Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_36994 LG11 31489349 31496999 PREDICTED: putative disease resistance protein At4g11170 isoform X1
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   signal transduction
Cellular Component   located in   chloroplast, chloroplast, chloroplast
Molecular Function   enables   ADP binding, ADP binding
SNP Position Effect Amino acid change
G/A 31489396 synonymous_variant p.Gly16Gly
C/T 31489411 synonymous_variant p.Thr21Thr
A/G 31489431 missense_variant p.Tyr28Cys
G/T 31489445 missense_variant p.Asp33Tyr
A/G 31489464 missense_variant p.Tyr39Cys
C/A 31489472 missense_variant p.Arg42Ser
G/A 31489504 synonymous_variant p.Pro52Pro
G/A 31489524 missense_variant p.Arg59Gln
A/G 31489531 synonymous_variant p.Ser61Ser
A/G 31489533 missense_variant p.His62Arg
A/G 31489615 synonymous_variant p.Arg89Arg
G/A 31489619 missense_variant p.Glu91Lys
C/A 31489622 missense_variant p.Leu92Met
T/C 31489632 missense_variant p.Val95Ala
T/A 31489703 missense_variant p.Leu119Met
T/G 31489754 missense_variant p.Ser136Ala
T/G 31489812 intron_variant
G/T 31489826 intron_variant
C/A 31489833 intron_variant
C/G 31489849 intron_variant
A/G 31489858 intron_variant
T/C 31489893 intron_variant
C/A 31489910 intron_variant
T/C 31489946 intron_variant
T/C 31489970 intron_variant
T/G 31489987 intron_variant
G/C 31490089 intron_variant
C/T 31490092 intron_variant
C/T 31490104 intron_variant
A/T 31490117 intron_variant
T/C 31490126 intron_variant
T/C 31490151 intron_variant
C/T 31490168 intron_variant
G/C 31490181 intron_variant
T/A 31490201 intron_variant
T/A 31490242 intron_variant
T/G 31490249 intron_variant
T/A 31490250 intron_variant
T/A 31490254 intron_variant
A/C 31490258 intron_variant
C/T 31490494 missense_variant p.Ala209Val
A/G 31490584 stop_lost p.Ter239Trpext*?
C/A 31490602 missense_variant p.Pro245Gln
G/A 31490614 missense_variant p.Arg249Lys
G/A 31490633 missense_variant p.Met255Ile
G/A 31490667 missense_variant p.Glu267Lys
A/G 31490722 missense_variant p.His285Arg
G/A 31490738 splice_region_variant&synonymous_variant p.Val290Val
G/A 31490739 missense_variant&splice_region_variant p.Gly291Arg
G/A 31490740 missense_variant&splice_region_variant p.Gly291Glu
T/A 31490742 splice_donor_variant&intron_variant
G/C 31490852 intron_variant
C/T 31490872 intron_variant
T/G 31490879 intron_variant
A/G 31490886 intron_variant
A/G 31490895 intron_variant
C/T 31490899 intron_variant
G/A 31490900 intron_variant
G/C 31490903 intron_variant
G/C 31490916 intron_variant
T/A 31490959 intron_variant
C/T 31490962 intron_variant
C/G 31490984 intron_variant
G/C 31490997 intron_variant
G/A 31491003 intron_variant
T/C 31491007 intron_variant
A/G 31491017 intron_variant
T/A 31491035 intron_variant
C/T 31491046 intron_variant
G/A 31491067 intron_variant
A/G 31491071 intron_variant
G/C 31491075 intron_variant
G/A 31491088 intron_variant
A/T 31491097 intron_variant
A/T 31491104 intron_variant
A/T 31491107 intron_variant
T/A 31491109 intron_variant
A/C 31491124 intron_variant
A/C 31491144 splice_region_variant&intron_variant
G/A 31491146 splice_acceptor_variant&intron_variant
C/G 31491152 missense_variant p.His293Asp
C/A 31491161 synonymous_variant p.Arg296Arg
G/C 31491188 missense_variant p.Ala305Pro
