGGTCAACCAACCTGTTCAAAAAATGA
				CATGATTTGACTTGTTTCTGGACATGATATAATGTTTCAGG
				CTGATGTAATTGAACGTCTTAGACAACAATACAAGAAGGA
				TCTGTCGAGGGTTGTTGACATCGTGATTTCACATCAGGTAT
				GTTAATTCCACTGTTTTGTATCTTCCATTCTAATTGTTTAAGT
				TAACAACCTATTTTATGTCGACACAGGGTGTTAAGACTAAA
				AACAAACTGATACTACGACTGATGGAGCATTTGGTTTACCC
				TAATCCAGCCGCCTATAGGGAAAATCTGATACGGTTTTCTC
				AATTGAACCACACTAGTTATTCTGAGGTCAATATTGTCATT
				TGACATACTCATACCAGTTTGAATATTTTTCCGAATCTTTTT
				TATGCTAATACTAGTTTGTGTTTCTCATTTCTTGTTAATAGT
				TAGCATTGAAGGCAAGTCAGCTGCTAGAACAGACTAAACT
				GAGTGAACTTCGTTCAAGCATAGCTAGAAGTCTTTCTGAGT
				TAGAGATGTTTACCGAAGAAGGTGAGAATATAGATACCCC
				TAAGAGGAAGAGTGCCATTGATGAAAGAATGGAGGATAT
				TGTGAGTGCTCCTTTGGCGGTCGAAGATGCCCTTGTTGGTC
				TTTTTGATCACAGTGATCACACCCTTCAAAGGCGTGTTGTT
				GAGACCTATGTTCGAAGGCTATATCAGGTATTTTTGCTTCT
				CTCATATAAAATAATTAATTTGTATCACATAACTGGAGTCT
				GCATTATAACTGAAGCAAATTTCTTGGAATGTTATAAAGAT
				GAAATCATAGTTATAGTTTCAATTAAAGGCATTATTGGTAA
				CACTTACATTGTATGCATCATTTTGGTAGTGTGAGCAGAGT
				AGTGATTTTCATGGCAATTAAAAATTAAAATGCTTTGTTTC
				ATCTCTTACTGAATTACACTGTTGTTCACAAAACTACTTAAA
				TTGATTTTCATCTGAACTTTTTGTGCCAAATACCTTGGTTTT
				TCTATCCAGATTTACTTTTGTCTTTTTTACCCAACAAGGCCA
				GAGCAATGATCTTGATTTAGGTACACAAGATTCTTGTGTTA
				AAGGAGTCCTACATTTGATTAATGATCAACATATTTTTCAA
				ATACCACAATTTATATTGTAATACAGGGTGTGTATTTTGAC
				TTCAGACCTTTTTCAGCTATTTTTGTAGTAGGCAGAAAGTT
				GTTAACTGAATTAATATAAAAATATATATAAAAAGTGAAG
				AAATGTGTTTGAGTATTGTAATGTATACTCTATGTTTAGCT
				GGCTGGAAATGTTCCACTATCTTGTATATGTCTACTACACT
				CTTCATGAATTGCTAAAGAAAAGAATTTTGTGATGTAAATA
				TATATTCAGTTATTTACACTTCTTACGGGCCAAAGTCACGT
				GAGGTTTACTGACCACTCACTTCATATCTGTTATCAGCCAT
				ATCTCGTGAAGAGGAGTGTTAAGATGCAGTGGCACAGATC
				CGGACTTATTGCTTCATGGCAATTCATGGAAGGACACGCT
				GAAGCTGTTAATGTGTCTGATTATGAAACTATTGATACACA
				ATTGGTAGATAAGAAATGGGGAGCTATGGTTATTATTAGA
				TCTCTTCAATTTTTACCTGATGTCATAAGTGCAGCTCTTAAA
				GAAACTACTTATAAACATCATGGCACAAGTCAAAATGGGG
				ATGCCAATCCAAGTTATCAAGGTTATATGATGCATATTGCA
				TTGGTAGGCATCAACAACCAAATGAGTTTGCTTCAAGACA
				GGTATACAATGTTTCATGTTGATCTTATGTATCGAATTTGTA
				AAATACCATTTGCTACAAAAAGTTGAAATAAAGCAACTTAT
				TGTACCCAAGTTGTTTATGTGTACTGATGCTAGAGTGTCAA
				AACAGACAGGTTGGATAGCATGCCTAAACTGATTTGGGTC
				AAAACGGGCCAGATTAAATCTGCTCCCATTTGTATTAAAAT
				CTTTCTATTTTACAAGTACTTAATGTAATATTGGATGCTTAC
				AACGACTATATTATATCCTTTATTAACTTTTAGCTTAGTACA
				AACATACATATAATATTCCCTGTATTAACTCTTAGCTAAGTA
				CTTAATGTATTTTGGATGCTTACAACAACTATCATATTACCT
				GTTTGACCTGTTATCAACTAAGTACAAACATACATATAAAT
				GGCTGTGATAACTAGGTGACCAACCTTAAATTACCAAAAA
				GGTACTTGTTGTATTTTTCATCAAACTAACCATCTCATGACA
				TTATGTCATTATGATATGCCATGGTATAGGGATAAAAATG
				GAAAAATGGGCCTAGTATCAGGCCATGATATTTGCCATGT
				TTACCAAAGGATAAGTTTGATGGATATAATTTTTTTTTCCCC
				GATGATCTGAAATTAATGGACATGTTATCTTTTTAACTGCA
				GTGGTGATGAGGATCAGGCTCAAGAGAGAGTCAACAAGT
				TAGCAAAAATACTCAAAGATAAAGAAATAAGTGTGAAACT
				AAAAAATGCAGGATATGAAGTTGTAAGTTGCATAATACAA
				AGAGACGAAGGTAGAGGCCCGGTGAGACACTCATTTCACT
				GGTCAGAAAAGAATCGTTATTATATCGAAGAGCCATCATT
				GCGTCATTTGGAGCCTCCATTATCGATTTATCTTGAACTGG
				TTTGTACTCTTAACACGCCTGAATACGTTCTTGATAACGAA
				AGAACAATAATTCATAAATGTATTATTTGTTTAGGACAAGC
				TTAAGGGCTATGAGAATGTAAAGTACACTCCATCACGTGA
				CCGTCAATGGCACATGTATACTGTTGATGCTAAACCACTTC
				CGGTTCAAAGAATGTTTCTTAGAACGCTTGTAAGGCACCC
				GACAAAAGAATGGTTCTTGCCCTCAGGATACCAAGATTCG
				GAAGTTGTGGACCCACGGTCTCAGTTAACTTTACCTTTTAC
				ATCAAGGAGCATCTTGAGATCTTTAGTGACCGCCATGGAG
				GAGTTGGAACTTCATGTTCATAATGCTATAGTCAAGTCGGA
				CCATGCTCATATGTACCTCTATATATTGAAAGAACAACAAA
				TAAATGATCTTGTTCCATATACTAAGTAAGCATTGCCATCCT
				CTTTCTGAGACATTATATATGTATGGATAATATTATAATTTC
				ACAAGTTGTAAACAGGAGAGTGGATGTAGATTCTGGTAAA
				GAAGAAGGTGTGGTTGAGACGCTTTTGGTGAAGTTGGTCC
				GTGAACTTCATTCGATGGTTGGGGTAAAGATGCACCGGTT
				AGGTGTTTTTGAGTGGGAGGTGAAGCTTTGTATGGTATCA
				TCTGGTGAAGCCAACGGTGTTTGGAGGGTGGTGGTCACAA
				ATGTGACTGGGCATACCTGCAATGTACATGTAAGTCATTAA
				ACGGACTTTTTAGACATTTGACCATACTCGATATCTTTTACC
				TACAATGAATTTTTGAAATTTGTATATAGGTGTATCGGGAA
				GTAGAAGATACTGTTAAACACAAGGCAGTGTATCATGCTC
				CCTCTACATTGGGACCTTTACATGGTGTGCTGGTGAACACA
				CCCTTTCAGCCTCTGGGATTACTCGATCAGAAGCGTCTTGT
				CGCCAGGAAAAGCAATACTACTTACTGCTACGACTTTGCAC
				TGGTAAAATCCCCGTTCTTCCCTTTTAAGTCAGATATGCATT
				TGCTATACTATTTTTTACAAAGTACTGGTTCTTATTGATCAT
				ACTTGTATGTGCAGGCATTTGAAGCAGCCCTTGAGAATATC
				TGGTCATCAAAACTGCCTGGTGTAAGCAGGCCCAAGGGCA
				AACTTGTAAATGCGATGGAGCTTGTGTTTGCTGACCGAAG
				AGGTTTATGGGGCACTCCACTTGTGCCAGTAACGCGCGAG
				CCTGGACAAAATAATGTGGGAATGGTAGCGTGGACTATGG
				ACCTCTGCACACCAGAATTTCCTGATGGTAGGACGATTTTA
				GTTGTTTCAAATGACGTCACATTTAAAAACGGATCTTTTGG
				TCCTATCGAGGATGCGTTTTTTGAGGCAGTCACTGAGCTTG
				CTTGTGCCAAAAAACTGCCGCTCATTTACCTGGCGGCAAAC
				TCAGGGGCCCGTATCGGGGTGGCCGAAGAGGTCAGATCC
				AGCTTTAGAATTGGGTGGTCTGATGAGTCAACTCCCGACTC
				CGGCTTTCAGTATTTGTATCTAACTCCCGAAGATTACTCTCG
				TTTGGAATCATCAGTAATAGCACATGAAATTCGTCTATCCA
				GTGGTGAAACAAGATGGGTCATTGATACTATTGTCGGGAA
				AGAGGATGGATTAGGGGTTGAGAATTTGAGTGGTAGTGG
				GGCGATTGCTGGGGCTTTTTCGAAGGCATATAAAGAAACT
				TTTACTTTAACCTACGTGACTGGAAGAACTGTTGGGATAG
				GTGCATATCTGGCCCGTCTTGGGATGCGATGCATACAAAG
				GCTTGATCAACCGATTATTTTAACTGGGTTTTCTGCACTAA
				ACAAGCTTTTGGGCCGAGAGGTTTATAGTTCGCAGATGCA
				ACTTGGTGGACCTAAAATTATGGCCACGAATGGCGTTGTT
				CATCAAACTGTATCTGATGATTTGGAAGGTGTCTCGGCTAT
				CTTGAACTGGTTGAGCTATGTTCCGCCTTACGTTGGCGGTC
				CACTTCCTGTTTTGCCACCCATGGATCCACCAGACAGGCCC
				GTCGAGTACCTGCCTGAAAACTCATGTGATCCTAGGGCAG
				CCATTTGTGGGACCGTGGATGGTAACGGGAAATGGGTTG
				GTGGGATTTTCGACAGAAACAGTTTTGTGGAGACGTTGGA
				AGGTTGGGCAAGGACAGTTGTAACAGGTCGGGCGAAACT
				CGGTGGAATCCCTGTGGGGGTTGTTGCTGTCGAGACACAA
				ACGATGATGCAAGTTATACCTGCGGATCCTGGGCAGCTCG
				ATTCACATGAACGTGTAGTTCCTCAAGCTGGGCAGGTCTG
				GTTCCCGGATTCTGCTAGTAAGACAGCTCAAGCGCTGATG
				GATTTTAATCGAGAAGAGCTCCCCCTTTTCATTATGGCAAA
				CTGGCGAGGGTTTTCAGCCGGTCAACGTGACCTTTTTGAA
				GGGATTCTACAAGCGGGATCGACAATTGTAGAGAATCTTA
				GAACCTATAAACAGCCAGTTTTTGTCTACATTCCAAAAACA
				GGTGAGCTTCGAGGTGGTGCATGGGTGGTCGTTGACAGTC
				GAATCAATTCAGACCATATAGAAATGTATGCAGAAACAAC
				TGCGAAAGGAAATGTTCTTGAACCCGAAGGTATGATTGAA
				ATAAAGTTCCGAAATAAAGAGCTGGTAGACTGCATGGGTC
				GATTGGACCCACTAATTTGCAATCTAAAAGAAAAACTTAAA
				GAAACGAAGCTCGATCAAGCAATCACCCAGCAGATAAAAG
				CCCGTGAGAAACAGCTTTTACCAATTTACACTCAAATCGCT
				ACAAAGTTTGCTGAACTTCATGACACATCATTCCGAATGGC
				TGAAAAAGGTGTTGTCAAAAAGGTTGTTGACTGGGCAATT
				TCCCGGTTTTTCTTCTACAAAAGACTCCAGCGTAGGCTGGC
				CGAGGCTTCTCTAATCAAGAGTGCTCGTGATGCTGCTGGT
				GACACGCTTTCACACAAATCTGCTCATGAAATGATCAAAAA
				ATGGTTTTTGGACACAAAAAGTGAAGATATGTGGGTGAAT
				GACGACGCCTTTTTCACATGGAAAGATGATCCATTGAACTA
				TACTAGCAAATTAGCCGATCTACGTACACAGAAGATATCAA
				ATCAGTTATTAAAGATTGGCAGTTCACCTTCCGATCTGCAA
				GCTTTACCACAGGGACTCGCTGCACTTTTGCAAGAGGTAA
				ACCATAATATCCCGATTACCTGCCGTTTTAAAATTCATAAAT
				TTCACTGTTTTGTTTAACTTTGTTGTGTTCTTCTATGATGTA
				GGTGAATCCTGCAGCCAAAAATAAATTGATTGAAGAACTC
				AGGCGGATAATTGAGTAGGAATCGATAGGTAACTATTATC
				AAGGAGTTCTTCATTATAAATTTTGCCAGCAGTTTGAGATT
				TTTCCAGCCAAATGAGAAGCCTTTGAACCTGTGTACATTAA
				GGTGTTGATAGGGAGATAGAGTAAAGATAGTATAAATTGT
				AATTAGTGTTCACAAGAACTTTACATTAGAATCATTATATAT
				CATGGTCAATTCTTTTAACAAACATAATTCAAATTCATATTC
				TGATATTCATATGTTGAAACAATTGCTTTTCTTTTTGATTTTT
				TTGTTCTCTTTTCCCTTCGGTTTCTGTTTCTTTACTTTACTTTC
				TCGTTTGCGTTCTTCTTTTTCCTTTCTCTCAAGTTCTTCTCTTT
				CCTTTGCTTTTTTCTTCTTTCTTTCGAGTTCTTCTTTTTTCCTT
				AACTTATCTTTCTCGTGTTTTACCTTCTCTTTCTCGTGTTTTA
				CCTTCTCTTTCATTTTCTTTTTCATTTTCTTCTTCTCTTTTCGT
				AGGAGTATCCGCTTGATGATGTTCATACACATTCTTACTTT
				GGAATTATTGTCTGCAAATGTCAAATCAATAGAGAACTATG
				TAGATATGCTTTAAATGGCATATACTTCTTTTTGTTTTTGTC
				AATTATTTATTTATAGGTGCATACATAGTGTTTATCAACATT
				GTAGGAAATGACAAAAGTTTGTTTTTCAAACGGGCAAACC
				AGATTCTCGTTGTAATCAACTGTAACAATGTAGGATTGTGT
				TTGTCCGTCGACCAAATGTTGCAAGTTCGATCAATATCTGT
				ACGAACGTTTCAATCAACACATCGAAGAATAATTGAATATA
				ATCCAAGTTAATGTTTGAAAAGCAACAAGATAACAATATA
				AGATTGGTGGTCCTGTTCAGAAAATGGTATTTATGTTTAAC
				TGTGTATGAAGTAAAACAAACATATGATTGAGATTTTAATT
				CTCAACATCAATTTCAACACTAACATAAGTTCATTACTAAG
				ATATAGTTTTCCATTATTAGCTTAGACTTCTGTCATAAAAAA
				CGGACATCAAGTAAATGTAGAAAAATGTAGCGTCATATGT
				CTTTACACGGATTCAAACCATTATACAACTTACAAACTGTT
				GACGGTTATATCATGTGCAATTGTCTAACAGAATCCAAAAG
				CGTAAAAAAAAGAGGCAAAATTGCAGTTTCCTACATTGTTC
				TCTTTATCTCCAAGCCCTAGTCATTTCATGTATAAACAATCT
				AACAAACAAGCTTATTCTGTAAAAAATCCAACAATTCTGAT
				TTCATATATAGGTTGAGTACATATGGGGATTCTAACTAGTG
				AGTAGTGACTCTAAACTTTAATTCTTCTTGCACTTCACATTT
				TACTGATGAGGTCAGACCTCATGAGCAGACTTTGATGAAC
				ATGTATGAACAGCATCTGCAACTGTGAGAAAAATCTTGTTT
				TCGCCAATCAAGTCAGGGAAATCCGCTGCATATAGCTTGTC
				TAGGACGAGTTGCCCGGGGTTTGCAAGAACAAGCTGCCAT
				GTCAATTTAGTTTTTAGTCCTTGAGATGGCATTACAACACA
				TGCAATTTATTATTTATACACACTTAGAACCATTTGTTAATA
				AATTGGAGACTGTTTTACTAACCTGAACATCTCTCTTTTGCA
				AACTTCTGTGTAACTCTTCAAAGGCATGGATTCCACTGGTG
				TCAATATCAGTAACAGCTGCAATTAGGCAACCATACGTTAG
				AGAGAAAAGTTTCAATGACCCAAAATGTAAAGGTAACCAT
				GGTAAAAGCTAGTTTCTTACGCGACATTTCAACTATTAAGA
				ATTGAATATTTGGTAGGTATGCTGCTTTTAGATTTTCTTCTT
				CCTCAGTTAGCCATCTCAATATCCTGCAAATAAAGTGCTCG
				ATTTATTACTTGAAAATGATCTGCTGGATAATCTATATAGTT
				CAAGATTCTTAAAATAATTCACAGTTTGCAGAAAAAAATGT
				ACCTTTCTTTGATGTAGTTGGAGTTGGAAA
52	Euphorbia	cDNA	2292	CCGGAAGGAAAATCTTGATAGTAGCGAACGACGTGACCTT
	heterophylla	Contig		CAAAGCCGGGTCTTTCGGCCCGAGAGAGGATGCATTCTTT
				TCCGCCATAACCGATCTTGCATGCACCAAAAAGCTCCCTTT
				AGTCTACCTGGCAGCAAACTCTGGTGCTCGTATAGGTGTT
				GCCGAGGAAGTCAAGTCTTGCTTTAAAGTCGGTTGGTCAG
				ATGAGTCATCTCCCGAGCGTGGTTTCCAGTACGTATATTTG
				ACTCCCGAGGATTATGTAACCATTGGATCATCGGTGATAG
				CACACGAGCTGAATCAGAATGGAGAAACACGGTGGGTCA
				TAGATGCCATTGTTGGGAAAGAGGATGGCTTAGGTGTCGA
				AAATTTATCGGGAAGTGGAGCCATTGCTAGTGCATACTCA
				AGGGCATATAAGGAAACCTTCACATTGACATACGTAACTG
				GAAGAACAGTGGGAATCGGTGCTTACCTGGCACGCCTCGG
				GATGAGATGCATACAACGGCTCGATCAACCGATCATCTTG
				ACCGGGTTCTCCGCGTTAAACAAACTCCTCGGCCGTGAAG
				TGTATAGCTCTCACATGCAACTCGGCGGTCCGAAAATTATG
				GCCACCAATGGGGTAGTCCATCGCACCGTCTCCGATGACC
				TCGAAGGTATTTCGGAAATCCTGAAATGGCTAAGCTGTATT
				CCCCCTCAAAGCGGCGGGGCAATTCCGGTATTTCCTTCTCC
				GGATCCTCCGGAGCGACCCGTGGAGTACTTCCCAGAAACA
				TCGTGCGACCCGCGGGCGGCCATCTCGGGTACAATGGACG
				GCAGCGGGAAGAAGTGGCTCGGGGGTATTTTCGACAAAG
				ACAGCTTCGTGGAGACACTGGAAGGGTGGGCGAGGACCG
				TGGTGACCGGGCGGGCAAAGCTCGGGGGGATTCCGGTTG
				GGATAATAGCCGTCGAGACTCAAACCGTGATGCAAGTGAT
				CCCCGCCGACCCGGGCCAGCTGGACTCGCACGAGCGGGTC
				GTGCCCCAGGCGGGTCAAGTATGGTTCCCAGATTCGGCGA
				ATAAAACCGCCCAAGCGATTATGGATTTCAACCGAGAAGA
				GCTCCCGCTCTTTATCCTCGCCAACTGGCGAGGCTTCTCGG
				GCGGCCAACGAGACCTCTTCGAAGGTATCCTTCAGGCGGG
				GTCCACCATAGTGGAAAACTTAAGGACATATAACCAACCG
				GTTTTCGTATACATCCCTATGATGGGCGAGCTTCGTGGTGG
				GGCCTGGGTTGTTGTGGACAGTCAGATAAATTCTGACCAC
				ATCGAGATGTACGCTGATCGGACGGCTAAAGGCAACGTCC
				TTGAACCGGAAGGAATAATCGAGATCAAGTTTAGAACAAA
				GGAGTTGCTCGATTGCATGAATCGACTCGACCCAAAGCTG
				ATATCTTTTAAAACCAAACTAACCGAAGCGAAGAATAGTG
				GGACCTACGGGATGGTCGATTCCGTACAACAGCAGATAAA
				ATCCCGGGAAAAGCAACTTCTGCCGCTATACACACAAATC
				GCCACACGATTCGCCGAGCTTCACGACTCGGCTTTACGAAT
				GGCGGCAAAGGGGGTGATTCGAGAAGTTGTCGACTGGGG
				GATTTCACGATCTTACTTCTACAAAAGGTTAAGAAGGAGA
				ATCGCCGAGGCTTCGTTGGTGAACACCGTGAAAGATGCAG
				CGGGTGATAAGCTCCAGCATAAGTCGGCTATGGAGTTGGT
				CAAAAACTGGTTTCTGGACTCGAAAGGCGATTGGGAAAAC
				GATGAAGCTTTCTATGCTTGGAAGGATAATCCCGCGAATT
				ACGAGGAAAAGCTACAGGAGTTACGGGTCCAGAAGGTGT
				TGCTTCAGTTAACTAACATTGGCGAGTCTTTGTCGGATTTG
				AAAGCTTTACCTCAAGGTCTTGCTGCCCTTCTAAATAAGGT
				GGAGCCATCGAGCCGAGGGGCGTTGATCGATGAGCTTCG
				GAAGGTGCTTAATTGATTTTCGGTAAGTGTTTCTCGGCTAC
				TAAATATGTTTTACTTTGGCTTCAGTCTCTGGGTAGTTTGAA
				TCAATAGAAAATGCCAATGTGAAAATACCCAGTAATATATT
				TGATAAGTGTAAATGTAACTATTATTATATTTAAGTGAATA
				GGGGGAATTAGTTCATATGATTATTGTTGTTATAAACAAAT
				CAGAGATAGAGAGAGCTATATTTATTATTATATTTGCGAAT
				TAAAGTTATTAGGAGTAGTATAATTTGGCGGTTGTTGCATT
				TTACGTGTAATGATCTGAATGTTGTTTGTTCGTGATTATTG
53	Euphorbia	cDNA	1338	TTGACGGGAGGACTTGCTTGCTACAGAATGATCATGATCC
	heterophylla	Contig		GTCAAAGTTAGTGGCAGAGACGCCATGCAAACTTCTGAGA
				TATTTGGTTTCAGATGGTAGTCATATTGAAGCTGATGCTCC
				ATATGCAGAGGTTGAAGTTATGAAGATGTGCATGCCTCTT
				CTTTCACCTGCTTCTGGAGTTGTCCATTTTAAAATGTCTGAA
				GGTCAAGCAATGCAGGCTGGGGAGCTCATTGCAAGGCTT
				GATCTTGATGATCCTTCTGCTGTAAGAAGGCAGAACCTTTT
				CATGGGAGATTCCCGCTACTTGGCTCTCCTACTGCTATTTCT
				GGTAAAGTTCATCAGAGATGTGCTGCAAGTCTAAATGCAG
				CCCGTATGATTCTCGCTGGCTACGATCATAATATTGATGAA
				GTAGTGCAAAACTTGCTCAATTGCCTTGATAGTCCTGAACT
				CCCTTTCCTTCAGTGGCAAGAGTGCTTGTCTGTTCTAGCAA
				CTCGCCTTCCCAAGGATCTTAGGAGCGAGTTGGAATCAAA
				ATACACAGAGTTTGAAGGAATTTCGAGCTCCCAGAACATT
				GACTTCCCTGCCAAACTGTTAAGGGGTGTCCTCGAGGCAC
				ACCTGAAATCCTGTCCTGAGAAAGAAAAAGGAGCGTTGGA
				AAGGCTTGTTGAACCTTTGATGAGTCTTGTAAAGTCTTATG
				AGGGAGGACGTGAGAGTCATGCTCGAGTGATCGTCCAATC
				ACTTTTTGAAGAGTATTTATCTGTAGAAGAATTATTTAGTG
				ACAACATCCAGGCTGATGTGATTGAACGTCTCAGACTTCAA
				TATAAGAAAGACCTTTTGAAGATAGTGGACATTGTCCTTTC
				TCATCAGGGTGTTAAGAGTAAAAATAAGCTGATACTACGG
				CTCATGGAACAACTTGTTTACCCCAACCCTGCTGCATATAG
				GGATAAACTCATTCGGTTCTCTCAGCTTAACCACACCAGCT
				ATTCCGAGTTGGCATTGAAGGCAAGTCAACTCCTAGAACA
				AACCAAACTGAGTGAACTCCGTTCCACTATTGCTAGAAGCC
				TTTCGGAATTGGAGATGTTTACCGAGGATGGTGAAAATAT
				GGATACTCCCAAAAGGAAAAGTGCCATTAATGAACGTATG
				GAGGATCTTGTGAGTGCTCCTTTGGCTGTTGAAGATGCTTT
				AGTGGGTCTTTTCGAGCACAGTGATCACACCCTTCAAAGG
				CGAGTGGTGGAAACTTATGTTCGTAGGCTATATCAGCCCT
				ATCTGGTCAAAGGTAGTGTCAGGATGCAGTGGCATAGATT
				TGGTCTTATTGCTACATGGGAATTCTTGGGAGAGCATATCGG
54	Euphorbia	cDNA	1250	TAATATGATGCACATAGCATTGGTAGGCATCAATAATCAG
	heterophylla	Contig		ATGAGCTTACTACAGGATAGTGGTGATGAGGATCAGGCAC
				AAGAGAGAATTAACAAGTTAGCCAAGATTCTCAAAGAACA
				GGAACTAGGTTCCAGTTTGAGCTTGTCAGGCGTTGGAGTT
				ATTAGCTGTATCATACAGAGGGATGAAGGGAGAGCCCCTA
				TGAGGCACTCCTTTCACTGGTCAGAGGAAAAGCTTTATATG
				AGGAAGAACCTCTATTGCGACATTTGGAACCTCCACTATCC
				ATCTACCTTGAACTGGACAAACTTAAAGGCTATGACAATAG
				ACAATATACTCAGTCAAGGGACAGACAATGGCACATGTAC
				ACTGTTGTAGACAAACCAGTTCCAATCCAGAGGATGTTTCT
				AAGAACCCTTGTGAGACAGCCCACAAGTACTTCATATCAA
				GGTCTTGGCGCCGAAGCACCCAATGTGCAGTGGGCCATGT
				CCTTTACGTCAAAGAGCATTTTGAGGTCCTTAGTAGCTGCA
				ATGGAGGAACTGGAGCTTCACGTGCACACTGTCAAATCTG
				ACCATGCTCATATGTACCTCTGCATATTGAGGGAGCAACG
				GATAGAAGATCTTGTTCCATACACGAAGAAAACCGATGTA
				GATGCCAACCAAGAAGAAGCTGCGGTAGCAAGAATCTTG
				GAAGAACTAGCGAGGAAGATACATGCGTCGGTTGGAGTC
				AGAATGCATAGGTTAAATGTTTGCGAGTGGGAAGTGAAGC
				TATGGATGACATCATCTGGACAGGCAAATGGTGCTTGGAG
				AGTTGTCACAACAAATGTGACTGGGCATACCTGTGCTGTG
				CATATATATCGGGAACTTGGGGACGACAGCAAACACGAAG
				TGGTTTACCATTCGATCTCTCCAAGAGGCCCACTGCATAGC
				ATGCCAGTGAATGCTGTTTATCAGCCCTTGGGAGTTCTCGA
				TCGAAAACGTTTGTTGGCAAGGAAGAGCAACACCACTTAC
				TGCTATGATTTTCCACTGGCGTTTGAGACAGCCATCGAACA
				ATTATGGGAATCTCAATCACCAGGGACTGAAAGAAGCAAA
				GAAAACGTCCTAAAAGTCTCGGAGCTTGTTTTTGCCGATCA
				GAAAGGTACCTGGGGAACTCCACTTGTTCATGCAGAACGG
				CCAGCTGGGCTTAATGACGTGGGCATGGTAGCATGGTGCA
				TGGAAATGTTCACCCCGGAATGCCCTTCCGGAAGGAAATC
				TTG
55	Euphorbia	cDNA	959	TCGCTCATAATCGCTTGATCGCAGTCCTATTCGAGTTCAATT
	heterophylla	Contig		TTTTTGAGATTCCGCTTATATTTTCAGAATGTTGGAGACAC
				AGAGGAGGCAGCCGTTAGCAGTAGGGGTTACTCGTGGGA
				ATGATTTCACCAATGGTGTGCTTACGATGAGAAGCCCTGCT
				ACAATATCAGAAGTAGATCAATTTTGCCGTGCTCTTGGAG
				GAAAGAGACCGATCCACAGTATATTAATTGCAAACAATGG
				AATGGCAGCTGTCAAGTTTATACGAAGTGTTAGGACATGG
				GCTTATGAAACTTTTGGCACTGAAAAGGCTATCTTGTTGGT
				GGCCATGGCAACTCCAGAAGACATGAGGATCAATGCAGA
				GCATATTAGAATAGCTGATCAGTTTGTGGAAGTTCCTGGG
				GGGACAAACAATAACAATTATGCCAATGTGCAACTCATTGT
				TGAGATGGCAGAGGTCACCCATGTTGATGCAGTTTGGCCT
				GGTTGGGGACATGCATCTGAAAACCCAGAGCTTCCAGATG
				CACTAACTGCAAAGGGAATCGTATTTCTTGGGCCCCCAGCT
				GCGTCCATGGGAGCTTTGGGTGATAAAATTGGATCCTCTTT
				GATTGCGCAAGCAGCAGATGTTCCTACTCTTCCATGGAGT
				GGCTCTCATGTGAAAATTCCTCCAGAAAGTTGTTTGATTAC
				CATCCCCGATGACATATATAGAGAAGCATGTGTTCACACAA
				CAGAGGAAGCTATTGCAAGCTGCCAAGTTGTTGGTTACCC
				TGCTATGATAAAGGCATCATGGGGCGGTGGTGGTAAAGG
				CATAAGAAAGGTTCATAATGATGATGAAGTTAGGGCATTG
				TTTAAACAAGTTCAGGGTGAAGTTCCAGGATCACCCATATT
				TATAATGAAGGTTGCTTCCCAGAGTCGACATTTAGAAGTCC
				AATTGCTCTGCGATCAATATGGAAATGTAG
56	Euphorbia	cDNA	935	CCAATTACCGTTGCACCATTGGTGACTGTAAAAAAACTAGA
	heterophylla	Contig		GCAGGCAGCTCGAAGGTTAGCGAAATCTGTGAATTATGTG
				GGCGCTGCTACTGTTGAGTATTTGTACAGTATGGAAACTG
				GCGAGTACTATTTTCTAGAGCTCAACCCTCGGTTACAGGTG
				GAGCATCCTGTCACAGAGTGGATTGCTGAAATAAATTTGC
				CTGCTGCCCAAGTAGCTGTTGGGATGGGAATTCCTCTGTG
				GCAAATTCCTGAGATTAGGCGATTTTATGGAATGGAACAT
				GGTGGAGGATATGATGCTTGGAGGAAAACTTCAGTGGCT
				GCTACGCCTTTTGATTTTGACAAGGTAGACTCTACAAAGCC
				AAAAGGTCATTGTGTAGCTGTACGTGTGACAAGTGAGGAT
				CCAGATGACGGTTTCAAGCCTACTAGTGGAAAAGTACTGG
				AGCTGAGTTTTAAAAGCAAGCCAAATGTGTGGGCTTATTTC
				TCTGTGAAGTCTGGTGGAGGCATTCATGAATTCTCAGATTC
				ACAATTTGGACATGTTTTTGCATTTGGGGAGTCCAGAGCTT
				TGGCAATAGCTAATATGGTTCTTGGGCTGAAGGAAATACA
				GATAAGAGGAGAAATCCGCACCAATGTTGACTACTCTGTT
				GACCTTTTACATGCTTCAGATTATAGGGAAAATAAAATTCA
				CACAGGTTGGTTGGACAGTAGAATAGCTATGAGGGTTAGA
				GCAGAAAGACCTCCTTGGTACCTCTCTGTTGTTGGAGGGG
				CACTATATAAAGCATCTGCTAGCAGCGCAGCTATGGTTTCT
				GATTATGTTGGTTACCTTGAAAAGGGCCAAATCCCTCCCAA
				GCACATATCACTTGTGAACTCTCAAGTTTCATTGAACATCG
				AAGGAAGCAAATATACGATTGACATGGTTAGAGGGGGGC
				CAGGGAG
57	Euphorbia	gDNA	12503	TTTTCAGGTTTGTTTGTTTCGATTTTCCGATTGTGTTTTTTGA
	heterophylla	Contig		GTCGCTGTTGCTTGATTTCTGCTGCTGTTACTGCTGGTTGA
				CTCTTCTAGTGTGTTGATTGAGATTTGTTAGTTTGATTCGAC
				TTCGATTTTGGAATCGGATTTTTGAACTTGGAGTTGTAAGT
				GTTTTGAAGCGTGTTTTTCGGCGTTTTAGTTGCGTTTTTCTT
				ATGGATCCGATTCTTTTATATGAATGCGGCGTTTGGCGCTG
				AGCAACATGAATTGGAATAAACTTGTGGTATTTTGCTCTTT
				TTCTATATATTAGTCTAATTCAACTTCGATTATGGAATCTGA
				TTTTTGAATTTGGAGTATATGTAGTATATTTAAACATGTTTT
				TCGGTGTTATCATTGTGTATTTTTTATGGATCCTGTGCATCG
				GAGATGCGTTTATATGAATACTGTGTTTGGTGCTGAGCAA
				CATAAATTGGATTATACTTGTCGAAAATAATTCTCGTAATA
				AGGTTCAAGGTATCTAGAAGTCTACCTGAAGTGATATAGT
				GGACCATGCGGATTTGATTCTTTGAGTTGTTTTTCTTCAAGT
				CAAAGATCCTGTTATATTTAATTATTTCTTTTGATTTATGAA
				ATGAGTAATTAAGCAAGTGGTATGCTCAATTCGTTGAAAAT
				ATTATGTATTGAAAAGGATTTGAAGGTTACGAACTGGATTT
				TCAACTCGAATGAGTTTTTTTTTGTGCAGAATGTTGGAGAC
				ACAGAGGAGGCAGCCGTTAGCAGTAGGGGTTACTCGTGG
				GAATGATTTCACCAATGGTGTGCTTACGATGAGAAGCCCT
				GCTACAATATCAGAAGTAGATCAATTTTGCCGTGCTCTTGG
				AGGAAAGAGACCGATCCACAGTATATTAATTGCAAACAAT
				GGAATGGCAGCTGTCAAGTTTATACGAAGTGTTAGGACAT
				GGGCTTATGAAACTTTTGGCACTGAAAAGGCTATCTTGTTG
				GTGGCCATGGCAACTCCAGAAGACATGAGGATCAATGCAG
				AGCATATTAGAATAGCTGATCAGTTTGTGGAAGTTCCTGG
				GGGGACAAACAATAACAATTATGCCAATGTGCAACTCATT
				GTTGAGGTGTGTAAGTTCATAACCTTTTAGCATATTGGATA
				GCTTATGTTGTGTTAGTCTAAAGTTCGATAATTCTAAGCAT
				ATAATGATATTAAATGTGTTTAAGGATTTCTCAGTAATAGG
				AATTTGTAAATCTTTTCTGTCAATGGGTTTTACAGAAATTCA
				TAAATTATAATGTAATCTAGAAGCTTTGAAATTGTATTTTTG
				CACATCTCAGAAGATTATGAAGTAATAGGCTGGTATACAG
				TGAATTTCATTATTGCAAGATATTGTTGTTATGTGCTCACTC
				AAGAGCATTCTTTTCAATTTGGCAATGTGAAAAGGTTCAGT
				TAGAAATATCACTTGTTACCCTTGTTGTTTGCATAACTAAGT
				TTGATTTTGTGTCCAGATGGCAGAGGTCACCCATGTTGATG
				CAGTTTGGCCTGGTTGGGGACATGCATCTGAAAACCCAGA
				GCTTCCAGATGCACTAACTGCAAAGGGAATCGTATTTCTTG
				GGCCCCCAGCTGCGTCCATGGGAGCTTTGGGTGATAAAAT
				TGGATCCTCTTTGATTGCGCAAGCAGCAGATGTTCCTACTC
				TTCCATGGAGTGGCTCTCATGTAAGTAATGCTCTTCTCAAG
				CTGTTCTTTCATTTTCTGTAGTCATTCCAATCTAAGATATCA
				TGATCTTCCTTATAGGTGAAAATTCCTCCAGAAAGTTGTTT
				GATTACCATCCCCGATGACATATATAGAGAAGCATGTGTTC
				ACACAACAGAGGAAGCTATTGCAAGCTGCCAAGTTGTTGG
				TTACCCTGCTATGATAAAGGCATCATGGGGCGGTGGTGGT
				AAAGGCATAAGAAAGGTTTGGCTTCGATATAACAAATTTC
				CGAGTGTAGTGTTCAAGTCTGTAGTGTACGATGGCTGAGT
				TTTGTTTTCTTGGATTATCTAGGTTCATAATGATGATGAAGT
				TAGGGCATTGTTTAAACAAGTTCAGGGTGAAGTTCCAGGA
				TCACCCATATTTATAATGAAGGTTGCTTCCCAGGTTAGGAT
				ATTATCTAGCTTCTAATTTGATACAAGAGATTTTACTTTGTG
				ATTCTTGACGCGTGAATCGAATTCTGATGATCTATTTGATTT
				TCCTTATGTAGAGTCGACATTTAGAAGTCCAATTGCTCTGC
				GATCAATATGGAAATGTAGCAGCTTTGCATAGCCGTGATT
				GTAGTGTTCAAAGGCGGCATCAAAAGGCATGTTTATTTCTC
				TCAAGTAATTTTGATTTTGTCTGCTTAGTGAAATTGACCAT
				GAAAGTATAAGCTTAGTGTGAAGAGCCTGAGGCTCTGACC
				ACATGCATGTTGAGAATGAGCCAGTGACTTTTAATCAGTG
				GCTCAACCATTAATTTCTCCCCTTCCAAATTTCAACTGTTTG
				TACATCTATCTAGTATCTACTACATGGGTTATGCATTTCAAA
				AAAGGCCTAACTTGTGTTGAGATGTGAAACAGATAATTGA
				GGAGGGTCCAATTACCGTTGCACCATTGGTGACTGTAAAA
				AAACTAGAGCAGGCAGCTCGAAGGTTAGCGAAATCTGTGA
				ATTATGTGGGCGCTGCTACTGTTGAGTATTTGTACAGTATG
				GAAACTGGCGAGTACTATTTTCTAGAGCTCAACCCTCGGTT
				ACAGGTATAAATGAATATAGTTTGTAGGGATGTGAAGTTG
				TTATGCTCTATAGTAGTAATGATATCTAAAATGCTTAAATTT
				TATGTTGCTCAATTGATGACAATTGGATAAACCGTATTCAC
				TTGGGAAAAACCATCCTGAATATAGTTCGTACCTCATTCAC
				CTTGCGTACTACTGATATTGATCCTATGAATCTGTTTTTTAA
				AATATCTTTGTTTCTGTAATAAATTGTTCTTTGACTTTTCTAA
				TGATCTTTAATCTACATCCTAATCTGGATGTAGGTGGAGCA
				TCCTGTCACAGAGTGGATTGCTGAAATAAATTTGCCTGCTG
				CCCAAGTAGCTGTTGGGATGGGAATTCCTCTGTGGCAAAT
				TCCTGGTATGACCGCAAAAGTTGGAAATTCGCATTCTCTTG
				CTCATTAGACATGTTTCTTTGACATTCTGTTCATTTTTATTCA
				GAGATTAGGCGATTTTATGGAATGGAACATGGTGGAGGA
				TATGATGCTTGGAGGAAAACTTCAGTGGCTGCTACGCCTTT
				TGATTTTGACAAGGTAGACTCTACAAAGCCAAAAGGTCATT
				GTGTAGCTGTACGTGTGACAAGTGAGGATCCAGATGACG
				GTTTCAAGCCTACTAGTGGAAAAGTACTGGTAAGGTTTTCA
				GGTTGACTATTCTAATTTGAATTTCCTTCTATTCCAAAATTC
				CTTATCCTGTAATGAACTTGTACTTTTATTGTCTTGCACAGG
				AGCTGAGTTTTAAAAGCAAGCCAAATGTGTGGGCTTATTTC
				TCTGTGAAGGTGACTTTTTGCTGCTCTCTTTCTTTGGAACAT
				GTTTATGTTGACACAATTGGTTTCTGACTTAATAACTTCATT
				CTGATTTGTAGTCTGGTGGAGGCATTCATGAATTCTCAGAT
				TCACAATTTGGTAAGTAATAATTGCTAAATAATCACACTTC
				ATGGATAATAATGAAAAGAAGTTTGTGAGATGAGTTATCC
				AATCTGCTGCAAATTAATGGTTCTTTTTTATCTTCTTGTGAC
				ATTTTTTTTAACAAAAGCTACAGTCTGCTTTTCAGTTTAGTC
				TTTTCCGTTTGTTACATTTGCTATCGAAAGCACTCATGATTG
				TCGTAATCTTTCCTTAGGACATGTTTTTGCATTTGGGGAGT
				CCAGAGCTTTGGCAATAGCTAATATGGTTCTTGGGCTGAA
				GGAAATACAGATAAGAGGAGAAATCCGCACCAATGTTGAC
				TACTCTGTTGACCTTTTACATGTAAACTATCTTAGCTGTTGA
				TGTTCCCTTTATACATCATGTAAACTTTCACGAGGAACATG
				AACACGAGTTGACATGCTATGCAGGCTTCAGATTATAGGG
				AAAATAAAATTCACACAGGTTGGTTGGACAGTAGAATAGC
				TATGAGGGTTAGAGCAGAAAGACCTCCTTGGTACCTCTCT
				GTTGTTGGAGGGGCACTATATGTAAGTTGTCACGATTTCAC
				ATGAGAGGATGACTGTATACTTTTGGAATGCTTTATTATGT
				CTTTCAGAACTTGCCACTTAAGTGTTCAATTTTTTGTTTGCA
				CCAGAAAGCATCTGCTAGCAGCGCAGCTATGGTTTCTGATT
				ATGTTGGTTACCTTGAAAAGGGCCAAATCCCTCCCAAGGTA
				CATCAAAAGTATATTTGTACAATTGTATATGTTTCTTATTCA
				GCCGATTATGTTGATGTTGATGTTGATGTTAGTTGATCTTG
				TTTTCAGCACATATCACTTGTGAACTCTCAAGTTTCATTGAA
				CATCGAAGGAAGCAAATATACGGTATGGTACCTTTCATATT
				AGTATCTTAAATGAATAAATTTTAGTTTGGTGATGGATGCC
				ATTTACGTTTGTAAAATCATTGCTAGATTGACATGGTTAGA
				GGGGGGCCAGGGAGCTATAGATTGAGGATGAATGGATCG
				GAGATAGAGGCAGAAATTCATACACTGCGTGATGGAGGTT
				TATTGATGCAGGCAAGTTGACTCATTAACCATGGCTGTTGT
				AAACTAATAATTTTCGTCCTTTTTATCATTTAATATTTGCTTT
				AGTCGACCCTCCATGCTTTGGAGACCATAACAGACTCTATT
				CTGTTTCTTCACAGTTAGACGGAAACAGTCATGTAATATAT
				GCTGAAGAAGAAGCAGCCGGAACTCGCCTTCTAATTGACG
				GGAGGACTTGCTTGCTACAGAATGATCATGATCCGTCAAA
				GTTAGTGGCAGAGACACCATGCAAACTTCTGAGATATTTG
				GTTTCAGATGGTAGTCATATTGAAGCTGATGCTCCATATGC
				AGAGGTTGAAGTTATGAAGATGTGCATGCCTCTTCTTTCAC
				CTGCTTCTGGAGTTGTCCATTTTAAAATGTCTGAAGGTCAA
				GCAATGCAGGTGTGTTTGATTTCACAAACACGTGCTTTTGG
				GCTTGATAAGTACTTTTTAGTTTTATATGAATAGTCAGTTTT
				GATGTGAATCTAAGAAGTTTTCATGTAGGCTGGGGAGCTC
				ATTGCAAGGCTTGATCTTGATGATCCTTCTGCTGTAAGAAA
				GGCAGAGCCTTTTCATGGGAGATTCCCGCTACTTGGCTCTC
				CGACTGCTATTTCTGGTAAAGTTCATCAGAGATGTGCTGCA
				AGTTTGAATGCAGCCCGTATGATTCTTGCTGGCTATGATCA
				TAATATTGATGAAGTAAGTTGCAAGCTGGCTAGTTTCAACA
				TGAACTTAATTGATGAATTAATTGTTCATTCTATATTTTGTT
				GATTGTGTAATTTCATAACAAAATAATGAACTATGCATTTG
				GTTTATTATACTGACAATTATTTGTTGAAATCTGATGTAATA
				TCTCAATGACATCTATAGGTAGTGCAAAACTTGCTCAATTG
				CCTTGACAGTCCTGAACTCCCTTTCCTTCAGTGGCAAGAGT
				GCTTGTCTGTTCTAGCAACTCGCCTTCCCAAGGATCTTAGA
				AGCGAGGTGAATAATTTTTCTGTAATTTTTTCATGACCACA
				TAGTCTTCTTGCTCACAATTTGATATTGGCAATTTGTATAGT
				TGGAATCAAAATACACAGAGTTTGAAGGAATTTCAAGCTC
				CCAGAACATTGACTTCCCTGCCAAACTGTTAAGGGGTGTCC
				TCGAGGTGGGTTCCTTATTGCATGGCTCTCTTGGAATTTCT
				CATTATCTGTTTTTTTTGCTGTTTAATGAGATGTGTATGCTT
				TTCCTCCAGGCACACCTGAAATCCTGTCCTGAGAAAGAAAA
				AGGAGCCCTGGAAAGGCTTGTTGAACCTTTGATGAGTCTT
				GTAAAGTCTTATGAGGGAGGACGTGAGAGTCATGCTCGA
				GTGATCGTCCAATCACTTTTTGAAGAGTATTTATCTGTAGA
				AGAATTATTTAGTGACAACATCCAGGTTAGCTTCTTCCTAT
				CAAACATAATATGGAATTATTTTGGATTCTGAAAGTCTTCC
				CTCTTTGGCATCTTTTAGAAAATTAAGCATAATACTAGGTA
				CTATATCCATTATTCTTTATAATCATGAAATTTAATTTTTACA
				GAAGAAAAGTGGAATTTCTATATATATTTAAACCAAGCTG
				GCAAGCTTTGAATTCAATCCTGTTGTTTATTGTTTTATCCAA
				CATGCCAAAAATATTAGGAACTTCATGTGACTACTTGTATC
				ATTCTTATTCTGTAATTACAGTAAAGTAACTTGTCATATCCT
				AATGTTATAACTCGTAACATTCTTCTTTAGGCTGATGTGATT
				GAACGTCTCAGACTTCAATATAAGAAAGACCTTTTGAAGAT
				AGTGGACATTGTCCTTTCTCATCAGGTATCTGATTTTCGGTT
				TTAATTTTTATCTCGGGTTTTCTAAAATAGAATTCTGAGTTT
				GTGGAAATAACTACCGTATTTGTTGGTTTATAGGGTGTTAA
				GAGTAAAAATAAGCTGATACTACGGCTCATGGAACAACTT
				GTTTACCCCAACCCTGCTGCATATAGGGATAAACTCATTCG
				GTTCTCTCAGCTTAACCACACCAGCTATTCCGAGGTTGGCA
				GCTATACTTGGTCCATCTGTAATTTCATAAAGTTGTTGCTCT
				GTTTCCTTTTGTTCACAAGTTCATTTTTGAGAGTTTTCCATA
				GGATGGTGACTGACAGGAAGAGGATTCTAATGTTTTCTCT
				TGGAGGATTTTTTCTGTATTTTCATTTCTTGTCGGTCATTGA
				TTAATTCCGTTTCTGGTATCAGTATCATCAAAATGTTGTCTT
				TTTCTGTATACTGATGCTGAATTATGTGAACAGTTGGCATT
				GAAGGCAAGTCAACTCCTAGAACAAACCAAACTGAGTGAA
				CTCCGTTCCACTATTGCTAGAAGCCTTTCGGAATTGGAGAT
				GTTTACCGAGGATGGTGAAAATATGGATACTCCCAAAAGG
				AAAAGTGCCATTAATGAACGTATGGAGGATCTTGTGAGTG
				CTCCTTTGGCTGTTGAAGATGCTTTAGTGGGTCTTTTCGAG
				CACAGTGATCACACCCTTCAAAGGCGAGTGGTGGAAACTT
				ATGTTCGTAGGCTATATCAGGTACTGTGTTGTAGAAACTTA
				AAACTTTTATCTGGTGATCAAACACTAGACGAAACTTGATC
				TTGATCAACTGTTTGTCTACCGCACCAGCCCTATCTGGTCA
				AAGGTAGTGTCAGGATGCAGTGGCATAGATTTGGTCTTAT
				TGCTACATGGGAATTCTTGGGAGAGCATATCGGGAGAAAG
				AATGGATCTGAAGGTCAAATGTCAGATGAACCAGAGGCTA
				AAAAACAGTCTAATAAGAGATGGGGAGCAATGGTTATCAT
				CAGATCTCTGCAGTTTTTGCCTTCAGTTATTGGTGCTGCATT
				AAGGGAAACAAATCAAAGCCTTAATGAGTCCATTCCAAGT
				GGATTAGTAAAATCAGCGAGCTTTGGTAATATGATGCACA
				TAGCATTGGTAGGCATCAATAATCAGATGAGCTTACTACA
				GGATAGGTAACTTCCTTCGGTACTATAATATAAGCGTTTAT
				TTTAATCATAAAAATTAGTAGCATTTTACATTCTATTATTCA
				TTGTAAGATCTCAAGTCTTCTTAATCATTTCTGCATTTGAAA
				CCTTGATAGATCTGGATAGATTCCTTATTTTTGTTTAAAATT
				TATGATAGAGTTACCTGGTCTCGAACCCTTAAAACATGCAC
				ATATATTGGCTTGCCAAACATAAGTTATTTTGCGTTGTCAA
				TTTCGATTATTGACGGTCAGCTTGTTAATGCTCCTAACTGG
				CACCATCTATGACATTTTGCAGTGGTGATGAGGATCAGGC
				ACAAGAGAGAATTAACAAGTTAGCCAAAATTCTCAAAGAA
				CAGGAACTAGGTTCCAGTTTGAGCTTGTCAGGCGTTGGAG
				TTATTAGCTGTATCATACAGAGGGATGAAGGGAGAGCCCC
				TATGAGGCACTCCTTTCACTGGTCAGAGGAAAAGCTTTATT
				ATGAGGAAGAACCTCTATTGCGACATTTGGAACCTCCACTA
				TCCATCTACCTTGAACTGGTTTGTCACCTATCGCAGTGTTTC
				AATACATTTTTTTGGCAGAAACCTTTATTGAGCCCCTGAAC
				TTACCAGTTTTATTCTCAAGTTATTATTTGACTACATTAAAT
				ACTTAATTACTATTGATTCCACATTATGACCTTGCAATATAA
				TTACAAGTGTTACGTTTTATTGATAAAATTATAACTGTTGCT
				ATTTTGTTTTACATATATCAAGGACTGCACTATAGTAAAAA
				AATGAGGACTCGATAGGATTGGAAAGTTCAGGGGCTTACT
				AATTGTTTGAGCGGAAAAAAATATATATAAATGTGAAATT
				GGATAATTCTATATCATTCATCTGAAGCTTATTATGGCCTTT
				TTTTGATCCAGGACAAACTTAAAGGCTATGACAATAGACA
				ATATACTCAGTCAAGGGACAGACAATGGCACATGTACACT
				GTTGTAGACAAACCAGTTCCAATCCAGAGGATGTTTCTAAG
				AACCCTTGTGAGACAGCCCACAAGTACTTCATATCAAGGTC
				TTGGCGCCGAAGCACCCAATGTGCAGTGGGCCATGTCCTT
				TACGTCAAAGAGCATTTTGAGGTCCTTAGTAGCTGCAATG
				GAGGAACTGGAGCTTCACGTGCACACTGTCAAATCTGACC
				ATGCTCATATGTACCTCTGCATATTGAGGGAGCAACGGAT
				AGAAGATCTTGTTCCATACACGAAGTAATTATATCAATCTT
				TATGATTTATTGTGTACTTGGCACCATAACTTTATGTGTACT
				CACTATGAGACTCCATCTCCAGGAAAACCGATGTAGATGC
				CAACCAAGAAGAAGCTGCGGTAGCAAGAATCTTGGAAGA
				ACTAGCGAGGAAGATACATGCGTCGGTTGGAGTCAGAAT
				GCATAGGTTAAATGTTTGCGAGTGGGAAGTGAAGCTATGG
				ATGACATCATCTGGACAGGCAAATGGTGCTTGGAGAGTTG
				TCACAACAAATGTGACTGGGCATACCTGTGCTGTGCATGT
				AAGTATCTGCGCATCTTATTTCAAGAAAATGTCTTTCCCTTC
				CATGCATTCCTTATTAGTCGACTTAGTAATGGGGAATGTCG
				AGAAGTGTTGGATGGTTACCAATGTGAGTACCATCACTGT
				TTAGATTAAAATTGACCATTGCTTTAGCAATACAATAATGA
				ATCTAATTGTGGCATGGGAGGCTTTTCTATGTGTGATCCAT
				GGAAAAACTTGTATATAGTTCCTTAGTAGGTTTGAGTTGTT
				TTCATTTTTCTTTTATCACATTGTAATTGTATTGGTGATTGAT
				ACGAAAATTAGATATATCGGGAACTTGGGGACGAGAGCA
				AACATGAAGTGGTGTACCATTCAATCTCTCCAAGAGGCCCA
				CTGCATAGCATGCCAGTGAATGCTGTTTATCAGCCCTTGGG
				AGTTCTCGATCGAAAACGTTTGTTGGCAAGGAAGAGCAAC
				ACCACTTACTGCTATGATTTTCCACTGGTTAGTATTTCTATA
				ATCATTAATCAAACATCAGTTTTTTTATTGGGGATAATTAA
				AATCAAATAATTTTTCCTGGCCTCATCCTTTTCAGGCGTTCG
				AGACAGCCATCGAACAATTATGGGAATCTCAATCACCAGG
