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. No. 7,807,791 (SEQ ID NO:5); U.S. Pat. Nos. 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. No. RE 37,287 E; and U.S. Pat. No. 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. Nos. 7,935,869; 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 9th 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.




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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; a monophasic solution of phenol and guanidine isothiocyanate), 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 concentration 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 were set forth in SEQ ID NOs: 1-92 and Table 1.


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 non-transcribable polynucleotide and a transfer agent, wherein said non-transcribable polynucleotide is from 18 to about 700 nucleotides in length and is at least 85% identical or at least 85% 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 NOs:1-92 and a polynucleotide fragment thereof, wherein said transfer agent conditions the surface of said plant for permeation by said non-transcribable polynucleotide, and whereby said plant's growth, 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 non-transcribable polynucleotide is selected from the group consisting of sense ssDNA, anti-sense ssDNA, sense ssRNA, anti-sense ssRNA, dsRNA, dsDNA, and dsDNA/RNA hybrids.
  • 4. 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.
  • 5. The method as claimed in claim 1, wherein said composition further comprises said ACCase inhibitor herbicide and said treating comprises external application to said plant with said composition.
  • 6. The method as claimed in claim 5, wherein said composition further comprises one or more herbicides different from said ACCase inhibitor herbicide.
  • 7. The method as claimed in claim 1, wherein said composition comprises any combination of two or more of said non-transcribable polynucleotide or a fragment thereof and said treating comprises external application to said plant with said composition.
  • 8. A composition comprising a non-transcribable polynucleotide and a transfer agent, wherein said non-transcribable polynucleotide is from 18 to about 700 nucleotides in length and is at least 85% identical or at least 85% 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 NOs:1-92 and a polynucleotide fragment thereof, wherein said transfer agent conditions the surface of a plant for permeation by said non-transcribable polynucleotide, and whereby said plant treated with said composition has its growth, development, or reproductive ability suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said non-transcribable polynucleotide containing composition relative to a plant not treated with said composition.
  • 9. The composition of claim 8, wherein said transfer agent is an organosilicone composition.
  • 10. The composition of claim 8, wherein said non-transcribable polynucleotide is selected from the group consisting of SEQ ID NOs: 93-3900 and a fragment thereof.
  • 11. The composition of claim 8, wherein said non-transcribable polynucleotide is selected from the group consisting of SEQ ID NOs: 3901-4530 and a fragment thereof.
  • 12. The composition of claim 8, further comprising said ACCase inhibitor herbicide.
  • 13. The composition of claim 12, wherein said ACCase inhibitor herbicide is selected from the group consisting of aryloxyphenoxypropionates, cyclohexanediones and phenylpyrazoline.
  • 14. The composition of claim 12, further comprising a non-ACCase inhibitor herbicide.
  • 15. A method of reducing expression of an ACCase gene in a plant comprising: external application to said plant of a composition comprising a non-transcribable polynucleotide and a transfer agent, wherein said non-transcribable polynucleotide is from 18 to about 700 nucleotides in length and is at least 85% identical or at least 85% 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 NOs:1-92 and a polynucleotide fragment thereof, wherein said transfer agent conditions the surface of said plant for permeation by said non-transcribable polynucleotide, and whereby said expression of said ACCase gene is reduced relative to a plant in which the composition was not applied.
  • 16. The method as claimed in claim 15, wherein said transfer agent is an organosilicone compound.
  • 17. The method as claimed in claim 15, wherein said non-transcribable polynucleotide is selected from the group consisting of sense ssDNA, anti-sense ssDNA, sense ssRNA, anti-sense ssRNA, dsRNA, dsDNA, and dsDNA/RNA hybrids.