				GACTGAAAGAAACAAAGAAAAAGTCCTAAAAGTCTCGGA
				GCTTGTTTTTGCCGATCAGAAAGGTACCTGGGGAACTCCA
				CTTGTTCATGCAGAACGGCCAGCTGGGCTTAACGACGTGG
				GCATGGTAGCATGGTGCATGGAAATGTTCACCCCGGAATG
				CCCTTCCGGAAGGAAAATCTTGATAGTAGCGAACGACGTG
				ACCTTCAAAGCCGGGTCTTTCGGCCCGAGAGAGGATGCAT
				TCTTTTCCGCCATAACCGATCTTGCATGCACCAAAAAGCTC
				CCTTTAGTCTACCTGGCAGCAAACTCTGGTGCTCGTATAGG
				TGTTGCCGAGGAAGTCAAGTCTTGCTTTAAAGTCGGTTGG
				TCAGATGAGTCATCTCCCGAGCGTGGTTTCCAGTACGTATA
				TTTGACTCCCGAGGATTATGTAACCATTGGATCATCGGTGA
				TAGCACACGAGCTGAATCAGAATGGAGAAACACGGTGGG
				TCATAGATGCCATTGTTGGGAAAGAGGATGGCTTAGGTGT
				CGAAAATTTATCGGGAAGTGGAGCCATTGCTAGTGCATAC
				TCAAGGGCATATAAGGAAACCTTCACATTGACATACGTAA
				CTGGAAGAACAGTGGGAATCGGTGCTTACCTGGCACGCCT
				CGGGATGAGATGCATACAACGGCTCGATCAACCGATCATC
				TTGACCGGGTTCTCCGCGTTAAACAAACTCCTCGGCCGTGA
				AGTGTATAGCTCTCACATGCAACTCGGCGGTCCGAAAATTA
				TGGCCACCAATGGGGTAGTCCATCGCACCGTCTCCGATGA
				CCTCGAAGGTATTTCGGAAATCCTGAAATGGCTAAGCTGT
				ATTCCCCCTCAAAGCGGCGGGGCAATTCCGGTATTTCCTTC
				TCCGGATCCTCCGGAGCGACCCGTGGAGTACTTCCCAGAA
				ACATCGTGCGACCCGCGGGCGGCCATCTCGGGTACAATGG
				ACGGCAGCGGGAAGAAGTGGCTCGGGGGTATTTTCGACA
				AAGACAGCTTCGTGGAGACACTGGAAGGGTGGGCGAGGA
				CCGTGGTGACCGGGCGGGCAAAGCTCGGGGGGATTCCGG
				TTGGGATAATAGCCGTCGAGACTCAAACCGTGATGCAAGT
				GATCCCCGCCGACCCGGGCCAGCTGGACTCGCACGAGCG
				GGTCGTGCCCCAGGCGGGTCAAGTATGGTTCCCAGATTCG
				GCGAATAAAACCGCCCAAGCGATTATGGATTTCAACCGAG
				AAGAGCTCCCGCTCTTTATCCTCGCCAACTGGCGAGGCTTC
				TCGGGCGGCCAACGAGACCTCTTCGAAGGTATCCTACAGG
				CGGGGTCCACCATAGTGGAAAACTTAAGGACATATAACCA
				ACCGGTTTTCGTATACATCCCTATGATGGGCGAGCTTCGTG
				GTGGGGCCTGGGTTGTTGTGGACAGTCAGATAAATTCCGA
				CCACATCGAGATGTACGCTGATCGGACGGCTAAAGGCAAC
				GTCCTTGAACCGGAAGGAATAATCGAGATCAAGTTTAGAA
				CAAAGGAGTTGCTCGATTGCATGAATCGACTCGACCCAAA
				GCTGATATCTTTAAAAACCAAACTAACCGAAGCGAAGAAT
				AGTGGGACCTACGGGATGGTCGATTCCGTACAACAGCTGA
				TAAAATCCCGGGAAAAGCAACTTCTGCCGCTTTACACGCAA
				ATCGCCACACGATTCGCCGAGCTTCACGACTCGGCTTTACG
				AATGGCGGCAAAGGGGGTGATTCGAGAAGTTGTCGACTG
				GGGGATTTCACGATCTTACTTCTACAAAAGGTTAAGAAGG
				AGAATCGCCGAGGCTTCGTTGGTGAACACCGTGAAAGATG
				CAGCGGGTGATAAGCTCCAGCATAAGTCGGCTATGGAGTT
				GGTCAAAAACTGGTTTCTGGACTCGAAAGGCGATTGGGAA
				AACGATGAAGCTTTCTATGCTTGGAAGGATAATCCCGCGA
				ATTACGAGGAAAAGCTACAGGAGTTACGGGTCCAGAAGG
				TGTTGCTTCAGTTAACTAACATTGGCGAGTCTTTGTCGGAT
				TTGAAAGCTTTACCTCAAGGTCTTGCTGCCCTTCTAAATAA
				GGTAATTTTTTGGGTTTTTTCTTCCAGGAATATTGTTTATTT
				AGACGATCGAGTCGGATGTTATGTAATACTTTATGTTTGAT
				GTAGGTGGAGCCATCGAGCCGAGGGGCGTTGATCGATGA
				GCTTCGGAAGGTGCTTAATTGATTTTCGGTAAGTGTTTCTC
				GGCTACTAAATATGTTTTACTTTGGCTTCAGTCTCTGGGTA
				GTTTGAATCAATAGAAAATGCCAATGTGAAAATACCCAGT
				AATATATTTGATAAGTGTAAATGTAACTATTATTATATTTAA
				GTGAATAGGGGGAATTAGTTCATATGATTATTGTTGTTATA
				AACAAATCAGAGATAGAGAGAGCTATATTTATTATTATATT
				TGCGAATTAAAGTTATTAGGAGTAGTATAATTTGGCGGTT
				GTTGCATTTTACGTGTAATGATCTGAATGTTGTTTGTTCGT
				GATTATTGAATAAAAGGGCATCAAATGCCATAATTTATCTT
				TCTTTGTTAACAAGATTTTAATTAGTTTTTTTTAATTATTAGT
				ATGTTTTGTATAATTTATATT
58	Euphorbia	gDNA	5227	TATATAAATGTGAAATTGGATAATTCTATATCATTCATCTG
	heterophylla	Contig		AAGCTTATTATGGCCTTTTTTGATCCAGGACAAACTTAAAG
				GCTATGACAATAGACAATATACTCAGTCAAGGGACAGACA
				ATGGCACATGTACACTGTTGTAGACAAACCAGTTCCAATCC
				AGAGGATGTTTCTAAGAACCCTTGTGAGACAGCCCACAAG
				TACTTCATATCAAGGTCTTGGCGCCGAAGCACCCAATGTGC
				AGTGGGCCATGTCCTTTACGTCAAAGAGCATTTTGAGGTCC
				TTAGTAGCTGCAATGGAGGAACTGGAGCTTCACGTGCACA
				CTGTCAAATCTGACCATGCTCATATGTACCTCTGCATATTG
				AGGGAGCAACGGATAGAAGATCTTGTTCCATACACGAAGT
				AATTATATCAATCTTTATGATTTATCGTGTACTTGGCACCAT
				AACTTTATGTGTACTCACTATGAGACTCCATCTCCAGGAAA
				ACCGATGTAGATGCCAACCAAGAAGAAGCTGCGGTAGCA
				AGAATCTTGGAAGAACTAGCGAGGAAGATACATGCGTCG
				GTTGGAGTCAGAATGCATAGGTTAAATGTTTGCGAGTGGG
				AAGTGAAGCTATGGATGACATCATCTGGACAGGCAAATGG
				TGCTTGGAGAGTTGTCACAACAAATGTGACTGGGCATACC
				TGTGCTGTGCATGTAAGTATCTGCGCATCTTATTTCAAGAA
				AATGTCTTTCCCTTCCATGCATTCCTTATTAGTCGACTTAGT
				AATGGGGAATGTCGAGAAGTGTTGGATGGTTACCAATGTG
				AGTACCATCACTGTTTAGATTAAAATTGACCATTGCTTTAG
				CAATACAATAATGAATCTAATTGTGGCATGGGAGGCTTTTC
				TATGTGTGATCCATGGAAAAACTTGTATATAGTTCCTTAGT
				AGGTTTGAGTTGTTTTCATTTTTCTTTTATCACATTGTAATT
				GTATTGGTGATTGATACGAAAATTAGATATATCGGGAACT
				TGGGGACGACAGCAAACACGAAGTGGTTTACCATTCGATC
				TCTCCAAGAGGCCCACTGCATAGCATGCCAGTGAATGCTG
				TTTATCAGCCCTTGGGAGTTCTCGATCGAAAACGTTTGTTG
				GCAAGGAAGAGCAACACCACTTACTGCTATGATTTTCCACT
				GGTTAGTATTTATATAATCATTAATCAAACATCAGTTTTTTT
				ATTGGGGATAACTAAAATCAAATAATTTTTCCTGGCCTCAT
				CCTTTTCAGGCGTTCGAGACAGCCATCGAACAATTATGGG
				AATCTCAATCACCAGGGACTGAAAGAAACAAAGAAAAAGT
				CCTAAAAGTCTCGGAGCTTGTTTTTGCCGATCAGAAAGGTA
				CCTGGGGAACTCCACTTGTTCATGCAGAACGGCCAGCTGG
				GCTTAACGACGTGGGCATGGTAGCATGGTGCATGGAAAT
				GTTCACCCCAGAATGCCCTTCCGGAAGGAAAATCTTGATA
				GTAGCGAACGACGTGACCTTCAAAGCCGGGTCTTTCGGTC
				CAAGAGAGGATGCATTCTTTTCCGCCATAACCGATCTGGCA
				TGCACCAAAAAGCTCCCTTTAGTCTACCTGGCAGCAAACTC
				TGGTGCTCGTATAGGTGTTGCCGAGGAAGTCAAGTCTTGC
				TTTAAAGTCGGTTGGTCAGATGAGTCATCTCCCGAGCGTG
				GTTTCCAGTACGTATATTTGACTCCCGAGGATTATGCAACC
				ATTGGATCATCGGTGATAGCACACGAGCTGAATCAGAATG
				GAGAAACACGGTGGGTCATAGATGCCATTGTTGGGAAAG
				AGGATGGCTTAGGTGTCGAAAATTTATCGGGAAGTGGAG
				CCATTGCTAGTGCATACTCAAGGGCATATAAGGAAACCTTC
				ACATTGACATACGTAACTGGAAGAACAGTGGGAATCGGTG
				CTTACCTGGCACGCCTCGGGATGAGATGCATACAACGGCT
				CGATCAACCGATCATCTTGACCGGGTTCTCCGCGTTAAACA
				AACTCCTCGGCCGTGAAGTGTATAGCTCTCACATGCAACTC
				GGCGGTCCGAAAATTATGGCCACCAATGGGGTAGTCCATC
				GCACCGTCTCCGATGACCTCGAAGGTATTTCGGAAATCCTG
				AAATGGCTAAGCTGTATTCCCCCTCAAAGCGGCGGGGCAA
				TTCCGGTATTTCCTTCTCCGGATCCTCCGGAGCGACCCGTG
				GAGTACTTCCCAGAAACATCGTGCGACCCGCGGGCGGCCA
				TCTCGGGTACAATGGACGGCAGCGGGAAGAAGTGGCTCG
				GGGGTATTTTCGACAAAGACAGCTTCGTGGAGACACTGGA
				AGGGTGGGCGAGGACCGTGGTGACCGGGCGGGCAAAGC
				TCGGGGGGATTCCGGTTGGGATAATAGCCGTCGAGACTCA
				AACCGTGGTGCAAGTGATCCCCGCCGACCCGGGCCAGCTG
				GACTCGCACGAGCGGGTCGTGCCCCAGGCGGGTCAAGTA
				TGGTTCCCAGATTCGGCGAATAAAACCGCCCAAGCGATTA
				TGGATTTCAACCGAGAAGAGCTCCCGCTCTTTATCCTCGCC
				AACTGGCGAGGCTTCTCGGGCGGCCAACGAGACCTCTTCG
				AAGGTATCCTACAGGCGGGGTCCACCATAGTGGAAAACTT
				AAGGACATATAACCAACCGGTTTTCGTATACATCCCTATGA
				TGGGCGAGCTTCGTGGTGGGGCCTGGGTTGTTGTGGACA
				GTCAGATAAATTCTGACCACATCGAGATGTACGCTGATCG
				GACGGCTAAAGGCAACGTCCTTGAACCGGAAGGAATAATC
				GAGATCAAGTTTAGAACAAAGGAGTTGCTCGATTGCATGA
				ATCGACTCGACCCAAAGCTGATATCTTTAAAAACCAAACTA
				ACCGAAGCGAAGAATAGTGGGACCTACGGGATGGTCGAT
				TCCGTACAACAGCTGATAAAATCCCGGGAAAAGCAACTTC
				TGCCGCTTTACACGCAAATCGCCACACGATTCGCCGAGCTT
				CACGACTCGGCTTTACGAATGGCGGCAAAGGGGGTGATTC
				GAGAAGTTGTCGACTGGGGGATTTCACGATCTTACTTCTAC
				AAAAGGTTAAGAAGGAGAATCGCCGAGGCTTCGTTGGTG
				AACACCGTGAAAGATGCAGCGGGTGATAAGCTCCAGCATA
				AGTCGGCTATGGAGTTGGTCAAAAACTGGTTTCTGGACTC
				GAAAGGCGATTGGGAAAACGATGAAGCTTTCTATGCTTGG
				AAGGATAATCCCGCGAATTACGAGGAAAAGCTACAGGAG
				TTACGGGTCCAGAAGGTGTTGCTTCAGTTAACTAACATTGG
				CGAGTCTTTGTCGGATTTGAAAGCTTTACCTCAAGGTCTTG
				CTGCCCTTCTAAATAAGGTAATTTTTTGGGTTTTTTCTTCCA
				GGAATATTGTTTATTTAGACGATCGGAGTCGGATGTTATGT
				AACACTTTATGTTTGATGTAGGTGGAGCCATCGAGCCGAG
				GGGCGTTGATCGATGAGCTTCGGAAGGTGCTTAATTGATT
				TTCGGTAAGTGTTTCTCGGCTACTAAATATGTTTTACTTTGG
				CTTCAGTCTCTGGGTAGTTTGAATCAATAGAAAATGCCAAT
				GTGAAAATACCCAGTAATATATTTGATAAGTGTAAATGTAA
				CTATTATTATATTTAAGTGAATAGGGGGAATTAGTTCATAT
				GATTATTGTTGTTATAAACAAATCAGAGATAGAGAGAGCT
				ATATTTATTATTATATTTGCGAATTAAAGTTATTAGGAGTA
				GTATAATTTGGCGGTTGTTGCATTTTACGTGTAATGATCTG
				AATGTTGTTTGTTCGTGATTATTGAATAAAAGGGCATCAAA
				TGCCATAATTTATCTTTCTTTGTTAACAAGATTTTAATTAGT
				TTTTTTTAATTATTAGTATGTTTTGTATAATTTATATTTGACT
				AATTAATGAGTTCTTTCTGAATTTATACCAAAATTTCAATAT
				AATACTGAATTTAAAACTTGAGTCTAGATTACCAACAAGGT
				GTAGCTCAGTTGGCAACGCAGGCTGGGTAAGTTGGAGGA
				GAACAATGTTTGAATCCTACTAAATACACTTGTTGGGAGG
				GGTGATGAGCCTTAACTGTGATTAAGTCCCGAACAAGATT
				ATCTCAATGGTGATACTTGTAATTATTACCAAAAAAAACTT
				GAGTCTACGATGCAAATATGTATTATCTAGGCATGGTCTAA
				TTAGATTTAAATATGGGCTGATTGGATTTAAATTTCTCTTTT
				TTTAGTACGATCTTATTAATTCAAATTAGAGTCCATTACATT
				TCTAATGGATGAGAAACCACGTCCTCCTCTATGTCAAAGAA
				ATAGATGTCTTGGCTAATAAATGGACAACTTGATTCGTAGA
				CCTATTAACAAAAACAACTTTTAAACCTAAAAAAGAGGTCA
				TGAGTATTTTGCAATCGAAAATAGTGAAACCTATTGACGAA
				TGAAGAGGAGAGTTGATCAGAGCATATAGCTCGAGAATG
				ACACTATCCAAGCCTTGGCTCTTTAGTCAACTGAGCGCCTC
				TCTGCAACTCATAGCCTCTACTAGAAGAACATCTTGCATGA
				GAGAGGATTGGGCTGCTACAAATCTACCCATATAATCTCG
				AATTACACAGCCATTCATCTACCATTCTCAAACACACTAGC
				ACGTTACATTTAAATCCAATGTTGTTTTAGCTTTGGATGTTT
				TGTGTGTCATTAATGTTTGTTGTCTGCCATTCACTGAGGAA
				CCCCAAACTGTGCCTAATAACTTGGGAATCAATTCGAAAAC
				GTTGATTCCAAGCCCAGCTATTCCTTCTGGGACCATATAGT
				GCACAAAATCAAATCCACCAATCTGTGATGGAAGCTATCG
				AATATGGCCACCCATTGCTGCAAATGCCCGACCATAACGC
				GAGAGCAAATGGTCAGGTAACGAGGGCGTGATAAGTCAA
				TGTGTCGTGTCAGCCCCATCACTGCATATAGAACCAACATG
				GTCGATCATAATATGCTTATCTTGAAGCCTAACCAACGTTG
				GTAATGGGAGTCCCACCATCGCTACTTTCCAAAAAAAGAT
				GAGTACATGAGCTGGGAATTGGATGTCCCGAATTTTTAGA
				TTAAATATATCAACATTATAAATTTCTTTTTTTTTTTTTATAA
				ATTAACATTATAAATTCAATCAAAATGATAATCGTTCTATG
				AT
59	Euphorbia	gDNA	4102	ATGTTAGTTGATCTTGTTTTCAGCACATATCACTTGTGAACT
	heterophylla	Contig		CTCAAGTTTCATTGAACATCGAAGGAAGCAAATATACGGT
				ATGGTACCTTTCATATTAGTATCTTAAATGAATAAATTTTAG
				TTTGGTGATGGATGCCATTTACGTTTGTAAAATCATTGCTA
				GATTGACATGGTTAGAGGGGGGCCAGGGAGCTATAGATT
				GAGGATGAATGGATCGGAGATAGAGGCAGAAATTCATAC
				ACTGCGTGATGGAGGTTTATTGATGCAGGCAAGTTGACTC
				ATTAACCATGGCTGTTGTAAACTAATAATTTTCGTCCTTTTT
				ATCATTTAATATTTGCTTTAGTCGACCCTCCATGCTTTGGAG
				ACCATAACAGACTCTATTCTGTTTCTTCACAGTTAGACGGA
				AACAGTCATGTAATATATGCTGAAGAAGAAGCAGCCGGAA
				CTCGCCTTCTAATTGACGGGAGGACTTGCTTGCTACAGAAT
				GATCATGATCCGTCAAAGTTAGTGGCAGAGACGCCATGCA
				AACTTCTGAGATATTTGGTTTCAGATGGTAGTCATATTGAA
				GCTGATGCTCCATATGCAGAGGTTGAAGTTATGAAGATGT
				GCATGCCTCTTCTTTCACCTGCTTCTGGAGTTGTCCATTTTA
				AAATGTCTGAAGGTCAAGCAATGCAGGTGTGTTTGATTTC
				ACAAACACATGCTTTTGGGCTTGATAAGTACATTTTGGTTT
				TATATGAATAGTCAGTTTTGATGTGAATCTAAGAAGTTTTC
				ATGTAGGCTGGGGAGCTCATTGCAAGGCTTGATCTTGATG
				ATCCTTCTGCTGTAAGAAAGGCAGAGCCTTTTCATGGGAG
				ATTCCCGCTACTTGGCTCTCCGACTGCTATTTCTGGTAAAGT
				TCATCAGAGATGTGCTGCAAGTTTGAATGCAGCCCGTATG
				ATTCTTGCTGGCTATGATCATAATATTGATGAAGTAAGTTG
				CAAGCTGGCTAGTTTCAACATGAACTTAATTGATGAATTAA
				TTGTTCATTCTATATTTTGTTGATTGTGTAATTTCATAACAA
				AATAATGAACTGTGCATTTGGTTTATTATATTGACAATTATT
				TGTTGAAATCTGATGTAATATCTCAATGACATCTATAGGTA
				GTGCAAAACTTGCTCAATTGCCTTGACAGTCCTGAACTCCC
				TTTCCTTCAGTGGCAAGAGTGCTTGTCTGTTCTAGCAACTC
				GCCTTCCCAAGGATCTTAGAAGCGAGGTGAATAATTTTTCT
				GTAATTTTTTCATGACCACATAGTCTTCTTGCTCACAATTTG
				ATATTGGCAATTTGTATAGTTGGAATCAAAATACACAGAGT
				TTGAAGGAATTTCAAGCTCCCAGAACATTGACTTCCCTGCC
				AAACTGTTAAGGGGTGTCCTCGAGGTGGGTTCCTTATTGC
				ATGGCTCTCTTGGAATTTCTCATTATCTGTTTTTTTTGCTGTT
				TAATGAGATGTGTATGCTTTTCCTCCAGGCACACCTGAAAT
				CCTGTCCTGAGAAAGAAAAAGGAGCCCTGGAAAGGCTTGT
				TGAACCTTTGATGAGTCTTGTAAAGTCTTATGAGGGAGGA
				CGTGAGAGTCATGCTCGAGTGATCGTCCAATCACTTTTTGA
				AGAGTATTTATCTGTAGAAGAATTATTTAGTGACAACATCC
				AGGTTAGCTTCTTCCTATCAAACATAATATGGAATTATTTTG
				GATTCTGAAAGTCTTCCCTCTTTGGCATCTTTTAGAAAATTA
				AGCATAATACTGGGTACTATATCCATTATTCTTTATAATCAT
				GAAATTTATTCTTACAGAAGAAAAGTGGAATTTCTATATAT
				ATTTAAACCAAGCTGGCAAGCTTTGAATTCAATCCTGTTGT
				TTATTGTTTTATCCAACATGCCAAAAATATTAGGAACTTCAT
				GTGACTACTTGTATCATTCTTATTCTGTAATTACAGTAAAGT
				AACTTGTCATATCCTAATGTTATAACTCGTAACATTCTTCTT
				TAGGCTGATGTGATTGAACGTCTCAGACTTCAATATAAGAA
				AGACCTTTTGAAGATAGTGGACATTGTCCTTTCTCATCAGG
				TATCTGATTTTCGGTTTTAATTTTTATCTCGGGTTTTCTAAA
				ATAGAATTCTGAGTTTGTGGAAATAACTACCGTATTTGTTG
				GTTTATAGGGTGTTAAGAGTAAAAATAAGCTGATACTACG
				GCTCATGGAACAACTTGTTTACCCCAACCCTGCTGCATATA
				GGGATAAACTCATTCGGTTCTCTCAGCTTAACCACACCAGC
				TATTCCGAGGTTGGCAGCTATACTTGGTCCATCTGTAATTT
				CATAAAGTTGTTGCTCTGTTTCCTTTTGTTCACAAGTTCATT
				TTTGAGAGTTTTCCATAGGATGGTGACTGACAGGAAGAGG
				ATTCTAATGTTTTCTCTTGGAGGATTTTTTCTGTATTTTCATT
				TCTTGTCGGTCATTGATTAATTCCGTTTCTGGTATCAGTATC
				ATCAAAATGTTGTCTTTTTCTGTATACTGATGCTGAATTATG
				TGAACAGTTGGCATTGAAGGCAAGTCAACTCCTAGAACAA
				ACCAAACTGAGTGAACTCCGTTCCACTATTGCTAGAAGCCT
				TTCGGAATTGGAGATGTTTACAGAGGATGGTGAAAATATG
				GATACTCCCAAAAGGAAAAGTGCCATTAATGAACGTATGG
				AGGATCTTGTGAGTGCTCCTTTGGCTGTTGAAGATGCTTTA
				GTGGGTCTTTTCGAGCACAGTGATCACACCCTTCAAAGGC
				GAGTGGTGGAAACTTATGTTCGTAGGCTATATCAGGTACT
				GTGTTGTAGAAACTTAAAACTTTTATCTGGTGATCAAACAC
				TAGACGAAACTTGATCTTGATCAACTGTTTGTCTACCGCAC
				CAGCCCTATCTGGTCAAAGGTAGTGTCAGGATGCAGTGGC
				ATAGATTTGGTCTTATTGCTACATGGGAATTCTTGGGAGAG
				CATATCGGGAGAAAGAATGGATCTGAAGGTCAAATGTCAG
				ATGAACCAGAGGCTAAAAAACAGTCTAATAAGAGATGGG
				GAGCAATGGTTATCATCAGATCTCTGCAGTTTTTGCCTTCA
				GTTATTGGTGCTGCATTAAGGGAAACAAATCAAAGCCTTA
				ATGAGTCCATTCCAAGTGGATTAGTAAAATCAGCGAGCTTT
				GGTAATATGATGCACATAGCATTGGTAGGCATCAATAATC
				AGATGAGCTTACTACAGGATAGGTAACTTCCTTCGGTACTA
				TAATATAAGCGTTTATTTTAATCATAAAAATTAGTAGCATTT
				TACATTCTATTATTCATTGTAAGATCTCAAGTCTTCTTAATC
				ATTTCTGCATTTGAAACCTTGATAGATCTGGATAGATTCCTT
				ATTTTTGTTTAAAATTTATGATAGAGTTACCTGGTCTCGAAC
				CCTTAAAACATGCACATATATTGGCTTGCCAAACATAAGTT
				ATTTTGCGTTGTCAATTTCGATTATTGACAGTCATCTTGTTA
				ATGCTCCTAACTGGCACCATCTATGACATTTTGCAGTGGTG
				ATGAGGATCAGGCACAAGAGAGAATTAACAAGTTAGCCA
				AGATTCTCAAAGAACAGGAACTAGGTTCCAGTTTGAGCTT
				GTCAGGCGTTGGAGTTATTAGCTGTATCATACAGAGGGAT
				GAAGGGAGAGCCCCTATGAGGCACTCCTTTCACTGGTCAG
				AGGAAAAGCTTTATTATGAGGAAGAACCTCTATTGCGACA
				TTTGGAACCTCCACTATCCATCTACCTTGAACTGGTTTGTCA
				CCTATCGCAGTGTTTCAATACATTTTTTTGGCAGAAACCTTT
				ATTGAGCCCCTGAACTTACCAGTTTTATTCTCAAGTTATTAT
				TTGACTACATTAAATACTTGAATTACTATTGAATCCACATTA
				CGACCTTGAAAACGTTTTATTGATAAAATTATAACTGTTGC
				TATTTTGTTTTACATATATCAAGGACTGCACTATAGTAAAA
				AAATGAGGACTCGATATGATTGGAAAGTTCAGGGGCTTAC
				TAATTGTTTGAGCGGAAAAAAATATATATAAATGTGAAATT
				GGATAA
60	Euphorbia	gDNA	1523	AAAATATCTTTGTTTCTGTAATAAATTGTTCTTTGACTTTTCT
	heterophylla	Contig		AATGATCTTTAATCTACATCCTAATCTGGATGTAGGTGGAG
				CATCCCGTCACAGAGTGGATTGCTGAAATAAATTTGCCTGC
				TGCCCAAGTAGCTGTTGGGATGGGAATTCCTCTGTGGCAA
				ATTCCTGGTATGACCGCAAAAGTTGGAAATTCACATTTTCT
				TGCTCATTAGACATGTTTCTTTGACATTCTGTTGATTTTTAA
				TCAGAGATTAGGCGATTTTATGGAATGGAACATGGTGGAG
				GATATGATGCTTGGAGGAAAACTTCAGTGGCTGCTACGCC
				TTTTGATTTTGACAAGGTAGACTCTACAAAGCCAAAAGGTC
				ATTGTGTAGCTGTACGTGTGACAAGTGAGGATCCAGATGA
				CGGCTTTAAGCCTACTAGTGGAAAAGTACTGGTAAGGTTT
				TCAGGTTGACTATTCTAATTTGAATTTCCTTCTATTCCAAAA
				TTCCTTATCCTGTAATGAACTTGTACTTTTATTGTCTTGCAC
				AGGAGCTGAGTTTTAAAAGCAAGCCAAATGTGTGGGCTTA
				TTTCTCTGTGAAGGTGACTTTTTGCTGCTCTCTTTCTTTGGA
				ACATGTTTATGTTGACACAATTGGTTTCTGACTTAATAACTT
				CATTCTGATTTGTAGTCTGGTGGAGGCATTCATGAATTCTC
				AGATTCACAATTTGGTAAGTAATAATTGCTAAATAATCACA
				CTTCATGGATAATAATGAAAAGAAGTTTGTGAGATGAGTT
				ATCCAATCTGCTGCAAATTAATGGTTCTTTTTTATCTTCTTG
				TGACATTTTTTTTAACAAAAGCTACAGTCTGCTTTTCAGTTT
				AGTCTTTTCCGTTTGTTACATTTGCTATCGAAAGCACTCATG
				ATTGTCGTAATCTTTCCTTAGGACATGTTTTTGCATTTGGGG
				AGTCCAGAGCTTTGGCAATAGCTAATATGGTTCTTGGGCT
				GAAGGAAATACAGATAAGAGGAGAAATCCGCACCAATGT
				TGACTACTCTGTTGACCTTTTACATGTAAACTATCTTAGCTG
				TTGATGTTCCCTTTATACATCATGTAAACTTTCACGAGGAA
				CATGAACACGAGTTGACATGCTATGCAGGCTTCAGATTATA
				GGGAAAATAAAATTCACACAGGTTGGTTGGACAGTAGAAT
				AGCTATGAGGGTTAGAGCAGAAAGACCTCCTTGGTACCTC
				TCTGTTGTTGGAGGGGCACTATATGTAAGTTGTCACGATTT
				CACATGAGAGGATGACTGTATACTTTTGGAATGCTTTATTA
				TGTCTTTCAGAACTTGCCACTTAAGTGTTCAATTTTTTGTTT
				GCACCAGAAAGCATCTGCTAGCAGCGCAGCTATGGTTTCT
				GATTATGTTGGTTACCTTGAAAAGGGCCAAATCCCTCCCAA
				GGTACATCAAAAGTATATTTGTACAATTGTATATGTTTCTTA
				TTCAGCCGATTATGTTGATGTTGATGTTAGTTGATCTTGTTT
				TCAG
61	Xanthium	cDNA	1349	GTTGTTGTCAAGTCTCTATTTGAGGAGTATCTGTCTGTTGA
	strumarium	Contig		AGAACTCTTCAATGATAACCTTCAGTCTGATGTTATAGAGC
				GTCTACGTCTTCAACATGCAAAAGACCTTGAGAAGGTTGTA
				CACATTGTGTTCTCGCACCAGGGTGTGAGAAACAAAAATA
				AATTAATACTACGGCTTATGGAAGCATTAGTATATCCAAAC
				CCATCTGCTTACAGAGACCAGTTGATTCGCTTCTCTGCCTT
				GAACCATACATCTTATTCTGAGTTGGCACTTAAAGCAAGCC
				AACTTCTAGAGCATACTAAATTGAGTGAACTTCGAACAAGC
				ATAGCAAGAAGCCTTTCAGAGTTGGAGATGTTTACTGAGG
				AAGGAGAACGGGTGTCAACACCTAGGAGAAAGATGGCAA
				TAAATGAGAGGATGGAAGATTTAGTATGTGCTCCACTGGC
				AGTTGAAGATGCTCTTGTAGCTTTGTTTGATCACAGCGATC
				CTACACTTCAGCGGAGGGTTGTTGAGACATATATACGTCG
				ATTGTATCAGCCCTACCTTGTAAGTGGAAGTATCCGGATGC
				AATGGCACCGAGCTGGCTTAATTGCTTTATGGGAGTTCTCT
				GAAGAGCATCTTAAGCAAAGAAATGGGCACGATGTGCTTG
				TACAGCAAGTAGAGAATCCCATTGAGAAGAGATGGGGTG
				TCATGGTTGTAATCAAGTCTCTTCAGTTTCTAGCAACTGCA
				ATTGATGCTGCACTGAAGGAGACCTCGCAATATAGAGCAG
				GTGCTGTAAGTGTCTCGAATGGTAACCATGTAAATTCAAAT
				CAAAGCAATATGCTGCATATTGCTTTGGTTGGTATCAATAA
				TCAGATGAGTACTCTCCAAGACAGTGGTGACGAGGATCAA
				GCACAGGAAAGGATCAACAAACTATCCAAAATTTTGAAGG
				ATAATACTATTACATCGCAACTTAATGGTGCTGGTGTTAAG
				GTCGTCAGTTGCATTATCCAAAGAGATGAAGGGCGTCCAC
				CAATGCGACACTCCTTCCATTGGTCTGTTGACAAGCTTTATT
				ATGAGGAGGATCCAATGCTCCGCCACGTGGAACCACCATT
				GTCTACATTCCTTGAGCTGGACAAAGTAAATTTGGAGGGT
				TACACTGAAGTAAAATACACCCCATCACGTGATCGTCAGTG
				GCATATTTACACACTTATCAAGAACAAGAAAGATCAGAGA
				TTAAACGACCAGAGGATGTTCCTTCGTACCATAGTCAGACA
				ACAAAGCGCAACAAATGGTTTCCTGTCAGGAAATATTGAC
				AATGAAGTAGGCCGCACTCAAGCTTCGTCATTCACATCACA
				CAGCATCCTCAG
62	Commelina	cDNA	7098	ATGACACTGATTAAATATCTATGTAGAACGCCTGAAGCCCA
	diffusa	Contig		GAAGGGAGCAGTTATGGCAGATGTCTGGCAAGATCATGG
				GATTTTAAATGGGACAGTTCAAGTCAAACATGCAGCTACA
				ACGTCTGAAGTTGATGATTTCTGTTATGCACTTGGTGGAAA
				GAGACCTATTCGCAGCATATTGATTGCTAATAATGGAATG
				GCTGCTGTCAAATTCATGCGTAGTATTAGAACCTGGGCTTA
				CGAAACATTTGGATCAGAAAAGGCAATTTTGTTGGTTGCG
				ATGGCAACTCCAGAAGACTTGAGGATAAATGCCGAGCACA
				TTAGAATTGCTGATCAATTTGTAGAGGTTCCCGGTGGAACC
				AATAATAACAATTATGCAAATGTTCAACTCATTGTGGAGCT
				GGCCGAAATAACACGTGTTTCTGCAGTTTGGCCTGGATGG
				GGCCATGCATCCGAGAATCCCGAACTTCCAGATGCCCTGA
				ATGCAAAGGGAATAATCTTTCTCGGGCCTCCAGCTGCGCC
				AATGTCAGCACTAGGTGATAAAATTGGTTCTTCTCTAATTG
				CTCAGGCAGCAGGTGTACCAACTCTTCCGTGGAGTGGCTC
				ACATGTCAAAATTTCAGCGGAAAGTTGTATGGACACAATA
				CCCGAAGAGATATACAAGCAGGCTTGTGTTTATACAACAG
				AAGAAGCAGTGGCCAGCTGCCAGGTAGTTGGCTATCCTGC
				CATGATAAAGGCATCTTGGGGCGGTGGTGGTAAAGGAAT
				AAGAAAGGTTCACAATGACGATGAAGTGAGAGCTCTCTTC
				AAACAAGTGCAAGGAGAAGTTCCAGGATCTCCAATATTTA
				TAATGAAAGTGGCATCACAGAGTCGTCACTTGGAAGTTCA
				GTTGCTTTGTGATGAATATGGCAATGTTGCTGCTCTTCACA
				GTCGAGATTGCAGTGTTCAAAGGCGACACCAAAAGATCAT
				CGAAGAAGGTCCGATCACGGTGGCCCCTCCTGAGACAGTC
				AAACAACTTGAGCAGGCAGCAAGAAGGCTTGCTAAGTGTG
				TTGGTTATGTTGGTGCTGCTACTGTTGAATATCTCTACAGT
				ATGGAAACTGGTGACTACTATTTCCTAGAACTGAACCCTCG
				ATTACAGGTTGAGCATCCTGTAACTGAGTGGATAGCTGAA
				GTCAGCTTGCCTGCGGCTCAAGTTTCAGTTGGTATGGGCAT
				ACCACTATGGCAAATTCCAGAAATCAGAAGATTTTATGGA
				AAGGAGCATGGTGGAGGATATGATGCTTGGAGGAAGACA
				TCACTTTCTGCAAGTCCTTTTGACTTTGACAAAGCAGAGTC
				TACAAGGCCAAGAGGTCATTGTGTAGCTGTTCGTGTGACG
				AGTGAAGATCCAGATGATGGCTTCAAGCCCACCAGTGGCA
				AAGTGCAGGAGCTAAATTTTAAAAGCAAGCCTAATGTGTG
				GGCATACTTCTCTGTTAAGTCTGGTGGTGGCATCCATGAAT
				TTTCTGATTCTCAATTTGGACATGTTTTTGCATTTGGGGAAT
				CTAGAGCCTTGGCGATAGCTAACATGGTTCTTGGACTGAA
				GGAGATCCAAATTCGTGGGGAAATTCGAACAAATGTTGAT
				TACACAATTGATCTATTAAATGCATCAGAATACAGAGACAA
				CAAAATCCACACTGGTTGGCTGGATAGCAGAATAGCAATG
				AGGGTCAGAGCTGAGAGGCCTCCATGGTACCTTTCAGTTG
				TTGGAGGAGCTCTTTATAAAGCAACAACTAGCAGTGCTGC
				CATTGTTTCCGAATATGTTGGTTATCTTGGTAAAGGTCAAA
				TCCCACCAAAGATTGAAATGGTTCGAGGTGGACCTGGTAG
				TTATAAATTAAAAATGAATGGTTCAGAGATTGAAGCTGAA
				ATTCATACTCTCCGTGATGGTGGACTTCTGATGCAGCTAGT
				TTCAGTGGCAAAGCAAGCATTCCAATATGCTAAGCCTGTTA
				ACAGTATTGATGCTGCTGTAAAATTGCCCCGTATGAATTTC
				CAGTCTTCTTCATACTCTATTTTTCTTAATAAGATAATGTAC
				CGACAACTTGATGATGGAAGCTTTTTGGATGGAAACAGCC
				ATGTGATATATGCTGAAGAGGAGGCTGCTGGTACACGCCT
				TCTTATCGATGGAAGGACTTGCTTGTTACAGAATGATCATG
				ATCCATCGAAATTGATTGCGGAGACACCATGCAAACTTCTT
				CGCTACTTGATTGCTGATGGAGAGCATCTTGATGCTGATGC
				ACCATATGCAGAGGTCGAAGTAATGAAGATGTGCATGCCC
				CTTTTGTTACCTGCTTCTGGAGTTATTCATTTTGTGATGTCT
				GAAGGTCAGGCTATGCAGGCTGGTGACCTCATAGCAAGG
				CTCGACTTAGACGATCCATCTGCTGTAAGAAGAGCTGAAC
				CATTCAATGGTACATTCCCTAAAGTAGGTCCTCCCACTGCA
				GTTTCTGACAGAGTTCACCAGAGATGTGCTGCAAGTTTGA
				ATGCTGCACGCATGATTCTTGCAGGATATGAACATAATATT
				AATGAAGTTGTTCAAGAGTTACTACATTGTTTGGATAGTCC
				GGAGCTTCCTTTTCTACAGTGGCAGGAAAGTATGTCTGTAT
				TGGCAACTCGCCTGCCGAAAGAACTTAAAAATGAGTTGGA
				TTCTAAATACAAAGTATTTGAAACAAACTCAAACGTTCAAA
				AGAATGTGGAATTTCCTGCCAAGCTTCTGAGTGGAGTTATT
				GAGAGCTATCTCTCATCTTGTAGTGAGAAAGATAAGGCGG
				CACAGGAAAGGCTTGTGGAACCACTTCTGAGCCTTGCGAA
				GTCATACGAAGGTGGAAGAGAAAGCCATGCTCGTGTAATT
				GTGCATTCTCTTTTTGAAGAGTACTTATCTGTTGAAGAGTT
				ATTCAGTGATAGCATTCAGGCCGATGTCATAGAACGCCTAC
				GACTTCAATACCAGAAGGATCTTCTGAAAGTTGTAGACATA
				GTGCTGTCTCATCAGGGTGTTAGAAGTAAAAATAAGCTGA
				TACTGAGGTTGATGGAAGCATTGGTCTATCCTAATCCTGCT
				GCCTATCGGGAACAACTGATTCGCTTCTCTGCTCTTAACCA
				TACCACTTACTCCGAGTTAGCATTGAAAGCCAGTCAACTCC
				TTGAACAAACTAAATTGAGTGAGCTTCGAACAAGCATTGC
				CAGAAGCCTTTCCGAGCTAGAAATGTTTACAGAAGAAGGT
				GAACGTCTATCTACACCGAGAAGGAAAAGTGCTATCAATG
				AGAGGATGGAGGATCTTGTAAGTGCTACGCTGGCCGTTGA
				AGATGCACTTGTGTCTTTGTTTGATCACACTGATCCAACTG
				TTCAGAGACGAGTGATGGAAACATATGTCCGAAGATTGTA
				CCAGCCCTACCTTGTGAAGGATAGTGTCCGAATGCAGTGG
				CACCGTTCTGGTTTGATCGCGACATGGGAATTCACCGAAG
				AACATATTGAGAAAAAGAATGATTCTTCTACACAAGATAA
				GTCATTTATGGAGAAACATTGTCAAAAGAGATGGGGAGCT
				ATGGTTATCGTCAAATCTCTCCAGTTTCTTCCAGCAGCAATT
				AGTGCAGCATTGAAGGAAACCAGTCATCTGTCATCTGATA
				CTGATCATGATACAGTATCTAATGGGCTTCCTCAACATGCT
				AGTCAAGGCAATATGCTTCATGTTGCATTGGTTGGCATTAA
				CAATCAAATGAGTACACTTCAGGATAGTGGAGATGAGGAT
				CAGGCTCAGGAGAGGATACACAAGCTTGCCAAGATTCTAA
				AAGATAACAAGGTAGCGACTGAACTTTCCAATGCTGGAGT
				CCGAGTTGTTAGCTGTATTATACAAAGAGATGAAGGACGA
				ACACCTATGCGTCACTCCTTCCATTGGTCTGCCGATAAGCA
				ATGCTATGAAGAAGAACCCTTGCTTCGTCATCTGGAACCTC
				CTCTGTCTACTTTCCTTGAATTGGATAAGCTGAAAGGCTAC
				AAAAATATACAATACACACCATCACGGGATCGCCAGTGGC
				ATATGTACACAGTTCAAGAAACTAAACCACTTAATCAGAG
				GATGTTTCTGAGGACCCTTGTCAGACAACCAAGGATAAAT
				AATGGATTTTCATCAAACCAGCTTCCCGAATTAGAAACTAG
				ACATGATTTATCCTTTACATCAGTCAGCTTGTTGAGATCTTT
				GATGGCAGCATTGGAAGAGTTAGAACTACATGTCCATAGC
				GAAACAATCAGATCTGATCATTCTCACATGTATCTCTGCAT
				ATTACAAGAACAACAACTCTCCGATCTTTTACCTCGTTCAG
				GTACTCTTGATCCTGATGCCTATCAGAATGAAAGTCAAGTG
				TCCCTGCTTTTAAAAGATATGGCTGTCAGGATTCATGAGAT
				AGTTGGTGTAAGGATGCATCGTCTTACTGTTATTGAGTGG
				GAGGTAAAGCTCTGGTTGGGTTCTGATGGTGTTGCTGGTG
				GTTCTTGGAGGGTTGTGGTGACAAATGTTACTGGACGTAC
				ATGTAATGTCCATATTTACCGAGAATTGGAGGACAGCAAA
				TCACATGAAGTGGTCTATCACTCTGCAGCTTCAGTCACAGG
				ACCTCTCCATGGTATGCCGTTGATTGCTAGATATCAGCCAC
				TTAGTGTTATTGATAAAAAACGATGGGTGGCAAGAAGGAG
				CAACACTACTTATTGCTATGACTTTCCACTGGCGTTTGAGA
				CAGCACTGAAGCAGTCATGGGCTTCTTATAGTGATACTAAA
				GCACCAGAAAGCAAAGCTCTTCTCCAAGTTCAAGAACTTAT
				GTTTGTTGACAAAAAGGGATCATGGGGTACTCCTGTTGAA
				CCTGTATGCTGCCCACCTGGTCTCAGTGATATTGGCATGGT
				TGCTTGGTCAATGGAAATGTACACACCAGAATTTCCCGAA
				GGAAGGAAGATTGTTGTTGTAGCCAATGATTTGACTTTCA
				AAGCAGGCTCCTTTGGGCCTCGTGAAGATGCATTTTTCCAT
				GCTGTAACCAATTATGCATGTGATAAGAGGCTCCCTCTAAT
				CTATTTGGCAGCAAATTCTGGCGCCAGGATTGGTGCTGCT
				GAAGAGGTCAAGTCTTGCTTTAAGGTTGGATGGTCTGATG
				AGTCGAGTCCAGAACGTGGTTTTCAGTATGTGTATCTGACA
				CAGGAGGACTATAACCGTATTGGTTCATCTGTTATTGCACA
				TGAACTGAAGCTTGAAAGTGGTGAGATCAGATGGGTGATC
				GACACAATTGTTGGCAAAGATGATGACTTGGGTGTTGAGA
				ACCTCACTGGCAGTGGTGCAATTGCCGGTGCTTATTCCAG
				GGCTTATAACGAGGTATTTACTCTTACATATGTGACTGGAC
				GTACTGTAGGAATCGGAGCCTATCTTGCTCGGCTTGGCAT
				GAGGTGTATCCAGAGGCTAGACCAGCCTATAATCCTAACA
				GGGTTTTCTACACTCAACAAGTTGCTTGGCCGTGAGGTGTA
				CAGCTCACACATGCAACTAGGTGGCCCGAAGATCATGGCT
				ACAAATGGTGTTGTTCATCTGACGGTATCAGATGATCTTGA
				GGGCGTTTCTGCTATTCTTAAGTGGCTTAGTTACGTACCAC
				CCTATGTCGGTGGGCCACTTCCAATAATAAAATCCTTGGAT
				CCCCCAGAAAGGCCAGTGGAGTATTTTCCTGAAAATTCATG
				TGATCCACGGGCCGCAATTTGCGGCATTGATGATGGCAAT
				GGCAAGTGGTTAGGTGGTATGTTTGATAAAGATAGTTTTA
				CGGAGACATTAGAAGGTTGGGCAAAGACGGTGGTCACCG
				GAAGAGCAAAGTTGGGTGGAATTCCAGTAGGAGTTATAG
				CTGTCGAGACACAGACTGTGATGCAAGTCATTCCTGCAGA
				TCCTGGTCAGCTTGATTCCCATGAACGTGTTGTCCCACAAG
				CTGGTCAAGTTTGGTTCCCTGATTCTGCCACCAAAACGGCA
				CAAGCATTATTAGACTTCAATCGTGAAGAATTGCCACTTTT
				CATACTAGCCAACTGGAGAGGATTCTCAGGCGGACAGAGA
				GATCTCTTCGAAGGTATACTTCAGGCTGGTTCCACAATCGT
				CGAAAACTTAAGGACATATAAGCAGCCTGTATTTACCTACA
				TCCCAATGGCCGGGGAGCTTCGTGGTGGTGCATGGGTTGT
				GGTGGACAGCAAAATCAACCCGGATCACATCGAGATGTAT
				GCCGAAAGAACAGCAAGGGGCAACGTACTTGAGCCCGAA
				GGAATGATTGAGATTAAGTTCAGAACTAAAGAACTTCTCG
				AGTGCATGGGTAGACTTGATCCTGAGCTAATCAGTTTGAA
				AACAAAGCTTAGGGAGTTGAAGGCAGCTGGACCTTCCAGA
				GATGTGGACGTCCTCCAGAAAAGTGTAACGGCTAGAGAG
				AAGCAGTTATTGCCTGTATATACACAAATTGCTATAAAGTT
				TGCAGAGTTGCACGATACATCCTTGCGAATGGCTGCCAAA
				GGTGTGATCAAGAAAGTGGTAGACTGGGAGAACTCCCGTT
				CTTTCTTCTACAAAAGGTTAAACAGGAGAGTTTCCGAGGAT
				GTCCTTGCAAAAACTGTTAGAGATGCTGCTGGGGAGCAGT
				TGTCGTACAAGTCTGCTATTGAACTGCTTAAGCAGTGGTTT
				TCATCTTCCGACAATGTGGACGTTGGAAAATGGGAGGAAG
				ACGATGCTTTCCTTGCCTGGAAAGACAACCCTAAAAATTAT
				GCCAAGTATCTTGAAGAGCTACGAGTTCAGAAGATATTGC
				AGCAGCTCTCAGCTCTTGGTGAATCATCTTCGGATTTGCGA
				GTATTGCCTCAATGTCTTGCTACAGTCCTTAGCAAGGGCAG
				AATAACAAACTCAAGCGAATCGGAGAAGAGCAGGACCGA
				GCACGAGATCTGGTCGACTGAGCTTGAGTGGGCCAAGCTT
				AAGCTTGCGATGGAGAAGAAGTGCGCCAGAGAAGAGGG
				GCACACCTGGATAAGGAAGGCGAGATACACGAGCATGAC
				CAAATCGAAAATGAGCTGGAGGGGAAGGGAGGAGGAGA
				ATAAGGGAGACATGAGAGGAGGGGAAGGATAA
63	Commelina	gDNA	14748	AAAAAAAAAAAAAAACAAAGATCTTATGATAGTCTGAAAA
	diffusa	Contig		CAAACTTTGACCAGTGTGATTTTATGTTAAGTGTATTTACCT
				ATCTTTCAATTGACTTTTCAGGTTCACAATGACGATGAAGT
				GAGAGCTCTCTTCAAACAAGTGCAAGGAGAAGTTCCAGGA
				TCTCCAATATTTATAATGAAAGTGGCATCACAGGTGAGATA
				AATGTATTTTTAAAGCTTCAGTTATGTCATGAATTTATATGG
				CCCTGCATTAACTGAATCTAGACTATGCCCAATATGAAATT
				ATTGCAGGTTACTTTAAGCAGAATATATGTTTGACAGTAAG
				TAGGCTGACTTAGTACTGAACAATTGAGTGTATCAATGCAT
				GCCCAATATAATAGTGTGTTTCATTTCAGGATAAAAAGTGA
				GATGTAGTTTTCGGATTCAACATATGCATTCTTTTTCAACCT
				TGATGTCATCAGTCAATGCATAGTAGTGCATGTACTTGACT
				TTGTGTATGTAATTATTATTCTTTGGTAGTTGCAATTAAAG
				GATGCATTGATACACCCAATTGTATCATCAGTTATTTTGCA
				ATTCATATTCCACCCTTCTGTTTTTAGGAAATTCTAGAAACT
				TTTAACTTGGAAGCTCTAGAATACCATATCTTGCTTTATATC
				ATGGCAGTTACACTGAAGCTTTATGTTACATGTGCATTCAT
				TTTTAACGCTCCAATATTGTTATCCTTTTATTTCCTCTAGAGT
				CGTCACTTGGAAGTTCAGTTGCTTTGTGATGAATATGGCAA
				TGTTGCTGCTCTTCACAGTCGAGATTGCAGTGTTCAAAGGC
				GACACCAAAAGGTAAACTTTAGTAAAGCATCTATATAATTA
				TGTTATTTGTAACCTTTCATGCTTACCTTTATATTTCATAGAC
				CTGAACCATGTCTATGAATATATTTGTGTGCTGTTATGAGC
				AGGTTATTTTTCTCCAGATCATGTATCTTTATCCTGAACTCT
				TGTGGACTTATCTTGAATTAACATTTTGTAAATATTTCAAGA
				CTTTCTTCATGATGCTTATTTATTACCCAACAGATCATCGAA
				GAAGGTCCGATCACGGTGGCCCCTCCTGAGACAGTCAAAC
				AACTTGAGCAGGCAGCAAGAAGGCTTGCTAAGTGTGTTGG
				TTATGTTGGTGCTGCTACTGTTGAATATCTCTACAGTATGG
				AAACTGGTGACTACTATTTCCTAGAACTGAACCCTCGATTA
				CAGGTTTGTCTTTGCTTGTTGGCTGAAGATTCATTGTTCATC
				AGAACTTTGTCTTCTAAGTCTTGGTCCTTTTCAGGTTGAGC
				ATCCTGTAACTGAGTGGATAGCTGAAGTCAGCTTGCCTGC
				GGCTCAAGTTTCAGTTGGTATGGGCATACCACTATGGCAA
				ATTCCAGGTATGAACTTGTAAGGGAATTTTGCATAATTAAT
				GCAAAAAGCTTAAGAGAAAAAGATGTAAGTTTCTTGTGAT
				GCTAACTCTAGTTATAATTTTGGTTTCTTTCTTTCAGAAATC
				AGAAGATTTTATGGAAAGGAGCATGGTGGAGGATATGAT
				GCTTGGAGGAAGACATCACTTTCTGCAAGTCCTTTTGACTT
				TGACAAAGCAGAGTCTACAAGGCCAAGAGGTCATTGTGTA
				GCTGTTCGTGTGACGAGTGAAGATCCAGATGATGGCTTCA
				AGCCCACCAGTGGCAAAGTGCAGGTAAATGTTGTTGAATA
				TAGGATATTTAGGCTTAATATTTTCTGCAGGGACACTGACC
				AACTTTACTGAACTGGGACTTAAATATTTTCAGGAGCTAAA
				TTTTAAAAGCAAGCCTAATGTGTGGGCATACTTCTCTGTTA
				AGGTATGTTGTTTAAGTTTTTCTGGGCTGGCTGCCCTTCTTT
				GGGTTATTTCTTTGATTTCTATCAATTAATGTACAACAACAA
				AAAAAATCTTTTAAGAGTTAATATAAACAAATGTTGGAAAC
				AAATGTTCTGGCTAAGGAGATCAAAATATAAACTTTTGTGG
				AAAAAAGTTGTGTAGTTTGCAATATGAATACAGTGTGATA
				CTTAGTTGATTGTGTCTTCATTTTTGTCCTAATTAAATTATAT
				TTTGTAATTATTAGACTAAATGTGCTTATACAGACAAATAT
				TTTGTTTGCAGTCTGGTGGTGGCATCCATGAATTTTCTGAT
				TCTCAATTTGGTATCTCCTTGACAATGAAAGAAGTTAAATT
				CTTTTGAATGCTGTGAAAAACTCTTCTTAATATTTCCTATTC
				TTCTCAGGACATGTTTTTGCATTTGGGGAATCTAGAGCCTT
				GGCGATAGCTAACATGGTTCTTGGACTGAAGGAGATCCAA
				ATTCGTGGGGAAATTCGAACAAATGTTGATTACACAATTG
				ATCTATTAAATGTAAGCTCTTGATCTTCTTGTTACCTCTAAT
				CCAACTTATTGCAATTGCACGTCTTTGTTCTCATCCGCTGCC
				TCACAGGCATCAGAATACAGAGACAACAAAATCCACACTG
				GTTGGCTGGATAGCAGAATAGCAATGAGGGTCAGAGCTG
				AGAGGCCTCCATGGTACCTTTCAGTTGTTGGAGGAGCTCTT
				TATGTAAGAATCGAAGCATAATGTAATCTAGTTATAGTTCT
				GGTAGGTTAAGTTGTTATTTATATACTTGACTTATTTTGTGT
				CTTCAGAAAGCAACAACTAGCAGTGCTGCCATTGTTTCCGA
				ATATGTTGGTTATCTTGGTAAAGGTCAAATCCCACCAAAGG
				TATAATGCATCCCAGCTGTTTATGTCGTATTTTATTTTCTTC
				GATTAGTTCATTAACAAGGAAAAGCAATGCAGCACATTTC
				GCTGGTCAAAACTCTTGTGACTCTGAATATTGAAGGGAGC
				AAATACACGGTAAACTTCACTATTTCCAAAAGTTTTCATTCT
				TAATTTTCTTTCAAGAGACACTTCACCTAAACTCCTTGCTGA
				ATGTTTCTTAGATTGAAATGGTTCGAGGTGGACCTGGTAG
				TTATAAATTAAAAATGAATGGTTCAGAGATTGAAGCTGAA
				ATTCATACTCTCCGTGATGGTGGACTTCTGATGCAGGTAAA
				CTTTCTAAATCATCATGTTCCATTGTGTATTTTTTTTATTTTA
				AACAATGACTAGCTAGTTTCAGTGGCAAAGCAAGCATTCC
				AATATGCTAAGCCTGTTAACAGTATTGATGCTGCTGTAAAA
				TTGCCCCGTATGGTCCATGAGAGTACAAATGGTATTACCAT
				AGTGATCTGATTGTTCATTTGCATTTGATCTAACTTTCCAGA
				ATTTCCAGTCTTCTTCATACTCTATTTTTCTTAATAAGATAAT
				GTACCGACAACTTGATGATGGAAGCTTTGTAAGTACCTGA
				AAATTTTTTAGGTATTGGTTCTGATTTCAGCACTAAGGTTTA
				TACCATAAACTTCAATACTAAGTGGTCAGTTAAACTTTGGA
				TCTTTGCACATCAGACTTGTCAGAACTGTTTTGTTTACAATC
				ATCCACAATTGGTTATGGGGTGATAATTATGGATGCTTTGT
				GATTGTTGGCCATCCTGCTGCTCAGAAATTATCTTGAACTT
				TATTTGCCCCCAAATTTGAATCATCTTTTTTTTGGGAATTCT
				CTTTAGTTTCTTTTCTTTCTGCACCAATGTTTTTGTTCTACAT
				GCCCATATTGACTGCACTTGTGCACAACTGCACGTCTGCAC
				GTCTGCACGCATATATCACTCTAGGAATACAGTTGATATTC
				TCAATTCTCGATCTTGTCATATGGTTAAAGTAATTTAGCAG
				TTCAGATCTTGAACATATTTAATTTCTAAAACTCTATGAAAT
				TCATACAGTTGGATGGAAACAGCCATGTGATATATGCTGA
				AGAGGAGGCTGCTGGTACACGCCTTCTTATCGATGGAAGG
				ACTTGCTTGTTACAGGTAGAAACAACTTATATATTTTTCAA
				AATTTTTAGTTTCTTGAAGGAAATTAAATTTATTTATTATCT
				GCTAGTAGAATTAATGTAAGGGACCTTTTATGATGTTTTGA
				CATTATATATTGAAGGTTCTTTGATTTATTAAAAAATGCATA
				AGATAGATAGATTGCAGTATTGCACTTTGCATCTTTCAAGT
				GCGCTTATGCTCAACATGCTTAAGGTGCTTACTGCTTAGAT
				TGCCCAGTGCTGCTCAAAACTTGCATAGAACTGTGAAAACC
				ATTATTTCTTTTGTTCTATCCCTAATGTGAAAGCTTCTGTGC
				GCCTGCTCCGGCCCTACTCTAATCTTCATTAGCTTCTTTGCA
				CTGATTTATGTGATATTTTCTTGGACTGTTCATGGTCCTTGC
				TAAGAGTTCCTAAGTATCTGATGTTTGTTTATGTTAATTTTT
				GCATTCCATTCCTTTTTAGTTCTAAATGATTGTTTCTATCGG
				TCAAACTAAATGCTGCAACTTAGTTATCAGTTGCACTCACC
				CTATTCAAATGAAATTTAAGGTACATTTCACAAATGGGATT
				AACACATTAAAAACACTTTATGTGTTAACATGCTACTATTA
				GAAATCCAGATATGTTATTTCAGAATCATAAAGCAACGTTA
				GATGGCTTCATAAACTGTGAATAAGTGGTAAAGAATTCCTT
				CCTAGATATTATTGAAGAAAGTTTCTCTTGAACAAGTTACC
				TTAAATAATTAATCATAACTGGTTTTGTCTTCAGAATGATCA
				TGATCCATCGAAATTGATTGCGGAGACACCATGCAAACTTC
				TTCGCTACTTGATTGCTGATGGAGAGCATCTTGATGCTGAT
				GCACCATATGCAGAGGTCGAAGTAATGAAGATGTGCATGC
				CCCTTTTGTTACCTGCTTCTGGAGTTATTCATTTTGTGATGT
				CTGAAGGTCAGGCTATGCAGGTAAGTAAACCTTGTAAAGA
				TTAGAAAGAAAGTTTCTCTTGTGTTTTCTCATAAACTACATA
				GAATCTTGTTTTTGCAGGCTGGTGACCTCATAGCAAGGCTC
				GACTTAGACGATCCATCTGCTGTAAGAAGAGCTGAACCAT
				TCAATGGTACATTCCCTAAAGTAGGTCCTCCCACTGCAGTT
				TCTGACAGAGTTCACCAGAGATGTGCTGCAAGTTTGAATG
				CTGCACGCATGATTCTTGCAGGATATGAACATAATATTAAT
				GAAGTAAGGGCTAACGATTAAACTTTTTTTTTATTCTTTGTT
				ATTTTTAATTAATTCAAAGTGCTATCTACTTTTATTTCTTTAT
				ACTTTAAGTGGCATTTCTATTAACTAAAACATATGTTTTTTA
				CTACCCTTTGCCAATGTTGATTAGACCAAAATGGGTTTAAA
				CTCTTTTATGATGCATTCTAATAATCTTTATTTGCTGAACCTT
				TTTAGTTACTTTCAAATTTATGTAGAGATTAAAGCTTTTATT
				CGAAAACGCCACCATACATACACCTCATCCTTGGAAAATGG
				AATGTATACAATTTGCTGATTTTAGTTCCATCAAATCCCAGT
				TTAGTCACAAGGAATCATGCTGATAAGATGCTAAATTTGTG
				CTACCATGTGCAGTGATCCATGTCTGCAGCTTTGTATATAT
				GCCTTGTGGAGATTAGACGTCCATTTGTCTTATCTTTTTAGT
				TTCCCCACCTTCAACTTTGGTGACCGCTGCCCTTAATGTTTA
				TTTTAAGGAGAAGCATCATGCTTTTGAGAAATTGGTTGCTT
				CTATCAGATGACTGAACACCTTTTTATTTTTATATATCTTGT
				TCTAATCATGCTAAGTTTCATTGAATTTCTCTTTATGTTTTCC
				AATTTTAAACTGATGGTTATGCTATGCCAAAGTGACTAGGC
				TCTATTGTAATTTTAACTGCAAAGGGACTATTTGATGATTG
				ACACTTTACTTTTTGTTTTAATTCTTTTAGTTTACCATTTTAT
				ATACTTGTTACTTATATGAACTGCAACTTGCATTACTGTATA
				CAATTTTAAAATTGTTTCTTTCCTTTATGCATATACTGGTTT
				GCATTTTTTTCTCTAACGTCCCAAGTATAAATAGGTTGTTCA
				AGAGTTACTACATTGTTTGGATAGTCCGGAGCTTCCTTTTC
				TACAGTGGCAGGAAAGTATGTCTGTATTGGCAACTCGCCT
				GCCGAAAGAACTTAAAAATGAGGTTTGTGCATAGTTCTTA
				ATTTTTTGTCAGAAGCACATAGTCTAGTTTCCAGTTGGACA
				GTTGGATTGTACATTTCCCAAATTTAATAATTTTATGTGCAA
				TTTCTTATTTGATACAGTTGGATTCTAAATACAAAGTATTTG
				AAACAAACTCAAACGTTCAAAAGAATGTGGAATTTCCTGCC
				AAGCTTCTGAGTGGAGTTATTGAGGTTAGTATGTTTTAGTA
				TGAATATCACTCAAATAATAAGGTTTTAAAACTTTATTTCCT
				CGATCTGCAGAGCTATCTCTCATCTTGTAGTGAGAAAGATA
				AGGCGGCACAGGAAAGGCTTGTGGAACCACTTCTGAGCCT
				TGCGAAGTCATACGAAGGTGGAAGAGAAAGCCATGCTCG
				TGTAATTGTGCATTCTCTTTTTGAAGAGTACTTATCTGTTGA
				AGAGTTATTCAGTGATAGCATTCAGGTGATTGTTTATCCGA
				AGTTCATTCAAACTTTTTCGACTAACTCTTCCATCAAAATAA
				ATACTAAAGGAACAAAACTGATTCTCAATGTTTTTGAAAGT
				TTCGTTGCTCCAGCTAGATTTTCCAAAGGCCTTAACCATGC
				ATTTTTCTTGTATAGGCCGATGTCATAGAACGCCTACGACT
				TCAATACCAGAAGGATCTTCTGAAAGTTGTAGACATAGTG
				CTGTCTCATCAGGTATATTTGCAACGTCTGAAGTTGTTTTAT
				TTTACTCCATAGAATTGACCAATTCTCCTTAAAGTAACATGA
				ATGCTGATAATTCACCTTTTAGTTTCTCTGTGGATGAGATA
				CATCTCGTATGCTAGTTTTTCCATTAACAATATGCCGTTTTT
				GTTTACTAAAGGGTGTTAGAAGTAAAAATAAGCTGATACT
				GAGGTTGATGGAAGCATTGGTCTATCCTAATCCTGCTGCCT
				ATCGGGAACAACTGATTCGCTTCTCTGCTCTTAACCATACC
				ACTTACTCCGAGGTCAATAATCTTACTGGATATCTTGCACC
				TATCCCTTCATGTTTGTAATTCTTTTGCTCACATTGGCCTATC
				CTTACTCGTGCTTGGTCAATATGGTTCCTGCAGTTAGCATT
				GAAAGCCAGTCAACTCCTTGAACAAACTAAATTGAGTGAG
				CTTCGAACAAGCATTGCCAGAAGCCTTTCCGAGCTAGAAAT
				GTTTACAGAAGAAGGTGAACGTCTATCTACACCGAGAAGG
				AAAAGTGCTATCAATGAGAGGATGGAGGATCTTGTAAGTG
				CTACGCTGGCCGTTGAAGATGCACTTGTGTCTTTGTTTGAT
				CACACTGATCCAACTGTTCAGAGACGAGTGATGGAAACAT
				ATGTCCGAAGATTGTACCAGGTACCAAACTGAAGTAATAT
				GGTAACAAACATGTAGCTGTTAAATATTTATCTGACACTGC
				TTTTTTCTCAGCCCTACCTTGTGAAGGATAGTGTCCGAATG
				CAGTGGCACCGTTCTGGTTTGATCGCGACATGGGAATTCA
				CCGAAGAACATATTGAGAAAAAGAATGATTCTTCTACACA
				AGATAAGTCATTTATGGAGAAACATTGTCAAAAGAGATGG
				GGAGCTATGGTTATCGTCAAATCTCTCCAGTTTCTTCCAGC
				AGCAATTAGTGCAGCATTGAAGGAAACCAGTCATCTGTCA
				TCTGATACTGATCATGATACAGTATCTAATGGGCTTCCTCA
				ACATGCTAGTCAAGGCAATATGCTTCATGTTGCATTGGTTG
				GCATTAACAATCAAATGAGTACACTTCAGGATAGGTAACTT
				AATTATTCTTGAATATTTCCATCATATGGTATGTTTGTGGTA
				ATTTGATCATTTAGTTATGAAAGGTGCAGTCTTGTGCTTAT
				CTTTGAATCTTTTTAATGGACAAATGTTCCTTGATCATATTA
				CAGTGGAGATGAGGATCAGGCTCAGGAGAGGATACACAA
				GCTTGCCAAGATTCTAAAAGATAACAAGGTAGCGACTGAA
				CTTTCCAATGCTGGAGTCCGAGTTGTTAGCTGTATTATACA
				AAGAGATGAAGGACGAACACCTATGCGTCACTCCTTCCATT
				GGTCTGCCGATAAGCAATGCTATGAAGAAGAACCCTTGCT
				TCGTCATCTGGAACCTCCTCTGTCTACTTTCCTTGAATTGGT
				TGGTGAATGTTTTTAACTTATTTTATTCACATCTTTATTGTA
				ATTCCCTTTCTCTGATTAATGCCATTTGTTATTGATTCCATTG
				CAGGATAAGCTGAAAGGCTACAAAAATATACAATACACAC
				CATCACGGGATCGCCAGTGGCATATGTACACAGTTCAAGA
				AACTAAACCACTTAATCAGAGGATGTTTCTGAGGACCCTTG
				TCAGACAACCAAGGATAAATAATGGATTTTCATCAAACCA
				GCTTCCCGAATTAGAAACTAGACATGATTTATCCTTTACAT
				CAGTCAGCTTGTTGAGATCTTTGATGGCAGCATTGGAAGA
				GTTAGAACTACATGTCCATAGCGAAACAATCAGATCTGATC
				ATTCTCACATGTATCTCTGCATATTACAAGAACAACAACTCT
				CCGATCTTTTACCTCGTTCAGGGTAAGTCTTGTTGTCTAGTT
				AGTTTGGTGTATTCTTCTGAAAAATGTTTGTTTGTAGATTA
				AAAAAAAAATGTAGTGTTTTTGGCTAAACTGATTTCTCCTT
				TGCTTTGGCTAAAACATTTTTTGGAAGTTTCCATGTTTTTGG
				AAATTATTCTTTAAGGGCTGTTTGGATACCTATAATGAGGG
				TTATAATGTGGATACTTGTAGTTAGTGATTTTAGTGTAGTT
				GGAAAGTAAAACATAGGTGGTAAACTACATCTCAACATCT
				CCAAATTTGGTGTTGTTGCTATGATGTAGTCACATGACGTG
				CCAATTTTGGTGTAGTTCCCAAAATTTTTTTTAGGTAAAATA
				TATTTACAAATATCGCACAAGTTTATTCATCTATTAGTATTT
				CGTGTAAAGATATCTATAAAATTAAGCAAACAATGAAGTT
				GTAGTTCTTTTCAACTATAGCTACATGCACTATCAACTAGA
				ACTACAAGCATCCATGTCACAATGTTCATTAAGTTAAATAA
				TATAATTTTAAAATAATTTTTATTTATTTATTAAAATATAGTC
				ATGAGGAGACTTTCGAAAATAAATTTCAGAACAAACAAAC
				GCATTTTTTATTCCAAAATATCATATTGTTGCTTTTAGATAA
				CTATTTACTGAGAATGAATTTGAACATTGTTTCAAGAAACC
				CTTCAAAACAAGCAAAGTAAATTTGTGTTCTCATCTTCGTG
				CTCTAGATACTTTGTTCATTTACTTCTTTCGTTAGTCATTTTT
				TGAAGTTCTAACTAACTCAAGCATTCAATTTGTCCAGTACT
				CTTGATCCTGATGCCTATCAGAATGAAAGTCAAGTGTCCCT
				GCTTTTAAAAGATATGGCTGTCAGGATTCATGAGATAGTT
				GGTGTAAGGATGCATCGTCTTACTGTTATTGAGTGGGAGG
				TAAAGCTCTGGTTGGGTTCTGATGGTGTTGCTGGTGGTTCT
				TGGAGGGTTGTGGTGACAAATGTTACTGGACGTACATGTA
				ATGTCCATGTAAGTGCGATTGATTCACTTTGTCTAAGACTT
				TACTACTATACTTGCATGGTTAGACATAATATTTCATTTCCT
				TATGTAGGTAACGTTTTCTAGCATAGCTAATTGTTTGACTA
				GGACTATATTAACTAATTGTAAAAATTGAACTTTTGCCATT
				AGAGCAGTTAATTAATAGATATTGCTCTAGCCCGTAATTTT
				GCTTTCATTTGATTGTAAAATACTCAGTAAGTTTTTGCTTCA
				GATTTACCGAGAATTGGAGGACAGCAAATCACATGAAGTG
				GTCTATCACTCTGCAGCTTCAGTCACAGGACCTCTCCATGG
				TATGCCGTTGATTGCTAGATATCAGCCACTTAGTGTTATTG
				ATAAAAAACGATGGGTGGCAAGAAGGAGCAACACTACTT
				ATTGCTATGACTTTCCACTGGTATAGCTCCCAATTCCTGATT
				GATATACTCCCAGTTTTCTTGTTTTGATACTTCAATACCTTA
				CTAATTAATATGTGCAGGCGTTTGAGACAGCACTGAAGCA
				GTCATGGGCTTCTTATAGTGATACTAAAGCACCAGAAAGC
				AAAGCTCTTCTCCAAGTTCAAGAACTTATGTTTGTTGACAA
				AAAGGGATCATGGGGTACTCCTGTTGAACCTGTATGCTGC
				CCACCTGGTCTCAGTGATATTGGCATGGTTGCTTGGTCAAT
				GGAAATGTACACACCAGAATTTCCCGAAGGAAGGAAGATT
				GTTGTTGTAGCCAATGATTTGACTTTCAAAGCAGGCTCCTT
				TGGGCCTCGTGAAGATGCATTTTTCCATGCTGTAACCAATT
				ATGCATGTGATAAGAGGCTCCCTCTAATCTATTTGGCAGCA
				AATTCTGGCGCCAGGATTGGTGCTGCTGAAGAGGTCAAGT
				CTTGCTTTAAGGTTGGATGGTCTGATGAGTCGAGTCCAGA
				ACGTGGTTTTCAGTATGTGTATCTGACACAGGAGGACTAT
				AACCGTATTGGTTCATCTGTTATTGCACATGAACTGAAGCT
				TGAAAGTGGTGAGATCAGATGGGTGATCGACACAATTGTT
				GGCAAAGATGATGACTTGGGTGTTGAGAACCTCACTGGCA
				GTGGTGCAATTGCCGGTGCTTATTCCAGGGCTTATAACGA
				GGTATTTACTCTTACATATGTGACTGGACGTACTGTAGGAA
				TCGGAGCCTATCTTGCTCGGCTTGGCATGAGGTGTATCCA
				GAGGCTAGACCAGCCTATAATCCTAACAGGGTTTTCTACAC
				TCAACAAGTTGCTTGGCCGTGAGGTGTACAGCTCACACAT
				GCAACTAGGTGGCCCGAAGATCATGGCTACAAATGGTGTT
				GTTCATCTGACGGTATCAGATGATCTTGAGGGCGTTTCTGC
				TATTCTTAAGTGGCTTAGTTACGTACCACCCTATGTCGGTG
				GGCCACTTCCAATAATAAAATCCTTGGATCCCCCAGAAAGG
				CCAGTGGAGTATTTTCCTGAAAATTCATGTGATCCACGGGC
				CGCAATTTGCGGCATTGATGATGGCAATGGCAAGTGGTTA
				GGTGGTATGTTTGATAAAGATAGTTTTACGGAGACATTAG
				AAGGTTGGGCAAAGACGGTGGTCACCGGAAGAGCAAAGT
				TGGGTGGAATTCCAGTAGGAGTTATAGCTGTCGAGACACA
				GACTGTGATGCAAGTCATTCCTGCAGATCCTGGTCAGCTTG
				ATTCCCATGAACGTGTTGTCCCACAAGCTGGTCAAGTTTGG
				TTCCCTGATTCTGCCACCAAAACGGCACAAGCATTATTAGA
				CTTCAATCGTGAAGAATTGCCACTTTTCATACTAGCCAACT
				GGAGAGGATTCTCAGGCGGACAGAGAGATCTCTTCGAAG
				GTATACTTCAGGCTGGTTCCACAATCGTCGAAAACTTAAGG
				ACATATAAGCAGCCTGTATTTACCTACATCCCAATGGCCGG
				GGAGCTTCGTGGTGGTGCATGGGTTGTGGTGGACAGCAA
				AATCAACCCGGATCACATCGAGATGTATGCCGAAAGAACA
				GCAAGGGGCAACGTACTTGAGCCCGAAGGAATGATTGAG
				ATTAAGTTCAGAACTAAAGAACTTCTCGAGTGCATGGGTA
				GACTTGATCCTGAGCTAATCAGTTTGAAAACAAAGCTTAG
				GGAGTTGAAGGCAGCTGGACCTTCCAGAGATGTGGACGT
				CCTCCAGAAAAGTGTAACGGCTAGAGAGAAGCAGTTATTG
				CCTGTATATACACAAATTGCTATAAAGTTTGCAGAGTTGCA
				CGATACATCCTTGCGAATGGCTGCCAAAGGTGTGATCAAG
				AAAGTGGTAGACTGGGAGAACTCCCGTTCTTTCTTCTACAA
				AAGGTTAAACAGGAGAGTTTCCGAGGATGTCCTTGCAAAA
				ACTGTTAGAGATGCTGCTGGGGAGCAGTTGTCGTACAAGT
				CTGCTATTGAACTGCTTAAGCAGTGGTTTTCATCTTCCGAC
				AATGTGGACGTTGGAAAATGGGAGGAAGACGATGCTTTCC
				TTGCCTGGAAAGACAACCCTAAAAATTATGCCAAGTATCTT
				GAAGAGCTACGAGTTCAGAAGATATTGCAGCAGCTCTCAG
				CTCTTGGTGAATCATCTTCGGATTTGCGAGTATTGCCTCAA
				TGTCTTGCTACAGTCCTTAGCAAGGTACAGTTTCTTTCATTG
				TGCATTCAATTTCTCTTTTCAAAATATAGACATATAGTTAGA
				TTTTTACTTAGTTTTGCATCATTTTCCCTGCAACATGGTAAA
				CATTTCTCTATAAGTATTTTAATATCACTGCAAAATATTCAA
				TAATGTTCCTGAACTTGTTCGGAGCGCCTTGATTAGTAGCT
				ACACTAGCATTGCGATCTCACAGTAAAAGCTATCATTCTCT
				TTGAAATAATTCTTTTAACTCTGGGTAGATATTTTTTCTTCT
				CTCAACTATATCTTGAAAATTTGTGCGATAAATTCCTAACAT
				GATTATTGCTTGGCATTGATGCAGATGGACTCGTCTAGTAG
				AGCTGATCTTGTCAAAGAAATCAAAGATATCCTTGGTTGAT
				CAATTTGACCTTATATATGGTGCACCGCAACAAATTAATGT
				GATGAACATCCCAGTAATGCCTTCTCAAGACGTTGAACGCA
				AGCCAGTATATTATATCTTTTTTTTCCCCGACAGAGTATCTA
				CAGCTCCTACCAATTTCAGGATATTTAATCATATTTTTCCTT
				GCGTAGTTCATATAGAAACGACATTACTTCAGTTCACCTGT
				AGATAAGTTGAATGTTGTCATTCAAGCAGGATGTAGCAGT
				CCACAACATTTGTATTTTTTATATTTCGAGATTCAGCTGTAA
				GGAATAATGGCTGTATTATTTTCTCTAGGAATGAAGAGTAC
				ACTTTATTGCCCAATAAAAGAAAGAAATGTCAGGGATTGTT
				TCAATGGAATTCCAAACTGATCTCAACTACATTAGGCGTGG
				TTAAAAAAAAACTACACTACGTCTGTTGCCAAATATAGAAA
				AGTATTTTTAGGAATATTTAGGCTTTGTTTGGGAAACATAA
				TGACTTAATACAATAATTGTGTAAACACAAGTAATTAATTA
				CTATATTTGGATAACACTTTATAATACAAAGTCTCTCACTAC
				AAATGTAATGTTTATTATCTCATAGGAGCAAAAAAAAAAA
				AAAACTCTTAGGAGGTCGTGTGTAAATGTAATGTTTATTAT
				CTCATAGGAGGTCGTATTCATTACACAGACATATAATCCCA
				TCATAAGATATCTCTCATGTTTACTAAAAATTTTCATTTTAA
				AATTTAAACATAAATGTTATTACTAATAATATATACATTCTT
				TATTTATTATTTTTATTATATTACACGTATTTTAGCCAATGTT
				GTAAGTCACTACATTACAAATTTTGTAAATGATTTAATTAC
				GTTGCAAATCATTTTATCCTTCCCAAATAAGGCAGAATCAC
				TTTGTCATTTCATGTGATTAAAAAAATAAGAGGTCAGAGAT
				AATTACTTGGACTTGATATTATAGTAATTTTGCATGATATCT
				TACCCATTCTATGATATTTAAACACTCATATTTGGACGTCAT
				GGGATCCTATGGAATAATGGAAATAACTCAATGCTCATGA
				ACTGGGCAAAAACAATTAGCTCTTACCTTTTCTTTTTTTCCC
				CTAACAAGATGATTCTATGATGTAAATAACTTTACTGATTTT
				TTTTTATTTGCTTAACACACTCTCAATCTATATGGTAATGGG
				CTAAAATCTTTTGCTCATGAGATTCAAATATTTCTCGCGAG
				ATTTCGTTATTGCCAAACAGGTCTGTTCTTTTGTAGTTACTT
				AAATAATCATAAACTTTAGATAAGACCAACTTAATTTAAGT
				TAATCAACATCATCAACTGAATATTAACTTTACTAACACAAT
				GTCCGTAATGGCATGTTTTGCTCACTTGAAATAAAAAATTA
				AAAAGAATATATAAGTAGCATTCGAAAATTAATACTACGTC
				CAATTAGAGTTAACATTATGACAACAATACGACAATATCCA
				AATTACCATCTTTGCTCCTCTGTCTCCAAAAACTAATGTTAT
				TCATCTCGCTGCCCCCAACCATTGAACCAATTGATATTCTAA
				CCTTAATCAATCAATTCTCCCACTCTCACTGACAACTGGACT
				CTGACCTCAGTTGGTGGCACCTCCGTCGTGGGCTTCTTCAC
				TCCTTACAACTCTAATAACTCCTAGCTTAATTTTCAGTACAA
				AATCACAGTCCAAAATGTTGTATGGATAGCAAACAAAGTT
				AAACCCATAATCCAAGGGCAGAATAACAAACTCAAGCGAA
				TCGGAGAAGAGCAGGACCGAGCACGAGATCTGGTCGACT
				GAGCTTGAGTGGGCCAAGCTTAAGCTTGCGATGGAGAAG
				AAGTGCGCCAGAGAAGAGGGGCACACCTGGATAAGGAAG
				GCGAGATACACGAGCATGACCAAATCGAAAATGAGCTGG
				AGGGGAAGGGAGGAGGAGAATAAGGGAGACATGAGAGG
				AGGGGAAGGATAACAAGAGGGAGA
64	Commelina	gDNA	3209	CAAGTAATTATTATATAATTTTCACCCTATTCCATTTTATTTA
	diffusa	Contig		TTTTTAATTTATTGACTATAAAAGTTACATAATACTGTACTT
				TATTTTTGTTTACTTTTATTGAAGAAAAAACAGCCCTTCTCT
				CCCCTCACAAATAAATTAAAAACAATTAATTTCCAATATTA
				GAGAACCAAAAGTAATTCCCCTTAATGACAATTTAAAAGA
				AAGAAATAAATACAACCAACCTCTAAATCACACACATATTC
				ATATATTTATACAAATAAAATAAATAGAGGGAGAGAGTAG
				TTGGCCATCAGCCCCACCTAACAAAAACAAGTCTAGAGTCA
				AAATTGGGACACGAAGATGTCATCTTCATTGTAAAATCAAA
				TGTTAATTAAACCCCAAAAATAAAATGTAAGCACAAGATGT
				TTGAACAAGCACTTTGATTCCCAATTTTCACCTCAGGGGAT
				CAAAAAGGCACCATCTTGACAATTATATATACACACACTCT
				ATACAACATTGTTGTGGTGGTAGTTGGCAGCTGTGGCTCT
				GAATTTCAATTCCTTTGTTTGCCCTTCAATTCCCTGTTGCTG
				TTGTTGGTGAGGAGAAAGGAAGCTGGCGTCACGTGGTGC
				TGCTGTCCATACCATTTAAGGCCCTCGCCGTCTCCCCACCCC
				ATTGGTGCCCTTTTCCCCCTTTTTAAATACTGCTTTTTTGGT
				GATTTGGTGAATGGTGTGGTGAGGAGTCGTCAAAATCCCG
				CCTTTTTGCTGGGATTGTGCTCGTCTTAGCTCCCCTGAGCT
				GTTGGTTGTGTAAAGGTGCGATCTTGGTGCGTTTTGTTGG
				GTGAATTCGAGCTCTTTGTCGCTGTTTAGGGTTCAAGATTG
				CGCTTTTTTTTTTTTTGCCCTTGTTAGTGTTGGTAGTTGTTA
				GTCCACCGGCTGATTGAATTGTAGCTCTTTGGCACTGTTTG
				TGTGAGTGATCTGCTTTGCATCAGGGGACTACAAATTTCAT
				TTTAGTAGTGTTATGCTGGAATTTTGGTTCTGCTGATTGGG
				TTATTGCGCCTGTGTTATTTTGTCTTGTGCGTCTTAAATTCT
				GTCTGTAGTTTAGTGTTGTAACGAGTGCTTCTCGCTTCTAG
				ACTTTGTTTGTATCTTCTGTGTCTTGATTATTGTTACTATTAT
				TATTTTATTTTATTTTTGGTTAGTGAGTCAACCTATGGGGTT
				AGTAATAAGACATTGTTTCAGTTAGTTATGTGAATTGGTAA
				CTCTTAATCTCGTTTAGAAGATTGGTGAGTTAGTTTTTACCT
				GGTTCTGTACATTCGAATAGCTTTTACTGTTGATTTGCTGCA
				TTTTTACCAAATTCTTTGTCGCTTTTTTGGTGTAAAGCAAGA
				ATGAGAAAAATGATACTTGATTGAATTATGGGTTCCCAAAC
				CAAGTAATAATTTGGGAATTGCTTTCTGATAACTCTTTATTG
				GTGGAGCTTTGGTACTAGGATATATATGTATATATATGATT
				ATATCATATGGATAGCAACTGGGTAGTTGTTCAGTTAGAAT
				CTTGGTCGTTAAAAGAAAAAAGAATGAATTGAATATTCATT
				TATTTGAGCCTATGAGGATAATTTGTTAACTGAAAATGGTT
				TTGTTCGAGTGGTAGGGATGTCTAAGGAGCCATGTAGTTC
				GTTTAGTTTGTTATTCTATTTTCATTCTTATAAAGAAATTTA
				ATTTATCATGAAAGCATTGGGACCAGTTGTATAAATAGTTC
				TCCTTTTTACTGCAAATGGCAGTTACATAAAGAATCTATTA
				CAAGAATATGCTTATTAGGAGCTGGTTTATATTTTCAGTTT
				GCACTTTTTCTGTGTTTACTAAAGAAACAAGTTATTCTTGTG
				CCTTTCTTACCTGACGTCAGAGAATGATATTTTCTTGAAAG
				TCAAATGTTGCTTATTATATATCCCGTCACTTTGCGTGTATA
				TTGATGACACTGATTAAATATCTATGTAGAACGCCTGAAGC
				CCAGAAGGGAGCAGTTATGGCAGATGTCTGGCAAGATCAT
				GGGATTTTAAATGGGACAGTTCAAGTCAAACATGCAGCTA
				CAACGTCTGAAGTTGATGATTTCTGTTATGCACTTGGTGGA
				AAGAGACCTATTCGCAGCATATTGATTGCTAATAATGGAAT
				GGCTGCTGTCAAATTCATGCGTAGTATTAGAACCTGGGCTT
				ACGAAACATTTGGATCAGAAAAGGCAATTTTGTTGGTTGC
				GATGGCAACTCCAGAAGACTTGAGGATAAATGCCGAGCAC
				ATTAGAATTGCTGATCAATTTGTAGAGGTTCCCGGTGGAA
				CCAATAATAACAATTATGCAAATGTTCAACTCATTGTGGAG
				GTCAGTTTTGCTTACTTTTTGGCTGACATTACTTTGATTGAG
				CATTTTGATTGTTTCTTTTCTTGTTTGTGCTGATTTTGACAAC
				ACACTTTGTGACAGCTGGCCGAAATAACACGTGTTTCTGCA
				GTTTGGCCTGGATGGGGCCATGCATCCGAGAATCCCGAAC
				TTCCAGATGCCCTGAATGCAAAGGGAATAATCTTTCTCGG
				GCCTCCAGCTGCGCCAATGTCAGCACTAGGTGATAAAATT
				GGTTCTTCTCTAATTGCTCAGGCAGCAGGTGTACCAACTCT
				TCCGTGGAGTGGCTCACATGTAATCTTACTTGCTAATTTGC
				AAATACATTATTTCATATTTCTCATTCTTTCACCAAAATTTAC
				ATGTGAAATTATCTTTTAGGTCAAAATTTCAGCGGAAAGTT
				GTATGGACACAATACCCGAAGAGATATACAAGCAGGCTTG
				TGTTTATACAACAGAAGAAGCAGTGGCCAGCTGCCAGGTA
				GTTGGCTATCCTGCCATGATAAAGGCATCTTGGGGCGGTG
				GTGGTAAAGGAATAAGAAAGGTATAGCATAAAAATAATCA
				GTAGTAGTTCTTTTATTCTCTCCAACAATGCTTACAGAAAG
				GGTGGCAAATAGATTAGTGCAATGCCTGTGGCTATATATG
				CCAAAGAAGGTAGAGAAACGCTGAAACGGATATTGTTTCT
				TAATATTTTTGAGGTTATGATCTTATTTTGGTGTTCAGTCAA
				CTCCTGAAGTCCAACAAATAATGATGTAGCCATATGTATTA
				TCTAAACATGATTCATTTGTTTATTCATGGTTGTCATTACAA
				ATGGAATTACAGTACTCGTTATGATATGCAAATTAAAAAAA
				AAAAAAA
65	Digitaria	cDNA	1629	GTTGTTGCAAAATGAATGTGACATTTAAAGCTGGGTCCTTT
	sanguinalis	Contig		GGTCCAAGAGAAGATGCGTTTTTTGATGCTGTTACCAATCT
				TGCTTGTGAGAGGAAACTTCCTCTTATCTACCTGGCTGCAA
				CTGCTGGTGCCAGACTTGGTGTAGCAGAGGAAATAAAGG
				CATGCTTCCATGTCGGCTGGTCTGATGATGAGAGCCCTGA
				ACGTGGTTTTCACTACATCTACCTAACTGAACAAGACTATT
				CACGTCTAAGCTCTTCAGTTATAGCTCACGAGCTGAAACTA
				GAAAATGGAGAAACCAGATGGGTGGTTGATACCATTGTTG
				GGAAAGAGGATGGACTTGGTTGTGAGAATCTACATGGAA
				GTGGTGCGATTGCCAGCGCGTATTCTAAGGCATACAAAGA
				GACCTTCACCCTGACATTTGTGACTGGAAGAGCTGTTGGC
				ATTGGAGCTTACCTGGCTCGTTTAGGTATGAGGTGCATAC
				AACGTCTTGATCAACCAATTATTTTGACTGGGTTTTCTGCAT
				TGAACAAGCTTCTGGGACGGGAGGTATACAGTTCTCATAT
				GCAATTGGGTGGCCCCAAAATCATGGCTACAAATGGTGTT
				GTCCACCAGACCGTGTCAGATGATCTTGAAGGTGTTTCTGC
				TATCCTGAAATGGCTCAGTTACGTTCCTCCCTATGTTGGTG
				GTCCTCTTCCTATTATGAAACCCTTGGACCCACCAGAAAGA
				CCTGTAACATACTTCCCTGAGAATGCATGTGATGCTCATGC
				CGCTATATGCGGCATTCAGGACGGTGAAGGCAAGTGGTTG
				GGTGGTATGTTTGACAAGGAAAGCTTCGTGGAAACATTGG
				AAGGCTGGGCAAAAACTGTTATCACCGGGAGAGCAAAACT
				TGGTGGAATACCAGTTGGTGTCATAGCTGTGGAAACCCAG
				ACAGTGATGCAAGTCATCCCTGCTGATCCAGGGCAGCTTG
				ATTCCGCTGAGCGTGTAGTCCCTCAAGCAGGACAAGTGTG
				GTTCCCTGATTCTGCCACCAAAACGGCTCAGGCATTGATGG
				ATTTCAACCGTGAGGAGCTTCCACTTTTCATCCTTGCAAATT
				GGAGAGGTTTCTCTGGTGGACAAAGGGATTTGTTTGAAGG
				GATACTTCAGGCTGGTTCAACAATTGTTGAGAATCTGAGG
				ACATACAAGCAGCCTGCTTTCGTATATATCCCAATGGGTGG
				AGAGCTGCGGGGAGGAGCCTGGGTTGTGGTGGACAGCAA
				GATCAATCCGGACCACATTGAGATGTATGCGGAGAGGACT
				GCGAAAGGCAATGTCCTTGAGCCAGAAGGATTGGTGGAG
				ATCAAATTCAGGCCAAAGGAACTGGAAGATTGCATGCTAA
				GGCTTGATCCAGAATTGATTGGCCTGAATGCTAGGCTGAA
				AGAGTTGAAGAAGCAAAATGCCAGCAACTCGGAAACGGA
				GACCATCCGTAAGAGTATGACAGTTCGGATGAAGCAGCTA
				ATGCCTATATATACTCAGGTTGCCACACGGTTTGCTGAGTT
				GCATGACACCTCCGCTAGAATGGCTGCAAAAGGCGTAATT
				GGTAAGGTTGTTGATTGGGAGGAGTCTCGGGCCTTCTCTA
				CAGGAGATTGCGAAGGAG
66	Digitaria	cDNA	1468	CGTGGTGTAGATGACAGCCAAGGGAAATGGTTGGGTGGT
	sanguinalis	Contig		ATGTTTGACAAGGACAGCTTTGTGGAGACATTTGAGGGAT
				GGGCAAAAACAGTGGTTACTGGCAGAGCAAAGCTTGGAG
				GAATTCCTGTCGGTGTCATAGCTGTGGAGACACAAACCAT
				GATGCAGCTTGTCCCTGCTGATCCAGGCCAGCTTGATTCCC
				ATGAGCGATCTGTTCCTCGGGCTGGACAAGTGTGGTTCCC
				AGATTCTGCAACCAAGACAGCTCAGGCATTGTTGGATTTCA
				ACCGTGAAGGATTGCCTCTCTTCATCCTTGCCAACTGGAGA
				GGTTTCTCCGGTGGACAAAGAGATCTGTTTGAAGGAATTC
				TTCAAGCTGGGTCAACAATTGTTGAGAATCTTAGGACATAC
				AATCAGCCTGCATTTGTCTACATTCCTATGGCTGGAGAGCT
				ACGTGGAGGAGCATGGGTTGTGGTTGATAGCAAAATAAAT
				CCAGACCGCATTGAGTGTTATGCTGAGAGGACTGCAAAAG
				GCAATGTCCTTGAACCTCAAGGGTTAATTGAAATCAAGTTC
				AGATCAGAGGAACTCCAAGACTGTATGGGTAGGCTTGACC
				CAGAGTTGATAAATCTGAAAGCAAAACTCCAAGGTGCAAA
				GCTTGGAAATGGAAGTCTACCGGACATAGAATCCCTTCAG
				AAGAGTATAGAAGCTCGTACGAAACAGTTGTTGCCTTTATA
				TACACAGATTGCAATACGTTTTGCTGAATTGCATGATACTT
				CCCTCAGAATGGCAGCTAAAGGTGTGATTAAGAAAGTTGT
				AGATTGGGAAGAATCACGTTCTTTCTTCTACAAAAGGCTAC
				GGAGGAGGATCTCCGAAGATGTTCTTGCAAAAGAAGTAA
				GAAGAATAGCTGGTGACCACTTCACTCACCAATCAGCAGTT
				GAGCTGATCAAGGAATGGTACATGGCTGCTCAACCAACAA
				CAGGAAGCACTGAATGGGATGACGATGATGCTTTTGTTGC
				CTGGAAGGAGAATCCTGAAAATTATAAGGGATATATCCAG
				GAGCTAAGGGCCCAAAAGGTGTCCCAGTCGCTCTCCGATC
				TCGCAAACTCCACTTCAGATCTAGAAGCATTCTCTCAGGGT
				CTTTCTGCACTATTAGATAAGATGGAACCCTCCCAGAGAGC
				CAATTTTGTTCAGGAAGTCAAGAAGGTCCTTGGTTAATTGG
				ATCATACCAACACAATGTGTATGCAACATGTTTTTTGTTGA
				AGTACATACATAGAAGGCCCTTGATGAGATCTGATCTGAA
				TCTACCATTATTTGTTAAAATTTGTTTGGTTGGACGATCATG
				TGGTTGAGTAAGTGCTAAGTTGTCTCTGTAGTTCTGGGATG
				TATTACCAGCAGTTCGATTGTGTAATTTTAGAGTGTATCAT
				GCGGATATTACATTCAGTTGAGTGGTTCATTAAATTTTGAA
				CTCGAATAATTT
67	Digitaria	cDNA	1194	GCAAGCGAACTTCTTGAACAAACTAAACTAAGTGAACTCC
	sanguinalis	Contig		GTGCAAGCATCGCAAGAAGCCTTTCTGATCTGGGGATGCA
				TAAGGGAGAAATGACTATTAAGGATAGCATGGAAGAGTT
				AGTCTCTGCCCCATTGCCTGTTGAAGATGCACTTATTTCCTT
				GTTTGATTACAGTGATCCAACTGTTCAGCGGAAAGTGGTT
				GAAACATACATATCTCGATTATATCAGCCTCTTCTTGTGAA
				GGATAGCATCCAAATGAAACTTAAGGAATCTGGTGCCGTT
				GCTTTTTGGGAATTTTCTGATGAGCATGCTGACACTAAAAA
				TGGACAAGAAGCTGTTCTTGGTCAAAAGAGATGGGGGGC
				CATGGTTGTCATCAAATCACTTGAATCTGCGCGAACAGCCA
				TTGTAGATGCATTAAAGGATTCGGCATGGCAATCCAGCTCT
				GAGGGCAACATGATGCACATTGCATTATTGAGTTCTGAAA
				ATGAAAATAATATCAGCAGTGATGATCAAGCTCAACATAG
				GATGGAAAAAATTACCAAGATATTCAAGGATAGTGGTGTT
				GTAAACGATCTCCGATCTGCTGGTTTGAAGGTTATAAGTTG
				CATTGTTCAAAGAGATGAAGTACGCATGCCAATGCGCCAC
				ACATTCCTCTGGTCAGATGAAAAGAGTTGTTATGAGGAAG
				AACAGATTCTCCGCCATGTGGAGCCTCCCCTCTCTGCGCTT
				CTTGAATTGGACAAGTTGAAAGTGAAAGGATACAATGAAA
				TGAAGTATACTCCATCACGCGACCGTCAATGGCATATCTAC
				ACACTAAGGAATACTGAAAACCCCAAAATGTTGCATAGGG
				TATTTTTCCGAACTATTGTCAGGCAACTGAATGCAGACAAC
				AAATTTGCATCAGCCCAAGTTAGCAACACTGAAGTTGGAG
				GTCTGGAGGAATCTTTGTCATCTACATCAAATAGCATTTTA
				AGATCGTTGATTACTGCTATTGAAGAATTAGAGCTTCATGC
				GATTAGGACAGGTCATTCTCACATGTATTTATGCATATTGA
				AAGAACAAAAGCTTCTTGATCTCATCCCCTTTTCAGGGAGC
				ACAATTGTCGATGTTGGCCAAGATGAAGCAACTGCTTGTTC
				ACTTCTAAAATCAATGGCTCTGAAGATACATGAACTTGTTG
				GTGCACAGATGCATCATCTT
68	Digitaria	cDNA	586	GAGAAGAAAAGGGGTATCATGGTTGTAATCAAGTCTCTCC
	sanguinalis	Contig		AGTTTCTAGCAACTGCAATTGATGCTGCACTGAAGGAGAC
				CTCGCAATATAGAGCAGGTGCTGTAAGTGTCTCGAATGGT
				AACCATGTAAATTCAAATCAAAGCAATATGCTGCATATTGC
				TTTGGTTGGTATCAGTAATCAGATGAGTACACTCCAAGACA
				GTGGTGACGAGGATCAAGCACAGGAAAGGATCAACAAAC
				TTTCCAAAATTTTGAAGGATAATACTATTACATCGCAGCTT
				AATGGTGCTGGTGTTAAGGTCGTCAGCTGCATTATCCAAA
				GAGATGAAGGGCGTCCACCAATGCGACACTCCTTCCATTG
				GTCTGCTGACAAGCTTTATTATGAGGAGGATCCAATGCTCC
				GCCACGTGGAACCACCATTGTCTACATTCCTTGAGCTGGAC
				AAAGTAAATTTGGAGGGTTACACTGAAGTAAAATACACCC
				CATCACGTGATCGTCAGTGGCATATTTACACACTTATCAAG
				AACAAGAAAGATCAGAGATTAAACGACCAGAGGATGTTCC
				TTCGTACCATAGTCAGACAAC
69	Digitaria	cDNA	488	CAGCCTTTGAAATTACTGGATCAGAAACGTCTTTTGGCCCG
	sanguinalis	Contig		TAAAAGCAATACTACTTACTGCTATGACTTTGCACTGGCAT
				TTGAAGCAGCCCTTGAGAATATCTGGTCATCGAAACTCCCA
				GGTGTTAACAGGCCTGGTGCTAAGCTTGTAAATGTGACAG
				AGCTTGCGTTTGCTGACCCAAGAGGCTCATGGGGTACACC
				ACTTGTGGAAATAAACCGTGAGCCGGGCCAGAACAATGTG
				GGCATGGTGGCATGGACCATGGACCTCTGCACACCCGAGT
				TTCCTCATGGAAGGACAATTTTGGTAGTTGCAAACGATGTC
				ACGTTTAAAAACGGGTCTTTCGGCCCGATTGAAGACGCGT
				TTTTCGAGGCGGTTACCGAACTTGCTTGTTCCAAGAAACTG
				CCACTCATCTATCTGGCAGCTAACTCAGGGGCCCGAATTG
				GGGCGGCTGAGGAGGTCAGATCTTGCTTTAGAATCGGGT
				GGTC
70	Digitaria	gDNA	10084	TTTTCAGGTTTGTTTGTTTCGATTTTCCGATTGTGTTTTTTGA
	sanguinalis	Contig		GTCGCTGTTGCTTGATTTCTGCTGCTGTTACTGCTGGTTGA
				CTCTTCTAGTGTGTTGATTGAGATTTGTTAGTTTGATTCGAC
				TTCGATTTTGGAATCGGATTTTTGAACTTGGAGTTGTAAGT
				GTTTTGAAGCGTGTTTTTCGGCGTTTTAGTTGCGTTTTTCTT
				ATGGATCCGATTCTTTTATATGAATGCGGCGTTTGGCGCTG
				AGCAACATGAATTGGAATAAACTTGTGGTATTTTGCTCTTT
				TTCTATATATTAGTCTAATTCAACTTCGATTATGGAATCTGA
				TTTTTGAATTTGGAGTATATGTAGTATATTTAAACATGTTTT
				TCGGTGTTATCATTGTGTATTTTTTATGGATCCTGTGCATCG
				GAGATGCGTTTATATGAATACTGTGTTTGGTGCTGAGCAA
				CATAAATTGGATTATACTTGTCGAAAATAATTCTCGTAATA
				AGGTTCAAGGTATCTAGAAGTCTACCTGAAGTGATATAGT
				GGACCATGCGGATTTGATTCTTTGAGTTGTTTTTCTTCAAGT
				CAAAGATCCTGTTATATTTAATTATTTCTTTTGATTTATGAA
				ATGAGTAATTAAGCAAGTGGTATGCTCAATTCGTTGAAAAT
				ATTATGTATTGAAAAGGATTTGAAGGTTACGAACTGGATTT
				TCAACTCGAATGAGTTTTTTTTTGTGCAGAATGTTGGAGAC
				ACAGAGGAGGCAGCCGTTAGCAGTAGGGGTTACTCGTGG
				GAATGATTTCACCAATGGTGTGCTTACGATGAGAAGCCCT
				GCTACAATATCAGAAGTAGATCAATTTTGCCGTGCTCTTGG
				AGGAAAGAGACCGATCCACAGTATATTAATTGCAAACAAT
				GGAATGGCAGCTGTCAAGTTTATACGAAGTGTTAGGACAT
				GGGCTTATGAAACTTTTGGCACTGAAAAGGCTATCTTGTTG
				GTGGCCATGGCAACTCCAGAAGACATGAGGATCAATGCAG
				AGCATATTAGAATAGCTGATCAGTTTGTGGAAGTTCCTGG
				GGGGACAAACAATAACAATTATGCCAATGTGCAACTCATT
				GTTGAGGTGTGTAAGTTCATAACCTTTTAGCATATTGGATA
				GCTTATGTTGTGTTAGTCTAAAGTTCGATAATTCTAAGCAT
				ATAATGATATTAAATGTGTTTAAGGATTTCTCAGTAATAGG
				AATTTGTAAATCTTTTCTGTCAATGGGTTTTACAGAAATTCA
				TAAATTATAATGTAATCTAGAAGCTTTGAAATTGTATTTTTG
				CACATCTCAGAAGATTATGAAGTAATAGGCTGGTATACAG
				TGAATTTCATTATTGCAAGATATTGTTGTTATGTGCTCACTC
				AAGAGCATTCTTTTCAATTTGGCAATGTGAAAAGGTTCAGT
				TAGAAATATCACTTGTTACCCTTGTTGTTTGCATAACTAAGT
				TTGATTTTGTGTCCAGATGGCAGAGGTCACCCATGTTGATG
				CAGTTTGGCCTGGTTGGGGACATGCATCTGAAAACCCAGA
				GCTTCCAGATGCACTAACTGCAAAGGGAATCGTATTTCTTG
				GGCCCCCAGCTGCGTCCATGGGAGCTTTGGGTGATAAAAT
				TGGATCCTCTTTGATTGCGCAAGCAGCAGATGTTCCTACTC
				TTCCATGGAGTGGCTCTCATGTAAGTAATGCTCTTCTCAAG
				CTGTTCTTTCATTTTCTGTAGTCATTCCAATCTAAGATATCA
				TGATCTTCCTTATAGGTGAAAATTCCTCCAGAAAGTTGTTT
				GATTACCATCCCCGATGACATATATAGAGAAGCATGTGTTC
				ACACAACAGAGGAAGCTATTGCAAGCTGCCAAGTTGTTGG
				TTACCCTGCTATGATAAAGGCATCATGGGGCGGTGGTGGT
				AAAGGCATAAGAAAGGTTTGGCTTCGATATAACAAATTTC
				CGAGTGTAGTGTTCAAGTCTGTAGTGTACGATGGCTGAGT
				TTTGTTTTCTTGGATTATCTAGGTTCATAATGATGATGAAGT
				TAGGGCATTGTTCAAGCAAGTCCAGGGTGAAGTTCCCGGT
				TCACCCATATTTATAATGAAGGTCGCTTCACAGGTTAGGAT
				ATTATCTAGCTTCTAATTTGATACAAGAGATTTTACTTTGTG
				ATTCTTGACGCGTGAATCGAATTCTGATGATCTATTTGATTT
				TCCTTATGTAGAGTCGACATTTAGAAGTCCAATTGCTCTGC
				GATCAATATGGAAATGTAGCAGCTTTGCATAGCCGTGATT
				GTAGTGTTCAAAGGCGGCATCAAAAGGCATGTTTATTTCTC
				TCAAGTAATTTTGATTTTGTCTGCTTAGTGAAATTGACCAT
				GAAAGTATAAGCTTAGTGTGAAGAGCCTGAGGCTCTGACC
				ACATGCATGTTGAGAATGAGCCAGTGACTTTTAATCAGTG
				GCTCAACCATTAATTTCTCCCCTTCCAAATTTCAACTGTTTG
				TACATCTATCTAGTATCTACTACATGGGTTATGCATTTCAAA
				AAAGGCCTAACTTGTGTTGAGATGTGAAACAGATAATTGA
				GGAGGGTCCAATTACCGTTGCACCATTGGTGACTGTAAAA
				AAACTAGAGCAGGCAGCTCGAAGGTTAGCGAAATCTGTGA
				ATTATGTGGGCGCTGCTACTGTTGAGTATTTGTACAGTATG
				GAAACTGGCGAGTACTATTTTCTAGAGCTCAACCCTCGGTT
				ACAGGTATAAATGAATATAGTTTGTAGGGATGTGAAGTTG
				TTATGCTCTATAGTAGTAATGATATCTAAAATGCTTAAATTT
				TATGTTGCTCAATTGATGACAATTGGATAAACCGTATTCAC
				TTGGGAAAAACCATCCTGAATATAGTTCGTACCTCATTCAC
				CTTGCGTACTACTGATATTGATCCTATGAATCTGTTTTTTAA
				AATATCTTTGTTTCTGTAATAAATTGTTCTTTGACTTTTCTAA
				TGATCTTTAATCTACATCCTAATCTGGATGTAGGTGGAGCA
				TCCTGTCACAGAGTGGATTGCTGAAATAAATTTGCCTGCTG
				CCCAAGTAGCTGTTGGGATGGGAATTCCTCTGTGGCAAAT
				TCCTGGTATGACCGCAAAAGTTGGAAATTCGCATTCTCTTG
				CTCATTAGACATGTTTCTTTGACATTCTGTTCATTTTTATTCA
				GAGATTAGGCGATTTTATGGAATGGAACATGGTGGAGGA
				TATGATGCTTGGAGGAAAACTTCAGTGGCTGCTACGCCTTT
				TGATTTTGACAAGGTAGACTCTACAAAGCCAAAAGGTCATT
				GTGTAGCTGTACGTGTGACAAGTGAGGATCCAGATGACG
				GTTTCAAGCCTACTAGTGGAAAAGTACTGGTAAGGTTTTCA
				GGTTGACTATTCTAATTTGAATTTCCTTCTATTCCAAAATTC
				CTTATCCTGTAATGAACTTGTACTTTTATTGTCTTGCACAGG
				AGCTGAGTTTTAAAAGCAAGCCAAATGTGTGGGCTTATTTC
				TCTGTGAAGGTGACTTTTTGCTGCTCTCTTTCTTTGGAACAT
				GTTTATGTTGACACAATTGGTTTCTGACTTAATAACTTCATT
				CTGATTTGTAGTCTGGTGGAGGCATTCATGAATTCTCAGAT
				TCACAATTTGGTAAGTAATAATTGCTAAATAATCACACTTC
				ATGGATAATAATGAAAAGAAGTTTGTGAGATGAGTTATCC
				AATCTGCTGCAAATTAATGGTTCTTTTTTATCTTCTTGTGAC
				ATTTTTTTTAACAAAAGCTACAGTCTGCTTTTCAGTTTAGTC
				TTTTCCGTTTGTTACATTTGCTATCGAAAGCACTCATGATTG
				TCGTAATCTTTCCTTAGGACATGTTTTTGCATTTGGGGAGT
				CCAGAGCTTTGGCAATAGCTAATATGGTTCTTGGGCTGAA
				GGAAATACAGATAAGAGGAGAAATCCGCACCAATGTTGAC
				TACTCTGTTGACCTTTTACATGTAAACTATCTTAGCTGTTGA