  • 18. A method of identifying non-transcribable polynucleotides useful in modulating ACCase gene expression when externally treating a plant comprising: a) providing a plurality of non-transcribable polynucleotides that are from 18to about 700 nucleotides in length and are at least 85 percent identical or at least 85 percent complementary to an ACCase gene sequence selected from the group consisting of SEQ ID NOs:1-92; b) externally treating said plant with one or more of said non-transcribable polynucleotides and a transfer agent; and c) analyzing said plant or extract for modulation of ACCase gene expression, wherein said transfer agent conditions the surface of said plant for permeation by said one or more of said non-transcribable polynucleotides, and whereby said plant treated with said one or more of said non-transcribable polynucleotides and said transfer agent has its growth, development, or reproductive ability suppressed or delayed or said plant is more sensitive to an ACCase inhibitor herbicide as a result of said one or more of said non-transcribable polynucleotides and said transfer agent relative to a plant not treated with said one or more of said non-transcribable polynucleotides and said transfer agent.
  • 19. The method as claimed in claim 18, 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.
  • 20. The method as claimed in claim 18, wherein said ACCase gene expression is reduced relative to a plant not treated with said one or more of said non-transcribable polynucleotides and said transfer agent.
  • 21. The method as claimed in claim 18, wherein said transfer agent is an organosilicone compound.
  • 22. An agricultural chemical composition comprising an admixture of a non-transcribable polynucleotide, an ACCase inhibitor herbicide, and a co-herbicide, wherein said non-transcribable polynucleotide is from 18 to about 700 nucleotides in length and is at least 85% identical or at least 85% 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 NOs:1-92and a polynucleotide fragment thereof, and whereby a plant treated with said composition has its growth, development, or reproductive ability suppressed or delayed or said plant is more sensitive to said ACCase inhibitor herbicide as a result of said non-transcribable polynucleotide containing composition relative to a plant not treated with said composition.
  • 23. The agricultural chemical composition of claim 22, 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.
  • 24. An agricultural chemical composition comprising an admixture of a non-transcribable polynucleotide, an ACCase inhibitor herbicide, and a pesticide, wherein said non-transcribable polynucleotide is from 18 to about 700 nucleotides in length and is at least 85% identical or at least 85% 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 NOs:1-92 and a polynucleotide fragment thereof, and whereby a plant treated with said composition has its growth, development, or reproductive ability suppressed or delayed or said plant is more sensitive to said ACCase inhibitor herbicide as a result of said non-transcribable polynucleotide containing composition relative to a plant not treated with said composition.
  • 25. The agricultural chemical composition of claim 24, wherein said pesticide is selected from the group consisting of insecticides, fungicides, nematicides, bactericides, acaricides, growth regulators, chemosterilants, semiochemicals, repellents, attractants, pheromones, feeding stimulants, and biopesticides.
  • 26. A herbicide composition comprising an ACCase inhibitor herbicide, a non-transcribable polynucleotide, and a transfer agent, wherein said non-transcribable polynucleotide is selected from the group consisting of SEQ ID NOs: 4531-4538 and a complement or a polynucleotide fragment thereof, wherein said transfer agent conditions the surface of a plant for permeation by said non-transcribable polynucleotide, and whereby said plant treated with said composition has its growth, development, or reproductive ability suppressed or delayed or said plant is more sensitive to said ACCase inhibitor herbicide as a result of said non-transcribable polynucleotide containing composition relative to a plant not treated with said composition.
  • 27. The method of claim 1, wherein said non-transcribable polynucleotide is an RNA polynucleotide.
  • 28. The composition of claim 8, wherein said non-transcribable polynucleotide is an RNA polynucleotide.
Parent Case Info

This application claims benefit under 35USC §119(e) of U.S. provisional application Ser. No. 61/534,073 filed Sep. 13, 2011, herein incorporated by reference in it's entirety. The sequence listing that is contained in the file named “40_21(58637)B seq listing.txt”, which is 2,094,591 bytes (measured in operating system MS-Windows) and was created on 6 Sep. 2012, is filed herewith and incorporated herein by reference.

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Related Publications (1)
Number Date Country
20130318658 A1 Nov 2013 US
Provisional Applications (1)
Number Date Country
61534073 Sep 2011 US