				TGTTCCCTTTATACATCATGTAAACTTTCACGAGGAACATG
				AACACGAGTTGACATGCTATGCAGGCTTCAGATTATAGGG
				AAAATAAAATTCACACAGGTTGGTTGGACAGTAGAATAGC
				TATGAGGGTTAGAGCAGAAAGACCTCCTTGGTACCTCTCT
				GTTGTTGGAGGGGCACTATATGTAAGTTGTCACGATTTCAC
				ATGAGAGGATGACTGTATACTTTTGGAATGCTTTATTATGT
				CTTTCAGAACTTGCCACTTAAGTGTTCAATTTTTTGTTTGCA
				CCAGAAAGCATCTGCTAGCAGCGCAGCTATGGTTTCTGATT
				ATGTTGGTTACCTTGAAAAGGGCCAAATCCCTCCCAAGGTA
				CATCAAAAGTATATTTGTACAATTGTATATGTTTCTTATTCA
				GCCGATTATGTTGATGTTGATGTTGATGTTAGTTGATCTTG
				TTTTCAGCACATATCACTTGTGAACTCTCAAGTTTCATTGAA
				CATCGAAGGAAGCAAATATACGGTATGGTACCTTTCATATT
				AGTATCTTAAATGAATAAATTTTAGTTTGGTGATGGATGCC
				ATTTACGTTTGTAAAATCATTGCTAGATTGACATGGTTAGA
				GGGGGGCCAGGGAGCTATAGATTGAGGATGAATGGATCG
				GAGATAGAGGCAGAAATTCATACACTGCGTGATGGAGGTT
				TATTGATGCAGGCAAGTTGACTCATTAACCATGGCTGTTGT
				AAACTAATAATTTTCGTCCTTTTTATCATTTAATATTTGCTTT
				AGTCGACCCTCCATGCTTTGGAGACCATAACAGACTCTATT
				CTGTTTCTTCACAGTTAGACGGAAACAGTCATGTAATATAT
				GCTGAAGAAGAAGCAGCCGGAACTCGCCTTCTAATTGACG
				GGAGGACTTGCTTGCTACAGAATGATCATGATCCGTCAAA
				GTTAGTGGCAGAGACACCATGCAAACTTCTGAGATATTTG
				GTTTCAGATGGTAGTCATATTGAAGCTGATGCTCCATATGC
				AGAGGTTGAAGTTATGAAGATGTGCATGCCTCTTCTTTCAC
				CTGCTTCTGGAGTTGTCCATTTTAAAATGTCTGAAGGTCAA
				GCAATGCAGGTGTGTTTGATTTCACAAACACGTGCTTTTGG
				GCTTGATAAGTACTTTTTAGTTTTATATGAATAGTCAGTTTT
				GATGTGAATCTAAGAAGTTTTCATGTAGGCTGGGGAGCTC
				ATTGCAAGGCTTGATCTTGATGATCCTTCTGCTGTAAGAAA
				GGCAGAGCCTTTTCATGGGAGATTCCCGCTACTTGGCTCTC
				CGACTGCTATTTCTGGTAAAGTTCATCAGAGATGTGCTGCA
				AGTTTGAATGCAGCCCGTATGATTCTTGCTGGCTATGATCA
				TAATATTGATGAAGTAAGTTGCAAGCTGGCTAGTTTCAACA
				TGAACTTAATTGATGAATTAATTGTTCATTCTATATTTTGTT
				GATTGTGTAATTTCATAACAAAATAATGAACTATGCATTTG
				GTTTATTATACTGACAATTATTTGTTGAAATCTGATGTAATA
				TCTCAATGACATCTATAGGTAGTGCAAAACTTGCTCAATTG
				CCTTGACAGTCCTGAACTCCCTTTCCTTCAGTGGCAAGAGT
				GCTTGTCTGTTCTAGCAACTCGCCTTCCCAAGGATCTTAGA
				AGCGAGGTGAATAATTTTTCTGTAATTTTTTCATGACCACA
				TAGTCTTCTTGCTCACAATTTGATATTGGCAATTTGTATAGT
				TGGAATCAAAATACACAGAGTTTGAAGGAATTTCAAGCTC
				CCAGAACATTGACTTCCCTGCCAAACTGTTAAGGGGTGTCC
				TCGAGGTGGGTTCCTTATTGCATGGCTCTCTTGGAATTTCT
				CATTATCTGTTTTTTTTGCTGTTTAATGAGATGTGTATGCTT
				TTCCTCCAGGCACACCTGAAATCCTGTCCTGAGAAAGAAAA
				AGGAGCCCTGGAAAGGCTTGTTGAACCTTTGATGAGTCTT
				GTAAAGTCTTATGAGGGAGGACGTGAGAGTCATGCTCGA
				GTGATCGTCCAATCACTTTTTGAAGAGTATTTATCTGTAGA
				AGAATTATTTAGTGACAACATCCAGGTTAGCTTCTTCCTAT
				CAAACATAATATGGAATTATTTTGGATTCTGAAAGTCTTCC
				CTCTTTGGCATCTTTTAGAAAATTAAGCATAATACTAGGTA
				CTATATCCATTATTCTTTATAATCATGAAATTTAATTTTTACA
				GAAGAAAAGTGGAATTTCTATATATATTTAAACCAAGCTG
				GCAAGCTTTGAATTCAATCCTGTTGTTTATTGTTTTATCCAA
				CATGCCAAAAATATTAGGAACTTCATGTGACTACTTGTATC
				ATTCTTATTCTGTAATTACAGTAAAGTAACTTGTCATATCCT
				AATGTTATAACTCGTAACATTCTTCTTTAGGCTGATGTGATT
				GAACGTCTCAGACTTCAATATAAGAAAGACCTTTTGAAGAT
				AGTGGACATTGTCCTTTCTCATCAGGTATCTGATTTTCGGTT
				TTAATTTTTATCTCGGGTTTTCTAAAATAGAATTCTGAGTTT
				GTGGAAATAACTACCGTATTTGTTGGTTTATAGGGTGTTAA
				GAGTAAAAATAAGCTGATACTACGGCTCATGGAACAACTT
				GTTTACCCCAACCCTGCTGCATATAGGGATAAACTCATTCG
				GTTCTCTCAGCTTAACCACACCAGCTATTCCGAGGTTGGCA
				GCTATACTTGGTCCATCTGTAATTTCATAAAGTTGTTGCTCT
				GTTTCCTTTTGTTCACAAGTTCATTTTTGAGAGTTTTCCATA
				GGATGGTGACTGACAGGAAGAGGATTCTAATGTTTTCTCT
				TGGAGGATTTTTTCTGTATTTTCATTTCTTGTCGGTCATTGA
				TTAATTCCGTTTCTGGTATCAGTATCATCAAAATGTTGTCTT
				TTTCTGTATACTGATGCTGAATTATGTGAACAGTTGGCATT
				GAAGGCAAGTCAACTCCTAGAACAAACCAAACTGAGTGAA
				CTCCGTTCCACTATTGCTAGAAGCCTTTCGGAATTGGAGAT
				GTTTACCGAGGATGGTGAAAATATGGATACTCCCAAAAGG
				AAAAGTGCCATTAATGAACGTATGGAGGATCTTGTGAGTG
				CTCCTTTGGCTGTTGAAGATGCTTTAGTGGGTCTTTTCGAG
				CACAGTGATCACACCCTTCAAAGGCGAGTGGTGGAAACTT
				ATGTTCGTAGGCTATATCAGGTACTGTGTTGTAGAAACTTA
				AAACTTTTATCTGGTGATCAAACACTAGACGAAACTTGATC
				TTGATCAACTGTTTGTCTACCGCACCAGCCCTATCTGGTCA
				AAGGTAGTGTCAGGATGCAGTGGCATAGATTTGGTCTTAT
				TGCTACATGGGAATTCTTGGGAGAGCATATCGGGAGAAAG
				AATGGATCTGAAGGTCAAATGTCAGATGAACCAGAGGCTA
				AAAAACAGTCTAATAAGAGATGGGGAGCAATGGTTATCAT
				CAGATCTCTGCAGTTTTTGCCTTCAGTTATTGGTGCTGCATT
				AAGGGAAACAAATCAAAGCCTTAATGAGTCCATTCCAAGT
				GGATTAGTAAAATCAGCGAGCTTTGGTAATATGATGCACA
				TAGCATTGGTAGGCATCAATAATCAGATGAGCTTACTACA
				GGATAGGTAACTTCCTTCGGTACTATAATATAAGCGTTTAT
				TTTAATCATAAAAATTAGTAGCATTTTACATTCTATTATTCA
				TTGTAAGATCTCAAGTCTTCTTAATCATTTCTGCATTTGAAA
				CCTTGATAGATCTGGATAGATTCCTTATTTTTGTTTAAAATT
				TATGATAGAGTTACCTGGTCTCGAACCCTTAAAACATGCAC
				ATATATTGGCTTGCCAAACATAAGTTATTTTGCGTTGTCAA
				TTTCGATTATTGACGGTCAGCTTGTTAATGCTCCTAACTGG
				CACCATCTATGACATTTTGCAGTGGTGATGAGGATCAGGC
				ACAAGAGAGAATTAACAAGTTAGCCAAAATTCTCAAAGAA
				CAGGAACTAGGTTCCAGTTTGAGCTTGTCAGGCGTTGGAG
				TTATTAGCTGTATCATACAGAGGGATGAAGGGAGAGCCCC
				TATGAGGCACTCCTTTCACTGGTCAGAGGAAAAGCTTTATT
				ATGAGGAAGAACCTCTATTGCGACATTTGGAACCTCCACTA
				TCCATCTACCTTGAACTGGTTTGTCACCTATCGCAGTGTTTC
				AATACATTTTTTTGGCAGAAACCTTTATTGAGCCCCTGAAC
				TTACCAGTTTTATTCTCAAGTTATTATTTGACTACATTAAAT
				ACTTAATTACTATTGATTCCACATTATGACCTTGCAATATAA
				TTACAAGTGTTACGTTTTATTGATAAAATTATAACTGTTGCT
				ATTTTGTTTTACATATATCAAGGACTGCACTATAGTAAAAA
				AATGAGGACTCGATAGGATTGGAAAGTTCAGGGGCTTACT
				AATTGTTTGAGCGGAAAAAAATATATATAAATGTGAAATT
				GGATAATTCTATATCATTCATCTGAAGCTTATTATGGCCTTT
				TTTTGATCCAGGACAAACTTAAAGGCTATGACAATAGACA
				ATATACTCAGTCAAGGGACAGACAATGGCACATGTACACT
				GTTGTAGACAAACCAGTTCCAATCCAGAGGATGTTTCTAAG
				AACCCTTGTGAGACAGCCCACAAGTACTTCATATCAAGGTC
				TTGGCGCCGAAGCACCCAATGTGCAGTGGGCCATGTCCTT
				TACGTCAAAGAGCATTTTGAGGTCCTTAGTAGCTGCAATG
				GAGGAACTGGAGCTTCACGTGCACACTGTCAAATCTGACC
				ATGCTCATATGTACCTCTGCATATTGAGGGAGCAACGGAT
				AGAAGATCTTGTTCCATACACGAAGTAATTATATCAATCTT
				TATGATTTATTGTGTACTTGGCACCATAACTTTATGTGTACT
				CACTATGAGACTCCATCTCCAGGAAAACCGATGTAGATGC
				CAACCAAGAAGAAGCTGCGGTAGCAAGAATCTTGGAAGA
				ACTAGCGAGGAAGATACATGCGTCGGTTGGAGTCAGAAT
				GCATAGGTTAAATGTTTGCGAGTGGGAAGTGAAGCTATGG
				ATGACATCATCTGGACAGGCAAATGGTGCTTGGAGAGTTG
				TCACAACAAATGTGACTGGGCATACCTGTGCTGTGCATGT
				AAGTATCTGCGCATCTTATTTCAAGAAAATGTCTTTCCCTTC
				CATGCATTCCTTATTAGTCGACTTAGTAATGGGGAATGTCG
				AGAAGTGTTGGATGGTTACCAATGTGAGTACCATCACTGT
				TTAGATTAAAATTGACCATTGCTTTAGCAATACAATAATGA
				ATCTAATTGTGGCATGGGAGGCTTTTCTATGTGTGATCCAT
				GGAAAAACTTGTATATAGTTCCTTAGTAGGTTTGAGTTGTT
				TTCATTTTTCTTTTATCACATTGTAATTGTATTGGTGATTGAT
				ACGAAAATTAGATATATCGGGAACTTGGGGACGAGAGCA
				AACATGAAGTGGTGTACCATTCAATCTCTCCAAGAGGCCCA
				CTGCATAGCATGCCAGTGAATGCTGTTTATCAGCCCTTGGG
				AGTTCTCGATCGAAAACGTTTGTTGGCAAGGAAGAGCAAC
				ACCACTTACTGCTATGATTTTCCACTGGTTAGTATTTCTATA
				ATCATTAATCAAACATCAGTTTTTTTATTGGGGATAATTAA
				AATCAAATAATTTTTCCTGGCCTCATCCTTTTCAGGCGTTCG
				AGACAGCCATCGAACAATTATGGGAATCTCAATCACCAGG
				GACTGAAAGAAACAAAGAAAAAGTCCTAAAAGTCTCGGA
				GCTTGTTTTTGCCGATCAGAAAGGTACCTGGGGAACTCCA
				CTTGTTCATGCAGAACGGCCAGCTGGGCTTAACGACGTGG
				GCATGGTAGCATGGTGCATGGAAATGTTCACCCCGGAATG
				CCCTTCCGGAAGGAAAATCTTGATAGTAGCGAACGACGTG
				ACCTTCAAAGCCGGGTCTTTC
71	Digitaria	gDNA	2626	AATCAACTTTATGCTCAAGCGAAAGAGCTTATATTTGCTGA
	sanguinalis	Contig		TTCAGTTGGAGCATGGGGCACTCCAGTGGTTTTAGTTGAA
				CGCCCTCCAGGCAACAATGATATTGGCATTGTTGCTTGGAA
				CATGAAGCTGTCCACACCAGAATTTCCTAATGGCCGCGATA
				TTATAGTTGTTGCAAATGATGTGACATTTAAAGCTGGGTCC
				TTTGGTCCAAGAGAAGATGCGTTTTTTGATGCTGTTACCAA
				TCTTGCTTGTGAGAGGAAACTTCCTCTTATCTACCTAGCTG
				CAACTGCTGGTGCCAGGCTTGGTGTAGCAGAGGAAATAAA
				GGCATGCTTCCATGTCGGCTGGTCTGATGATGAGAGCCCT
				GAACGTGGTTTTCACTACATCTACCTAACTGAACAAGACTA
				TTCACGTCTAAGCTCTTCAGTTATAGCTCACGAGCTGAAAC
				TAGAAAATGGAGAAACCAGATGGGTGGTTGATACCATTGT
				TGGGAAAGAGGATGGGCTTGGTTGTGAGAATCTACATGG
				AAGTGGTGCAATTGCCAGTGCGTATTCTAAGGCATATAAA
				GAGACCTTCACCCTGACATTTGTGACTGGAAGAGCTGTTG
				GCATTGGGGCTTACCTGGCTCGTTTAGGTATGAGGTGCAT
				ACAACGTCTTGATCAACCAATTATTTTGACTGGGTTTTCTGC
				ATTGAACAAGCTTCTAGGACGGGAGGTATACAGTTCTCAT
				ATGCAATTGGGTGGCCCCAAAATCATGGCTACAAATGGTG
				TTGTCCACCAGACCGTGTCAGATGATCTTGAAGGTATTTCT
				GCTATCCTAAAATGGCTCAGCTATGTTCCTCCCTATGTTGG
				TGGTCCTCTTCCTATTATGAAACCCCTGGACCCACCAGAAA
				GACCTGTAACATACTTCCCTGAGAATGCTTGTGATGCTCGT
				GCCGCCATATGTGGTGTTCAGGACGGTGAAGGCAAGTGG
				TTGGGTGGTATGTTTGACAAGGAAAGCTTCGTGGAAACAT
				TGGAAGGCTGGGCAAAAACTGTTATCACCGGGAGAGCAA
				AACTTGGTGGAATACCAGTTGGTGTCATAGCTGTGGAAAC
				CCAGACAGTGATGCAAGTCATCCCTGCTGATCCAGGGCAG
				CTTGATTCCGCTGAGCGTGTAGTCCCTCAAGCAGGACAGG
				TGTGGTTCCCTGATTCTGCCACCAAAACGGCTCAGGCATTG
				CTGGATTTCAACCGTGAGGAGCTTCCACTTTTCATCCTTGC
				AAATTGGAGAGGTTTCTCTGGTGGGCAAAGGGATTTGTTT
				GAAGGGATACTTCAGGCTGGTTCAACAATTGTTGAGAATC
				TGAGGACATACAAGCAGCCTGCTTTCGTATATATCCCAATG
				GGTGGAGAGCTGCGGGGAGGGGCCTGGGTTGTGGTGGA
				CAGCAAGATCAATCCGGACCACATTGAGATGTATGCCGAG
				AGGACTGCGAAAGGCAATGTCCTTGAGCCAGAAGGATTG
				GTGGAGATCAAATTCAGGCCAAAGGAACTGGAAGATTGC
				ATGAATCGACTCGACCCAAAGCTGATATCTTTAAAAACCAA
				ACTAACCGAAGCGAAGAATAGTGGGACCTACGGGATGGT
				CGATTCCGTACAACAGCTGATAAAATCCCGGGAAAAGCAA
				CTTCTGCCGCTTTACACGCAAATCGCCACACGATTCGCCGA
				GCTTCACGACTCGGCTTTACGAATGGCGGCAAAGGGGGTG
				ATTCGAGAAGTTGTCGACTGGGGGATTTCACGATCTTACTT
				CTACAAAAGGTTAAGAAGGAGAATCGCCGAGGCTTCGTTG
				GTGAACACCGTGAAAGATGCAGCGGGTGATAAGCTCCAG
				CATAAGTCGGCTATGGAGTTGGTCAAAAACTGGTTTCTGG
				ACTCGAAAGGCGATTGGGAAAACGATGAAGCTTTCTATGC
				TTGGAAGGATAATCCCGCGAATTACGAGGAAAAGCTACAG
				GAGTTACGGGTCCAGAAGGTGTTGCTTCAGTTAACTAACA
				TTGGCGAGTCTTTGTCGGATTTGAAAGCTTTACCTCAAGGT
				CTTGCTGCCCTTCTAAATAAGGTAATTTTTTGGGTTTTTTCT
				TCCAGGAATATTGTTTATTTAGACGATCGAGTCGGATGTTA
				TGTAATACTTTATGTTTGATGTAGGTGGAGCCATCGAGCCG
				AGGGGCGTTGATCGATGAGCTTCGGAAGGTGCTTAATTGA
				TTTTCGGTAAGTGTTTCTCGGCTACTAAATATGTTTTACTTT
				GGCTTCAGTCTCTGGGTAGTTTGAATCAATAGAAAATGCC
				AATGTGAAAATACCCAGTAATATATTTGATAAGTGTAAATG
				TAACTATTATTATATTTAAGTGAATAGGGGGAATTAGTTCA
				TATGATTATTGTTGTTATAAACAAATCAGAGATAGAGAGA
				GCTATATTTATTATTATATTTGCGAATTAAAGTTATTAGGA
				GTAGTATAATTTGGCGGTTGTTGCATTTTACGTGTAATGAT
				CTGAATGTTGTTTGTTCGTGATTATTGAATAAAAGGGCATC
				AAATGCCATAATTTATCTTTCTTTGTTAACAAGATTTTAATT
				AGTTTTTTTTAATTATTAGTATGTTTTGTATAATTTATATT
72	Digitaria	gDNA	2351	TCTCTCTCTCTCTCTCTCGGCTATGTTCTTCGCTTGCTTCTCA
	sanguinalis	Contig		GCTCTGCACCGCTCGGGCGATCGAATTTCGCATTGCTCCGT
				GTGCCGCCGGCCGCTCGAGGCTGTCCGCGTCCAAATCCAA
				CTCCAAAACGCGACTTCGCGCGGCGCCGACGCTACTAAAT
				CGCCGCTTGTACTTCTCAGCCGCGCCGGGCAACTTGCTTCG
				GCGTTCCGTCGAGCAGGTTGTGCGCGCGCCAAGTGTGATT
				GGGGAAATAGAGATCCTGCCTGCTGCTGGCAACCGGAATT
				TCGTCAATCAAAGGCAGGGGGTTTCCTTTTCAGTTTGGTTA
				GGGAGCTTGTTGTTTTGTTTGTTGGGGTGCCGGGGTTGGT
				CCCCTCTGTTTTGGATTGGATTGTAGTGGCCTTTCGGGTTT
				CCACTTTGGACTCGCCTCTAGTGCGGACCTTTCTGTGATCG
				CATAACACATACTACGGTCAATATATTAGTCACCTTTGCCTA
				GGTATAATCAAAACCTGTGTCCTGACACTTCTTATTCTGCT
				GGCTGCTTGTACTCTAATTCAATACAATCAGCTGCTGCCTA
				TGGATGAATCTGGTTAAATAGCCACTTCTCTGTTATCAACT
				CTATATCATCTCAGCACACTATTTCATATACTACTAGTTGCC
				TGTCCGAAAGTATCGTGCTTGCGATTTGTTTCTTTTGCCTGT
				TCGATAGTCATGCAGTTTCCCCGTCACAATTGATGTACTAA
				CAATCTGTTTCTTTTGCACTGACCAGGAAGTTTGAACTTCA
				GAGGGTGAGATAATGGTTGAGCCTGACCAGATGAACGGC
				ATACTGAATGGGATGCCTAATTTGAGGCACCCGTCCTCTCC
				ATCAAAGGTCGATGAATTCTGTAAAGCACTTGGTGGCGAC
				TCGCCAATACACAGTGTGCTAGTTGCCAACAATGGGATGG
				CCGCGGTCAAGTTCATGCGCAGCATCCGCACATGGGCCTT
				GGAGACCTTTGGGACAGAGAAGGCCATTCTCTTGGTTGCT
				ATGGCCACTCCGGAGGACTTGAGGATAAACGCCGAGCACA
				TAAGAATTGCTGACCAATTCATAGAAGTTCCTGGAGGAAC
				AAATAATAACAACTATGCGAATGTACAGCTCATTGTCGAG
				GTTAGCACAACTCATCATCCTGGAAGTGACTAACTTGTGTT
				TAGTTTACATATGTTTTCACTCTGGACAATTCAGTAATTAAC
				ACTGAATTCACATTTCACAGATAGCAGAGAGAACTCGTGTC
				TCTGCAGTTTGGCCTGGCTGGGGTCATGCATCTGAGAATC
				CAGAGCTTCCGGATGCTCTAAACGAAAAAGGAATAATTTT
				CCTTGGGCCACCATCAGCTGCAATGTCTGCACTCGGTGATA
				AGATTGGTTCTTCTCTTATTGCACAAGCAGCAGGAGTTCCA
				ACTCTTCCATGGAGTGGATCACATGTATGCCTTCGCCTATT
				TCTGTGTGCCTTTGCTTCTAACTTTTATCTGCTAGTTTAATAT
				TCACTTAACATTGAACCAAACTCACTGCAGGTGAAAGTTCC
				ACCAGAAAGCTGCCACTCGATTCCTGAGGAGATATATAAG
				GATGCTTGTGTTTCCACTACAGAGGAAGCAGTGGCTAGTT
				GCCAGGTGGTCGGGTATCCTGCCATGATCAAGGCATCATG
				GGGTGGCGGTGGTAAAGGAATAAGGAAGGTTGGTTTTCT
				TTTTCTATTTGAATCTGAGAAAAAAGAAGGGAAATGTCCA
				GTATTCAGAAAACATGATCTGAAAGTTTCAAGGAAAAAGT
				TAGAGTAAATTAACACTAATTTTGATATCATTTGCATGGAT
				TCATAGGTACACAATGATGATGAGGTGAGGGCACTGTTCA
				AGCAAGTTCAAGGAGAAGTCCCTGGCTCACCTATTTTTATT
				ATGAAAGTGGCATCTCAGGTGAGAACTGATTCAACAAATT
				TTGGCTATTTAATGGTTTGCTTTGGCGCCCACCTTTGTTCTT
				TGTATCCTGAGCTCTTCTATGTGGTTGCATTTGTTTCTGAAA
				GCTTTTGTTTGTTCTTTCTTTGTAGAGCCGACATCTGGAGGT
				TCAGTTGCTCTGTGACAAACATGGCAATGTGGCTGCACTG
				CACAGTCGAGATTGTAGTGTTCAAAGAAGGCACCAAAAGG
				TTAGCTCGTAGAATTTTTTCTAAGCTTTGATTTACATTGTGA
				TTTCTTGTAATTTGTCCCATACTTGGATTGTGTAGTGTGCTG
				TATAGTAGTTTTATATATTTCTTGAATAAAGTTTAGGTGACC
				TAGTGCAAGACGAAAAAAAATCCATATTGCATTTTTGTGAA
				GAAAATTTTCTCACATTTACCTCTGCA
73	Digitaria	gDNA	2088	TTCAGTTGGATGGAAATAGCCATGTAATTTATGCGGAAGA
	sanguinalis	Contig		AGAAGCTGGTGGTACACGACTTCAGATTGATGGAAAGACA
				TGCTTGTTACAGGTGCATATGCTCTTTTCCCTTTATTATCTTC
				TTGGTGTCTGATTGGGAGTCTTCTGCCAGATTTGCCTTTTCC
				GTTTATTACAACAATTTGTCTGTCATCCTTAACTTCAGAAAA
				TCCTATTGTTTGCTTTCTTAGCATACTTGATTTCAGTGAAAT
				TTGACTACAATACCTGAATTAAAAAAAAACTGTAATCGTGT
				GATTAAAAATCAAGAAGTAGCCTTTTTAGGATTGTAATATT
				TTGGTATTGCTACACTATGCCAGAAGTAGGTCACAAGTGT
				GTGTTCTTGCAGAATGATTATGATCCATCAAAGTTAGTAGC
				TGAGACACCCTGCAAGCTTCTTCGGTTCTTAGTTGCTGATG
				GTGCTCATGTTGATGCCGATGTACCATATGCGGAAGTTGA
				GGTTATGAAGATGTGCATGCCTCTCTTGTCCCCTGCTTCTG
				GTGTCATACATGTTATGATGTCTGAGGGCCAGGCATTGCA
				GGTTATTTTTGTACATCCCTCCTTGCATTGTGCTTGCATCAC
				ATAACTGCATGTAACATTTTTAGACTTATATTTTGTTCTAGG
				CTGGTGATCTTATAGCGAGGCTGGATCTTGATGACCCTTCT
				GCTGTGAAAAGAGCTGAACCATTTGATGGAATATTTCCAC
				AAATGGGTCTTCCTGTTGCTGCCTCTAGTCAAGTACACAAA
				AGATATGCTTCAAGTTTGAATGCTGCTCGAATGGTCCTTGC
				AGGATATGAGCATAATATCAACGAAGTAAATATTCCATCTT
				ATTATGATTATACTCTATTTAGTTTTTTTTTAATCTTTTGTTT
				CCTTTACTTTGATTTGTGTACTCCATCCCAAAACAGTGTGAT
				TCTAGTGTTGTCCTAAGTATCATTAGATTCATCATGAAATAT
				ATTTTGGGACTGTTTTGAGGGTTCACACGGGTTCAATGTTT
				TTTTTTTTGGTTCTGCTGACTTTTCGTCCAAACTTGTATAATC
				TATGGAAAATTGTAATGGTAAGTACGTTCTGATCATGCTCA
				CATAGTCACACTAGTGTAACTTTATATTCTAGTTTGATAATT
				TTGAGTCGCACTTATTTAATTGAAGTTATTGCATTTTGTTTT
				CTATCACATTGTCCTTAGCATTTATTTATCACATATTGATTG
				ATTCGCTCGAAACTCTTTTTTTTTCCAGGTTGTGCAAGATAT
				GATATGCTGTCTGGACAATCCGGAGCTTCCTTTCCTACAGT
				GGGATGAACTTATGTCTGTTCTAGCAACTAGACTTCCAAGA
				AACCTTAAGAGTGAGGTATAAGACAATTACCAAAATGTAG
				CCAATCTGGGTTAAATGAAAGACGATTCATTTTACTGTGTA
				TATTATCTTAATTTTACATATTGGCTTATGTTGATGACAGAA
				AAGTTTGGTATCACCAGAGTAAAACCGTGATATTTTGTAGC
				ACTGGTTTGCACTGTGTTACGTGCATTAAAGTCTATAGTGT
				GCTGTAGTTTATTATGTAAAATTAAGTTGTATTCATGTGCT
				AAAATTTAGAATCTTTCACTTTAGCATCTTAATAGATAGAA
				GCTGAATCTTCCAGTAAGTTTTGTTTTAGTTTCTTGATTGTA
				GGTCTCTTGTATGTCCTTGCATAACCCTTTTTCATTCTAGAT
				CTGATGGTTCTATCTTTTATTATGCAGTTAGAGGATAAATA
				CCAGGAATACAAGCTGAACTTTTACCATGGGAAAAATAAG
				GACTTCCCATCCAAGTTGCTGAGAGACATAATTGAGGTCA
				GTTTTAGATTTCTTTAGTCGTATTAATTTTAAACTGTTTGCTT
				ATTTTAACAATTTTTTTGTAGGCAAATCTTGCATATGGTTCA
				GAGAAGGAAAAAACTACGAACGAGAGGCTTGTTGAGCCT
				CTTATGAGCCTGCTTAAGTCATATGAGGGTGGAAGAGAAA
				GCCATGCTCATTTTGTTGTCAAATCCCTTTTCGAGGAGTATC
				TTGCTGTGGAAGAACTTTTCAGTGAT
74	Digitaria	gDNA	1983	GACTGAAGAACCATTATTTCTTACGTGTTTGTGAGCTTCAA
	sanguinalis	Contig		ATACAGGTGTCGTTGCTAACATTAAATATGTATCTCTTATTT
				CTCAGGAAGCATCAAGCAGGAGCTCAAGCGTTGTTACTGA
				TTATGTTGGTTATCTCAGCAAAGGTCAGATCCCACCAAAGG
				TATACTATATGCTGAGATGCCCTTATTGCAGATTATGCTTCT
				TGCTGTTTGACTTAAAGCAGATTGGTAACTGTGTAATTCCT
				TTCTGATTTGCAGCACATCTCACTCGTCAATTTGACCATTGC
				TCTAAACATAGAGGGGAGCAAATACACGGTACTCATCTAT
				AGTTTTTCTCTTAACAGTTTTGTAACCTACCACTGAGTGTCT
				TTGAGAAAAACTAAATGTTAAAACTTTGATGTAGATCGAG
				ACTGTGAGAGGTGGACCCCGCAGCTATAAATTAAGAATGA
				ATGGATCCGAGATTGAAGCAGAGATACATTCCCTGCGAGA
				TGGTGGACTTCTAATGCAGGTAAATATTGGACCCAACTGTC
				TCCTTTGTTTTCCTGTTGAAAAAAGTTCTGATCAAACTTTGT
				TGTATATTCTTCAGTTGGATGGAAACAGTCATGTAATATAT
				GCAGAGACGGAGGCTGCTGGTACACGCCTTCTCATCAATG
				GCAGAACATGTTTACTACAGGTAAACATGGTATTCTTGTTC
				TCTTCCACATATTTTTTATGCTGAAACACACTACCTGTTACA
				TATCTTTACTTGAAACTGAAGTTATTGGATCTGGCAATTTTT
				TACGAATGTTTCTTTCATATGAAGGTCATAGAAATTATAGG
				TTACATAGAGGGTAGAGAATACAATTTAGGAAGCTACTAT
				GACGCATAGCCCTAAGTTATATAAATTTGCTTGAACGTAGA
				TTTGCTTCGTCCTCTTTATGTTTTCAGCTTGGCATTTTCCATA
				ACGGTGGTTGTTCCATGTGTCAAAGCATCTAATGTTAGCTA
				GTATTCTCAGTTGCCAAAGATAAAAGATATCCCAGTTACCT
				ACTAGCCCACTAAAAGTTTGTAACAATGTGAAATTTTACTT
				GAAGGAATAAGCAGTTTGGATTGTTTCAATTCTTAACCGTA
				TTCTCACATCATATGGAAATACATGATATTGTTTTTTCTTCT
				CTTGATTATATTTCACAGAAAGAACACGATCCTTCAAAGTT
				GTTGGCTGATACACCGTGCAAACTTCTTCGGTTCTTGGTTG
				CGGATGGCTCTCATGTGGATGCTGATACACCATATGCTGA
				GGTGGAAGTCATGAAGATGTGCATGCCACTGCTAGTGCCT
				GCCTCTGGTGTCATTCACTTCGTTATGCCTGAGGGTCAGGC
				CATGCAGGTATTATTCCTCTTTATTTTTCTCCCCCTCTGCTCT
				TGCTTCTTTCATTTTATAAAAACCTTAAATGTATGTTTTCCTT
				TTTTTTTCAGGCGAATGACTTAATAGCAAGATTGGACCTTG
				ATGACCCATCTTCTGTGAGGAGAGCTGAACCGTTTCATGG
				CTCCTTCCCCAAATTGGGACCTCCTACTGCTATTTCTGGCAA
				AGTTCATCAAAAATTTGCTGCAAGCGTGAATTCTGCACACA
				TGATCCTTGCAGGCTATGAACATAATATCAATGAGGTAAG
				ACATATAATTATTTTTAATTTCAAATTAATTTTCATTTTTAAC
				TTCCCTTTCATTATCTTCATCTGCGAAGAACCCAATTTCATG
				GTTTATAACACACCACACTATCGCTGAGAGCAATTGGGATT
				GCGTGGAATAATAGATTGATTAGGGTATACATGATACAGG
				ATATATAGGCAGCCTTAAGAGGTTTATAGAATCACAGGGC
				AGCCTTGAGAGGTTTATAGAATCACAACCAATCAAGGATG
				CCTGCCTTTCCTAACCAACAGAGCACAGCCAGAGGCCAGC
				ACAAGTCCTGGCACAAATTCCAAGGACCCTACCACATACAC
				TTCTAACAATCC
75	Kochia	cDNA	7122	ATGGGCGAGTCCGATTCCTGGACACCAATGTCGAATTTGA
	scoparia	Contig		CACTTCATCCAAGTCCAAATGATATTGATTCAACATATTGG
				TGTAACAGTTATAGGAAAAGTGGGCGTATTTTTTGCCAAG
				GGCAGGGCGGAATGTTATCTAGGGAAGACCCAAATAAGG
				CAACTTCGGAGGGAAAAATTGATTACCCCAACAGAACAAC
				TCTTTTGAGGAAATCTGCTACATTACCTGTTGATGAATTAC
				CTGTTGATGAATTTTGTTATGCTCTTGGAGGGAAAAGACC
				GATTCGTAGTATTTTGATTGCAAACAATGGAATGGCAGCT
				GTTAAATTTATAAGAAGCATTCGGACATGGGCTTATGAGA
				CCTTCGGAACAGAGAAGGCTATTGTATTAGTAGCAATAGC
				TACTCCAGAAGACATGAGAATCAACGCTGAACACATTCGA
				ATGGCTGACCAGTTTGTTGAGGTTCCTGGTGGGACTAACA
				ACAACAACTATGCCAATGTGCAGCTCATTGTTGAGATGGC
				AGAGATGACACGTGTTGATGCTGTTTGGCCAGGCTGGGGA
				CATGCATCGGAGAACCCTGAGCTTCCAGATGCACTAAACG
				CGAAGGGGATTGAATTTCTAGGGCCTCCAGCTAAATCTAT
				GGCTGCTCTTGGAGACAAAATTGGTTCATCATTGATTGCTC
				AGGCCGCAGATGTTCCAACTCTTCCATGGAGTGGCTCTCAT
				GTGAAAGCTCCTGCTGAGAGTTGCCTTGATTCTATTCCTGA
				TGACATATACAAGGCAGCCTGTGTTTTTACCACAGAGGAA
				GCAGTTGCTAGTTGTCAGGTTGTCGGTTATCCAGCTATGAT
				TAAAGCATCTTGGGGTGGTGGAGGGAAAGGAATAAGAAA
				GGTGCATAATGATGATGAAGTAAGGGCATTGTTCAAGCAA
				GTGCAGGGCGAAGTTCCTGGCTCTCCCATATTTATAATGAA
				GGTGGCTTCACAGAGTCGACACTTAGAAGTGCAGTTAATT
				TGTGATCAATATGGCAATGTAGCAGCATTACATAGCCGTG
				ATTGCAGTGTCCAAAGGCGGCACCAGAAGATTATTGAAGA
				GGGTCCAATAAATGTAGCTCCCCAAGAAACTGTGATAAAA
				CTTGAGCAGGCAGCCAGAAGGTTAGCCAAATATGTGAATT
				TTGTTGGAGCAGCAACTGTAGAATATCTATACAGCATGGA
				AACTGGCGAGTTTTATTTCCTCGAGCTAAACCCTCGGCTAC
				AGGTGGAGCACCCAGTAACTGAATGGATTGCTGGAATTAA
				CCTTCCAGCTGCTCAGGTTGCAGTTGGCATGGGTATTCCCC
				TCTGGCAAATTCCAGAAATTCGGCGATTCTATGGTAAGGA
				ACATGGTGGGGGTTATGATGCTTGGAGAAGAACATCAATT
				GCTGCGACTGCTTTTAATTTTGACAAGGCACAATCTGTGAA
				ACCGAAAGGTCACTGTATTGCCGTACGTGTGACAAGTGAG
				GACCCTGATGATGGATTCAAGCCCACTAGTGGGAAAGTAC
				AGGAGTTGATTTTCAAAAGTAAACCAAATATGTGGGCCTA
				TTTCTCTATAAAGTCTGGGGGAGGCATTCATGAGTTCTCAG
				ATTCTCAATTTGGTCATGTCTTTGCATTTGGTGAATCAAGA
				GGGTTGGCCATAGCAAATATGGTTCTTGGCTTGAAAGAAA
				TTCAAATTCGTGGAGAAATTCGCACTAATGTTGATTATACC
				ATTGATCTTTTAAACTCTTCGGATTACAGAGATAATAAAAT
				TCATACAGGTTGGTTAGATAGCAGAATTGCAATGAGAGTG
				AAAGCGGAAAGACCCCCCTGGTTCATCTCTGTTGTGGGAG
				GAGCACTCTACAAAGCTTTTGCTAGTAGTGCAGCTACAGTT
				TCAGAATATGTTGGCTATCTTGAGAAAGGTCAAATTCCTCC
				AAAGGTAATTCAAGCACCAGATGCTGTTGAGCATATATCA
				CTTGTCCACTCTGAAGTTTCTCTGAATATTGAGGGGAGCAA
				GTACACTATTAAAGTGGTGAGGGGCGGTCCAGGAAACTAC
				AGATTGAGATTGAATGAGTCTGAGATTGAGGCTGAAATAC
				ATCCATTAAGAGATGGGGGTCTTTTGATGCAATTGGATGG
				GAAAAGTCACGTGATATATGCTCAGGAAGAGGCAGCAGG
				AACTCGCCTTCTTATTGATGGACGAACGTGTTTGCTTCAGA
				ATGATCATGATCCTTCAAAGTTAATTGTGGAAACACCTTGT
				AAGCTACTGCGGTATCTGGTTCCAGATGATAGTCATGTTGA
				TCCAGATACTCCTTTTGCTGAAGTTGAGGTTATGAAGATGT
				GTATGCCTTTGCTTTCCCCTGCATCTGGTAAAATAAGATTTA
				AGATGTCCGAAGGACAACCCATGCAGGCTGGCGAACTCAT
				AGCAAAACTTGAGTTGGATGATCCTTCAGCTGTAAGAAAA
				GCTGAACCGTTCCGTGGTAGTTTTCCAACCTTGCATCCGCC
				AACTGCTATCTCAGAAAAGGTTCATCAAAAATTTGTTGCAA
				GTTTGAATGCAGCCCAGATGATTCTTGCTGGTTTTGAACAC
				AACATAGATGAAGTTGTCCAGAGTTTGTTGAGGTGCCTTG
				ATAGTCCTGAACTTCCTTTCTTGCAATGGCAAGAATGCTTG
				TCTGTTCTAGCAACACGGCTTCCCAAAGATCTGAGAACTGA
				ATTGGAATCAAAGTGTCGAAAATTCACAGGAATTACGAAT
				TCTCATAACATTGAATTTCCTGCTATGGTGTTTAAAGGTGTT
				CTTGAGGCCCATTTGAATTCATGCCCTGAAAAGGAGAGAG
				GAGCTCAAGAGCGGCTCATTGAACCTCTAATGAGTCTTGTT
				AAATCCTATGAAGGTGGGAGAGAGAGTCATGCCCATGTTA
				TTGTTCAGTCTCTGTTTGAAGAGTATTTGTCTGTTGAAGAA
				TTGTTCAGTGTCAATATCCAGGCTGATGTGATTGAACGTCT
				CCGCCTTCAACATAAAAATGATCTATCAAAAGTTGTTGATA
				TTGTCCTATCACATCAGGGTGTTAAGAATAAAAATAAATTG
				ATCCTCCGGCTCATGGAACAACTGGTTTACTCAAATCCTGC
				CGCATATCGGGATAAGCTTAAACATTTTTCACAACTGAACC
				ATAAAACATACTCTAAGTTGGCTCGTAAGGCAAGTCAATTG
				CTTGAACAAACCCAGTTGAGTGAACTTCGTTCTAATATTGC
				CAGAAACCTTTCCGAGTTAGAAATGTTTACAGAAGACGGT
				GAAAGCATGGACGTTACAAAAAGGAAAAGTGTTATTAATG
				AACGTATGGATGCTCTTGTTAATACTCCGCTTGCTGTTGAA
				GATGCCCTTGTTGGCTTGTTCGATCACAGCGATCATACATT
				ACAAAGGCGGGTTGTTGAGACTTATATCCAGAGGCTTTAT
				CAACCTTATCTTGTAAAGGGAAGTGTCAAGATGCAGTGGC
				ACCGATATGGCCTCATTGCTTCTTGGGAGTTCATGGAGGA
				GCACATTGAAAGAGCAAATGCCGCTAATGATTTGTCCATCA
				ACCAGCCTCTTGCTGAGAAACTCATTGAGAGAAAATTGGG
				AGTCATGGTCATCATTAAATCTCTTCAGTTTTTGCCAAGAG
				TGATTACTGCTGCATTAAAAGAGACCACGGATAATTCAGAT
				GAAATGATTCCCAGAGGTTCTTTAGATTCAATCAGTCACGG
				AAATAAGTTGCACATTGCACTTGTGGGTGTTAATAACCAGA
				TGAGCTCGTTGCAGGATAGTGGTGATGAAGATCAAGCTAA
				AGAGAGAATTAATAAGTTGGCGAAAATCCTGAGAGAGAA
				AGAAGTGAGCTCAGTTCTTCTTAACAGTGGTGTTGGGGTA
				ATTAGTTGCATTATACAGAGAAATGGAGGAAGAATCCCAA
				TGAGGCATTCATTCTATTGGTCAGAAGAGAAACAATACTTT
				AATGAAGAGCCTTTACTACGTCATTTGGAACCTCCTCTATC
				AATATATCTTGAACTGGACAAGCTCAAACACTATGAAAATC
				CCAGATATACTCCTTCTCGGGATCATCAGTGGCACCTGTAT
				ACTGTCATGGACAAGCCATCTATTCGACGAATGTTTTTGAG
				GACACTTGTCAGACAGCCCACCTCCGAGTTTAGCGGGGTT
				GAACTAGAAATGCTTAAAACACAAAGGCCTATCTCCTTTAC
				TTCAAGAAACATACTGAGGTCTTTAACAACTGCAATGGAA
				GAATTAGAACTCAATGCGCACAATGCTACCTTGAAACCTGA
				TCATGCTCATATGTACCTGTGCATTGTAAGAGAGCAACGAA
				TTCAAGATCTTGTCCCATATCACAGGGAGGTGAACATTGAT
				GATGAACAAGAAGAGATAACTGTTCAGATATATTTGGAAG
				AGCTTGCGCGTGAAATCCACAGTTTTGCTGGTGTGAGAAT
				GCATAAACTAAATGTATGTGAGTGGGAAGTAAAGCTTTGG
				GTGTCATCTTCTGGCCAAGCCAATGGTTCATGGAGAATCAT
				TGTTAATAATGTGACTGGTCATACATGCACTGTACATGTTT
				ACCGTGAGTTGGAGGATAACAACCTTCATGAAATGATCTA
				CCATTCAATATCTGTTCAAGGTCCTCTCCATGGAATACCAG
				TGAATGCACCCTATCAACCACTTGGAGTCATTGCCCGTAAA
				AGACTTCAGGCCAGGAAAAATAGCACAACCTATTGTTATG
				ACTTCCCACTGAAAGCTGAAATCACCCTTGGGGACGCATGT
				GAAGCTTACCGCCATCCCCGGAGACGTCCCCAAAAGTCAA
				CGCCGTTCCCGGAAGTCAATGGCGTCCCGAGGACGTCCCC
				AAGCCGTCCCCGGCGCGTTTCCGTCCCCGTTCTGTCCCCGG
				CTTTCTCTACTGCCTTGGAGCAATCATGGGCATCCCAACCT
				CCGCTGCTGAAGAAACCCACAAACAAAAAAGTTTTGAAAG
				TCTCAGAGCTAGTATTTGCTGATGCAAATGGCACCTGGGG
				AACACAAGTTGTCCCAACAGACCGTGAACCTGGTCTTAATA
				ATATTGGCATGGTGGCCTGGTCCATGGAGATGTCAACTCC
				TGAATTTCCTGATGGAAGGACCATATTGGTTGTAGCAAAT
				GATATCACCTTCATGGCTGGATCATTTGGGCCAAAAGAAG
				ATGCTCTCTTCCGGGCAGTTACAGATCTTGCTTGTTCCAAA
				AAAATTCCTCTGATTTACCTGGCTGCTAATTCTGGTGCCCG
				ACTGGGTGTTGCTGAAGAGGTAAGAGCGTGCTTTAAAATT
				GGTTGGTCTGATGAACTGAACCCTGAACGGGGGTTCCAGT
				ATATCTACTTGACTCCTGAAGATTATGGTCGTATAGGGTCA
				GCAGTTATAGCCCATGAGTTAGAACTCCAAAATGGAGAGA
				CTCGGTGGGTTATAGACACTATTGTAGGGAAGGAGGATG
				GGTTAGGTGTTGAGAACTTATCCGGAAGTGCGGCTATAGC
				TGGTGCCTATTCAAGGGCATACAAAGAAACTTTTACACTAA
				CTTTTGTAACAGGAAGAACAGTTGGTATTGGTGCCTATCTT
				GCTCGCCTTGGGATGCGTTGTATCCAAAGGCTTGATCAGC
				CCATTATTCTGACAGGCTTTTCAACATTAAATAAACTTCTTG
				GTCGTGAGGTTTACAGCTCACAAATGCAACTTGGTGGGCC
				CAAGATTATGGGTACAAACGGTGTTGTTCATTTAACAGTTT
				CAGATGACCTTGAAGGCATTTCATCTATTATCAAATGGCTT
				AGCTATGTTCCATCCTATTCAGGAGGTGAACTTCCTATTTC
				ACGTTCTTTAGATCCTCCAGAAAGACAGGTTGAGTATTTGC
				CTGACAATTCTTGCGATCCCCGTTCTGCCATATCTGGTACA
				CTTGACTCTGATGGTAATTGGCTTGGTGGAATTTTCGACAA
				AGATAGTTTTGTTGAAACCCTACAAGGCTGGGCAAGGACA
				GTTATCACTGGCCGCGCCAAACTTGGTGGAATTCCAGTTG
				GGATAGTTGCTGTTGAGACACAAACTGTGATGCAAGCTAT
				CCCAGCTGATCCTGGTCAGCTTGATTCTCATGAGCGAGTTG
				TCTCACAAGCTGGACAAGTATGGTTTCCGGATTCTGCAACT
				AAGACAGCACAAGCTTTGATGGATTTTAACAGGGAAGGAC
				TTCCACTTTTCATTCTAGCTAACTGGAGAGGGTTCTCTGGA
				GGGCAAAGGGATCTCTTTGAAGGGATTCTTCAGGCAGGTT
				CCACAATTGTCGAGAACCTTAGGACTTATAATCAACCTATT
				TTTGTTTATATCCCCATGATGGGTGAACTTCGTGGTGGCGC
				GTGGGTTGTCGTAGACAGTCGAATCAATTCGGACCAGATT
				GAGATGTATGCTGACCAGACAGCAAAAGGAAATGTTCTTG
				AGCCAGAAGGAATGATTGAGGTGAAGTTTAGAACCAAGG
				AATTAATTGAATGTATGGAAAGGCTTGATCAACATCTTATC
				AATCTTAATGCAAAACTTGTTGAAGCCAAAAACTCCAATTC
				ATCGGATGACATCAAACCCCTCAAACAGCAGATAGAAGCT
				CGGCAGAAGCAACTTTTGCCTCTATATACTCAAATAGCCAC
				AAAATTTGCTGACTTGCATGATAGTCCTTATAGAATGGCTG
				CGAAAGGAGTTGTCAAGGAAGTCCTGGATTGGAGCAATTC
				TCGCTCATTCTTCCACAAAAGACTGTACAGGAGAGTAATG
				GAGGAATCACTTGTCAAGACTGTCCGAGATGCTGCTGGTG
				AAGCAATGACCCACAAGTCTGCCTTGGAGTTGATCAAGCA
				ATGGCTTGCTGAGTCTGCCATGGATAGTACTACTAGAGCG
				GGAGCTGATGCTTGGGCTGACGATGAAGCTTTCTTCAGGT
				GGAAAGAAAATCCTGCTAATTATGAAGAAAAGCTAATTGA
				GTTACGCATACAGAAAGTATTGCATCAGCTTTCAAATATTG
				ACAACTCAGCTTCTGATCTGAGAGCTCTTCAGCTTCGTCAG
				GGTCTTGTTGCCCTACTTCAGAAGGTGAATTCCTCAAGCCG
				AGCAAATCTAGTAGAGAAACTCGAGAAAGTGCTCAATTGA
76	Kochia	gDNA	17930	ACTTTGTAGTTTGTAGTTTGTAGTGTGCAGTGTGCAGTGTG
	scoparia	Contig		CAGTGTCGCATTAAAATTTGACTAATGCTAATGCTTCCCTA
				AAATCTCTCCTAAACATGTGAATTTCCTTAAATTACCACCGC
				AAACTCCATTCAATACTTAGAATTATTCCCTTGAATTCGATC
				CTACTCTTCAGTTTCATAGTTTCAACACTCTTTTATTTAAACT
				TCCTACAATCGTCGTTCTCTTTTTTTTTTTTGTTTTTCCTAGG
				CTTCAAATGCAGTATTATTATTATTATTATTAGTTTTTCTTAT
				TTTACAACTAAATTTTCATTTCAACACTCAGAAAATTTAAGA
				TGATTCCAATTTCTGAGCGTTGTCATGTTGTTAAATTTCCTA
				TACTCAAATCTTCTTCTCATTGCCGTCTCTTATTTCACAGTG
				CAAATGGGACTATGAAATTTCAACTCAAAAAGAGGTATTTT
				CATTTTCATTTCTTAGTGTCGTATTTTCGTAATTACGTTGATT
				TTTGTGTGAATTGTATACTAGTATTACAAAGGATCCATGAT
				TACATCGTTCAATTGGCATAGATGATGAAATTGTTAGAAAT
				TTTCGTGCAATTTGCAATGCTTGCTTTCATGATTATTTGTGT
				TGTTGAAGGGAAATTCTTAATCAATCTCGAGATATGTATTT
				CGGGTGACATTTTCGTAAATGAACAAAAAACCTTCAAGGA
				ATTTATTTTCACTTTATTTACGAGAATATACATAGCTTGAGA
				TTGTTTAAGAAATTCCCGATTTGGAGGTATCACTTAGAATA
				TATATATATATATATTTTTATTTCATTATTTTAATCATGGAAA
				ACGATATATACTCGCTAACTCGCATTTGAATTCACAACTTTT
				GTACATTGTAGCTTTCTTTCTAGGATGCATAAAGAACTTGA
				CACTACCAACTAACCGGTGTTTACGATGAATCATACCCTTT
				TCTTTGAGCTGATTTTGGGATGTGTCTTTTATATTGGGGTT
				GGTTTTTGGTAGTGTGTAGTTGAGCTAAATTAAAGCTCTCT
				TTGGTAAGAAGTAAAATTTTTTTGATGCAAAGTGTTTTCGA
				CAATTTTCTAATTTTATATTGTTTGGTTGACAAAGGAGTGT
				AAAACCATTTTACATGGAAAACTTTTCCAACAATATTTTGTA
				CACTCTTGTGGCTACCTCTTTGCACTCCTTCATTTTCGCTATT
				TCCCATATTGTTTATGATGCAATCAAATAATGGAAAATTGC
				TTCCATGTAAATTGCTTTCCATTCTAAATTGTTTTCCTTGAA
				AATCATTTTACATTGTAAATATTTTACGCCAAACCAAAATTG
				ACCCTAGGAGTAATATAGTGTGAATTTATCATATTGTTATA
				TTCGGTAATGCATACTAGATAATTGTGGTTCATTTTAGTTG
				TTACTTACTCTTCTAACTGTCGAGTGATTAATACAAGTATGT
				GTAGTCCAAAGTATTTATATTTTTTAAAATTAAAAAAAATT
				GCATTAGATTGTTGGCTCTTGAATTCTACTTGACTCTTGAAT
				GTATGAGTCAAAATAAAACAATTATTAGTATGTAGCTTTTA
				TACCATAATAGTTCTGCATTTCAAACAACCAGTATGTTCTAT
				TCCTTTTAGTATAAATTAATTCTCTCTTTCTCTGTTAATATTG
				TAGTTGTGTGGTAAAATATGTTAATTACCCAATTAAAAAGC
				TGCAATCTTGCAATAATATGAGTATTGCTTATGATAGTAGC
				TCATGTGTTTCAAAGCTTGTATCATTTTAGTAAGACTATTTG
				TTTTATGTAATACAAGGTTGTTGTAGCTTGATTACTTTTGAC
				ATGTAGAATATGCATATCGTGTGAAAATTGGGAATGCTAT
				TCATGTGATAAATTACTCGTACTCTTTCATTTATCTCACGTG
				GGCTGTGTCGACACGACTTGTGTCGGACAACACCGACACG
				CGATACTTCAATCTTTTAACTTTAAACACTACTTTTTTCAAG
				AAAATGGGCGAGTCCGATTCCTGGACACCAATGTCGAATT
				TGACACTTCATCCAAGTCCAAGTAACATAGTTCATGTGATA
				TGATGTGATTAGCATGCTGATCAGTGTTTTATTAGATGATA
				TTGATTCAACATATTGGTGTAACAGTTATAGGAAAAGTGG
				GCGTATTTTTTGCCAAGGGCAGGGCGGAATGTTATCTAGG
				GAAGACCCAAATAAGGCAACTTCGGAGGGAAAAATTGATT
				ACCCCAACAGAACAACTCTTTTGAGGAAATCTGCTACATTA
				CCTGTTGATGAATTACCTGTTGATGAATTTTGTTATGCTCTT
				GGAGGGAAAAGACCGATTCGTAGTATTTTGATTGCAAACA
				ATGGAATGGCAGCTGTTAAATTTATAAGAAGCATTCGGAC
				ATGGGCTTATGAGACCTTCGGAACAGAGAAGGCTATTGTA
				TTAGTAGCAATAGCTACTCCAGAAGACATGAGAATCAACG
				CTGAACACATTCGAATGGCTGACCAGTTTGTTGAGGTTCCT
				GGTGGGACTAACAACAACAACTATGCCAATGTGCAGCTCA
				TTGTTGAGGTAAATCCTATTTTACTAACACTGATCTTCATTG
				TTTTCTCTGATAGAATATCGGTTTATAAGAAAAGTTATAAC
				CTTGCTTGTTGGCCTGTTGATGTGGTTCACATTAAACAACC
				TTGGTTCATCATAGGTAGTTCAAGCTCCAACAGTTCATCGT
				TAACACACATTAATTCAAGTATCTGTTAATCATTGATCTCAG
				AGGGTAAACCATTGTTAAAAGGACTTCAATTTATTTTCACT
				GCTTTTCAGATGGCAGAGATGACACGTGTTGATGCTGTTT
				GGCCAGGCTGGGGACATGCATCGGAGAACCCTGAGCTTCC
				AGATGCACTAAACGCGAAGGGGATTGAATTTCTAGGGCCT
				CCAGCTAAATCTATGGCTGCTCTTGGAGACAAAATTGGTTC
				ATCATTGATTGCTCAGGCCGCAGATGTTCCAACTCTTCCAT
				GGAGTGGCTCTCATGTATGCATTGATTTTCTTATTGACCTT
				GACAAGCTTTCTTTTTCTCGAGGAGTTTGCTAATCCGTTTTC
				TTAAATTTCTAATCTTTAGGTGAAAGCTCCTGCTGAGAGTT
				GCCTTGATTCTATTCCTGATGACATATACAAGGCAGCCTGT
				GTTTTTACCACAGAGGAAGCAGTTGCTAGTTGTCAGGTTGT
				CGGTTATCCAGCTATGATTAAAGCATCTTGGGGTGGTGGA
				GGGAAAGGAATAAGAAAGGTGAGCTAGTTGTTTGGGATG
				ATGTCGTCAAGAAATTAAAGCACCGGCTTCAATGCTTATTT
				ATCACCCTTTTCACAGCTTCCATCCTTGGACATCCTTTTAAT
				TAACTGTCCATTAATATTTACTTGACTTAAATGATGGACAA
				ATGCTTCAAACTTGTTAGTTAGAGACCCGTTGTGCTATTTC
				AATTACAATCGTCTTTCTCTCAAAATATCACAAAGACTCAAT
				AGTTATGCATTTTCAGGTGCATAATGATGATGAAGTAAGG
				GCATTGTTCAAGCAAGTGCAGGGCGAAGTTCCTGGCTCTC
				CCATATTTATAATGAAGGTGGCTTCACAGGTTAGTTATTCT
				GCAAATTGGTGCTAGAATGTATCATATAAGTACTCACAAGT
				CCATGGCACTCATGATTTTAGAACTAGTACTGTATGCAAAA
				TTCTTTGATTTTGACAAGTTATTATATGTGCTTCAGAGTCGA
				CACTTAGAAGTGCAGTTAATTTGTGATCAATATGGCAATGT
				AGCAGCATTACATAGCCGTGATTGCAGTGTCCAAAGGCGG
				CACCAGAAGGTGGGTCACTAGTGTACTATCAATAAATTTTT
				AATCTTCTTGACCAGTTTTGTATTACTTAGGGTCTAAAGTTG
				TTTTTTTCATAGAGAATCGTGATGCTCATTGTTCATTGAAG
				GAATGTATAAATGATCTTGTTCATTGTATTAATTGATCAGA
				TTATTGAAGAGGGTCCAATAAATGTAGCTCCCCAAGAAAC
				TGTGATAAAACTTGAGCAGGCAGCCAGAAGGTTAGCCAAA
				TATGTGAATTTTGTTGGAGCAGCAACTGTAGAATATCTATA
				CAGCATGGAAACTGGCGAGTTTTATTTCCTCGAGCTAAACC
				CTCGGCTACAGGTATGAAGCATACACTTGCACATTGTATAT
				TCATATTTACCTCGAATAATTACTCAAGAAAGAAAATGTTT
				TATGTCAATATTTATGGCATTGCATCTCAATATCCTTTGGAT
				TTATCGTTTTCTACCTTACGTTTGTGGCTCACTTTAATATGA
				CTTGCTTTTGTTAAGGAGCCTTGGGATTTCTTAGAGTGAGA
				TATGACACTCTTGCCTTTCAACTTTTGTGAACCATGTCTGAT
				ACTCCCTCCATTTCCTTTTGTTTGTTTGATTTATATCTTGAGG
				GGTGATATTATTCATAGGTAGAGAGATTCCTCTAAATTTAT
				AAGATGAGACATAGCTCTGAGGGGTCTTGTTGAATTCATC
				TTGATGAGTACTTTAAATCAAAGCCTTGATGAGTACTTCAA
				TAATATTAAATTTTTAGAATTTTTATTCTTATATAGTTAAAG
				ATACTAACAACTAAAAATTTGCTCCAACAAATGTGTGATAA
				TGAATCGGGACAAAAGAAGGGAATGGAGGGAGTATTACT
				AAGAATTAGCAATCCTATATGATCATGTGATGGATGAAAA
				AATCTTATTGAAGACTTTTCTGATAATATTGTATATAATGTC
				TGACATATGTGTAGGTTTTATTATATTTAATTTTAAAAAATT
				CCTGTTTGGAAAATCCGGTTAATTTTATTGGTTATTTATCTA
				ATTCCTTCTTTTGTTCGCGTTTGATAAATACAGGTGGAGCA
				CCCAGTAACTGAATGGATTGCTGGAATTAACCTTCCAGCTG
				CTCAGGTTGCAGTTGGCATGGGTATTCCCCTCTGGCAAATT
				CCAGGTAGCTAGCATGTTCCCTTTCTGATTATCGAACTTAT
				GTGCTTCATGTTGTTCTTGTGCATGATTGTGCTTGCTTTTGA
				ATTATCAAAATAGAAATTCGGCGATTCTATGGTAAGGAAC
				ATGGTGGGGGTTATGATGCTTGGAGAAGAACATCAATTGC
				TGCGACTGCTTTTAATTTTGACAAGGCACAATCTGTGAAAC
				CGAAAGGTCACTGTATTGCCGTACGTGTGACAAGTGAGGA
				CCCTGATGATGGATTCAAGCCCACTAGTGGGAAAGTACAG
				GTTAGTAATACTAGTGTTTAACAGTTCAAACTACACTCTCA
				ATTGACTGCCTTGTCTGTTTTGTGATTCATGTAAAATTATTT
				ATTTCATTGGTTCCTTTTCTAGGAGTTGATTTTCAAAAGTAA
				ACCAAATATGTGGGCCTATTTCTCTATAAAGGTATGTCTTT
				ATTCTTCAATTTTCACATCATCCTTTTATGGATTCATCCACG
				AGCTTAACAATGATCAACATTGTGACGCAGTCTGGGGGAG
				GCATTCATGAGTTCTCAGATTCTCAATTTGGTAAGTTTAAA
				GCACATTTTAAAGATGACTAGCAATGAAATGACAATTATA
				GCTGCCTTTTAAGAATGAAGTTCTTCAACATCATATTAGGG
				GTTCTCTAATTTAAGTCTGCTGCAAATGGATAAGGAACTAT
				GCTGTTGTACATGTGAAATGAGATATATTGGTTTTTCGTAG
				TGTGTCACAGCAGACGGTAAATGCTCTTGTTAATTGTTGAT
				GATTAATTGGGATTTAGCATTCATGGTGTAATCTGCTCTTG
				CACTATCAAGTCTCATGGAATTAACATGTCATTTTTTTTATC
				GATTATTTTTGGTTTTAAAACATCCTTTATCTATTTTTTTTAT
				TTTTTTTATAGAAGGCTAATGTTAGTTAATTTGTTTGTAGGT
				CATGTCTTTGCATTTGGTGAATCAAGAGGGTTGGCCATAG
				CAAATATGGTTCTTGGCTTGAAAGAAATTCAAATTCGTGGA
				GAAATTCGCACTAATGTTGATTATACCATTGATCTTTTAAAC
				GTGAGCCTTGTACATGATTTTTTTTCCTCCCTACACTTTCCA
				CTGTTTTTTCAATTAGAAGCTAAACTTGTCTTCGTTTTTCCTT
				TCTCCAGTCTTCGGATTACAGAGATAATAAAATTCATACAG
				GTTGGTTAGATAGCAGAATTGCAATGAGAGTGAAAGCGG
				AAAGACCCCCCTGGTTCATCTCTGTTGTGGGAGGAGCACT
				CTACGTATGTACAACTTTTTTTCTCTAAAATTTGTTTCCTTCC
				AAAAGATTCACATGTCATTTTTCGTCTTTTTTTATAACGAAT
				AATTTTAAATGATTTCTCTCTTCTTTCTCCCTATCTTCAGAAA
				GCTTTTGCTAGTAGTGCAGCTACAGTTTCAGAATATGTTGG
				CTATCTTGAGAAAGGTCAAATTCCTCCAAAGGTAATTCAAG
				CACCAGATGCTGTTGAGGTATACTGGTTTTTTTAAACACTA
				ATTGTTTCTTTCAGTAAATTACATCAATTTTTGTGTGGATTG
				CAGCATATATCACTTGTCCACTCTGAAGTTTCTCTGAATATT
				GAGGGGAGCAAGTACACTGTAAGTATATTATTATAACTGA
				TGTGAATTTTATATTTCATTTTTCGATTTCGTCTGTTTTCTTG
				TTAATCATCATAACATGGTTAATGCTGTTCTCTAGATTAAA
				GTGGTGAGGGGCGGTCCAGGAAACTACAGATTGAGATTG
				AATGAGTCTGAGATTGAGGCTGAAATACATCCATTAAGAG
				ATGGGGGTCTTTTGATGCAAGTAAGAACTTAACTTTTATTC
				ATTCATATATTCATGATTGAGGGCAATTGTCAAATTATACA
				CATATAGGAGTTATAATATGTGTAGAGTTAAAATTGCGAG
				TGAAAGCTGAGATATTACTCGATGTATTTAGTATATCATTC
				ACCATAGAATGCTTGAGTTACTTGCGTTAAATTAAAAAAAA
				AAAGGAAAGAGTAGAAATTAGAGAGTCTAAAGTTTCTGTG
				GTCATAATGATATGTCTAATTGAACGCACCCCAATGTGTTT
				CAGTTATTTTTTTACCCCTAACTTAGGAGGGAAAACTGACT
				TAGCGGCTTCCCCTCTAGCATAGGATATAAGTGCTCCAAAC
				TCTTAGAATATCTAAATTTGAAAAACTTATAATGTATTATTG
				ACATTCTTTCAGAGAATGCTTTTCTGTGTGAACTCCTTAAGT
				ATGTTAATAGCAATCCCGCAACCCTGTTTCACATTATATAG
				GTATTTGTTTCTTATTAGATGATATTCCATATCTCCATATAA
				GATCTTTCTTCTTACCAATTCAAGCCATATATTTTTTGGATT
				AAGAAGATGATATTCACAAAAGGTTTGCGTTATGATGATA
				CTTAATATACCCACATGTTTCATATTTTCATTGACTTAAACG
				CTATTTCTTAGAAAAGTTGGAGTTGTTGATCCAATGTATGT
				GCTGGTTTCTCATCCCTTTGTTTTCAATTAGCTATGGATTTT
				GAGCTCTTCTGTACATTTGAATGTGATGTAGTTGGATGGG
				AAAAGTCACGTGATATATGCTCAGGAAGAGGCAGCAGGA
				ACTCGCCTTCTTATTGATGGACGAACGTGTTTGCTTCAGGT
				ACCATCATGTTATTTAATTGCATAGTATTTCTAAACATTTAC
				CAAGCGTAACATGCTATTACATTTTCCACTTCTTCAATATTC
				AGAATGATCATGATCCTTCAAAGTTAATTGTGGAAACACCT
				TGTAAGCTACTGCGGTATCTGGTTCCAGATGATAGTCATGT
				TGATCCAGATACTCCTTTTGCTGAAGTTGAGGTTATGAAGA
				TGTGTATGCCTTTGCTTTCCCCTGCATCTGGTAAAATAAGA
				TTTAAGATGTCCGAAGGACAACCCATGCAGGTTAGCATAG
				GTTTTAGTAGATCGATATGTTAACTAAATATACTTCAAAAG
				TTTCTTCTAAGTGAAGGTTCACTGTGTAGGCTGGCGAACTC
				ATAGCAAAACTTGAGTTGGATGATCCTTCAGCTGTAAGAA
				AAGCTGAACCGTTCCGTGGTAGTTTTCCAACCTTGCATCCG
				CCAACTGCTATCTCAGAAAAGGTTCATCAAAAATTTGTTGC
				AAGTTTGAATGCAGCCCAGATGATTCTTGCTGGTTTTGAAC
				ACAACATAGATGAAGTAAGTATTTTAATTGTGAATTCAAAA
				ATATTGAGCACTATATTATATAGATGAAGTATTTCAGTTAT
				GAATTAAGCATAGATGATGTGAGTATTACTCTAAGGGGGC
				TGATGCAAAAATTTGAGAGTAAATGTATATTTATATTTTGT
				TTGGTTCCCTTATCTGAAAGATTCTTTACAAAAGAGTTTTCT
				AATTCTCAGGTTGTCCAGAGTTTGTTGAGGTGCCTTGATAG
				TCCTGAACTTCCTTTCTTGCAATGGCAAGAATGCTTGTCTGT
				TCTAGCAACACGGCTTCCCAAAGATCTGAGAACTGAAGTA
				TGTTACTAAAATCTGTATGCAATTTTTTTCCATATTTGATAA
				ACACCTGCTGTCTTTAGCAGTCTTTATCTTCTTTGGTCTTTCC
				CTCTCTCTCTCTCTCTCTCTCTCACCCTGTGTATAATTCACAT
				TATTTTTCCATGTTTCCCTGTCTTTGGTATTCTCAGTTGGAA
				TCAAAGTGTCGAAAATTCACAGGAATTACGAATTCTCATAA
				CATTGAATTTCCTGCTATGGTGTTTAAAGGTGTTCTTGAGG
				TTAGTCTTTCTTTTTGCTACCCTTCTATATATGCTATATATTT
				TAGTATTACTTACATAAGTATTTTGTTTACAGGCCCATTTGA
				ATTCATGCCCTGAAAAGGAGAGAGGAGCTCAAGAGCGGC
				TCATTGAACCTCTAATGAGTCTTGTTAAATCCTATGAAGGT
				GGGAGAGAGAGTCATGCCCATGTTATTGTTCAGTCTCTGTT
				TGAAGAGTATTTGTCTGTTGAAGAATTGTTCAGTGTCAATA
				TCCAGGTTTGTTATTGCCGTGCAAATTAATCAGTTTATCGA
				TGATCATTGGTCTTTATGTTTTTTCCTCGATTGGTAGATTGG
				TTATGATGTTATGACTCTAGAGTAAAGGTGGAACCAGAAA
				AATGTTTTGGAGGGGGCCAAAATATTTGTTTTGTATTATTG
				GAGGGGGCCGAATACAAAAATTAGCTTAATTTTTCCCATAT
				TTAACCTATTTTTTAAAGAAAAATAAAAAATTGGCGGGAGT
				CGTGGCCCCCACCCGCCCCCATGTTCTGCCATTGCCCTAGA
				GGCTACAGAATCTTTGGAGTACCTTATGTCTCAGTGAATTA
				TAGTAGCATCCTTTGAAGTATTACTTTGTTTTTTCAAGAAAT
				AGCAGTTCATGTCTTTGGTTGTTGGCTTGTAATTTGTGCAC
				TGTAATGCAAGCTTAGGACTAGAAGAAACAGTTTATTTATA
				CGCTATGAATTATGATCCTGGTAGGCTGGCATCGTTCCACT
				GTAATATGATTCTGATTTCAATCTATACAGGCTGATGTGAT
				TGAACGTCTCCGCCTTCAACATAAAAATGATCTATCAAAAG
				TTGTTGATATTGTCCTATCACATCAGGTAAGCAGGAAATTT
				CAAATAATACAAAATAAAATTTTCTGAGTTTTCTTTTTATTT
				TCTTTTCTTTTTTTTCCCACTTTCCCTTGTACTGTCTTCTAGA
				CTTGTTTACTGTGTAGTAATAATGGTTTTCAGGGTGTTAAG
				AATAAAAATAAATTGATCCTCCGGCTCATGGAACAACTGGT
				TTACTCAAATCCTGCCGCATATCGGGATAAGCTTAAACATT
				TTTCACAACTGAACCATAAAACATACTCTAAGGTTAGAGAT
				GATTCAACTTTTTGCATTATTGTCACACTACAACATTCACAA
				AAAGGTCATTAAGTTTATACACTAATTAATTCCTTCGCTATA
				TGCAGTTGGCTCGTAAGGCAAGTCAATTGCTTGAACAAAC
				CCAGTTGAGTGAACTTCGTTCTAATATTGCCAGAAACCTTT
				CCGAGTTAGAAATGTTTACAGAAGACGGTGAAAGCATGGA
				CGTTACAAAAAGGAAAAGTGTTATTAATGAACGTATGGAT
				GCTCTTGTTAATACTCCGCTTGCTGTTGAAGATGCCCTTGTT
				GGCTTGTTCGATCACAGCGATCATACATTACAAAGGCGGG
				TTGTTGAGACTTATATCCAGAGGCTTTATCAAGTAATATCT
				AAGTTTCAACATTAAACTTTAACAATCATTTGATAATATTAT
				GTCATTTAACTCTCTTTTTTGTGGGTAACCTCTTTTCTCAGC
				CTTATCTTGTAAAGGGAAGTGTCAAGATGCAGTGGCACCG
				ATATGGCCTCATTGCTTCTTGGGAGTTCATGGAGGAGCAC
				ATTGAAAGAGCAAATGCCGCTAATGATTTGTCCATCAACCA
				GCCTCTTGCTGAGAAACTCATTGAGAGAAAATTGGGAGTC
				ATGGTCATCATTAAATCTCTTCAGTTTTTGCCAAGAGTGATT
				ACTGCTGCATTAAAAGAGACCACGGATAATTCAGATGAAA
				TGATTCCCAGAGGTTCTTTAGATTCAATCAGTCACGGAAAT
				AAGTTGCACATTGCACTTGTGGGTGTTAATAACCAGATGA
				GCTCGTTGCAGGATAGGTATAGATTCTATCCTTGTAGTTTC
				AGCAAGATTTTAAATGTGGACATTATTGGACCATCCGGTTT
				TTTTGAAGAAATATGCTTTGCTTCAATTATACAGTTGCTCTT
				AATATTATCCATTCCAGCCTTTTGCTTAACCTTTTTTGTCTTT
				GTGGTTTATGAAATTTATTTTTATACTATTCAGTGGTGATG
				AAGATCAAGCTAAAGAGAGAATTAATAAGTTGGCGAAAAT
				CCTGAGAGAGAAAGAAGTGAGCTCAGTTCTTCTTAACAGT
				GGTGTTGGGGTAATTAGTTGCATTATACAGAGAAATGGAG
				GAAGAATCCCAATGAGGCATTCATTCTATTGGTCAGAAGA
				GAAACAATACTTTAATGAAGAGCCTTTACTACGTCATTTGG
				AACCTCCTCTATCAATATATCTTGAACTGGTAATAAAATTCT
				GAGCAAGAAGCTGTTGCTTTGTTTGTTCGTTCTTTTCTTGTT
				TTTTAATATGGGCCAAATCATTATCTTTAATATTTTTATCAC
				TATATGATATAGTTATAAGGTATTTGGCTCACAATTTTCATT
				ATACAGGACAAGCTCAAACACTATGAAAATCCCAGATATA
				CTCCTTCTCGGGATCATCAGTGGCACCTGTATACTGTCATG
				GACAAGCCATCTATTCGACGAATGTTTTTGAGGACACTTGT
				CAGACAGCCCACCTCCGAGTTTAGCGGGGTTGAACTAGAA
				ATGCTTAAAACACAAAGGCCTATCTCCTTTACTTCAAGAAA
				CATACTGAGGTCTTTAACAACTGCAATGGAAGAATTAGAA
				CTCAATGCGCACAATGCTACCTTGAAACCTGATCATGCTCA
				TATGTACCTGTGCATTGTAAGAGAGCAACGAATTCAAGAT
				CTTGTCCCATATCACAGGTTCTAATTAATCATCTTAATTTTC
				TGTGTTTCATTCGTGGTCATTGATGCAACTTATGCCTTAATA
				GATATTATTTTGACCCATTGATCCAGGGAGGTGAACATTGA
				TGATGAACAAGAAGAGATAACTGTTCAGATATATTTGGAA
				GAGCTTGCGCGTGAAATCCACAGTTTTGCTGGTGTGAGAA
				TGCATAAACTAAATGTATGTGAGTGGGAAGTAAAGCTTTG
				GGTGTCATCTTCTGGCCAAGCCAATGGTTCATGGAGAATC
				ATTGTTAATAATGTGACTGGTCATACATGCACTGTACATGT
				AAGTTTGAATTTTGATTATTTTTCCTATAACTTTCTGTACATC
				AACCATGTTTAGTGATTTCTTTCAACACTCTGATATTTATGC
				CAGTTTTTGTAAGAATTATAGAAATACAGTAGCAATGTTTT
				GATAGCCCAGGTTCTCTCTTTCTCCCAAATTAATCTTTGTGT
				CAATGCATGACTTTGCCGCATCAATATCTTAAATAATTTAT
				GATTATAAACTATAAGAATATGATACTATGAGAAATTGAA
				AATATACATCGAGAGAAATCTAAATACACCTTCCATAACCT
				TTGATTTATTATTTTATTTTTTAATGGAAAAACAATGGGCAA
				AGGTGATACATGAATCATGTAAAACACAAACTTTGATTTTA
				CATATGGGATGAAGGGACTAGTAATGGTTTGTATATTGGC
				ACTGACAAAGAAAAGTTTATTCATGATTAATTTACGTCTTG
				TATACGTGTATCACATAATGTCTTCTTTAGTTTGATGACCTT
				TTTTCTACTAATGTTATGCAGGTTTACCGTGAGTTGGAGGA
				TAACAACCTTCATGAAATGATCTACCATTCAATATCTGTTCA
				AGGTCCTCTCCATGGAATACCAGTGAATGCACCCTATCAAC
				CACTTGGAGTCATTGCCCGTAAAAGACTTCAGGCCAGGAA
				AAATAGCACAACCTATTGTTATGACTTCCCACTGGTAAGAA
				ATATTAAACTCCACTATACCCCAATACTACAAAAGCAGAAT
				TTTACTATATTAGGTTTCCTTCCCTCCCGAATTTTTTTAAAAA
				ATAAGAGTTAATACATGACTTGCATTCGAGTGTAACTATGT
				TCTTATTAACGCTCAACTAGTAATGCAATGGGAATATAAAT
				CTAAATTCTAAGAGGGAGGTGGGGTTCAGTAACTGTGGG
				ACTAGGTTGCACCGATACGGGTACGGGGACATATACGGGT
				ACGGGAACGGGGACGGGAAACGACAATTTTAAAAATTCTT
				GGGTACGGGGACGGATTTGGGAACGACAATTTATTAAATA
				TAAATTTTTATTTTAAAAAAAAATGAGCATTGTGATCATTTT
				AATAAAAAAAATGCAACAAAATAAAAATCATAGTTAATAC
				AAATAATTTAGTCCAAAGTAAAAGGCAAGTAGACAACATT
				TAATTTTTTTTAAACATAACCAGAAAACATAAATTTAATAG
				GGTAAATAAAAAATGGTGAAATCCAAAAAATTAAATAAAT
				GACACAAATAAGCACACATTCACAACCACACATTTACAAAT
				CACAAATTCACAACCACATAAAATGAATTAAAGTGGAATA
				GTTTACTGACATGCTTTGGAAGACAATAGAAAAAGTGAAA
				GAGAAGATTAGAAGAAGAAAGTGAGATTTAAGAAGCCAC
				GAAGTGAAGCCTAGCGCCATAGTGGAATAGTCAAGCCTCA
				ACATCGTCGAATAGTGTAGCCTTGCGCCATCGCCATTGAG
				AGTGAGTGGCAGAACCACCGTTTGCCGTCACCGTGGTGTA
				ATGCATCGTCGTCGAGAGGAAGAGAGAGAGACCCTAGAA
				TTTGAAATTGGTTTGTTTTTTGTTGTGCCAAGTGGTTTATTC
				AACATTCTATTGTAATTTTGTTGTTTTATAAACTAAAAGAAA
				GCTGAAATCACCCTTGGGGACGCATGTGAAGCTTACCGCC
				ATCCCCGGAGACGTCCCCAAAAGTCAACGCCGTTCCCGGA
				AGTCAATGGCGTCCCGAGGACGTCCCCAAGCCGTCCCCGG
				CGCGTTTCCGTCCCCGTTCTGTCCCCGGTACGGGGGACGCT
				GGCTATGTGGCGTCCCCGTGCAACATAGCTGTGGGACCTT
				GTAAAGGTTTAAAGTTTGGTGGAGATGCTGGGTTTATAAT
				TAGTTTAGGACGAAACTGCCAAGTTTTCTATTGTATGTAAT
				TTATTGGTTATGAAAGTAAAAAATCGTGATTGTTATGCAAA
				TGATTGTACCTATAGTGATTGTGTGACAATGTTGTCAAATG
				TATAAGCATTGCAATTTTTTTGAGATAAGGGAACCGTAAAT
				AAAAATACAACGCATGGCTTGGATGTTACCGTCATTACCGA
				TTTTTGTCCTATGTAGTGGTATCTCAAATTTTTATATTTCACT
				TTGGAGCGATCAACTTGCTTTAGGTGCTAGTATTTATCTGT
				TTTTCTATGGGAAAATTGACTTGTAATTGTTGGGAATGTTT
				TTCTTAGGCTTTCTCTACTGCCTTGGAGCAATCATGGGCAT
				CCCAACCTCCGCTGCTGAAGAAACCCACAAACAAAAAAGT
				TTTGAAAGTCTCAGAGCTAGTATTTGCTGATGCAAATGGCA
				CCTGGGGAACACAAGTTGTCCCAACAGACCGTGAACCTGG
				TCTTAATAATATTGGCATGGTGGCCTGGTCCATGGAGATGT
				CAACTCCTGAATTTCCTGATGGAAGGACCATATTGGTTGTA
				GCAAATGATATCACCTTCATGGCTGGATCATTTGGGCCAAA
				AGAAGATGCTCTCTTCCGGGCAGTTACAGATCTTGCTTGTT
				CCAAAAAAATTCCTCTGATTTACCTGGCTGCTAATTCTGGT
				GCCCGACTGGGTGTTGCTGAAGAGGTAAGAGCGTGCTTTA
				AAATTGGTTGGTCTGATGAACTGAACCCTGAACGGGGGTT
				CCAGTATATCTACTTGACTCCTGAAGATTATGGTCGTATAG
				GGTCAGCAGTTATAGCCCATGAGTTAGAACTCCAAAATGG
				AGAGACTCGGTGGGTTATAGACACTATTGTAGGGAAGGA
				GGATGGGTTAGGTGTTGAGAACTTATCCGGAAGTGCGGCT
				ATAGCTGGTGCCTATTCAAGGGCATACAAAGAAACTTTTAC
				ACTAACTTTTGTAACAGGAAGAACAGTTGGTATTGGTGCCT
				ATCTTGCTCGCCTTGGGATGCGTTGTATCCAAAGGCTTGAT
				CAGCCCATTATTCTGACAGGCTTTTCAACATTAAATAAACTT
				CTTGGTCGTGAGGTTTACAGCTCACAAATGCAACTTGGTG
				GGCCCAAGATTATGGGTACAAACGGTGTTGTTCATTTAAC
				AGTTTCAGATGACCTTGAAGGCATTTCATCTATTATCAAAT
				GGCTTAGCTATGTTCCATCCTATTCAGGAGGTGAACTTCCT
				ATTTCACGTTCTTTAGATCCTCCAGAAAGACAGGTTGAGTA
				TTTGCCTGACAATTCTTGCGATCCCCGTTCTGCCATATCTGG
				TACACTTGACTCTGATGGTAATTGGCTTGGTGGAATTTTCG
				ACAAAGATAGTTTTGTTGAAACCCTACAAGGCTGGGCAAG
				GACAGTTATCACTGGCCGCGCCAAACTTGGTGGAATTCCA
				GTTGGGATAGTTGCTGTTGAGACACAAACTGTGATGCAAG
				CTATCCCAGCTGATCCTGGTCAGCTTGATTCTCATGAGCGA
				GTTGTCTCACAAGCTGGACAAGTATGGTTTCCGGATTCTGC
				AACTAAGACAGCACAAGCTTTGATGGATTTTAACAGGGAA
				GGACTTCCACTTTTCATTCTAGCTAACTGGAGAGGGTTCTC
				TGGAGGGCAAAGGGATCTCTTTGAAGGGATTCTTCAGGCA
				GGTTCCACAATTGTCGAGAACCTTAGGACTTATAATCAACC
				TATTTTTGTTTATATCCCCATGATGGGTGAACTTCGTGGTG
				GCGCGTGGGTTGTCGTAGACAGTCGAATCAATTCGGACCA
				GATTGAGATGTATGCTGACCAGACAGCAAAAGGAAATGTT
				CTTGAGCCAGAAGGAATGATTGAGGTGAAGTTTAGAACCA
				AGGAATTAATTGAATGTATGGAAAGGCTTGATCAACATCTT
				ATCAATCTTAATGCAAAACTTGTTGAAGCCAAAAACTCCAA
				TTCATCGGATGACATCAAACCCCTCAAACAGCAGATAGAA
				GCTCGGCAGAAGCAACTTTTGCCTCTATATACTCAAATAGC
				CACAAAATTTGCTGACTTGCATGATAGTCCTTATAGAATGG
				CTGCGAAAGGAGTTGTCAAGGAAGTCCTGGATTGGAGCA
				ATTCTCGCTCATTCTTCCACAAAAGACTGTACAGGAGAGTA
				ATGGAGGAATCACTTGTCAAGACTGTCCGAGATGCTGCTG
				GTGAAGCAATGACCCACAAGTCTGCCTTGGAGTTGATCAA
				GCAATGGCTTGCTGAGTCTGCCATGGATAGTACTACTAGA
				GCGGGAGCTGATGCTTGGGCTGACGATGAAGCTTTCTTCA
				GGTGGAAAGAAAATCCTGCTAATTATGAAGAAAAGCTAAT
				TGAGTTACGCATACAGAAAGTATTGCATCAGCTTTCAAATA
				TTGACAACTCAGCTTCTGATCTGAGAGCTCTTCAGCTTCGT
				CAGGGTCTTGTTGCCCTACTTCAGAAGGTATCTCTAAGGTT
				CCTCCACACACACACACACCCCACCCACCAAAAAAAACACA
				CACACACACATTCACAAGAAAAGTAGAATTGCTAGTGAAA
				TAACTTCATCGTGTTCAATGCAGGTGAATTCCTCAAGCCGA
				GCAAATCTAGTAGAGAAACTCGAGAAAGTGCTCAATTGAT
				TTGGTAATGATCCTGCAGAAAAACCTCTTGGTATATGGTG
				GTATGCAAATGCCATATCTGAAAGATTGATTAGGCAAGTT
				GAGACAGAGACAGGCACAGTTGTAATAATGGGATCTATCA
				AACCAGAAGACGTTATAACTAAGCTCAAAGATGATGGTGA
				TTTTGACCGTCTTCGTCTCAAAATCATTCGTAAGCTCAAACA
				AAACGTATTTCTTTCTCCTTTTCATCTTCTACTGTATATTAAA
				TGGTTTAAAATTTGATCTTGATTAATGGGTAATCTTTATAAT
				TTTATCTTTTTTATTATAATACAAGAATGATATGCATATTTTT
				ATTTTGTTATTAATTACCAAATGCACTTCAGTTTACATTGCC
				GGTTTTGAAGTTTTGGAAGCAGAATTGGGGTTAGAATGCT
				AGATATTATTGCTTGTTGATCATTTATTCAGTTACTTACATT
				GTTTGGTTGAAATCGGAATTAAAAGAGCACAAATTGTATG
				GTTTCTAACTCGACTTCACAATAAGAGTATAGATGCTCACT
				GTTGTGTTGTGTGTTTTGTTTTTGTTAAGAAATATTGGTTTT
				GATTGATGATGCTCCAAGCCTCGAGTGAGCGTGTTGATGA
				AATAGAGTACTGAATTAAAGGTTATCATTTTATCGAATGTC
				AGATTAATTGTTAATTGTTGCTCGGAGTCGGAGTTTAAATG
				AGAATCATTTTATCGAATGTCTTAAGTTATCAGGGCAGATA
				TTTTTTTTCTAGTGGGTATGGACTCTTGAGCCTCTTTTTTCT
				GTATCAAACTGTCCTGTTGGTTGTTCAAATTATGCAAATCA
				TGAAGAGATTACTTTGGTCTCAGGTTTGCTTCGCCATCCTT
				CCCAATGAATCGTCAGGATTCATTTTCAATTAAATCTTATGT
				ATTCACGGGTTCCTTCGTCCCGGTCGCTTCTTAGTTAATGTT
				CTAGCCCGGAGCCTTGTTGTTGGATGGTTTGATCTACTATA
				GAGTTCATTTTCTGACTTGTTTGGCATTTGTTAATGGGCATT
				GATACGAGTTGTTTACCGTATTAAATTAATTATTTATAAAAT
				TTATCTTAGTCGTTCAAAAATATATACAAGTAATTTAAAATT
				CAATCTAAAGTGAAGTATAAGTACATATACACATAATATTT
				ACGCTATTTACAGAATTATACTAATAATCGAATTAAAATAA
				GTCAATTAGAGTAGTAAAGGAATTAACAAGGTATTTAACT
				AAAACAATTGATGAGTAAGAAGAACTGATGAATTTGTACT
				CAAGAACACCCAAACGATACTCCGCTTCAACCTCACGACTC
				GATGTCATTCTCGTTCGACCTTGAATTCAAGACTAAGCTAC
				CTTTCAATTGTTGTCTCCTCTTCCAATTGCTCCAATCGAAAA
				TCCTATCAAAACTCTTACTCTCAATTGCTCTCAAAATATCGG
				CTAAGTTGTGTGTCAACAATAGGTCTATTATGGTCCTGAGA
				CCATGTGG
77	Kochia	gDNA	12931	AATAGTAAAAACCTAGTGAACTTTGTAGTTTGTAGTTTGTA
	scoparia	Contig		GTGTGCAGTGTGCAGTGTGCAGTGTCGCATTAAAATTTGA
				CTAATGCTAATGCTTCCCTAAAATCTCTCCTAAACATGTGAA
				TTTCCTTAAATTACCACCGCAAACTCCATTCAATACTTAGAA
				TTATTCCCTTGAATTCGATCCTACTCTTCAGTTTCATAGTTTC
				AACACTCTTTTATTTAAACTTCCTACAATCGTCGTTCTCTTTT
				TTTTTTTTGTTTTTCCTAGGCTTCAAATGCAGTATTATTATTA
				TTATTATTAGTTTTTCTTATTTTACAACTAAATTTTCATTTCA
				ACACTCAGAAAATTTAAGATGATTCCAATTTCTGAGCGTTG
				TCATGTTGTTAAATTTCCTATACTCAAATCTTCTTCTCATTGC
				CGTCTCTTATTTCACAGTGCAAATGGGACTATGAAATTTCA
				ACTCAAAAAGAGGTATTTTCATTTTCATTTCTTAGTGTCGTA
				TTTTCGTAATTACGTTGATTTTTGTGTGAATTGTATACTAGT
				ATTACAAAGGATCCATGATTACATCGTTCAATTGGCATAGA
				TGATGAAATTGTTATAAATATCGTGCAATTTGCAATGCTTG
				CTTTCATGATTATTTGTGTTGTTGAAGGGAAATTCTTAATCA
				ATCTCGAGATATGTATATCGGGTGACATTTTCGTAAATGAA
				CAAAAAACCTTCAAGGAATTTATTTTCACTTTATTTACGAGA
				ATATACATAGCTTGAGATTGTTTAAGAAATTCTCGATTTGG
				AGGTATCACTTAGATTGTTTAATTTCATTATTTTAATCATGG
				AAAACGATATATTCTCGCTAACTCGCATTTGAATTCACAAC
				TTTTGTACATTGTAGCTTTCTTTCTAGGATGCATAAAGAACT
				TGACACTACCAACTAACCGGTGTTTACGATGAATCATACCC
				TTTTCTTTGAGCTGATTTTGGGATGTGTCTTTTATATTGGGG
				TTGGTTTTTGGTAGTGTGCAGTTGAGCTAAATAAAAGCTCT
				CTTTGGTAAGACGTAAATTTTTTTGATGCAAAGTGTTTTCG
				ACAATTTTCTAATTTTATATTGTTTGGTTGACAAAGGAGTAT
				AAAACCATTTTACATGGTAAACTTTTCCTTCAATATTTTGTA
				CACTCTTCTGGCTACCTCTTTGCACTCCTTCATTTTCGCTATT
				TTCCATATTGTTTATGATGCAATCAAATAATGGAAAATTGC
				TTCCATGTAAATTGCTTTCCATTGTAAATTGTTTTCCTTGAA
				AATCATTTTACATTGAAAATATTTTACGCCAAACCAAAATG
				ACCCTAGGAGTAATATAGTGTGAATTTATCATATTGTTATA
				TTCGGTAATGCATACTAGATAATTGTGGTTCATTTTAGTTG
				TTACTTACTCTTCTAACTGTTGAGTGATTAATACAAGTATGT
				GTGGTCCAAAGTATTTATATTTTTTAAAATTAAAAAAAATT
				GCATTAGATTGTTGGCTCTTGAATTCTACTTGACTCTTGAAT
				GTATGAGTCAAAATAAAACAATTATTAGTATGTAGCTTTTA
				TACCATAATAGTTCTGCATTTCAAACAACCGTATGTTCTATT
				CCTTTTAGTATAAATTAATTCTCTCTTTCTCTGTTAATATTGT
				AGTTGTGTTGTAAAATATGTTAATTACCCAATTAAAAAGCT
				GCAATCTTGCAATAATATGAGTATTGCTTATGATAGTAGCT
				CATGTGTTTCAAAGCTTGTATCATTTTAGTAAGACTATTTGT
				TTTATGTAATACTAGGTTGTTGTAGCTTGCTTGCTTTTGATA
				TGTAGAATATGCATATCGTGTGAAAATTGGGAATGCTATTC
				ATGTGATAAGTTACTCGTACTCTTTCATTTATCTCACGTGGG
				CTGTGTCGACACGACTTGTGTCGGACAACACCGATACGCG
				ATACTTCAATCTTTTAACTTAGAACACTACTTTTTTCAAGAA
				AATGGGCGAGTCCGATTCTTGGACACCAATGTCTAATTTGA
				CACTTCATCCAACTCCAAGTAACATAGTTCATGTGATATGA
				TGTGATTAGCATGCTGATCAGTGTTTTATTAGATGATATTG
				ATTCAACATATTGGTGTAACAGTTATAGGAAAAGTGGACG
				TATTTTTTGCCAAGGGCAGGGCGGAATGTTATCTAGGGAA
				GACCCAAATAAGGCAACTCCGGAGGGAAAAATTGATTACC
				CCAACAGAACAACTCTTTTGAGGAAATCTGCTACATTACCC
				GTTGTTGATGAATTTTGTTATGCTCTTGGAGGGAAAAAGCC
				GATTCATAGTATTTTGATTGCCAACAATGGAATGGCAGCTG
				TTAAATTTATCAGAAGTGTTCGGACATGGGCTTACGAAACT
				TTTGGAACAGAGAAGGCTATTGTATTAGTAGCAATGGCTA
				CTCCAGAAGACATGAGAATCAACGCTGAACACATTCGAAT
				GGCTGACCAGTTTGTTGAGGTTCCTGGTGGGACTAACAAC
				AACAACTATGCCAATGTACAGCTCATTGTTGAGGTAAATCC
				TGCTTTAGTAACACTGATCTTCCGTGTTTTCTCTGTTAGATT
				ACGAAATACTCACATTAGCCACAGTGTATGAGAAAAGATA
				TCACCTGTCCTGTTGGCCTGTTGATGTTCATCATTGATTTCA
				GAGGATAAAATTTTGTTAAAAAGACTTCAATTTATTTTCAC
				TGCTCTTTCAGATGGCAGAAATTACACGCGTAGATGCAGTT
				TGGCCAGGTTGGGGACATGCATCTGAGATCCCTGAGCTTC
				CAGATGCACTAACCGCAAAGGGGATTGAATTTCTAGGGCC
				TCCAGCTATATCTATGGCTGCTCTTGGAGACAAAATCGGTT
				CATCATTGATTGCTCAGGCCGCAGATGTTCCAACTCTTCCA
				TGGAGTGGCTCTCATGTATGAATTGATTTTCTTATCGACCTT
				CACAAACTTTCTTTTTCTCAAGGAGTTTCCTAATCAGTTTTC
				TTAAATTTCTATGCTTTAGGTGAAAGTTCCTGCTGAGAGTT
				GCCTTGATACTATTCCTGATGATATATACAAGGCAGCCTGT
				GTTTTTACCACAGAGGAAGCAGTTGCTAGTTGTCAGGTTGT
				CGGTTATCCAGCTATGATTAAAGCATCTTGGGGTGGTGGA
				GGGAAAGGAATAAGAAAGGTGAGCTAGTTGTTTGGGATG
				ATGTCGTCAAGAAATTAAAGCACCGGCTTCATTGCTTATTT
				ATCACCCTTTTCACAGCTTCCATCCTTGGACATCCTTTTAAT
				TAACTGTCCAGTAATATTTACTAGACTTAAATGATGGACAA
				ATGCTTCAAACTTGTTAGTTAGAGACCCGTTGTGCTATTTC
				AATTACAATTGTCTTTCTCTCAAAATATCACAAAGACTCAAT
				AGTTATGCATTTTCAGGTGCATAATGATGATGAAGTAAGG
				GCATTGTTCAAGCAAGTGCAGGGCGAAGTTCCTGGCTCTC
				CCATATTTATAATGAAGGTGGCTTCACAGGTTAGTTATTCT
				GCAAATTGGTGCTAGAATGTATCATTTAAGTACTCACAAGT
				CCATGGCACTCATGATTTTAGAACTAGTACTGTACGCAAAA
				TTCTTTGATTTTGACAAGTTATTATATGTGCTTCAGAGTCGA
				CACTTAGAAGTGCAGTTAATTTGTGATCAATATGGCAATGT
				AGCAGCTTTGCATAGCCGTGATTGCAGTGTCCAAAGGCGG
				CACCAGAAGGTGGGTCACTAGTGTACTATCAATAAATTTTT
				AATCTTCTTGACCAGTTTTGTATTACTTAGGGTCTAAAGTTG
				TTTTTTTCATAGAGAATCGTGATGCTCATTGTTCATTGAAG
				GAATGTATAAATGATCTTGTTCATTGTATTAATTGATCAGA
				TTATTGAAGAGGGTCCAATAAATGTAGCTCCCCAAGAAAC
				TGTGATAAAACTTGAGCAGGCAGCCAGAAGGTTAGCCAAA
				TATGTGAATTTTGTTGGAGCAGCAACTGTAGAATATCTATA
				CAGCATGGAAACTGGCGAGTTTTATTTCCTCGAGCTAAACC
				CTCGGCTACAGGTATGAAGCATACACTTGCACATTGTATAT
				TCATATTTACCTCGAATAATTACTCAAGAAAGAAAATGTTT
				TATGTCAATATTTATGGCATTGCATCTCAATATCCTTTGGAT
				TTATCGTTTTCTACCTTACGTTTGTGGCTCACTTTAATATGA
				CTTGCTTTTGTTAAGGAGCCTTGGGATTTCTTAGAGTGAGA
				TATGACACTCTTGCCTTTCAACTTTTGTGAACCATGTCTGAT
				ACTCCCTCCATTTCCTTTTGTTTGTTTGATTTATATCTTGAGG
				GGTGATATTATTCATAGGTAGAGAGATTCCTCTAAATTTAT
				AAGATGAGACATAGCTCTGAGGGGTCTTGTTGAATTCATC
				TTGATGAGTACTTTAAATCAAAGCCTTGATGAGTACTTCAA
				TAATATTAAATTTTTAGAATTTTTATTCTTATATAGTTAAAG
				ATACTAACAACTAAAAATTTGCTCCAACAAATGTGTGATAA
				TGAATCGGGACAAAAGAAGGGAATGGAGGGAGTATTACT
				AAGAATTAGCAATCCTATATGATCATGTGATGGATGAAAA
				AAAAAATTCTTATTTGACTTTTCTGACAATATTGTATATAAT
				GTCTGACATATGTGTAGGTTTTATTATATTTAATTTTAAAAA
				ATTCCTGTTTGGAAAATCCGGTTAATTTTATTGGTTATTTAT
				CTAATTCCTTCTTTTGTTCGCGTTTGATAAATACAGGTGGA
				GCACCCAGTAACTGAATGGATTGCTGGAATTAACCTTCCAG
				CTGCTCAGGTTGCAGTTGGCATGGGTATTCCCCTCTGGCAA
				ATTCCAGGTAGCTAGCATGTTCCCTTTTTTTATTATATAACT
				TATGTGCTTCATCTTGTTCTTGTGTATGAGTTGGCTTGCTTT
				TGCAATTTCAAAATAGAAATTCGGCGATTCTATGGTAAGG
				AACATGGTGGCGGTTATGATGCTTGGAGAAGAACATCAGT
				TGCAGCGACTCCTTTTGATTTTGACAAGGCACAATCTGTGA
				AACCAAAAGGTCACTGTACTGCCGTACGTGTGACAAGTGA
				GGACCCTGATGATGGATTCAAGCCCACTAGTGGGAAAGTA
				CAGGTTAATAATGCTATTGTTTTATAGTTCAAACTATTTTCT
				CAATTGATTGCCTTGTCTGTTTTGTGATTCATGTAAAATTAT
				TTAATTCATTGGTTTCTTTTCTAGGAGTTGAGTTTCAAAAGT
				AAACCAAATGTGTGGGCCTATTTCTCTGTTAAGGTATGTCT
				TTATTTTTTTTAAGCTTTACATCATCCTTTTATGGATTCATCC
				ACGAGCTTAACAATGGTCAACACTGTCAATTGCAGTCTGG
				GGGAGGCATTCATGAATTCTCAGATTCTCAATTTGGTAAGT
				TTAAAGCACATTTTAAAGATGACTAGCAATGAAATGACTAT
				TATAGCTGCCTTTTAAGAATGAAGTTCTTCAACATCATAGT
				ATTCATTCTCTAATTTAAGACTGCTGCAAATGGATTGAGAA
				CTGTGCTGTTGTGCATGTGAAATGAGATATATTGGTTTTTC
				ATAGTGTGTCATTGTAGACAGTAAATGCTCTTGTTAATTGT
				TGATGATTGGAATTGGGATTTAGCATGCTTGGTGTAGTTTT
				CTCTTGCACAAACAAGTCTCATGGAATTAACATGTCATTTTT
				TTTATCGATTATTTTTGGTTTTAAAACATCCTTTATCTATTTT
				TTTTATTTTTTTTATAGAAGGCTAATGTTAGTTAATTTGTTT
				GTAGGGCATGTCTTTGCATTTGGTGAATCAAGAGGGTTGG
				CCATAGCAAACATGGTTCATGGCTTAAAAGAAATTCAAATT
				CATGGAGAAATTCGCACGAATGTTGATTATACCATTGATCT
				TTTAAACGTGAGCCTTGTACATGATTTTTTTTCCTCCCTACA
				CTTTCCACTGTTTTTTCAATTAGAAGCTAAAGTTGTCTTTGT
				TTTTCCTTTCTCCAGTCTTCGGATTACAGAGATAATAAAATT
				CATACAGGTTGGTTAGATAGCAGAATTGCAATGAGAGTGA
				GAGCGGAAAGACCCCCCTGGTTCATCTCTGTTGTGGGAGG
				AGCACTCTACGTATGTACAGCTTTTTTTCTCTAAAATTTGTT
				TCCTTCCAAAAGCTTCATGTGTCACTTTCGTTTATTTTTATA
				ATGAATAATTTTAAATACTTCGTAATTTCTTTCTCCTTTCTCC
				CTATCTTCAGAAAGCTTTTGCTAGTAGTACAGCTACAGTTT
				CAGAATATGTTGGCTATCTTGAGAAAGGTCAAATTCCTCCA
				AAGGTAATTCATGCACCAGACGCTGTTGAGGTATACTGGT
				TTTTTTAAACACTAATTGTTTCTTTCAGTAAATTACATCAAT
				ATTTGTGTGGATTGCAGCATATATCACTTGTCCACTCTGAA
				GTTTCTCTGAATATTGAGGGGAGCAAGTACACTGTAAGTA
				TATTATTATAACTGATGTGAATTTTATATTTCATTTTCGATTT
				CTTCTGTTTTCTTGTTAATCATCATAACATGGTTGATGCTGT
				TCTCTAGATCAAAGTGGTGAGGGGCGGTCCAGGAAACTAC
				AGATTGAGATTGAATGAGTCTGAGATTGAGGCTGAAATAC
				ATCCATTAAGAGATGGGGGTCTTTTGATGCAAGTAAGAAC
				TTAACTTTTATTCATTCATATATTCATGATTGAGGGCAATTG
				TCAAATTATACACATATAGGAGTGATAATATGTGTAGAGTT
				AAAATTGCGAGTGAAAGCTGAGATATTACTCTATGTATTTA
				GTATATCATTCACCATAGAATGCTTGAGTTACTTGCGTTAA
				ATTAAAAAAAAAGGAAAGAGTAGAAATTAGAGAGTCTAAT
				TTCTGTGGTCACAATGATATGTCTAATTGAACGCACCCAAT
				GTGTTTCAGTTATTTTTTTACCCCTAACATAGGAGGGAAAA
				CTGACTTAGCGGCTTCCCCTCTAGCATAGGATATAAGTGCT
				CCAAACTCTTAGAATATCTAAATTTGAAAAACTTATAATGT
				ATTATTGACATTCTTTCAGAGAATGCTTTTCTGTGTGAACTC
				CTTAAGTATGTTAATAGCAATCCCGCAACCCTGTTTCACATT
				ATATAGGTATTTGTTTCTTATTAGATGATATTCCATATCTCC
				ATATAAGATCTTTCTTCTTACCAATTCAAGCCATATATTTTTT
				GGATTAAGAAGATGATATTCACAAAAGGTTTGCGTTATGA
				TGATACTCAATATACCCACATGTTTCATATTTTCATTGACTT
				AAACGCTATTTCTTAGAAAAGTTGGAGTTGTTGATCCAATG
				TATGTGCTAGGTTCTCATCCCTTTGTTTTCAATTAGCTATGG
				ATTTTGAGCTCTTCTGTACATTTGAATGTGATGTAGTTGGA
				TGGGAAAAGTCACGTGATATATGCTCAGGAAGAGGCAGC
				AGGAACTCGCCTTCTTATTGATGGACGAACGTGTTTGCTTC
				AGGTACCATCATGTTATTTAATTGCATAGTATTTCTAAACAT
				TTACCAAGCGTAACATGCTATTACATTTTCCACTTCTTCAAT
				ATTCAGAATGATCATGATCCTTCAAAGTTAATTGCGGAAAC
				ACCTTGTAAGCTACTGCGGTATTTGGTTCCAGATGATAGTC
				ATGTTGATCCAGATACTCCATTTGCTGAAGTTGAGGTTATG
				AAGATGTGTATGCCTTTGCTTTCCCCTGCATCTGGTAAAAT
				AAGATTTAAGATGTCCGAAGGACAACCCATGCAGGTTAGC
				ATAGGTTTTGGTAGATCTATATGTTAACTAATTATACTTCAA
				AAGTTTCTTCTAAGTGAAGGTTCACTGTGTAGGCTGGCGA
				GCTCATAGCAAAACTTGAGTTGGATGATCCTTCAGCTGTAA
				GAAAAGCTGAACCGTTCCGTGGTAGTTTTCCAACCTTGCAT
				CCGCCAACTGCTATCTCAGAAAAGGTTCATCAAAAATTTGT
				TGCAAGTTTGAATGCAGCCCAGATGATTCTTGCTGGTTTTG
				AACACAACATAGATGAAGTAAGTATTTTAATAGTGAATTCA
				AAAATATTGAGCACTATATTATATAGATGAAGTATTTCAGT
				TATGAATTAAACATAGATGATGTAAGTATTACTCTAAGGG
				GGCTGATGCAAAAATTTGAGAGTAAATGTATATTTATATTT
				TGTTTGGTTCCCTTATCTGAAAGATTCTTTACAAAAGAGTTT
				TCTAATTCTCAGGTTGTCCAGAGTTTGTTGAGGTGCCTTGA
				TAGTCCTGAACTTCCTTTCTTGCAATGGCAAGAATGCTTGT
				CTGTTCTAGCAACACGGCTTCCCAAAGATCTGAGAACTGAA
				GTATGTTACTAAAATCTGTATGCAATTTTTTTCCATATTTGA
				TAAACACCTGCTGTCTTTAGCAGTCTTTATCTTCTTTGGTCT
				TTCTCCCTCTCTCTCTCTCTCTCTCACCCTGTGTATAATTCAC
				ATTATTTTTCCATGTTTCCCTGTCTTTGGTATTCTCAGTTGG
				AATCAAAGTGTCGAAAATTCACAGGAATTACGAATTCTCAT
				AACATTGAATTTCCTGCTAAGCTGTTTAAAGGTGTTCTTGA
				GGTTAGTCTTTCTTTTTGTTACCCTTCTATATATGCTATATAT
				TTTAGTATTACTTACATAAGTATTTTGTTTACAGGCCCATTT
				GAATTCATGCCCTGAAAAGGAGAGAGGAGCTCAAGAGCG
				GCTCATTGAACCTCTAATGAGTCTTGTTAAATCCTATGAAG
				GTGGGAGAGAGAGTCATGCCCATGTTATTGTTCAGTCTCT
				GTTTGAAGAGTATTTGACTGTTGAAGAATTGTTCAGTGACA
				ATATCCAGGTTTGTTATTGCAGTTGCAAATTGATCAGTTTTT
				TTGGTCAACCAATTTGTACCGGGACAAATTGCCACAGTCCT
				AATTTATTGATGATCATCGGTCTTCGTGTTTTTTTCCCGGTT
				TGGTTGATTGGTTATCATGTTATGAAGTTGTCACATAAAAA
				AACCTAAATTTACTAATGCACCCATTTGACCCTAGAGGCTA
				CAGAGTCTTTGGAGTACTCTGTCTCTGTGGATTTATAGTAG
				CATCCTTTGAAGTATTACTTTATTTTTTCAAGAAATTGTAGT
				TCATGTCTTTTGATTCTGATCTTGAAAGGAAGGCTGACATC
				ATTCCACTTTATTTTCTAATTTCAATCTATACAGGCTGATGT
				GATTGAACGTCTCCGCCTTCAACATAAAAAAGACCTGTTAA
				AGGTTGTTGACATTGTCCTATCACATCAGGTAGGCAGGAA
				ATTTCAAATAATACAAAATAAAATTTTCTGAGTTTTCTTTTT
				ATTTTCTTTTCTTTTTTTTCCCACTTTCCCTTGTACTGTCTTCT
				AGACTTGTTTACTGTGTAGTAATAATGGTTTTCAGGGTGTT
				AAGAATAAAAATAAATTGATCCTCCGGCTCATGGAACAAC
				TGGTTTACTCAAATCCTGCCGCATATCGGGATAAGCTTAAA
				CATTTTTCACAACTAAACCATACAATCTACTCTGAGGTTAGT
				GATTATTCAATTTTTTGTTTATATTGTCACACTACAGCATTC
				ACAAAAAGGTTATTAAGTTTATACACTAATCAATTCCTTCAC
				TATATGCAGTTGGCACTTAAGGCAAGTCAATTGCTTGAACA
				AACCAAGTTGAGTGAACTTCGTTCTAATATTGCCAGAAACC
				TTTCCGAGTTAGAAATGTTTACAGAAGATGGTGAAAACAT
				GGACACTCCAAAAAGGAAAAGTGCTATTAATGAGCGTATG
				GAGGCTCTTGTGAATACTCCGCTTGCTGTTGAAGATGCCCT
				TGTTGGCTTGTTCGATCACAGCGATCATACGTTACAAAGGC
				GGGTTGTTGAGACTTATGTCCGGAGACTTTATCAAGTAATA
				TCTAAGTTCCAACAGTAAACTTTAACTATCATTTAATAATGT
				TATGTCATATAACTCTATTTTTTGTGGGTAATCTCTTTTCTCA
				GCCTTATCTTGTAAAAGGAAGTGTCAGGATGCAGTGGCAC
				AGATCTGGCCTCATTGTTTCTTGGGAGTTCATGGAGGAGC
				ACATTGAAAGAGCAAATGCCTCTAATGATCTGTCCATCAAC
				CAGCCCCTTGTTGAGAAACACAGTGAGAGAAAATGGGGA
				GCCATGGTCATCATAAAATCTCTTCAGTTTTTGCCAACAGT
				GATTACTGCTGCATTAAAAGAGACAACACATAATTCAGAT
				GAAACGATTCCCAGAGGCTCTTTAGAATCAATCAGTCATG
				GAAATATGTTGCACATTGCACTTGTGGGTGTTAATAACCAG
				ATGAGCTTGTTGCAGGATAGGTATAGATTCTATTTTTATGG
				TTTAAGCAAGATTTTAAAATGTGAACATTGGACTATCCAAT
				TTTATTTATGTTTATTTATTTATTTATTTTTTTGACGAGGACT
				ATCCAGTTTTTTTGAAGAAATATGCTTTGCTTCAATTATGCA
				GTCGCTCTTTATAGTAACCATTCCGGCCTTTTGCTTAACCTT
				TTTTTCTCTGTGGGGTTTATGAAATGGAATTTTATACTATGC
				AGTGGTGATGAAGATCAAGCTCAAGAGAGAATTGATAAGT
				TGGCAAAAATCCTGAGAGAGAAAGAAGTGAGCTCAGGTC
				TTCGTGACGTTGGTGTCAGGGTAATTAGTTGCATTATACAG
				AGAGATGAAGGAAGAACGCCAATGAGGCATTCATTCTATT
				GGTCAGAAGAGAAACAATACTTCAATGAAGAGCCTTTACT
				ACGTCATTTGGAACCTCCTCTATCAATATATCTTGAACTGGT
				AATAAAATTCTGAGCAAGAAGCTGTTGCTTTGTTTGTTCGT
				TCTTTTCTTGTTTTTTAATATGGGCCAAATCATTATCTTTAAT
				ATTTTTATCACTATATGATATAGTTATAAGGTATTTGGCTCA
				CAATTTTCATTATACAGGACAAGCTCAAACACTATGAAAAT
				CCCAGATATACTCCTTCTCGGGATCATCAGTGGCACCTGTA
				TACTGTCATGGACAAGCCATCTATTCGACGAATGTTTTTGA
				GGACACTTGTCAGACAGCCCACCTCCGAGTTTAGCGGGGT
				TGAACTAGAAATGCTTAAAACACAAAGGCCTATCTCCTTTA
				CTTCAAGAAACATACTGAGGTCTTTAACAACTGCAATGGAA
				GAATTAGAACTCAATGCGCACAATGCTACCTTGAAACCTGA
				TCATGCTCATATGTACCTGTGCATTGTAAGAGAGCAACGAA
				TTCAAGATCTTGTCCCATATCACAGGTTCTAATTAATCATCT
				TAATTTTCTGTGTTTCATTCGTGGTCATTGATGCAACTTATG
				CCTTAATAGATATTATTTTGACCCATTGATCCAGGGAGGTG
				AACATTGATGATGAACAAGAAGAGATAACTGTTCAGATAT
				ATTTGGAAGAGCTTGCGCGTGAAATCCACAGTTTTGCTGG
				TGTGAGAATGCATAAACTAAATGTATGTGAGTGGGAAGTA
				AAGCTTTGGGTGTCATCTTCTGGCCAAGCCAATGGTTCATG
				GAGAATCATTGTTAATAATGTGACTGGTCATACATGCACTG
				TACATGTAAGTTTGAACTATGATAATTTTTTCCTATAATTTT
				CTGTAAAGGTTTTTAGTATTGGCCGTGTTTAGTAATTTCTTT
				CAACACTCAGATATTTATGCCAGTTTTTGTAAGAATTATAG
				AAATACAGTAGCAATGTTTTGATAGCCCAGGTTCTCTCTTT
				CTCCCAAATTAATCTTTGTGTCAATGCATGACTTTGCCGCAT
				CAATATCTTAAATAATTTATGATTATAAACTATAAGAATAT
				GATACTATGAGAAATTGAAAATATACATCGAGAGAAATCT
				AAATACATCTTCCATTACAACCTTTGATTTTTTTTTTTTTTTTT
				AAATTGAAAAAACAATGGGTAAAGGTGATACATGAATCTT
				GTAAAACACAAACAATGACCATACATATGGGACGGAGGG
				AGTAATAATGGTTTGTATATTGGCACTTATAAAGAAAAAG
				GTTATGCACAATTAATTTATGTCTTGTAGACGTGTATCACA
				TAATGTCTTCTTTAGTTTGCTGACCTTTTTTCTACTAATGTTA
				TGCAGGTTTACCGTGAGTTGGAGGATAACAACCTTCATGA
				AATGATCTACCATTCAATATCTGTTCAAGGTCCTCTCCATG
				GAATACCAGTGAATGCACCCTATCAACCACTTGGAGTCATT
				GCCCGTAAAAGACTTCAGGCCAGGAAAAATAGCACAACCT
				ATTGTTATGACTTCCCACTGGTAAGAAATATTAAACTCCAC
				TATACCCCAATACTACAAAAGCAGAATTTTACTATATTAGG
				TTTCCTTCCCTCCCGAATTTTTTTAAAAAATAAGAGTTAATA
				CATGACTTGCATTCGAGTGTAACTATGGTTCTTGTTTACGC
				TCAACTAGTAATGAAATAGGAATATAAATCTAATAAAGATT
				TACAAATTTTGGAGAGAGGCGGGGTTGTGTAACTGTGGG
				ACTTTGTAAAGGTTTAAAGTTAGTTAGGTGGAGATGCAGG
				GTTTATATTTAGTTTATGAGGAAACTACAAGTTTTCAAGAT
				TTTAATAGGTAATACGTGTAAAATTTTAAAAGATATCGGAA
				TATTTGTCTTAGTATTTTGGATTATTGTAACTTTGTAAATAA
				AAATAGTTTCACATTTTGTTAAGATTTCAAGTTTGGCTTTCG
				CACACAATGGGTCTGTTCTTTTCACCTTATCTGTACTTATCC
				GAACTTTTCCGAACTTCTATGAACTTGTTTTGTGAGAGAGA
				AAA
78	Kochia	gDNA	10030	ATGTCTTTGCATTTGGTGAATCAAGAGGGTTGGCCATAGC
	scoparia	Contig		AAATATGGTTCTTGGCTTGAAAGAAATTCAAATTCGTGGA
				GAAATTCGCACTAATGTTGATTATACCATTGATCTTTTAAAC
				GTGAGCCTTATACATGAATTTCCCCCCTACACTGTTCACTGT
				TTTTTCAATTAGAAGCTAAACTTGTCTTTGTTTTTCCTTTCTC
				CAGTCTTCGGATTACAGAGATAATAAAATTCACACAGGTTG
				GTTAGATAGCAGAATTGCAATGAGAGTCAGAGCGGAAAG
				GCCCCCCTGGTTCATCTCTGTGGTGGGAGGTGCACTCTACG
				TATGTACAACTTTTCTCTTAAATTTTCTTCCTTCCTCAAGCTT
				CATGTGTCACTTTCGTTTATTTTTATAATGAATAATTTTAAA
				TGATTCTTTCTCCTTTCTCCCTATCTTCAGAAAGCTTCTGCTA
				GTAGTGCGGCTACTGTTTCAGAATATATTGGCTATCTTGAG
				AAAGGTCAAATTCCTCCAAAGGTAATCCAAATACCAGATG
				CTGTTGAGATATACTTGTTTTTTAAACACTAATTGTTTCTTT
				CAGTAAATTACATCAACATTTGTGTGGATTGCAGCATATAT
				CACTTGTCCACTCGGAAGTTACTTTGAATATTGAGGGGAG
				CAAGTACACTGTAAGTTTATTATTAACTGATGTGAATTTTAT
				TTTTCGTTCATGGTTTCTCCTGTTTACTTGTTGTTAATCATCA
				TAACATGGTTGATTCTGTTCTCCAGATCAAAATGGTGAGG
				GGCGGTCCAGGAAGCTACAGATTGAGATTGAACGAGTCA
				GAGATTGAGGCAGAAATACATACATTAAGAGATGGGGGT
				CTTTTGATGCAAGTAAGAACTTAATTTTATTGATTCATATAT
				TCATGATTGAGGACAATTATAAACCTCAAGCTATACGCATA
				GGAATTATAATTTGTATAGAGAGTTAAAATTGCGAGTGAA
				AGCTAAGATATTGCACCAACATGTATTAAGTCTATCATCCA
				CCACATAATGCTGAAGTTACCTCCGTTAATTAAATTTAAAA
				AACAGGAGAGTGTAGAAATTAGATAGTCTAAGTTTCTGTA
				GTCATAATGATATGTCTTTTGGAAAGTGCCCCAATGTGTTA
				CATTTATCTTTTACCCCTAACTTAGTTTAGGAGGGAAAGCT
				GACTTAGCAACTTCTCCTCTAGTACAGGATATAAATGCTCA
				AAACTCTTAGAATATCTAAATTTGAAAAGATTATAATGTAT
				TATTGACATTGTTTCAGAGAATGATTTTCTGTATGAACTCCT
				TAAGTATGTTTTTTGACAACTCCTTAAGTATGTTAATAGCA
				ATGCCACAACCCTGTTCCACATTAGGTAGGTATATATGTTT
				CTGATTAGAAATTATATTCCATATCTCCGTATAAGATCTTCC
				TTCTTACCAACACGAGCCATATAATTTTGGGATTAAGTAGA
				TGATGTTGGTTTGCATTATGATGATACTTAATATACCCACA
				TGTTTCATATTTTCATTGACTTAAACGCTATCTTCTAGAAAA
				GGGGTAGTTGTTGATCCAATGTATGTGCTACATTCTCATCC
				CTTTGATTTCAACTAGCTATGGATTTTGAGCTATTCTGTGCA
				TTTGAATGTGATGCAGTTGGATGGGAACAGTCATGTGATA
				TATGCTGAGGAAGAGGCAGCAGGAACTCGCCTTCTTATTG
				ATGGACGAACATGTTTGCTTCAGGTACCATCTTGTTATTTA
				ATTGCATAATATTTCTAAATCTTTACCAAGCGTAACCTAGTA
				TTAAATATCCCCCTTCTTTGTATCCAGAATGATCATGATCCT
				TCAAAGTTAATTGCGGAAACACCTTGTAAGCTGATGCGGT
				ATTTGGTCCCAGATAATAGTCACATTGATCCAGATACTCCA
				TTTGCTGAAGTTGAGGTTATGAAGATGTGTATGCCTTTGCT
				TTCCCCTGCATCTGGTAAAATACAATTTAAGATGTCCGAAG
				GACAAGCCATGCAGGTTAGCATAGGTTTTGGAAAATCTAT
				ATGTTAACTAATTATACTCTAAAAGTTTTTTCTAAGTGCGTG
				TTCGCTGTGTAGGCTGGCGAGCTCATAGCAAGACTTGAGT
				TGGATGATCCTTCAGCTGTAAGAAAAGCTGAACCTTTCCGT
				GGCAGTTTTCCAATTTTGGGCCCCCCAACTGCTATCTCAGG
				AAAAGTTCATCAAAGATGTGTTGCAAGTTTGAATGCAGCC
				CAGATGATTCTTGCTGGTTATGAACACAACATAGATGAAGT
				AAGTATTTCAATAGTGAATTCAAAAAATCGAGCAATATATT
				ATATACATGAAGTATTCCTATTATGAATTTAACATAGATGA
				TGTAAGTATTCCTCTGAGGGGCTGATGCAAAAATTTGAGA
				TGTATATGTATGTCTATTTATATTTTGGTTGGTTCCCTTATC
				AGAAAGATTCTTTACAAATGAGTTTTCTAATTCTCAGGTTG
				TCCAGAGTTTGCTGATTTGCCTTGATAGTCCTGAACTTCCTT
				TCCTGCAATGGCAAGAATGCTTGTCTGTTCTAGCAACACGG
				CTTCCCAAAGATCTGAGAACTGAAGTATGCTACTAAGTTCT
				GCATGCAATTCTTTTTCTATATTTGATAAACACCTGTTGTCT
				TTAGCAGTCTTTATCTTCTTTTTTCTTTCTTTCTTTTTCTCTGT
				AACTCACATTATTTTACCATGTTTCCTTATCTTTGGTTTTATC
				AGTTGGAGTCAAAATATGGAAAATTCGAAGGAGTTACCAA
				TTCTCAGAACATTGAATTTCCTGCTAAGCTGTTTAAAGGTG
				TTCTTGAGGTCAGTCTTTCTTTTTGTTACCCTTCTGTATATG
				ATACAGTTTGAGTGTTACTTACATAAGTATTTTGTTTACAG
				GCTCATTTGAATTCATGCCCTGAAAAGGAGAGAGGAGCTC
				AAGAGCGGCTCATTGAACCTCTAATGAGTCTTGTTAAATCC
				TATGAAGGTGGGAGAGAGAGTCATGCCCATGTTATTGTTC
				AGTCTCTGTTTGAAGAGTATTTGACTGTTGAAGAATTGTTC
				AGTGACAATATCCAGGTTTGTTATTGCAGTTGCAAATTGAT
				CAGTTTTTTTGGTCAACCAATTTGTACCGGGACAAATTGCC
				ACAGTCCTAATTTATTGATGATCATCGGTCTTCGTGTTTTTT
				TCCCGGTTTGGTTGATTGGTTATCATGTTATGAAGTTGTCA
				CATAAAAAAACCTAAATTTACTAATGCACCCATTTGACCCT
				AGAGGCTACAGAGTCTTTGGAGTACTCTGTCTCTGTGGATT
				TATAGTAGCATCCTTTGAAGTATTACTTTATTTTTTCAAGAA
				ATTGTAGTTCATGTCTTTTGATTCTGATCTTGAAAGGAAGG
				CTGACATCATTCCACTTTATTTTCTAATTTCAATCTATACAG
				GCTGATGTGATTGAACGTCTCCGCCTTCAACATAAAAAAGA
				CCTGTTAAAGGTTGTTGACATTGTCCTATCACATCAGGTAG
				GCAGGAAATTTCAAATAATTCAAATTAAGTTTGAGTTTTCT
				TTTCCCTTTTCCCTTGTAATATCTTCCAGGCTTGTTTACTATG
				TAGTAATAATGGCTTTCAGGGTGTTAAGAACAAAAATAAA
				TTGATTCTCCGGCTCATGGAACAACTGGTTTACCCAAATCC
				TGCCGCATACCGGGAGAAGCTTATCCGTTTTTCACAACTAA
				ACCATACAATCTACTCTGAGGTTAGTGATTATTCAATTTTTT
				GTTTATATTGTCACACTACAGCATTCACAAAAAGGTTATTA
				AGTTTATACACTAATCAATTCCTTCACTATATGCAGTTGGCA
				CTTAAGGCAAGTCAATTGCTTGAACAAACCAAGTTGAGTG
				AACTTCGTTCTAATATTGCCAGAAACCTTTCCGAGTTAGAA
				ATGTTTACAGAAGATGGTGAAAACATGGACACTCCAAAAA
				GGAAAAGTGCTATTAATGAGCGTATGGAGGCTCTTGTGAA
				TACTCCGCTTGCTGTTGAAGATGCCCTTGTTGGCTTGTTCG
				ATCACAGCGATCATACGTTACAAAGGCGGGTTGTTGAGAC
				TTATGTCCGGAGACTTTATCAAGTAATATCTAAGTTCCAAC
				AGTAAACTTTAACTATCATTTAATAATGTTATGTCATATAAC
				TCTATTTTTTGTGGGTAATCTCTTTTCTCAGCCTTATCTTGTA
				AAAGGAAGTGTCAGGATGCAGTGGCACAGATCTGGCCTCA
				TTGTTTCTTGGGAGTTCATGGAGGAGCACATTGAAAGAGC
				AAATGCCTCTAATGATCTGTCCATCAACCAGCCCCTTGTTG
				AGAAACACAGTGAGAGAAAATGGGGAGCCATGGTCATCA
				TAAAATCTCTTCAGTTTTTGCCAACAGTGATTACTGCTGCAT
				TAAAAGAGACAACACATAATTCAGATGAAACGATTCCCAG
				AGGCTCTTTAGAATCAATCAGTCATGGAAATATGTTGCACA
				TTGCACTTGTGGGTGTTAATAACCAGATGAGCTTGTTGCAG
				GATAGGTATAGATTCTATTTTTATGGTTTAAGCAAGATTTT
				AAAATGTGAACATTGGACTATCCAATTTTATTTATGTTTATT
				TATTTATTTATTTTTTTGACGAGGACTATCCAGTTTTTTTGA
				AGAAATATGCTTTGCTTCAATTATGCAGTCGCTCTTTATAGT
				AACCATTCCGGCCTTTTGCTTAACCTTTTTTTCTCTGTGGGG
				TTTATGAAATGGAATTTTATACTATGCAGTGGTGATGAAGA
				TCAAGCTCAAGAGAGAATTGATAAGTTGGCAAAAATCCTG
				AGAGAGAAAGAAGTGAGCTCAGGTCTTCGTGACGTTGGT
				GTCAGGGTAATTAGTTGCATTATACAGAGAGATGAAGGAA
				GAACGCCAATGAGGCATTCATTCTATTGGTCAGAAGAGAA
				ACAATACTTCAATGAAGAGCCTTTACTACGTCATTTGGAAC
				CTCCTCTATCAATATATCTTGAATTGGTATGATATTCTGAGC
				AAGAAGCTGTTTCTTGTTTATTATTTTCTTGTTTCTTAATATG
				GGTCAAATCATTATCTTTAACATTTTTGTCACTATTTGATAT
				AGTTATAAGGTATTTGGCTCACAACTTTCCTTACACAGGAC
				AAGCTCAAGGTCTATGAAAATCCCAAATATACTCCTTCTCG
				GGATCGTCAATGGCACCTGTATACTGTCATGGACAAGCCA
				TCTATTCGACGAATGTTTTTGAGGACACTTGTCAGACAGCC
				CACTTCCGAGTTCAGTGGGGTTGAACTAAAAATTCTTCAAA
				CACAAAGGCCCATCTCCTTTACTTCAAGAAGCATTCTGAGG
				TCTTTAACAACTGCAATGGAAGAATTAGAACTCAATGCGCA
				CAATGCTACCTTGAAACCTGATCATGCTAATATGTACCTGT
				ACATTGTAAGAGAGCAACAAATACATGATCTTGTCCCATAT
				CACAGGTTCTAATTACTATTCTTAATTTTATGTGTCTCATTT
				GTGGTTATTGATGCAACTTATGCTTTAAGAGGGATTATTTT
				GATCCGTTAATCCAGGGAGGTGAACATTGATGACGAACAA
				GAAGAGACAGCTGTTCATATGTACTTGGAAGAGCTTGCGC
				TTGAAATCCACAGTTGTGCTGGTGTGAGAATGCATAAACT
				AAATGTATGTGAGTGGGAAGTAAAACTTTGGATATCATCT
				TCTGGTCAAGCCAATGGTTCATGGAGAATCATTGTTACTAA
				TGTGACTGGTCATACATGCACTGTACATGTAAGTTTGAACT
				ATGATAATTTTTTCCTATAATTTTCTGTAAAGGTTTTTAGTA
				TTGGCCGTGTTTAGTAATTTCTTTCAACACTCAGATATTTAT
				GCCAGTTTTTGTAAGAATTACAGAAATAGTAGCATGTTTTT
				AGTGCCCAAGTTCTTTCTTTGTCCTTTTGCCCAGCAATATCT
				TTAATAATTTATGTATAAACTATAAGATATTATGAGACTAT
				ACATCGAGAAAAATCTAAATACATCTTCCATTACAACCTTT
				GATTTTTTTTTTTTTTTTTAAATTGAAAAAACAATGGGTAAA
				GGTGATACATGAATCTTGTAAAACACAAACAATGACCATA
				CATATGGGACGGAGGGAGTAATAATGGTTTGTATATTGGC
				ACTTATAAAGAAAAAGGTTATGCACAATTAATTTATGTCTT
				GTAGACGTGTATCACATAATGTCTTCTTTAGTTTGCTGACCT
				TTTTCTACTAATGTTATGCAGGTTTACCGTGAGTTGGAGGA
				TAACAACCTTCATGAAATGATCTACCATTCAGTATCTGTTCA
				AGGTCCTCTTCATGGAATACCAGTGAATGCACCCTATCAAC
				CACTTGGAGTCATTGCTCGTAAAAGACTGCAGGCCATGAA
				AAACAGCACAACCTATTGTTATGATTTCCCACTGGTAAGAG
				ATATCAAACTCCACTGTACCACAATACTACAAAAGCAGAAT
				TTACAGTATTAGGTTTCCTTTCCTCCAAAAAAATCAAGGGT
				TGATGCATGACTTACATTCGAGTGTAACTATGGTTCTTGTT
				TACGCTCAACTAGTAATGAAATAGGAATATAAATCTAATAA
				AGATTTACAAATTTTGGAGAGAGGCGGGGTTGTGTAACTG
				TGGGACTTTGTAAAGGTTTAAAGTTAGTTAGGTGGAGATG
				CAGGGTTTATATTTAGTTTATGAGGAAACTACAAGTTTTCA
				AGATTTTAATAGGTAATACGTGTAAAATTTTAAAAGATATC
				GGAATATTTGTCTTAGTATTTTGGATTATTGTAACTTTGTAA
				ATAAAAATAGTTTCACATTTTGTTAAGATTTCAAGTTTGGCT
				TTCGCACACAATGGGTCTGTTCTTTTCACCTTATCTGTACTT
				ATCCGAACTTTTCCGAACTTCTATGAACTTGTTTTGTGAGA
				GAGAAAAATAATAAGTTTGTTCTTTTCAACTTATTTTTTATT
				ATCTGAACTTATTTGAATTTATTTTTTCTGAAATTAAGTAAA
				AATAAGCTCAATAGAACATACCCAATGTAGAAAAATAGAA
				TTAAACAAAGAAATAGTGGGGAAAAAAAGTGGAGGTGAT
				TTGTGTCTCTTGTGGGCATTAGTTTAGTAACAGCTAGAGTA
				ATGGATATAGATGACTTATTTTTAATTCATTGTATGACATAC
				ATCAAAAACCTGAAATTTTAGTGATATCAAATTGGCCTTAA
				TTAGTAATTTAGTTGTTTGATATTGTTGGTTATACAAGTGA
				AAACAGATACTTAATATGCGAATGATTGTGCCTATAGTGAT
				TATGTGACTGTGTTGTTAAATATAAAAGTGTTTCAGTGTTT
				TTAAGACAAGGGAAGTAGGGAACCATAAACAAAAATACG
				AAGCATATCTTGGGTGTTACCTAGTTTTGTCCTATTTCTCAA
				TTATTGATTTAGTTGTTTAATTTGTTGGTTATAAAAGAGAG
				AAACCGGGATTGTTGGTGTGCAAAGATTGTACCTATAGTG
				ATTATGTGACAACGTTGTCAAATGTAAAAGCATTGCAATTT
				TTGTGAGGCAAAGGAACCATAAATAAAAATGCGAAGCATG
				GCTTGGGTGTTACCTAGCTTTGTCCTATTTATTGAACTATGT
				GATTGTACCTCAAATTTTTATATTTGATGTTGTATCGATCAA
				CTTGCTTTAGCTCACGTTAGCATTTATCTGTTTTTCTATTGG
				AAAATTGACCTGAAATTATTGGGAATGTTTTTCTCAGGCTT
				TCTCTACTGCCTTAGAGCAATCATGGGCATCTCAAGCTCCG
				CTTCTGAAGAAACCCGCTAACAAAAAAGTTTTGAAAGTCTC
				AGAGCTAGTATTTGCTGATTCAAATGGCACCTGGGGAACA
				CCAGTTGTCCCGACAAATCGTGAACCTGGTCTTAACAATAT
				TGGCATGGTTGCCTGGTCCATGGAGATGTCAACTCCTGAA
				TTCCCTGATGGAAGAACCATATTGGTTGTAGCAAATGATAT
				CACCTTCATGGCTGGATCATTTGGGCCAAAAGAAGATGCT
				CTCTTCCAGGCAGTTACAGATCTTGCTTGTTCCAAAAAAAT
				TCCTCTGATTTACCTGGCTGCTAATTCTGGTGCTCGACTGG
				GTGTTGCTGAAGAGGTAAGAGCATGCTTTAAAATTGGTTG
				GACCGATGAGTTGAACCCTGAGCGGGGGTTCCAGTATATC
				TACTTGACTCCTGAAGATTATGAGCGTATAGGGTCAGCAG
				TTATAGCCCATGAGTTAGAACTCCAAAATGGAGAGACTCG
				GTGGGTTATAGACACTGTTGTAGGGAAGGAGGATGGGAT
				AGGTGTTGAGAACTTATCTGGAAGTGGAGCTATAGCTGGT
				GCCTACTCAAGGGCATACAAAGAAACTTTTACTCTAACTTT
				TGTAACAGGAAGAACAGTAGGTATTGGTGCCTATCTTGCT
				CGCCTTGGGATGCGTTGTATCCAAAGGCTTGATCAGCCCAT
				TATTCTGACAGGCTTTTCTACGTTAAATAAACTTCTTGGTCG
				TGAGGTTTACAGCTCACAAATGCAACTTGGCGGGCCCAAG
				ATTATGGGTACAAATGGTGTTGTTCATTTAACAGTTTCAGA
				TGACCTTGAAGGCATTTCAGCTATTGTCAAGTGGCTCAGCT
				ATGTTCCATCCTACTCAGGAGGTGAACTTCCTATTTCACGTT
				CTTTAGATCCTCCTGAAAGACAGGTTGATTATTTGCCTGAA
				AATTCTTGTGATCCCCGTTCTGCTATATCTGGTACACTTGAC
				TCTAATGGCAATTGGCTTGGTGGAATTTTTGACAAAGATA
				GTTTTGTTGAAACCCTAGAAGGCTGGGCAAGGACAGTTAT
				CACTGGCCGGGCCAAACTTGGTGGAATCCCAGTTGGGATA
				GTTGCTGTTGAGACACAAACTGTGATGCAAGTTATCCCAG
				CAGATCCTGGTCAGCTTGATTCGCATGAGCGAGTGGTCCC
				ACAAGCTGGACAAGTATGGTTTCCAGATTCTGCAACTAAG
				ACAGCACAAGCTTTGATGGATTTTAACAGGGAAGAACTTC
				CACTTTTCATTCTAGCTAACTGGAGAGGCTTCTCTGGAGGG
				CAAAGGGATCTCTTTGAAGGGATTCTTCAGGCAGGGTCCA
				CAATTGTCGAGAACCTTAGGACTTATAATCAACCTGTTTTT
				GTTTATATCCCCATGATGGGTGAACTTCGTGGTGGGGCAT
				GGGTTGTCGTAGACAGTAAAATCAATTCGGACCATATTGA
				GATGTATGCTGATCAGACAGCTAAAGGAAATGTTCTTGAG
				CCAGAAGGAACGATTGAGATCAAGTTTAGAAACAAGGAAT
				TAATTGAATGTATGGAAAGGCTTGATCAACATCTCATCAAT
				CTTAACGCAAAACTCGTCGAAGCCAAAAACTCCAATTTATA
				TGTTAATATCGAACTCCTGAAACAGCAGATAGAAGCTCGG
				CAGAAGCAACTTTTGCCTCTATATACTCAAATAGCCACAAA
				ATTTGCTGAATTGCATGATAGTCCTTATAGAATGGCTGCGA
				AAGGAGTCGTCAAGGAAGTCCTGGATTGGAGCAATTCTCG
				CTTATTCTTCCACAAAAGACTGTACAGGAGAGTTATGGAG
				GAATCACTTGTCAAGACCGTCCGAGATGCTGCTGGTGAAG
				CAATGACCCACAAGTCTGCCATGGAATTGATCAAGCAATG
				GTTTGCTCAGTCTGATAGTACTAGTGGAGTGGGAGCTGAT
				CCTTGGTCTGATGATGAAGCTTTCTTCAAGTGGAAAGAAA
				ATCCTGCTAATTATGAAGAAAAGCTAATTGAGTTACGCATA
				CAGAAAGTATTGCATCAGCTTTCAAATATTGACAACTCAGC
				TTCTGATCTGAGAGCTCTTCAGCTTCGTCAGGGTCTTGTTG
				CCCTACTTCAGAAGGTATCTCTAAGGTTCCTCCACACACAC
				ACACACCCCACCCACCAAAAAAAACACACAACACAACAGT
				GAG
79	Kochia	gDNA	8717	GATCTTGATTGATGTTGAGGATGACTTGTTCTGACGTTGTT
	scoparia	Contig		TTCTTGATGATCGGCCTGTAAAATGAAACAAAGATTGCTAC
				CTCGGAGGTTTTCCCGAGTAAAACCTCTCCGAAGTTTAAGT
				CAGTTCAATGATCTTGAATGGATTGGTATTTTAGGAATTTA
				ATGTGAGTCGTTTTAGAATTAGATACCTGATTTTGTGTGGA
				GAGCTTGGTATATATAGGCAATCGGGTGACCTACTAGCTT
				ATCAGTCAAGCGATGTAATCCGGCACCTGGTAGCTTGTCAT
				CAGTTTGACTGGGCAATTAATGGTCAAGCGGTTTGAAATG
				TGTTTCTTGGACCTTAAATATGGCTTTGGTTATAATGAGCT
				AGATTTAGGTTTGGACCTTAGTTTTATGGGTTAATACTAGA
				GGCGATCAAAAAAACCCGGCCCGACCCAAAATTTTGTGGG
				CTTTGGTCACGACTTTTTTTTGGCCCGAATACCCATACACAA
				ACTAAAATGGCTAGTACAAAAGTACAAATATACAAAAGTT
				GTTCTTACTAGAAAAAGCTAGTTATTGACCATCAATTATCT
				CAAGTCCAAATAAACTTTTATAAGCACTAGAAGTAAGTTGT
				ATGAGAAGTATTGATCAATAACTCAGCAAAATAGTACTTCG
				TATATAATTATAAACAAGAAGTCAAATTTGGTGGAGTGTG
				ATTGAATTGAAAAAATTGGTAGAATTCAATATGATACAACA
				AAGAAAAGCTACATGGTCATATTAAAAGTTAAATTTTGCAT
				AACAAGAGTAAAAGAAATGATAAATTGATTGACACGATCA
				ATAAATCACCGGATAAATTCGTCATTTCTTATTATCAGTCCT
				TCAAATTATAATAAATTCCCCAATCCCCCACCTACCATTATA
				CTCGTAAGTTTTTAACAATGCTGGAACAAACAGTGCAAATG
				TGTGATTTAAAAATCGGTGCTATTTGTTTATACTTCCTCGTT
				GCAGTAGCATCATCACACATTCATACTAAAATCAAAATCAC
				ATTCATCATAAATCATAATAATAAATAATAGAATAATTATA
				CAGGTAGCTGAAAGGTGGGCAGTTGCCACGTGCATCCCCA
				AATAAATATGCAGTTAATTGAATGAGATGGAATGGAAGGC
				ATTCTCTGCACCTCAAACCAAACCAACCCCCTTCTTCCCCTC
				TAACACTTCTTCAATGACTTCTCTTCCTTCTTCTTATTCTCAT
				TATATATACATTCACAAGTAGCTGATCACTACTGTTTTCTTT
				TTTTTGTTCTGTCTAAAGTTTGATTCTTTTCCATCAAAGTTTG
				CTTTTTTATGCAATAATTCAAATTGCCCAGATGCTAATTTAG
				TGGAATTTCATTGAAAGGTTTGTTTTTTTCTGCTGAATTATG
				TCCCTTTGATTTGATTTGAGTGTTTTTTAAGTTTATGATGAA
				TCATACATGCCCTTTTATTTGAGTTGATTTTGGGATTTGTCT
				TATGTTGGGGTTGGTTTTTGGTTGGTTTTTGGTTGGTTTTTT
				TTGGTAGTGTGTAGTTGAGCTAATTAAGTGTAGAATAGTG
				TGAAATAATATATTGGTTGTATTGGGTATTGCTTACTAGAA
				AATGTGATTCATTTTGGTAGTTAGTTGGCTTTAGTTGACTG
				ACTCTTCTAAGTTCTAACTATGATTGATTGATTGATAATACA
				GGTATGTGTAGTCCAAATTGGACCTCATTTTATAATTATCCT
				CATTTTATAATTATAATTTGTTTTTTTTGGCATTGGATTGTT
				GACTCTTGAATTCTACTTCACTACTTGAATTGCATTGGATTT
				TTTCTATTAGTATTTAGCTTTTATGCCATAATAAAAACTTCT
				GCCTTTCATTCAGCTGGTATGTTCTATACTTCTATTCTTTTTT
				TTTTTTTATATAAATTAATTCTTTCTTTCTCTGTTAATGTTGT
				TGTTGTGTTGGATAATATGTTAATTACCCAATTAAAGAGCT
				CAAATCTTGAAGTAATGTATGAGTATTGCTTATGATAGTAG
				CTTTTGTGATTCAAAGCTTGCATCATTCATTAATTGACTATT
				TGTTTTGTGTAATACGAGGTTGTTGTAGCTTGATTGCTTTTT
				GACAGGTAGAATATGCTTATCATGTGAAAATTGGGAATGT
				TATTCATGTGATTTGATGTTATTAGGATGCTGACCAGTGTT
				TTATGAGGTGATACTGATTCAACTTGTTGATGTAACAGTTA
				TAGGAAAATCGGGCGTATTTTTTGCTGAGGGCGGGGCGGT
				GTGTTAACTAGGGAAGAGCCAAAGATGGCAACTCTAGTGC
				GAAACATTGATTACCTTAATGGAACAACTCTGTTGAGGAAT
				TCTACTACATTACCCGTTGTTGATGAATTTTGTTATGCTCTT
				GGAGGGAAAAAGCCGATTCATAGTATTTTGATTGCCAACA
				ATGGAATGGCAGCTGTTAAATTTATCAGAAGTGTTCGGAC
				ATGGGCTTACGAAACTTTTGGAACAGAGAAGGCTATTGTA
				TTAGTAGCAATGGCTACTCCAGAAGACATGAGAATCAACG
				CTGAACACATTCGAATGGCTGACCAGTTTGTTGAGGTTCCT
				GGTGGGACTAACAACAACAACTATGCCAATGTACAGCTCA
				TTGTTGAGGTAAATCCTGCTTTAGTAACACTGATCTTCCGT
				GTTTTCTCTGTTAGATTACGAAATACTCACATTAGCCACAG
				TGTATGAGAAAAGATATCACCTGTCCTGTTGGCCTGTTGAT
				GTTCATCATTGATTTCAGAGGATAAAATTTTGTTAAAAAGA
				CTTCAATTTATTTTCACTGCTCTTTCAGATGGCAGAAATTAC
				ACGCGTAGATGCAGTTTGGCCAGGTTGGGGACATGCATCT
				GAGATCCCTGAGCTTCCAGATGCACTAACCGCAAAGGGGA
				TTGAATTTCTAGGGCCTCCAGCTATATCTATGGCTGCTCTT
				GGAGACAAAATCGGTTCATCATTGATTGCTCAGGCCGCAG
				ATGTTCCAACTCTTCCATGGAGTGGCTCTCATGTATGAATT
				GATTTTCTTATCGACCTTCACAAACTTTCTTTTTCTCAAGGA
				GTTTCCTAATCAGTTTTCTTAAATTTCTATGCTTTAGGTGAA
				AGTTCCTGCTGAGAGTTGCCTTGATACTATTCCTGATGATA
				TATACAAGGCAGCCTGTGTTTTTACCACAGAGGAAGCAATT
				GCTAGTTGTCAGGTTGTCGGTTATCCAGCTATGATTAAAGC
				ATCTTGGGGTGGTGGTGGGAAAGGAATAAGAAAGGTGAG
				CTAGTTGTTTGGGATAATGTGGTCAAGAAATTAAAGCACC
				ATCTTCATATATATCTCTATTGCTTATTTATCAACATTTTCAC
				AGCTTCCATCCTTGAACATCCTTTAATTAGTCAATTGTCTAT
				AATTATCTACTAGTCTTAAATGATGGACAAATGCTTCAAAC
				TTGTTAGTTAGCTAGAGACCTGTTAATCTGTTATGCTACTTC
				AATTTCAATCGTTTTCCTTTCAAAATATCAGAAAGACTCAAT
				AGTTATGCATTTTTAGGTACATAATGATGATGAAGTAAGG
				GCATTGTTCAAGCAAGTGCAGGGCGAAGTTCCTGGCTCAC
				CCATATTTATAATGAAGGTGGCTTCACAGGTTAGATATTCT
				GCAAATTGGTTCTATAATGAATTATATAAGCACTCAGAAGT
				TCACGGCACTCGTGATCTTAGAACTTGTACTATATGCAAAA
				TTCTTTGTTTTGACAAGTTGTTATATGTGCTTCATTCAGAGT
				CGACACTTGGAAGTACATCTACTTTGTGATCAATATGGCAA
				TGTAGCAGCTTTGCATAGCCGTGATTGCAGTGTCCAAAGG
				CGGCACCAGAAGGTGGGTCCCTAGTGTACTATCAATAAAC
				TTTTAATCTTCTTGACCAATTTAGTATTACTTCGGGTCTAAA
				GTATATTTTTTCAAAGAAAATCGTTATGTCTCATTGTTTTTG
				AAGGAATGTATAAATATTTTGTCCATTGTATTAATTGATCA
				GATTATTGAAGAGGGTCCAATAACTGTAGCTCCACCAGAA
				ACTGTGAGAAAACTTGAGCAGGCAGCTAGAAGGTTAGCCA
				AATGTGTGAATTATGTTGGAGCAGCAACTGTAGAATATCT
				GTTCAGCATGGAAACTGGCGAGTTTTATTTCCTTGAGCTAA
				ACCCTCGGCTACAGGTTTGAAGAATACACTTGCACATTGTA
				TATTCGTATTTTCCTTAAGAAAAATATTTTATGTTGATATTT
				ATGGTATTGCAACTCAATATCCTCTAGATATATCGTTTTCTA
				CCGTACGTTTGTGGCTCACTTTATTATGACATGCTTTGTTAA
				AAAGCCTTGGGATTTCTTAGAGTGAGACATGTCACCCTTGC
				TTTTCAACTTCTGTGAATCATGTCTTATACTCCCTCCATTTCC
				TTTTGTTTGTCTGATTTAAATCTTGGGTGTTGACACTATTCA
				TAGGTAGAGAGATTCCTCTAAATTTATAAGATAAAACTTAG
				CTCTGTGGGGCCTTGTTTAATTCATTTTGATGAGTACTTTAA
				TGATATTAAATTTTTAGAATTTATATTCATATATAGTTAAAG
				ATTTGTTAAATGTTTGCTGCGACAAACATGTGATAATGAAA
				TGGGTCAGAAGAATGGAATGGAGGGAGTACTGCTAAGAA
				TTATCAATCCTATATGATCATATGATGGATGAAAAAAAAAA
				TTCTTATTTGACTTTTCTGACAATATTGTATATAATGTCCAT
				ATGTGCAGGTTTTATTTTAAAAAATTTCCAGTATTGGAAAT
				CCAGTTAATTTTATTGGTTATTTATTTAATTCCTTCTTTTTTC
				GCATTTGATATATACAGGTGGAGCATCCAGTAACTGAATG
				GATTGCTGAAATTAACCTTCCAGCTGCTCAGGTTGCAGTTG
				GCATGGGTATTCCTCTTTGGCAAATTCCAGGTAGCTTGCAT
				GTTCCCTTTTTTTATTATATAACTTATGTGCTTCATCTTGTTC
				TTGTGTATGAGTTGGCTTGCTTTTGCAATTTCAAAATAGAA
				ATTCGGCGATTCTATGGTAAGGAACATGGTGGCGGTTATG
				ATGCTTGGAGAAGAACATCAGTTGCAGCGACTCCTTTTGAT
				TTTGACAAGGCACAATCTGTGAAACCAAAAGGTCACTGTA
				CTGCCGTACGTGTGACAAGTGAGGACCCTGATGATGGATT
				CAAGCCCACTAGTGGGAAAGTACAGGTTAATAATGCTATT
				GTTTTATAGTTCAAACTATTTTCTCAATTGATTGCCTTGTCT
				GTTTTGTGATTCATGTAAAATTATTTAATTCATTGGTTTCTT
				TTCTAGGAGTTGAGTTTCAAAAGTAAACCAAATGTGTGGG
				CCTATTTCTCTGTTAAGGTATGTCTTTATTTTTTTTAAGCTTT
				ACATCATCCTTTATGGACTCATTCACGAGCTTAACAATGGT
				CAACACTGTCAATTGCAGTCTGGGGGAGGCATTCATGAAT
				TCTCAGATTCTCAATTTGGTAAGTTTAAAGCACATTTTAAA
				GATGACTAGCAATGAAATGACTATTATAGCTGCCTTTTAAG
				AATGAAGTTCTTCAACATCATAGTATTCATTCTCTAATTTAA
				GACTGCTGCAAATGGATTGAGAACTGTGCTGTTGTGCATG
				TGAAATGAGATATATTGGTTTTTCATAGTGTGTCATTGTAG
				ACAGTAAATGCTCTTGTTAATTGTTGATGATTGGAATTGGG
				ATTTAGCATGCTTGGTGTAGTTTTCTCTTGCACAAACAAGT
				CTCACGGAGTTGATGTGTCATGTTTTTGTCGATTATTTTTGG
				TTTAAAACATCAAATTTTGTTTTCTTTTATTTATAGAAGGCT
				AATGTTAATTAATTTGTTTGTAGGGCATGTCTTTGCATTTG
				GTGAATCAAGAGGGTTGGCCATAGCAAACATGGTTCATGG
				CTTAAAAGAAATTCAAATTCATGGAGAAATTCGCACGAAT
				GTTGATTATACCATTGATTTTTTAAAAGTAAACCTTATACAT
				TTTAACTTTGTAGATTTTAATTGAGCATGTGGCCTTATCCTT
				TTACATACCCTTTCCGGCTGATTGAGGAATAGGAGTTTCCC
				GCTATAACCAATGCACACAATGATTTCAAAATACAAGGATA
				AGGATTTTGCTGTAAAATGAAGGTTGTGCCTTTCATTTATT
				TTTATTTGTTGATGCATTGTGCTGTAAAATTAAGGCCTTCAT
				TTTCATTTATTTTATTATTTTAAATTGGAGGTATACCACCTTC
				TTCTAATTGAATTTTGCAATTGTTGCATGATTTTGCAATTGT
				TGCATGATTATGCTCTACTTTTAAAGATTGAATTTTGCAATT
				TGTTGTGTGTGGTGTATGTCAATCAATTATATAAAGTAGAA
				TGCTAGAGTGAAAATAAATGGTCAGCAGCACTATAGCAGA
				AAAAAAAAACAAATATAAGGTGTCATATAACACACTCATTA
				ACTCAGGACTACAACTTTACCCCAACTTGTTATCGATATTAC
				CCATTTGCTACATCTCATATGTTCTTACAATTTTTTTTATTCG
				TCAAATTTGTAAGACAAGAGGCCTTGATTGTGAATTTCCTG
				TCAATACCCTCTCAATTCTAAAAAAAATATCATGACTACTA
				GACTATGAGAGTTTTGTTAGATCTTATCAAGCATAAAGGAT
				TCTATTAAAAAAATAAAATTATACTAGCAGTTGCTACCATT
				GGAATGTTAATGTTTATCTTTCTTGGAGGGTTAGTAATAAC
				TTTAATCAATGAGAGTGACCCACAAAGCTTTCATGATTCTT
				TATATAAATGATTATTGTTCCCGCTGTAAAATTGTTCCCGTT
				GTCTCATTTAATTGTTTAAAATGGATAAGATTTGATTAGTTT
				TACTGTTAATGATGTTTGTGTTTGATTAGTTTTAGTATTTTG
				CTTAATTGTTGAGATTAATTGTTGAATTAATGTGGGTGATG
				AACTGTGCAAGGAAGTGCAGTAGCAGCAGCTATGAGAAA
				TCAGCTACAGTAGGTCCAAGGAATGTAACAGCAGCTGCAA
				CTGACCTGGGGGCCTGTGCAAGCTGTTCAGGTTGTCTGGA
				CTTGTGCAGGCATCCCCGGGGCTTGTGTAGGCAAGGCAGC
				AGCAAGTGCAACAGCATCAGGTCTTGTAGGACAGTGTCGA
				CACCGTTTCGGTACATGTAATTTGGCTGTTCAATTGAATAT
				TATTTGGCATGAAGAAGATCATGAGTTACATGATTATAGA
				AAATGATTGTCTTCCAGTGGAGCTAATCAAGGTCCTCCTAG
				ATAGCCTCAAGAAGGAAAATGATGTATCTCTTGCTTTATTG
				CTTTCCGAATTTCCCATCTTTTACTCGGTTGTTGTGTTTTTTG
				CCCTTATAATCATGCCCGTCTCAGAAAAACTCACCTGCAGC
				TTTTAATTTGGGTGTCTTTGGCATGCTCATTCTTTTTTTTTCA
				ACCGATTTCAAATTTTTTGATTTATTTACTGTGTTTTATTGCA
				ACTTGAGTGATTTGTATTTACTTATGATTGTTATAGAATTTT
				TGTTATGGTTTGGTTTTTGGCTTATTTATTAGCTTGGGTCTG
				AAATTTGATCTTTCATATGGTCGGGTTTATGAGTTAATTAG
				GGCGTTTTACTTTCTAGTAATTATTGAGATGATTTATTTTAA
				AAGAATTAGTTTGACTATATGGAAGAAGTTTTAGTTGTGA
				ATGTAATATTTGTTTTTTTACAAATACTTTAAATTTGCAATTT
				TACGGTTGTGTTTAAGAAGAGCAGAAACAGAAGAAGGAA
				GTGGGAAATCATAGACCACTTCAAGAGATTGGCTATTTTG
				ATTTTTGAATGAGATTTTATGGTGCTATTGTTGCTGGTTGA
				TTGTTAGAGGATCCTTGCATTTGAGCGAAAACAAAGCAAT
				CCAAGTGTAAACTCATGCTAATTTCATGGTTTAAAGTTTTTC
				ATTGTTGATTTTAGATTTCTTAGTCTTAGATATTTGTTTTTG
				GTATTCATTTTTTAGGGGAAGGAATGTTTATATTCAATTTTC
				ATCACATCAAGAATTAACTATGATGGAGCAGAGCACACAT
				GGGCGAGCAGATGAGGTTGGTTTTTATCATTGATAATTGA
				ATGCAACTAACAGGGGCAAACTAAGTACTCAACTAACTAA
				TTAGGCAAAGTTACCTATACGACTATAATTGGACCCAATTA
				AGGTTACTAGCTTGCTGCAATTTTACCAGTTTGCTAAGCAA
				AATATTACATATTGTATATATAGTTAGAATTTGTCCTTTTGT
				TCGAGGAAAGAAAAAGTAAGGGATGAAAATTTGAGACTTT
				CTATTAGCAATTTCATTTAAATTCCAAAAAAAGGGTCTCAT
				CTATTTTTTTTATAACTTGTTGCTATAAAATTTGCAATGTGA
				TTGATTGATTGTTAATATGAATTTGTAATATGTTTTAACAG
				GATTCCTGTGTCATCTGTGGCTCAAAGGTACTTGACATTAA
				GATCACAGTAAGTTCATCCAATTATTATAATTATCTTATCAC
				TTTTGATATTTTAATTGTTTCTCAAGGATTATTGAGAAAGTT
				TCAATTCATTTAGGCCCTTTTTAGTTAACAATAGGCTAATTC
				TACTGCCTCTTGTTTTAGGTTGCCTCATAGGCACTCTTACTT
				CTGAAAATAAACCTCAAATAACCATGATCGACCT
80	Kochia	gDNA	6978	CAGTCTCTGTTTGAAGAGTATTTGACTGTTGAAGAATTGTT
	scoparia	Contig		CAGTGACAATATCCAGGTTTGTTATTGCAGTTGCAAATTCA
				TCAGTTTTTTTGGTCAACCAATTTGTACCGGGACAAATTGC
				CACAGTCCTAATTTATTGATGATCATCGGTCTTCGTGTTTTT
				TTTCCCGGTTTGGTTGATTGGTTATCATGTTATGAAGTTGTC
				ACATAAAAAAAACCTAAATTTACTAATGCACCCATTTGACC
				CTAGAGGCTACAGAGTCTTTGGAGTACTCTGTCTCTGTGGA
				TTATAGTAGCATCCTTTGAAGTATTACTTTATTTTTTCAAGA
				AATTGTAGTTCATGTCTTTTGATTCTGATCTTGAAAGGAAG
				GCTGACATCATTCCACTTTATTTTCTAATTTCAATCTATACA
				GGCTGATGTGATTGAACGTCTCCGCCTTCAACATAAAAAA
				GACCTGTTAAAGGTTGTTGACATTGTCCTATCACATCAGGT
				AGGCAGGAAATTTCAAATAATTCAAATTAAGTTTGAGTTTT
				CTTTTCCCTTTTCCCTTGTAATATCTTCCAGGCTTGTTTACTA
				TGTAGTAATAATGGCTTTCAGGGTGTTAAGAACAAAAATA
				AATTGATTCTCCGGCTCATGGAACAACTGGTTTACCCAAAT
				CCTGCCGCATACCGGGAGAAGCTTATCCGTTTTTCACAACT
				AAACCATACAATCTACTCTGAGGTTAGTGATTATTCAATTTT
				TTGTTTATATTGTCACACTACAGCATTCACAAAAAGGTTATT
				AAGTTTATACACTAATCAATTCCTTCACTATATGCAGTTGGC
				ACTTAAGGCAAGTCAATTGCTTGAACAAACCAAGTTGAGT
				GAACTTCGTTCTAATATTGCCAGAAACCTTTCCGAGTTAGA
				AATGTTTACAGAAGATGGTGAAAACATGGACACTCCAAAA
				AGGAAAAGTGCTATTAATGAGCGTATGGAGGCTCTTGTGA
				ATACTCCGCTTGCTGTTGAAGATGCCCTTGTTGGCTTGTTC
				GATCACAGCGATCATACGTTACAAAGGCGGGTTGTTGAGA
				CTTATGTCCGGAGACTTTATCAAGTAATATCTAAGTTCCAA
				CAGTAAACTTTAACTATCATTTAATAATGTTATGTCATATAA
				CTCTATTTTTTGTGGGTAATCTCTTTTCTCAGCCTTATCTTGT
				AAAAGGAAGTGTCAGGATGCAGTGGCACAGATCTGGCCTC
				ATTGTTTCTTGGGAGTTCATGGAGGAGCACATTGAAAGAG
				CAAATGCCTCTAATGATCTGTCCATCAACCAGCCCCTTGTT
				GAGAAACACAGTGAGAGAAAATGGGGAGCCATGGTCATC
				ATAAAATCTCTTCAGTTTTTGCCAACAGTGATTACTGCTGC
				ATTAAAAGAGACAACACATAATTCAGATGAAACGATTCCC
				AGAGGCTCTTTAGAATCAATCAGTCATGGAAATATGTTGCA
				CATTGCACTTGTGGGTGTTAATAACCAGATGAGCTTGTTGC
				AGGATAGGTATAGATTCTATTTTTATGGTTTAAGCAAGATT
				TTAAAATGTGAACATTGGACTATCCAATTTTATTTATGTTTA
				TTTATTTATTTATTTTTTTGACGAGGACTATCCAGTTTTTTTG
				AAGAAATATGCTTTGCTTCAATTATGCAGTCGCTCTTTATA
				GTAACCATTCCGGCCTTTTGCTTAACCTTTTTTTCTCTGTGG
				GGTTTATGAAATGGAATTTTATACTATGCAGTGGTGATGA
				AGATCAAGCTCAAGAGAGAATTGATAAGTTGGCAAAAATC
				CTGAGAGAGAAAGAAGTGAGCTCAGGTCTTCGTGACGTTG
				GTGTCAGGGTAATTAGTTGCATTATACAGAGAGATGAAGG
				AAGAACGCCAATGAGGCATTCATTCTATTGGTCAGAAGAG
				AAACAATACTTCAATGAAGAGCCTTTACTACGTCATTTGGA
				ACCTCCTCTATCAATATATCTTGAATTGGTATGATATTCTGA
				GCAAGAAGCTGTTGTTTTTCTTGTTTATTATTTTCTTGTTTCT
				TAATATGGGTCAAATCATTATCTTTAACATTTTTGTCACTAT
				TTGATATAGTTATAAGGTATTTGGCTCACAACTTTCCTTACA
				CAGGACAAGCTCAAGGTCTATGAAAATCCCAAATATACTCC
				TTCTCGGGATCGTCAATGGCACCTGTATACTGTCATGGACA
				AGCCATCTATTCGACGAATGTTTTTGAGGACACTTGTCAGA
				CAGCCCACTTCCGAGTTCAGTGGGGTTGAACTAAAAATTCT
				TCAAACACAAAGGCCCATCTCCTTTACTTCAAGAAGCATTC
				TGAGGTCTTTAACAACTGCAATGGAAGAATTAGAACTCAA
				TGCGCACAATGCTACCTTGAAACCTGATCATGCTAATATGT
				ACCTGTACATTGTAAGAGAGCAACAAATACATGATCTTGTC
				CCATATCACAGGTTCTAATTACTATTCTTAATTTTATGTGTC
				TCATTTGTGGTTATTGATGCAACTTATGCTTTAAGAGGGAT
				TATTTTGATCCGTTAATCCAGGGAGGTGAACATTGATGAC
				GAACAAGAAGAGACAGCTGTTCATATGTACTTGGAAGAGC
				TTGCGCTTGAAATCCACAGTTGTGCTGGTGTGAGAATGCA
				TAAACTAAATGTATGTGAGTGGGAAGTAAAACTTTGGATA
				TCATCTTCTGGTCAAGCCAATGGTTCATGGAGAATCATTGT
				TACTAATGTGACTGGTCATACATGCACTGTACATGTAAGTT
				TGAACTATGATGATTTTTTCCTATAATTTTCTGTAAAGGTTT
				TTAGTATTGGCCGTGTTTAGTAATTTCTTTCAACACTCAGAT
				ATTTATGCCAGTTTTTGTAAGAATTACAGAAATAGTAGCAT
				GTTTTTAGTGCCCAAGTTCTTTCTTTGTCCTTTTGCCCAGCA
				ATATCTTTAATAATTTATGGTTATAAACTATAAGATATTATG
				AGACTATACATCGAGAAAAATCTAAATACATCTTCCATTAC
				AACCTTTGATTTTTTTTTTTTTTTTTTTTAAATTGAAAAAACA
				ATGGGTAAAGGTGATACATGAATCTTGTAAAACACAAACA
				ATGACCATACATATGGGACGGAGGGAGTAATAATGGTTTG
				TATATTGGCACTTATAAAGAAAAAGGTTATGCACGATTAAT
				TTATGTCTTGTAGACGTGTATCACATAATGTCTTCTTTAGTT
				TGCTGACCTTTTTCTACTAATGTTATGCAGGTTTACCGTGA
				GTTGGAGGATAACAACCTTCATGAAATGATCTACCATTCAG
				TATCTGTTCAAGGTCCTCTTCATGGAATACCAGTGAATGCA
				CCCTATCAACCACTTGGAGTCATTGCTCGTAAAAGACTGCA
				GGCCATGAAAAACAGCACAACCTATTGTTATGATTTCCCAC
				TGGTAAGAGATATCAAACTCCACTGTACCACAATACTACAA
				AAGCAGAATTTACAGTATTAGGTTTCCTTTCCTCCAAAAAA
				ATCAAGGGTTGATGCATGACTTACATTCGAGTGTAACTATG
				GTTCTTGTTTACGCTCAACTAGTAATGAAATAGGAATATAA
				ATCTAATAAAGATTTACAAATTTTGGAGAGAGGCGGGGTT
				GTGTAACTGTGGGACTTTGTAAAGGTTTAAAGTTAGTTAG
				GTGGAGATGCAGGGTTTATATTTAGTTTATGAGGAAACTA
				CAAGTTTACAAGATTTTAATAGGTAATACGTGTAAAATTTT
				AAAAGATATCGGAAAAGTTGCTAGAATAAAGGAAGTTTAG
				CTAACTTTAAAGAATATTTGTCTTAGTATTTTGGATTATTGT
				AACTTTGTAAATAAAAATAGTTTCACATTTTGTTAAGATTTC
				AAGTTTGGCTTTCGCACACAATGGGTCTGTTCTTTTCACCTT
				ATCTGTACTTATCCGAACTTTTCCGAACTTCTATGAACTTGT
				TTTGTGAGAGAGAAAAATAATAAGTTTGTTCTTTTCAACTT
				ATTTTTTATTATCTGAACTTATTTGAATTTATTTTTTCTGAAA
				TTAAGTAAAAATAAGCTCAATAGAACATACCCAATGTAGA
				AAAATAGAATTAAACAAAGAAATAGTGGGGAAAAAAAGT
				GGAGGTGATTTGTGTCTCTTGTGGGCATTAGTTTAGTAACA
				ACTAGAGTAATGGATATAGATGACTTATTTTTAATTCATTG
				TATGACATACATCAAAAACCTGAAATTTTAGTGATATCAAA
				TTGGCCTTAATTAGTAATTTAGTTGTTTGATATTGTTGGTTA
				TACAAGTGAAAACAGATACTTAATATGCGAATGATTGTGC
				CTATAGTGATTATGTGACTGTGTTGTTAAATATAAAAGTGT
				TTCAGTGTTTTTAAGACAAGGGAAGTAGGGAACCATAAAC
				AAAAATACGAAGCATATCTTGGGTGTTACCTAGTTTTGTCC
				TATTTCTCAATTATTGATTTAGTTGTTTAATTTGTTGGTTATA
				AAAGAGAAAAACCGGGATTGTTGGTGTGCAAAGATTGTAC
				CTATAGTGATTATGTGACAACGTTGTCAAATGTAAAAGCAT
				TGCAATTTTTGTGAGGCAAAGGAACCATAAATAAAAATGC
				GAAACATGGCTTGGGTGTTACCTAGCTTTGTCCTATTTATT
				GAACTATGTGATTGTACCTCAAATTTTTATATTTGATGTTGT
				ATCGATCAACTTGCTTTAGCTCACGTTAGCATTTATCTGTTT
				TTCTATTGGAAAATTGACCTGAAATTATTGGGAATGTTTTT
				CTCAGGCTTTCTCTACTGCCTTAGAGCAATCATGGGCATCT
				CAAGCTCCGCTTCTGAAGAAACCCGTTAACAAAAAAGTTTT
				GAAAGTCTCAGAGCTAGTATTTGCTGATTCAAATGGCACCT
				GGGGAACACCAGTTGTCCCGACAAATCGTGAACCTGGTCT
				TAACAATATTGGCATGGTTGCCTGGTCCATGGAGATGTCA
				ACTCCTGAATTCCCTGATGGAAGAACCATATTGGTTGTAGC
				AAATGATATCACCTTCATGGCTGGATCATTTGGGCCAAAAG
				AAGATGCTCTCTTCCAGGCAGTTACAGATCTTGCTTGTTCC
				AAAAAAATTCCTCTGATTTACCTGGCTGCTAATTCTGGTGC
				TCGACTGGGTGTTGCTGAAGAGGTAAGAGCATGCTTTAAA
				ATTGGTTGGACCGATGAGTTGAACCCTGAGCGGGGGTTCC
				AGTATATCTACTTGACTCCTGAAGATTATGAGCGTATAGGG
				TCAGCAGTTATAGCCCATGAGTTAGAACTCCAAAATGGAG
				AGACTCGGTGGGTTATAGACACTGTTGTAGGGAAGGAGG
				ATGGGATAGGTGTTGAGAACTTATCTGGAAGTGGAGCTAT
				AGCTGGTGCCTACTCAAGGGCATACAAAGAAACTTTTACTC
				TAACTTTTGTAACAGGAAGAACAGTAGGTATTGGTGCCTA
				TCTTGCTCGCCTTGGGATGCGTTGTATCCAAAGGCTTGATC
				AGCCCATTATTCTGACAGGCTTTTCTACGTTAAATAAACTTC
				TTGGTCGTGAGGTTTACAGCTCACAAATGCAACTTGGCGG
				GCCCAAGATTATGGGTACAAATGGTGTTGTTCATTTAACAG
				TTTCAGATGACCTTGAAGGCATTTCAGCTATTGTCAAGTGG
				CTCAGCTATGTTCCATCCTACTCAGGAGGTGAACTTCCTAT
				TTCACGTTCTTTAGATCCTCCTGAAAGACAGGTTGATTATTT
				GCCTGAAAATTCTTGTGATCCCCGTTCTGCTATATCTGGTA
				CACTTGACTCTAATGGCAATTGGCTTGGTGGAATTTTTGAC
				AAAGATAGTTTTGTTGAAACCCTAGAAGGCTGGGCAAGGA
				CAGTTATCACTGGCCGGGCCAAACTTGGTGGAATCCCAGT
				TGGGATAGTTGCTGTTGAGACACAAACTGTGATGCAAGTT
				ATCCCAGCAGATCCTGGTCAGCTTGATTCGCATGAGCGAG
				TGGTCCCACAAGCTGGACAAGTATGGTTTCCAGATTCTGCA
				ACTAAGACAGCACAAGCTTTGATGGATTTTAACAGGGAAG
				AACTTCCACTTTTCATTCTAGCTAACTGGAGAGGCTTCTCTG
				GAGGGCAAAGGGATCTCTTTGAAGGGATTCTTCAGGCAG
				GGTCCACAATTGTCGAGAACCTTAGGACTTATAATCAACCT
				GTTTTTGTTTATATCCCCATGATGGGTGAACTTCGTGGTGG
				GGCATGGGTTGTCGTAGACAGTAAAATCAATTCGGACCAT
				ATTGAGATGTATGCTGATCAGACAGCTAAAGGAAATGTTC
				TTGAGCCAGAAGGAACGATTGAGATCAAGTTTAGAAACAA
				GGAATTAATTGAATGTATGGAAAGGCTTGATCAACATCTC
				ATCAATCTTAACGCAAAACTCGTCGAAGCCAAAAACTCCAA
				TTTATATGTTAATATCGAACTCCTGAAACAGCAGATAGAAG
				CTCGGCAGAAGCAACTTTTGCCTCTATATACTCAAATAGCC
				ACAAAATTTGCTGAATTGCATGATAGTCCTTATAGAATGGC
				TGCGAAAGGAGTCGTCAAGGAAGTCCTGGATTGGAGCAA
				TTCTCGCTTATTCTTCCACAAAAGACTGTACAGGAGAGTTA
				TGGAGGAATCACTTGTCAAGACCGTCCGAGATGCTGCTGG
				TGAAGCAATGACCCACAAGTCTGCCATGGAATTGATCAAG
				CAATGGTTTGCTGAGTCTGATAGTACTAGTGGAGTGGGAG
				CTGATCCTTGGTCTGATGATGAAGCTTTCTTCAAGTGGAAA
				GAAAATCCTGCTAATTATGAAGAAAAGCTAATCGAGTTGC
				GCATACAGAAGGTATTGCATCAGCTGTCAAATATTGGCAA
				CTCGGCTTCTGATCTGAGAGCTCTTCCTCGGGGTCTTGCTG
				CCCTTCTCCAGAAGGTATCTCTAAGTC
81	Kochia	gDNA	4017	TTCTTTTCAACTTATTTTTTATTATCTGAACTTATTTGAATTT
	scoparia	Contig		ATTTTTTCTGAAATTAAGTAAAAATAAGCTCAATAGAACAT
				ACCCAATGTAGAAAAATAGAATTAAACAAAGAAATAGTGG
				GGAAAAAAAGTGGAGGTGATTTGTGTCTCTTGTGGGCATT
				AGTTTAGTAACAGCTAGAGTAATGGATATAGATGACTTATT
				TTTAATTCATTGTATGACATACATCAAAAACCTGAAATTTTA
				GTGATATCAAATTGGCCTTAATTAGTAATTTAGTTGTTTGA
				TATTGTTGGTTATACAAGTGAAAACAGATACTTAATATGCG
				AATGATTGTGCCTATAGTGATTATGTGACTGTGTTGTTAAA
				TATAAAAGTGTTTCAGTGTTTTTAAGACAAGGGAAGTAGG
				GAACCATAAACAAAAATACGAAGCATATCTTGGGTGTTAC
				CTAGTTTTGTCCTATTTCTCAATTATTGATTTAGTTGTTTAAT
				TTGTTGGTTATAAAAGAGAGAAACCGGGATTGTTGGTGTG
				CAAAGATTGTACCTATAGTGATTATGTGACAACGTTGTCAA
				ATGTAAAAGCATTGCAATTTTTGTGAGGCAAAGGAACCAT
				AAATAAAAATGCGAAGCATGGCTTGGGTGTTACCTAGCTT
				TGTCCTATTTATTGAACTATGTGATTGTACCTCAAATTTTTA
				TATTTGATGTTGTATCGATCAACTTGCTTTAGCTCACGTTAG
				CATTTATCTGTTTTTCTATTGGAAAATTGACCTGAAATTATT
				GGGAATGTTTTTCTCAGGCTTTCTCTACTGCCTTAGAGCAA
				TCATGGGCATCTCAAGCTCCGCTTCTGAAGAAACCCGCTAA
				CAAAAAAGTTTTGAAAGTCTCAGAGCTAGTATTTGCTGATT
				CAAATGGCACCTGGGGAACACCAGTTGTCCCGACAAATCG
				TGAACCTGGTCTTAACAATATTGGCATGGTTGCCTGGTCCA
				TGGAGATGTCAACTCCTGAATTCCCTGATGGAAGAACCAT
				ATTGGTTGTAGCAAATGATATCACCTTCATGGCTGGATCAT
				TTGGGCCAAAAGAAGATGCTCTCTTCCAGGCAGTTACAGA
				TCTTGCTTGTTCCAAAAAAATTCCTCTGATTTACCTGGCTGC
				TAATTCTGGTGCTCGACTGGGTGTTGCTGAAGAGGTAAGA
				GCATGCTTTAAAATTGGTTGGACCGATGAGTTGAACCCTG
				AGCGGGGGTTCCAGTATATCTACTTGACTCCTGAAGATTAT
				GAGCGTATAGGGTCAGCAGTTATAGCCCATGAGTTAGAAC
				TCCAAAATGGAGAGACTCGGTGGGTTATAGACACTGTTGT
				AGGGAAGGAGGATGGGATAGGTGTTGAGAACTTATCTGG
				AAGTGGAGCTATAGCTGGTGCCTACTCAAGGGCATACAAA
				GAAACTTTTACTCTAACTTTTGTAACAGGAAGAACAGTAGG
				TATTGGTGCCTATCTTGCTCGCCTTGGGATGCGTTGTATCC
				AAAGGCTTGATCAGCCCATTATTCTGACAGGCTTTTCTACG
				TTAAATAAACTTCTTGGTCGTGAGGTTTACAGCTCACAAAT
				GCAACTTGGCGGGCCCAAGATTATGGGTACAAATGGTGTT
				GTTCATTTAACAGTTTCAGATGACCTTGAAGGCATTTCAGC
				TATTGTCAAGTGGCTCAGCTATGTTCCATCCTACTCAGGAG
				GTGAACTTCCTATTTCACGTTCTTTAGATCCTCCTGAAAGAC
				AGGTTGATTATTTGCCTGAAAATTCTTGTGATCCCCGTTCT
				GCTATATCTGGTACACTTGACTCTAATGGCAATTGGCTTGG
				TGGAATTTTTGACAAAGATAGTTTTGTTGAAACCCTAGAAG
				GCTGGGCAAGGACAGTTATCACTGGCCGGGCCAAACTTGG
				TGGAATCCCAGTTGGGATAGTTGCTGTTGAGACACAAACT
				GTGATGCAAGTTATCCCAGCAGATCCTGGTCAGCTTGATTC
				GCATGAGCGAGTGGTCCCACAAGCTGGACAAGTATGGTTT
				CCAGATTCTGCAACTAAGACAGCACAAGCTTTGATGGATTT
				TAACAGGGAAGAACTTCCACTTTTCATTCTAGCTAACTGGA
				GAGGCTTCTCTGGAGGGCAAAGGGATCTCTTTGAAGGGAT
				TCTTCAGGCAGGGTCCACAATTGTCGAGAACCTTAGGACTT
				ATAATCAACCTGTTTTTGTTTATATCCCCATGATGGGTGAA
				CTTCGTGGTGGGGCATGGGTTGTCGTAGACAGTAAAATCA
				ATTCGGACCATATTGAGATGTATGCTGATCAGACAGCTAA
				AGGAAATGTTCTTGAGCCAGAAGGAACGATTGAGATCAAG
				TTTAGAAACAAGGAATTAATTGAATGTATGGAAAGGCTTG
				ATCAACATCTCATCAATCTTAACGCAAAACTCGTCGAAGCC
				AAAAACTCCAATTTATATGTTAATATCGAACTCCTGAAACA
				GCAGATAGAAGCTCGGCAGAAGCAACTTTTGCCTCTATAT
				ACTCAAATAGCCACAAAATTTGCTGAATTGCATGATAGTCC
				TTATAGAATGGCTGCGAAAGGAGTCGTCAAGGAAGTCCTG
				GATTGGAGCAATTCTCGCTTATTCTTCCACAAAAGACTGTA
				CAGGAGAGTTATGGAGGAATCACTTGTCAAGACCGTCCGA
				GATGCTGCTGGTGAAGCAATGACCCACAAGTCTGCCATGG
				AATTGATCAAGCAATGGCTTGCTGAGTCTGCCATGGATAG
				TACTACTAGAGCGGGAGCTGATGCTTGGGCTGACGATGAA
				GCTTTCTTCAGGTGGAAAGAAAATCCTGCTAATTATGAAGA
				AAAGCTAATTGAGTTACGCATACAGAAAGTATTGCATCAG
				CTTTCAAATATTGACAACTCAGCTTCTGATCTGAGAGCTCTT
				CAGCTTCGTCAGGGTCTTGTTGCCCTACTTCAGAAGGTATC
				TCTAAGGTTCCTCCACACACACACACACCCCACCCACCAAA
				AAAAACACACACACACACATTCACAAGAAAAGTAGAATTG
				CTAGTGAAATAACTTCATCGTGTTCAATGCAGGTGAATTCC
				TCAAGCCGAGCAAATCTAGTAGAGAAACTCGAGAAAGTGC
				TCAATTGATTTGGTAATGATCCTGCAGAAAAACCTCTTGGT
				ATATGGTGGTATGCAAATGCCATATCTGAAAGATTGATTA
				GGCAAGTTGAGACAGAGACAGGCACAGTTGTAATAATGG
				GATCTATCAAACCAGAAGACGTTATAACTAAGCTCAAAGA
				TGATGGTGATTTTGACCGTCTTCGTCTCAAAATCATTCGTA
				AGCTCAAACAAAACGTATTTCTTTCTCCTTTTCATCTTCTACT
				GTATATTAAATGGTTTAAAATTTGATCTTGATTAATGGGTA
				ATCTTTATAATTTTATCTTTTTTATTATAATACAAGAATGAT
				ATGCATATTTTTATTTTGTTATTAATTACCAAATGCACTTCA
				GTTTACATTGCCGGTTTTGAAGTTTTGGAAGCAGAATTGG
				GGTTAGAATGCTAGATATTATTGCTTGTTGATCATTTATTCA
				GTTACTTACATTGTTTGGTTGAAATCGGAATTAAAAGAGCA
				CAAATTGTATGGTTTCTAACTCGACTTCACAATAAGAGTAT
				AGATGCTCACTGTTGTGTTGTGTGTTTTGTTTTTGTTAAGAA
				ATATTGGTTTTGATTGATGATGCTCCAAGCCTCGAGTGAGC
				GTGTTGATGAAATAGAGTACTGAATTAAAGGTTATCATTTT
				ATCGAATGTCAGATTAATTGTTAATTGTTGCTCGGAGTCGG
				AGTTTAAATGAGAATCATTTTATCGAATGTCTTAAGTTATC
				AGGGCAGATATTTTTTTTCTAGTGGGTATGGACTCTTGAGC
				CTCTTTTTTCTGTATCAAACTGTCCTGTTGGTTGTTCAAATT
				ATGCAAATCATGAAGAGATTACTTTGGTCTCAGGTTTGCTT
				CGCCATCCTTCCCAATGAATC
82	Kochia	gDNA	2591	ACAATGAGGCCTGGTATTTTATAAAAAAGAAAAGAATTGT
	scoparia	Contig		TAGTGCTAAAAACTCCTCGTATACAAAGTTACAAACAACAC
				CCAGCATCCATTTTGCATATCTAACACAAAATATACAAAAC
				ATATTAGGCAGGACAACCAAGAATTCAGAGGGAAATCTTA
				AAATATGTTAATGCGGGCAGTACGATTCCACTGCGAAAAA
				TTTACTCACTTAGACCAAGGTTAGGAACAACAATGTACACG
				AATGTTGAGCAGAGAAAATATATACAAATGAAGCAGTTCA
				TATACAATAAAAGGCAGAGAAGATGCCCAATATTCCCCTTT
				CAATCGAAATTCACAATTGATCTTGTCATTAGAAAAGTGAA
				ACAAGAGGGTCTCATCGTAATTAAGGGAATGAAGTATGCT
				TCAGCCATACCCAACAGTACCTTACAATAACTGTCAAGTTT
				CCTCACTATCTTGAGCTGCCCAAGATGGTGCAGCAAGCACT
				TGCGCTGCTAGTCTCAGAAAAACAACTATAGGCAATCCCAT
				CAAGATCTTGTTTTCTTCCAGGAATTAAAATAGTTCAGTTTC
				ATCAACATCCAAACATCAAAAACAAAATGACCTGAGATAG
				AAAAGAGCACTTACAAGCACCTTTTGATGTGCAACAAAAG
				AACAATTTCCTCAGACGAAGCACTCTTTCTCTTACCCAAAAT
				AGGCTACACACTCATTCAGATCTCAGGGTTGCTACACTCAT
				ATCGATCCCAGAAATCTTTCGTTTTTAGGGAGCAGATTTCC
				TCGCAAATGAGCATGTAAGTACTAGTTTGAAATTATCTACA
				CTACAACTTGACATCAATATCAGACTCTGACAGCCAGGGCC
				AAAGCCATCGGATTTGGTTACTCATCTGCTCACACAAATTG
				AAATGTCCGGGACATAGAAGAAAAAAATACACCTATGATG
				GTCTTGCGAAAAACTATTAAATAAAGTACTATATTTATCTTC
				TTATTAGACCATTTTAGATCAGAGAATGTTGCTTAAAATAT
				CCTAAGGAAAAAGCTCAGGCTATATGATTGTATTACACCAT
				ATTATTGATATCCCAGAGTGCACTAAGGGACTGGTGAATTT
				GGTGTTAAGCAGATGTTATCAATCCCAACTACATCATATCC
				CATCTACTAGGCAGGCAGCGGCAAGGCAATAATGTTAGGG
				AAAAAAATCCCATTATCTCCATTAGAAAACTATCATATTAG
				TCTTTAAAATTTAAACAAAAAGGAATTTCAAAACAAAATGT
				TGATTTCAATAGGCTATGTAACCTAAGCAATGTTAACAAGC
				AGAATGCTGGTTTCACTAGAAGAGCTAGTGGGCTACAGGC
				TACAAATTATCTAAGCCATTCTTGTTTCCTATGATTAGTTTT
				AATAGGCATAATAGCATAAATTCTTCTATACACATCTGCCG
				GCATTTACTGCATCACTACATTACCCGTTGTTGATGAATTTT
				TTTTATGCTCTTGGAGGGAAAAGGTCAATTCATAGTATTTG
				GATTGCAAACAATGGAATGACAACTGTTAAATTTATCAGA
				AGTGTTCGGACATGGGCTTATGAAAATTTTGGAACAGAGA
				AGGCTATTGTATTAGTAGCAATGGCTACTCCAGAAGACAT
				GAGAATCAATGTTGAACACATTCGAATTGCTCACCAGTTTG
				TTGAGGTTCCTGGTGGGACTAACAACAACTATGCCAATGT
				ACAACTCATTGTTGAGGTAAATCCTGCTTTAGTAACACTGA
				TCTTCCGTGTTTTTGCACTAATGTTGATTATACCATTTATCTT
				TTAAACGTAAGCCTTATACATGAATTTTCCCCCTACACTGTT
				CACTGTTTTTTCAATTAGAACCTAAATTTGTCTTTGTTTTTCC
				CTTTCTCTAGTCTTTGGATTACAAAGATAATAAAATTCATAC
				GGGTTGGTTAGATAGTAGAATTGCAATGAGAGTCAGAGC
				GGAAAGGCCCCCCTGGTTCATCTCTGTGGGGGGAGGTGCA
				CTCTACGTGTGTACAACTTTTCTCTTAAATTTTTTTCCTTCCA
				AAAGCTTGATGTGTCACTTTCGTTTATTTTTATAATGAATAA
				TTTTAAATACTTCGTAATTTCTTTCTCCTTTCTCCCTATCTTC
				AGTAAGCTTCTTCTAGTAGTGCAGCTACTGTTTCAGAATAT
				ATTGGCTATCTTGAGAAAGGTCAAATTCCTCCAAAGGTAAT
				CCAAACACCAGATGCTGTTGAGATATAATTGTTTTTTAAAC
				ACTAATTGTTTCTTTCAGTAAATTACATCAATATTTGTGTGG
				ATTGCAGCATATTTCACTTGTCCACTTGGAAGTTACTTTGA
				ATATTGAGGGGAGCAAGTACACTATAAGTTTATTATTAAGT
				TATGTGAATTTCATTTTTCGTTCATGGTTTCTCCTGTTTACTT
				GATGTTAATCATCATAACATGGTTGATTCTGTTCTCCAGAT
				CAAAATGGTGAGAGGCGGTCCAGGAAGCTACAGATTGTG
				ATTGAATGAGTCAAAGATTGAGGCAGAAATACATACATTA
				AGTCATTAAGAGATGGGGGTCTTTTAATGCAAGTAAGAAC
				TTAATTTTTA
83	Kochia	gDNA	704	GTGTTCGGACATGGGCTTATGAAAATTTTGGAACAGAGAA
	scoparia	Contig		GGCTATTGTATTAGTAGCAATGGCTACTCCAGAAGACATG
				AGAATCAACGCTGAACACATTCGAATTGCTGACGAGTTTGT
				TGAGGTTCCTGGTGGGACTAACAACAACTATGCCAATGTA
				CAACTCATTGTTGAGGTAAATCCTGCTTTAGTAAAACTGAT
				CTTCCGTGTTTTTGCACTAATGTTGATTATACCATTGATCTT
				TTAAACGTGAGCCTTATACATGAATTTTCCCCCTACATTGTT
				CACTGTTTTTTCAATTAGAAGCTAAATTTGTCTTTGTTTTTCC
				TTTCTCCAGTCTTTGGATTACAGAGATAATAAAATTCATAC
				GGGTTGGTTAGATAGTAGAATTGCAATGAGAGTCAGAGC
				GGAAAGGCCCCCCTGGTTCATCTCTGTGGGGGGAGGTGCA
				CTCTACGTGTGTACAACTTTTCTCTTAAATTTTTTTCCTTCCA
				AAAGCTTGATGTGTCACTTTCGTTTATTTTTATAATGAATAA
				TTTTAAATGATTTCTTTCTCCTTTCTCCCTATCTTCAGAAAGC
				TTCTTCTAGTAGTGCAGCTACTGTTTCAGAATATATTGGCT
				ATCTTGAGAAAGGTCAAATTCCTCCAAAGGTAATCCAAACA
				CCAGATGCTGTTGAGATATAATTGTTTTTTAAACACTAATT
				GTTT
84	Lolium	cDNA	842	GACATGAGGATAAATGCAGAGCACATTAGAATTGCTGATC
	multiflorum	Contig		AGTTTGTTGAAGTACCTGGTGGAACAAACAATAACAACTA
				TGCAAATGTCCAACTCATAGTGGAGATAGCAGAGAGAACA
				GGTGTTTCGGCCGTTTGGCCTGGTTGGGGCCATGCATCTG
				AGAATCCTGAACTTCCAGATGCACTCACTGCAAAAGGAATT
				GTTTTTCTTGGGCCACCAGCATCATCAATGAACGCATTAGG
				TGACAAGGTTGGTTCAGCTCTCATTGCTCAAGCAGCAGGG
				GTTCCGACTCTTGCTTGGAGTGGATCACATGTGGAAATTCC
				ATTAGAACTTTGCTTGGACTCTATACCTGAGGAGATGTATA
				GGAAAGCTTGTGTTACTACCGCGGATGAAGCAGTTGCAAG
				TTGTCAGATGATTGGTTATCCTGCCATGATCAAGGCATCCT
				GGGGTGGTGGTGGTAAAGGGATTAGAAAGGTTAATAATG
				ATGATGAGGTTAAAGCACTGTTTAAGCAAGTACAGGGTGA
				AGTTCCTGGCTCCCCAATATTTATCATGAGACTTGCATCTCA
				GAGTCGACATCTTGAAGTCCAGCTGCTTTGTGATCAATATG
				GCAATGTAGCAGCACTTCACAGTCGTGATTGCAGTGTGCA
				ACGACGACACCAAAAGATAATTGAGGAAGGACCAGTTACT
				GTTGCTCCCCGTGAGACAGTGAAGGAGCTTAGAGCAAGC
				GCAAGGAGGCTTGCTAAGGCTGTGGGATATGTTGGTGCTG
				CTACTGTTGAATATCTCTACAGCATGGAGACTGGTGAATAC
				TATTTTCTGGAGCTTAATCCACGGTTGCAGGTTGA
85	Lolium	cDNA	732	GCAGAGCTACGTGGAGGGGCTTGGGTCGTGATTGATAGC
	multiflorum	Contig		AAGATAAATCCAGATCGCATTGAGTGCTATGCTGAGACAA
				CTGCAAAAGGGAATGTTCTCGAGCCTCAAGGGTTGATTGA
				GATCAAGTTCAGGTCAGAGGAACTCCAAGAATGCATGGGT
				AGGCTTGATCCAGAATTGATAAATCTGAAAGCACAACTCC
				AGGGAGCAAAGCATGAAAATGGAAGTCTATCTGATGGAG
				AATCCATTCAGAAGAGCATCGAAGCTCGAAAGAACAGTTG
				CTGCCTTTGTACACTCAAATCGCGATACGGTTTGCTGAATT
				GCATGATACTTCCCTCAGAATGCTTGCTAAAGGTGTGATTA
				GGAAAATTGTAGATTGGGAAGAATCTCGGTCTTTCTTCTAC
				AAGAGATTACGGCGGAGGATATCTGAGGATGTTCTTGCAA
				AAGAAATAAGAAGTGTAATTGGTGTCGAGTCTTCTCACAA
				ATCAGCAATGGAGTTGATTAAGAAGTGGTACTTGGCTTCT
				GAGACAGCTGGAGGAAGCACTGAATGGGATGATGATGAT
				GCTTTTGTTGCCTGGAGGGAGAACCCTGAAAACTACAAGG
				AGCATATCAAAGAGCTTAGGGCTCAAAGGGTATCTCAGGT
				GCTCTCAGATGTTGCAGACTCCAGTTCGGATTTACAAGCCT
				TGCCACAGGGTCTTTCCATGCTACTAGATAAGATGGATCCC
				TCTAGGAGAG
86	Lolium	cDNA	668	CGTTATTGATCTAAAACGATGCTCTGCCAGGGCCAACAGA
	multiflorum	Contig		ACTACATACTGCTACGATTTTCCCTTGGCATTTGAAACTGC
				AGTGACGAAGTCATGGTCTAACATTCCTAGAAACAACCAA
				TGTTATGTTAAAGCGACAGAGCTGGTGTTTGCTGACAAGA
				ATGGGTCGTGGGGCACTCCTATAATTCCTATGCAGCGTGCT
				GCTGGGCTCAATGACATCGGTATGGTAGCCTGGATCTTGG
				ACATGTCCACTCCCGAATTTCCCAGTGGCAGACAGATTATT
				GTTGTCGCAAATGATATTACTTTTAGAGCTGGATCATTTGG
				CCCAAGGGAAGATGCATTTTTTGAAGCTGTTACCAACCTG
				GCTTGTGAGAGAAAGCTTCCTCTTATCTATTTGGCTGCAAA
				CTCTGGTGCTCGGATTGGCATTGCCGATGAAGTTAAATCTA
				TCTTCCGTGTTAAATGGATTGATGATAGCAACCCTGAACGT
				GGATTTGATTACGTTTATCTGTCTGAAGAAGACTATGGCCG
				TATTAGCTCTTCTGTTATAGCGCACAAGACACAGCTAGATA
				GTGGCGAAATAAGGTGGGTTATCGATTCTGTTGTGGGCAA
				GGAGGATGGGCTAGGTGTGGAGAACATACATGGAAGTGC
				TGCTATTGCCAGTGCGTATT
87	Lolium	cDNA	469	AGGGCGTCCTCCAATGCGCCATTCCTTCCAATGGTCATTTG
	multiflorum	Contig		ACAAGCTATATTATGAGGAGGAGCCGATGCTCCGCCATGT
				GGAACCTCCTCTGTCCACATTCCTTGAATTGGACAAAGTGA
				AATTAGAAGGTTACAGTGACATGAAATACAATCCATCGCG
				TGATCGCCAGTGGCACATTTACACACTGAACAGTGAAGAT
				CCAAAATCAAATGACCAAAGGATATTCCTTCGTACAGTTGT
				TAGACAGCCAAGTTTAACCAATGGGTTTTTGTTTGGAAGTA
				TCGACAATGAAGTAGGCCGTTCTCAGGCCACATCGTCATTC
				ACATCTAACAGCATACTTAGATCATTGATTGCAGCGCTAGA
				AGAAATAGAGTTACATGCTCATAATAAGGCCATGAGGTCA
				CGCCATTCCCACATGTATCTGTGCATGTTGAGAGAACAACG
				GTTGTCTGATCTAATTCCATTT
88	Lolium	gDNA	4094	CACTTCTAAAGCCACAAGTAGAGGATCCCATTCGCAGGCG
	multiflorum	Contig		ATGGGGTGTAATGGTTGTAATCAAGTCTCTTCAGCTTCTGC
				CAACTGCAATTGAAGCTGCATTAAAGGAGACTTCACATTAT
				GGAGCAGGTGATGCAAATGTCTCCAATGGTAGTCCTATAA
				GATCTAATAATAGCAATATGCTGCATATTGCTTTGGTTGGT
				ATCAGAAATCAGATGAGTACTCTTCAAGACAGGTTCGTTTA
				CACTCTCTACTCTTTGCGATTCTTTATTCTTGATGAAACACA
				AAATATCATAAGAGTGATTCTATGAACTGGTTCTGAATTTC
				ATGAAATTTTTAGTTACACCCTCCACTTTGTTTTCTCTTTTTA
				GTGGTGATGAGGATCAAGCACAAGAAAGGATCAACAAAC
				TTTCCAAGATTTTGAGGGATACCACTATAACATCACATCTC
				AATGGTGCTGGTGTTAGGACTGTCAGCTGCATTATCCAAA
				GAGATGAAGGGCGTCCTCCAATGCGCCATTCCTTCCAATG
				GTCATTTGACAAGCTATATTATGAGGAGGAGCCGATGCTC
				CGCCATGTGGAACCTCCTCTGTCCACATTCCTTGAATTGGT
				ATGCAGCTTTAGTTTTGGCTTATGTTCTCTTCAACAATACCA
				GTACCTCTAATAACTTATCTGTAAATACAGGACAAAGTGAA
				ATTAGAAGGTTACAGTGACATGAAATACAATCCATCGCGT
				GATCGCCAGTGGCACATTTACACACTGAACAGTGAAGATC
				CAAAATCAAATGACCAAAGGATATTCCTTCGTACAGTTGTT
				AGACAGCCAAGTTTAACCAATGGGTTTTTGTTTGGAAGTAT
				CGACAATGAAGTAGGCCGTTCTCAGGCCACATCGTCATTCA
				CATCTAACAGCATACTTAGATCATTGATTGCAGCGCTAGAA
				GAAATAGAGTTACATGCTCATAATAAGGCCATGAGTTCAT
				GCCATTCCCACATGTATCTGTGCATGTTGAGAGAACAACG
				GTTGTCTGATCTAATTCCATTTTCAAGGTCAGTCAAAATAT
				ACTTATGTTCTCAATAAAATACACTGCATTAAATGTGCTCAT
				ATGATGCTCACTTGGTTTGTGCTTCTCATGGTGTTAGGATG
				ATGGGTGAAGTTGGTCAAGATGAGGAGGCAGCATGCACA
				CTTTTGAAGCATATGGTTATGAATATATATGAACATGTTGG
				TGTCAGGATGCATCGCCTTTCTGTGTGCCAATGGGAAGTG
				AAGCTATGGTTAGATTGTGATGGGCAAGCCAATGGTGCTT
				GGAGAGTTGTCATTACCAATATAACTGGGCATACCTGCACT
				GTTGATGTAAGTTACCTTAGCGATTGCTGTATTGCACTACT
				ATGTGAACAACAGCATCTACAGTTCTGCATATCATAAAGAA
				TGCTACCTCTGATGGCCCCATAGATCATCATATATGATTAT
				ATTTTAGTTAGTAAATAGAACATGGTCATCATTTCCATCATT
				CGTGTCATGGACATTCTCTCAACTGATGCCTTTAAAGGGTC
				TATTAAAGACCACTTAAAAATAATTAAGTACTATTTTCTCTT
				TATTCCAATACTCTTATATGCTCACATTCGTTTGACTTTCAG
				ATTTACCGAGAAGTAGAAGACTCCAATACGCATCAGATTTT
				CTACCGCTCTGCCACACACACAGCTGGTCCTTTGCATGGCA
				TTGCATTGCATGAGCCATACAAACGTTTGGCTCCTATTGAC
				ATGAAACGGTCTGCGGCTAGGAAAAACGAAACTACATACT
				GCTATGATTTCCCATTGGTGAGTTGGTTGCGTTTGTTAATTT
				ACTTTTTATCTAACATTAGTTCGCATGATTAACCTGATCAAC
				TGAGTTTGCTAATAATACTCTGTCCACAGGCATTTGAAACA
				GCATTGAAGAAATTGTGGAAATCTAGTGCTTCACATCTTGC
				AGAAACTAACCAGCATAATCAGCAGTATGCTGAAGTGACA
				GAGCTTTTATTTGCTGATTCAACTGGATCATGGGGTACTCC
				TTTGGTTCCAGTTGAACGTTCTCCATGTGTCAATGATATCG
				GCATTGTTGCTTGGAAGATGAAGCTCTCCACGCCAGAATTT
				CCAGGCGGCCGGGAGATTATAGTTGTTGCAAATGACGTGA
				CGTTTAAAGCTGGGTCTTTTGGTCCTAGAGAAGATATATTC
				TTTCATGCTGCTACCAATCTTGCCTGTGAGAGGAAAATTCC
				TCTAATCTACTTGTCAGCAACTGCTGGTGCTAGGCTTGGTG
				TGGCAGAGGAAATAAAGTCGTGCTTCCATGTTGGATGGTC
				TGATGACCAGAGTCCTGAACGTGGTTTTCACTACATTTACC
				TCACTGAAGAAGACTATTCACGTCTAAGCTCTTCAGTTATA
				GCCCATGAACTGAAACTAGACAGCGGAGAAACCAGATGG
				ATTGTTGATACCATTGTTGGGAAAGAGGATGGACTTGGTT
				GTGAGAATCTGCATGGTAGTGGTGCCATTGCCAGTGCCTT
				TGCTAAGGCATATAGAGAGACCTTTACTCTGACATTTGTGA
				CTGGAAACGCAGTTGGAATTGGGGCTTATCTTGCTCGGCT
				AGGAATGCGGTGTATACAGCGACTTGATCAATCAATTCTTT
				TAACTGGTTTTTCTGCCCTGAACAAACTTCTGGGGCGCGAG
				GTTTATAGCTCTCAGATGCAACTGGGTGGCCCCAAAATTAT
				GGGTACAAATGGAGTCGTCCATCTGACAGTGCCAGATGAT
				CTTGAAGGTGTTTCTGCTATCTTGAAATGGCTCAGCTATGT
				TCCTGCCTATGTTGGCGGTCCTCTTCCTATTCTGAAGCCTCT
				TGATCCACCAGATAGAGCTGTAACATATTTCCCAGAGAATT
				CATGTGATGCCCGTGCAGCCATCTGTGGGATTCAGGACAC
				TCAAGGCAAGTGGTTGGGTGGTATGTTTGACAGAGAAAG
				CTTTGTGGAAACATTAGAAGGATGGGCAAAAACTGTTATT
				ACTGGAAGGGCAAAGCTGGGTGGGATTCCAGTTGGCGTC
				ATAGCAGTGGAAACCCAGACAATGATGCAAGTAATCCCTT
				CTGACCCTGGTCAGCTTGATTCCGCTGAGCGTGTAGTCCCT
				CAAGCAGGACAGGTGTGGTTCCCAGATTCGGCCTCAAAAA
				CAGCGCAGGCGTTGCTGGATTTCAACCATGAAGGGCTCCC
				ATTGTTCATACTTGCTAACTGGAGAGGCTTCTCTGGTGGGC
				AAAGGGATCTGTTTGAAGGAATCCTTCAGGCTGGCTCTAC
				AATTGTTGAGAACCTGAGGACCTACAAGCAGCCAGCTTTT
				GTGTACATCCCAAAGGCTGGAGAGCTGCGTGGAGGTGCA
				TGGGTTGTGGTGGACAGCAAGATCAATCCTGAGCACATTG
				AGATGTATGCGGAGAGGACTGCAAAGGGAAATGTCCTTG
				AGCCAGAAGGGCTGATTGAGATTAAATTTAAGCCAAAAGA
				AGTGGAAGAGAGTATGATAAGGCTTGACCCTGAGCTGGC
				CAGCCTTGATTCTAGACTCAAAGAAATGAAGAAAGCAAAT
				GCTAGCCTGCAGGAAACGGAGGCCATCAACAGGAGCATC
				AACAACCGGATAAAGAAGCTGATGCCCATCTATACGCAGG
				TTGCCACACGGTTTGCTGAATTGCACGACACCTCTTCCAGA
				ATGACTGCCAAAGGTGTGATCAGTAAGGTGGTTGATTGGG
				AGGAGTCTCGGAGCTTCTTCTACAGGAGGTTGCGAAGGCG
				GGTCGCGGAGGATTCCCTTGCCCAGGAAGTTAAAGAAGCC
				GCTGGTGAGCCGATGCCTCACAGAGCAGCACTGGAGCGT
				ATCAAGCAGTGGTATCTGGCCTCCAAGGGTTCCGAAGGAG
				ACGGTGAGAAGTGGAACGATGACGAGGCTTTCTTCGCCTG
				GAAAGACGATGCCAAGAACTACGAGAACCATCTTCAGGAG
				TTGAAGGCTGAAAGAGTATCTAGACTGTTCTCGGATCTTGC
				TGAAAGCTCGGACGTGAAGGCCTTGCCCAACGGTCTTTCG
				CGCCTCCTTGGCAAAGTAAGTTCTGCTTCTTCTTTTCTTA
89	Lolium	gDNA	3198	CTAGTTCTTGACTCGAGAAGAAGGTCTGCAGCCAGCAGCC
	multiflorum	Contig		TCGTTCGTTAACTCGGCGAGCAAAGGAAACAAGGTAAACA
				CACGATCCTGGCAAACACTTTTCTTTCTTCTCTGAATTGAAG
				TCGTCGATATCGTGATGTTTCATCTTCGTTACAATAAGCTTG
				GATGACGGGGAGGGTACTTGCGTTGGCTAGGCAGTCGTTT
				CGACAAAGCTGGTGGTGGTGTGTCAACTCCAAAAGCCAAC
				CTGCTTTTCGTTTCTGGCAACAACCCTCCCCTGTTCAAAAAC
				CTTGTCCTGTCAAATCCCAGCTTGCCGAAACGTCCTACTGC
				TGGCACCCCTTGTACCTCTTGTTCTAGGTTTGATCAAAGTT
				GATCTTTGTCAAATTTTACTAGATTTTTTTTACATCTATACA
				ACATATTTGTACAGTACATGTGCATACCGATCGATATAATT
				TTGTTGGTGCTCGCAGAGTTTGACTAGCATGTAGCAGGAG
				CAGTGATTTATGCTACTACTACTTATTGTACTCCAGTAGGA
				TCTACAATAGTACTAGTATCGTAGTCGTCGAATTTAGTCAG
				TGGTAGCAAACACCAAACAGCGAGCAGAGAACGTCGCCTT
				CGCCGCCGTGATGCTGCTGGGTTGGGGGTTTAGCTCAGCT
				ACCTCCCAACTAATTCCATCCTTCCCCAAATCAAATAAAAAA
				GAAAAGAAAATAAATAAAACCAGTCCACCCCACAGTCCAA
				ATCCAAGTCCCAAGTCCCAACCCAGCTCCTCTCGCTCACGC
				CTTCCGGCCTCCCTCTCTACCCCGTCCCGTGTTCCGGCCCCA
				GCCGAGCGTCGCATGGCGGGGCCGCCGGTGGCACGGCAG
				TTATAAGCCGCGCGCGGCCAACCATCCAGCGAGAGCACAG
				CACAGTAGCATAGCTACCTCGCAGCACGCCCTCCCTCCCTG
				CTAGCTACTCCTCCTCTGCAGACTGCAGCGGGTGGGGGAG
				AGGAGGCGCGCATTTAAGCCCGGCCTCCTCACCTGTCGGC
				CTGCCGCCGCGCCCGACGCCGAGGCCTTCCCTTCCCGGATC
				TTGATCTGCCCGCCTTCCTCCTCCTCGGCGGCATTCCGTCG
				AACGGGCGGCGCGCGCCTACGGCAGTACGGTACCTACCCT
				GCCTTCTCTCCCCCCATCTCCCCTGCTCGCCGTGTACGCGCC
				AGCGTTGGGCACCCCGCACAAATCTACCACACAATTTCGCT
				CTCCCCGGCTCAGTCAGTCGCCGCTGTGCGTAGATCGCTTC
				CACTTCCTGCTGGGCGCTCCTGGACGTTCCGTCGAGCGGTT
				TCTGAGATTGGGCTGAGGGGATCATACCGGCTTCCTTTTCT
				GTCCTCTTTTCTGTTCCGTTGCGTGCAGGAATTGTTGTCTGC
				TCCCACGCCTTTGCTTGCTCACCTATTCCGTGGACTCCCCTG
				TGATCACAACATACTCAGCATACTTTTTCTTCACATGCCTAG
				GATAATGAAATCGCAATCTATGTACCATCGCTGTCGCGATT
				TCTGCTGGCTGTTGACTACTAATTTTACCCCTTCACTTGTGT
				ACTTATCCTCGTACCGCTGCTTGAGGAATTTCATATTTGGCT
				GCTTGAGGAATTTCATAAATCTGGCTAGACACTCTTCATGT
				TTTTGTTCTTACATCTAGTAGTAGTTCAGAAAGAGGAAGCA
				CAGACGAGCAACTGACGTATCCGTGCAATTGTTCGCTAGT
				CAGAATGACAGAATCGACGTGCTCATTTATATACCTGATGT
				AATTGTGCGCTTCTCCTCAAGCCGTAGCTTGAGGCGTTTCA
				TTTTGTTCGTTTGCGAAAAGTTTGATGAGGAATTTCATGGT
				CTGGCTACGTACTCACCTTGTTTGTTTGCATCATTTTAGCAT
				CAAGTTCAGAAACAATAAATACCCTACTTGTGCAATCATTC
				GCTAACAGAATCGACAATGCTAACGGTTTTTCTGTCCGTTG
				CTTGTCCAGCGCTGAAGGCTAGAGGGCGGCGACAATGGT
				GGCGGAACCGGACAAGACAAATGGGACGCCCAACAGGAT
				GTCCAGTAACAGGCACCTGTCCTCGCCGTCCGTGGTCGAC
				GAGTTCTGCAAGGCGCTCGGGGGCGATTCGCCCATCCACA
				GCGTCCTGGTCGCCAACAATGGAATGGCCGCCGTCAAGTT
				CATGCGCAGCATCCGCACCTGGGCCCTCGAGACGTTTGGG
				ACCGAGAAGGCCATTCTCCTGGTGGCCATGGCAACTCCGG
				AGGACCTCAGGATAAACGCCGAGCACATAAGGATCGCCG
				ACCAGTTCTTGGAAGTCCCTGGCGGAACAAACAATAACAA
				TTATGCGAATGTGCAGCTCATTGTGGAGGTTAGCACGACG
				ACCATTCTCCCGGTCCTTTTTACTAGCTTGTTGATTTAGCGT
				ATCCATGTTTCTTGTGCTGGATATTTGACTAGTTACTTAATG
				TTTCTACCTTCACTGTCACAGATAGCGGAGAGAACTCGGGT
				TTCTGCGGTTTGGCCTGGCTGGGGCCATGCTTCTGAGAAC
				CCGGAACTTCCAGACGCGCTCAAGGAGAAGGGAATCATTT
				TTCTTGGGCCACCATCAGCCGCGATGGCTGCACTTGGTGAT
				AAGATTGGTTCTTCTCTTATTGCGCAAGCAGCAGGAGTTCC
				GACTCTTCCATGGAGTGGATCACATGTATACGTTCTTCTAT
				TTCTGTATAGTTTTGCTCCTCTTTTTTTATCGGCTGCTATGTT
				GCTTAAAATTAAATCCAAATCAACTGTAGGTGAAAGTTCCG
				CAAGAAACCTGCCACTTGATACCTGAGGACATCTATAAGA
				AAGCTTGTGTTACAACTACGGAGGAAGCGGTGGCTAGTTG
				TCAGGTGGTGGGGTATCCTGCAATGATCAAGGCATCATGG
				GGTGGTGGTGGTAAAGGAATAAGGAAGGTTGGTCTTCTTT
				TTAGTTCGACTCTACCGCAATTATATGGAAAGTCTCTGTTC
				ACAAACGATACATGGAAATGTCCACTGTCCATACAAAACG
				AAGCTAGGTTTCGGCAAATATTGTAGAATAAACGAAAGAT
				GATTTTGATGTCATCCAAATGCTTTTTATAGGTCCACAATG
				ATGATGAGGTGAGAGCCTTGTTTAAGCAAGTGCAAGGAG
				AAGTCCCCGGATCACCTATATTTATCATGAAGGTGGCATCT
				CAGGTGATAAGTGATAACAGC
90	Lolium	gDNA	511	CTAATAACTTATCTGTAAATACAGGACAAAGTGAAATTAGA
	multiflorum	Contig		AGGTTACAGTGACATGAAATACAATCCATCGCGTGATCGC
				CAGTGGCACATTTACACACTGAACAGTGAAGATCCAAAAT
				CAAATGACCAAAGGATATTCCTTCGTACAGTTGTTAGACAG
				CCAAGTTTAACCAATGGGTTTTTGTTTGGAAGTATCGACAA
				TGAAGTAGGCCGTTCTCAGGCCACATCGTCATTCACATCTA
				ACAGCATACTTAGATCATTGATTGCAGCGCTAGAAGAAAT
				AGAGTTACATGCTCATAATAAGGCCATGAGTTCACGCCATT
				CCCACATGTATCTGTGCATGTTGAGAGAACAACGGTTGTCT
				GATCTAATTCCATTTTCAAGGTCAGTCAAAATATACTTATGT
				TCTCAATAAAATACACTGCATTAAATGTGCTCATAGATGCT
				CACTTGGTTTGTGCTTCTCATGGTGTTAGGATGATGGGTGA
				AGTTGGTCAAGATGAGGAGAT
91	Lolium	gDNA	252	TTCTCTGTAGAGCCGACATCTAGAGGTTCAGCTGCTCTGTG
	multiflorum	Contig		ACAAACACGGCAATGTAGCAGCACTGCACAGTCGAGACTG
				TAGTGTTCAAAGAAGGCACCAAAAGGTTAGAAATTCTCCT
				GAAAAGTTATGTTGTCCAATATCAGTTTCCTTGGAGCTAAT
				ACATGCCGAAACATTGTATACTGAGTACTGGTAGAAGTTCT
				GTAGCTTTAGGGATTGGCAAAGTGCTAAACTCTGCAGAAG
				CTATACAAA
92	Sorghum	cDNA	1913	CTCACAGATGTATCTGTGCTTACTGAGAGAACAACAATTGC
	halepense	Contig		ATGAACTAATTCCATTTTCAAGGATGACTGATGAAATTGAT
				CAGGATGAAGGAACTGCATGTACACTTTTGAAGCATATGG
				TATTGAATTTATATGAACATGTTGGGGTCAGGATGCATCGT
				CTTTCTGTGTGCCAGTGGGAAGTCAAGCTCTGGTTGGTTTG
				TGATGGGCAAGCTAGTGGTGCTTGGAGAGTTGTTGTTACC
				AATGTTACTGGTCACACCTGCACCATTGATATTTACCGAGA
				AGTGGAAGACCCCAGCACACATCAGCTTCTCTACCACTCTG
				CCACAGCCACGGCTGGTCCTTTGCATGGTGTTGCATTGAAT
				GAACCATACAAGCCTTTGGACGCTATTGACCTCAAACGTTA
				TGCTGCTAGGAAAAATGAAACCACATACTGCTACGATTTCC
				CCTTGGCATTTGAAACAGCGCTGAAGAGATTATGGAAATC
				AAGTAGCTATGGTGTTAGTGAAGCTAATGAGCGCAATCAA
				CTCTATGCTGAAGTGAAAGAGCTTATATTTGTTGATTCGGA
				TGGAGCATGGGGCACTCCATTGGTTTCATTTGAACGCCCTC
				CAGGCATCAATGATATTGGCATTGTTGCTTGGAACATGAA
				GCTGTCCACGCCAGAATTCCCAAGTGGCCGGGAGATTATA
				GTTGTTGCCAATGATGTGACATTTAAAGCTGGGTCCTTTGG
				TCCAAGAGAAGATGCATTTTTTGATGCTGTTACCAATCTTG
				CCTGTGAGAGGAAACTTCCTCTTATCTATCTGGCAGCAACT
				GCTGGTGCCAGGCTTGGTGTAGCTGAGGAAATAAAGTCAT
				GCTTCCATGTCGGCTGGTCTGATGATGAGAGCCCTGAACG
				TGGTTTTCAGTACATTTACCTCACTACACAAGATTATTCACG
				TCTAAGCTCTTCAGTAATAGCTCACGAGCTGCAACTAGAAA
				ATGGAGAAACCAGATGGGTGGTTGATACCATTGTTGGTAA
				AGAGGATGGACTTGGTTGTGAGAATCTCCATGGAAGTGGT
				GCGATTGCCAGTGCATATTCCAAGGCATACAAAGAGACCT
				TTACTCTGACATTTGTGACTGGAAGAGCTGTTGGCATTGG
				GGCTTATCTGGCTCGTTTAGGTATGAGGTGTATACAACGTC
				TTGATCAACCAATTATTCTGACTGGGTTTTCTGCACTAAAC
				AAGCTTCTGGGGCGGGAGGTGTACAGTTCTCATATGCAAT
				TGGGTGGCCCCAAAATCATGGCTACAAATGGTGTTGTCCA
				CCAAACTGTGTCAGATGACCTTGAAGGTGTTTCTGCTATCC
				TGAAATGGCTCAGTTATGTTCCTCCATATGTTGGTGGTCCT
				CTTCCCATTATGAAACCCCTGGACCCACCCGAAAGACCAGT
				AGCATACTTCCCTGAGAATGCTTGTGATGCTCGTGCAGCCA
				TCTGTGGCATTCAAGACGGTGAAGGGAAGTGGTTAGGTG
				GTATGTTTGATAGGGAAACCTTCGTGGAAACATTGGAAGG
				TTGGGCAAAAACAGTTATCACCGGAAGAGCAAAGCTTGGT
				GGAATACCAGTTGGTGTCATAGCTGTGGAAACCCAGACTG
				TGATGCAAGTCATCCCAGCTGATCCAGGTCAGCTTGATTCC
				GCTGAGCGTGTAGTCCCTCAAGCAGGTCAGGTGTGGTTCC
				CAGATTCTGCAGCCAAAACAGCTCAGGCATTAATGGATTTC
				AACCGTGAGGAGCTTCCACTGTTCATCCTTGCAAACTGGA
				GAGGTTTCTCTGGTGGGCAAAGGGATTTATTTGAAGGAAT
				CCTTCAGGCTGGTTCAACAATTGTTGAGAATCTGAGGACG
				TACAAGCAGCCTGCTTTTGTATATATCCCAATGGGTGGAGA
				GCTACGGG

Claims

1. A method of plant control comprising: treating a plant with a composition comprising a polynucleotide and a transfer agent, wherein said polynucleotide is essentially identical or essentially complementary to an ACCase gene sequence or fragment thereof, or to an RNA transcript of said ACCase gene sequence or fragment thereof, wherein said ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof, whereby said plant growth or development or reproductive ability is reduced or said plant is more sensitive to an ACCase inhibitor herbicide relative to a plant not treated with said composition.

2. The method as claimed in claim 1, wherein said transfer agent is an organosilicone surfactant composition or compound contained therein.

3. The method as claimed in claim 1, wherein said polynucleotide fragment is 18 contiguous, 19 contiguous nucleotides, 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92.

4. The method as claimed in claim 3, wherein said polynucleotide fragment is selected from the group consisting of sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA, or dsDNA/RNA hybrids.

5. The method as claimed in claim 1, wherein said plant is selected from the group consisting of Amaranthus palmeri, Amaranthus rudis, Amaranthsu chlorostachys, Amaranthus thunbergii, Amaranthus graecizans, Amaranthus hybridus, Amaranthus lividus, Amanaranthus spinosus, Abutilon theophrasti, Ambrosia trifida, Commelina diffusa, Conyza candensis, Lolium multiflorum, Sorghum halepense, Xanthium strumarium, Euphorbia heterophylla, Kochia scoparia and Digitaria sanguinalis

6. The method as claimed in claim 1, wherein said composition further comprises said ACCase inhibitor herbicide and external application to a plant with said composition.

7. The method as claimed in claim 6, wherein said composition further comprises one or more herbicides different from said ACCase inhibitor herbicide.

8. The method as claimed in claim 3, wherein said composition comprises any combination of two or more of said polynucleotide fragments and external application to a plant with said composition.

9. A composition comprising a polynucleotide and a transfer agent, wherein said polynucleotide is essentially identical or essentially complementary to an ACCase gene sequence, or to an RNA transcript of said ACCase gene sequence, wherein said ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof, and whereby a plant treated with said composition has its growth or development or reproductive ability regulated, suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said polynucleotide containing composition relative to a plant not treated with said composition.

10. The composition of claim 9, wherein said transfer agent is an organosilicone composition.

11. The composition of claim 9, wherein said polynucleotide fragment is 18 contiguous, 19 contiguous nucleotides, 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92.

12. The composition of claim 9, wherein said polynucleotide is selected from the group consisting of SEQ ID NO: 93-3900.

13. The composition of claim 9, wherein said polynucleotide is selected from the group consisting of SEQ ID NO: 3901-4530.

14. The composition of claim 9, further comprising an ACCase inhibitor herbicide.

15. The composition of claim 14, wherein said ACCase inhibitor molecule is selected from the group consisting of aryloxyphenoxypropionates, cyclohexanediones and phenylpyrazoline.

16. The composition of claim 14, further comprising a non-ACCase inhibitor herbicide.

17. A method of reducing expression of an ACCase gene in a plant comprising: external application to a plant of a composition comprising a polynucleotide and a transfer agent, wherein said polynucleotide is essentially identical or essentially complementary to an ACCase gene sequence or fragment thereof, or to the RNA transcript of said ACCase gene sequence or fragment thereof, wherein said ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof, whereby said expression of said ACCase gene is reduced relative to a plant in which the composition was not applied.

18. The method as claimed in claim 17, wherein said transfer agent is an organosilicone compound.

19. The method as claimed in claim 17, wherein said polynucleotide fragment is 19 contiguous nucleotides, 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92.

20. The method as claimed in 17, wherein said polynucleotide molecule is selected from the group consisting of sense or anti-sense ssDNA or ssRNA, dsRNA, or dsDNA, or dsDNA/RNA hybrids.

21. A microbial expression cassette comprising a polynucleotide fragment of 18 contiguous, 19 contiguous nucleotides, 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92.

22. A method of making a polynucleotide comprising a) transforming the microbial expression cassette of claim 21 into a microbe; b) growing said microbe; c) harvesting a polynucleotide from said microbe, wherein said polynucleotide is 18 contiguous, 19 contiguous nucleotides, 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92.

23. A method of identifying polynucleotides useful in modulating ACCase gene expression when externally treating a plant comprising: a) providing a plurality of polynucleotides that comprise a region essentially identical or essentially complementary to a polynucleotide fragment of 18 contiguous, 19 contiguous nucleotides, 20 contiguous nucleotides or at least 21 contiguous nucleotides in length and at least 85 percent identical to an ACCase gene sequence selected from the group consisting of SEQ ID NO:1-92; b) externally treating said plant with one or more of said polynucleotides and a transfer agent; c) analyzing said plant or extract for modulation of ACCase gene expression, and whereby a plant treated with said composition has its growth or development or reproductive ability regulated, suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said polynucleotide containing composition relative to a plant not treated with said composition.

24. The method as claimed in 23, wherein said plant is selected from the group consisting of Amaranthus palmeri, Amaranthus rudis, Amaranthsu chlorostachys, Amaranthus thunbergii, Amaranthus graecizans, Amaranthus hybridus, Amaranthus lividus, Amanaranthus spinosus, Abutilon theophrasti, Ambrosia trifida, Commelina diffusa, Conyza candensis, Lolium multiflorum, Sorghum halepense, Xanthium strumarium, Euphorbia heterophylla, Kochia scoparia and Digitaria sanguinalis

25. The method as claimed in 23, wherein said ACCase gene expression is reduced relative to a plant not treated with said polynucleotide fragment and a transfer agent.

26. The method as claimed in 23, wherein said transfer agent is an organosilicone compound.

27. An agricultural chemical composition comprising an admixture of a polynucleotide and an ACCase inhibitor and a co-herbicide, wherein said polynucleotide is essentially identical or essentially complementary to a portion of an ACCase gene sequence, or to a portion of an RNA transcript of said ACCase gene sequence, wherein said ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof, and whereby a plant treated with said composition has its growth or development or reproductive ability regulated, suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said polynucleotide containing composition relative to a plant not treated with said composition.

28. The agricultural chemical composition of claim 27, wherein said co-herbicide is selected from the group consisting of amide herbicides, arsenical herbicides, benzothiazole herbicides, benzoylcyclohexanedione herbicides, benzofuranyl alkylsulfonate herbicides, cyclohexene oxime herbicides, cyclopropylisoxazole herbicides, dicarboximide herbicides, dinitroaniline herbicides, dinitrophenol herbicides, diphenyl ether herbicides, dithiocarbamate herbicides, glycine herbicides, halogenated aliphatic herbicides, imidazolinone herbicides, inorganic herbicides, nitrile herbicides, organophosphorus herbicides, oxadiazolone herbicides, oxazole herbicides, phenoxy herbicides, phenylenediamine herbicides, pyrazole herbicides, pyridazine herbicides, pyridazinone herbicides, pyridine herbicides, pyrimidinediamine herbicides, pyrimidinyloxybenzylamine herbicides, quaternary ammonium herbicides, thiocarbamate herbicides, thiocarbonate herbicides, thiourea herbicides, triazine herbicides, triazinone herbicides, triazole herbicides, triazolone herbicides, triazolopyrimidine herbicides, uracil herbicides, and urea herbicides.

29. An agricultural chemical composition comprising an admixture of a polynucleotide and an ACCase inhibitor herbicide and a pesticide, wherein said polynucleotide is essentially identical or essentially complementary to a portion of an ACCase gene sequence, or to a portion of an RNA transcript of said ACCase gene sequence, wherein said ACCase gene sequence is selected from the group consisting of SEQ ID NO:1-92 or a polynucleotide fragment thereof, whereby a field of crop plants in need of weed and pest control are treated with said composition, and whereby a plant treated with said composition has its growth or development or reproductive ability regulated, suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said polynucleotide containing composition relative to a plant not treated with said composition.

30. The agricultural chemical composition of claim 29, wherein said pesticide is selected from the group consisting of insecticides, fungicides, nematocides, bactericides, acaricides, growth regulators, chemosterilants, semiochemicals, repellents, attractants, pheromones, feeding stimulants, and biopesticides.

31. A herbicide composition comprising an ACCase inhibitor herbicide and a polynucleotide and a transfer agent, wherein said polynucleotide is selected from the group consisting of SEQ ID NO: 4531-4538 or a complement or polynucleotide fragment thereof, and whereby a plant treated with said composition has its growth or development or reproductive ability regulated, suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said polynucleotide containing composition relative to a plant not treated with said composition.