G/A 31491206 missense_variant p.Val311Ile
C/A 31491211 synonymous_variant p.Leu312Leu
T/G 31491221 missense_variant p.Ser316Ala
A/C 31491232 synonymous_variant p.Thr319Thr
C/T 31491241 synonymous_variant p.Tyr322Tyr
C/G 31491243 missense_variant p.Thr323Arg
T/C,G 31491247 missense_variant p.Asn324Lys
A/C 31491256 missense_variant p.Gln327His
C/T 31491262 synonymous_variant p.His329His
A/T 31491300 missense_variant p.Gln342Leu
G/C 31491309 missense_variant p.Arg345Thr
G/A 31491311 missense_variant p.Ala346Thr
T/A 31491343 missense_variant p.Asp356Glu
A/T 31491344 missense_variant p.Asn357Tyr
A/T 31491349 missense_variant p.Glu358Asp
A/G 31491387 intron_variant
T/C 31491417 intron_variant
A/G 31491420 intron_variant
A/C 31491422 intron_variant
T/C 31491423 intron_variant
A/T 31491439 intron_variant
G/C 31491447 intron_variant
C/T 31491456 splice_region_variant&intron_variant
A/T 31491467 missense_variant p.Glu370Asp
T/C 31491497 synonymous_variant p.Ser380Ser
A/G 31491504 missense_variant p.Lys383Glu
G/A 31491536 synonymous_variant p.Thr393Thr
G/A 31491546 missense_variant p.Ala397Thr
G/A 31491562 missense_variant p.Arg402Lys
T/A 31491578 synonymous_variant p.Ser407Ser
T/A 31491591 missense_variant p.Trp412Arg
C/A 31491603 missense_variant p.Leu416Ile
G/A 31491629 synonymous_variant p.Pro424Pro
C/T 31491652 missense_variant p.Thr432Ile
T/C 31491687 missense_variant p.Ser444Pro
C/A 31491720 missense_variant p.His455Asn
C/G 31491726 missense_variant p.Gln457Glu
G/A 31491738 missense_variant p.Val461Ile
G/T 31491756 stop_gained p.Gly467*
A/C 31491772 splice_region_variant&intron_variant
T/C 31491788 intron_variant
G/T 31491809 intron_variant
T/C 31491837 intron_variant
C/T 31491848 splice_region_variant&intron_variant
C/T 31491864 synonymous_variant p.Asn473Asn
G/A 31491877 missense_variant p.Asp478Asn
G/A 31491943 missense_variant p.Val500Met
G/A 31492000 missense_variant p.Ala519Thr
A/G 31492012 missense_variant p.Thr523Ala
G/T 31492023 synonymous_variant p.Leu526Leu
A/C 31492024 missense_variant p.Asn527His
G/C 31492029 synonymous_variant p.Gly528Gly
T/C 31492056 synonymous_variant p.Gly537Gly
A/G 31492058 missense_variant p.Glu538Gly
C/T 31492075 synonymous_variant p.Leu544Leu
G/C 31492078 missense_variant p.Glu545Gln
A/G 31492079 missense_variant p.Glu545Gly
A/T 31492081 stop_gained p.Lys546*
G/T 31492083 missense_variant p.Lys546Asn
G/A 31492088 missense_variant p.Ser548Asn
G/A 31492106 missense_variant p.Ser554Asn
T/A 31492129 missense_variant p.Leu562Ile
T/C 31492136 missense_variant p.Leu564Ser
A/G 31492141 missense_variant p.Lys566Glu
A/G 31492146 missense_variant p.Ile567Met
A/G 31492150 missense_variant p.Asn569Asp
G/T 31492360 missense_variant p.Val639Leu
T/G 31492375 missense_variant p.Leu644Val
T/G 31492376 missense_variant p.Leu644Trp
G/T 31492380 missense_variant p.Leu645Phe
T/G 31492389 synonymous_variant p.Leu648Leu
A/C 31492391 missense_variant p.Gln649Pro
T/G 31492398 synonymous_variant p.Leu651Leu
G/A 31492411 missense_variant p.Gly656Ser
G/A 31492412 missense_variant p.Gly656Asp
T/C 31492612 missense_variant p.Cys723Arg
G/A 31492622 missense_variant p.Arg726His
C/T 31492638 synonymous_variant p.Asn731Asn
A/T 31492639 missense_variant p.Ser732Cys
G/C 31492647 missense_variant p.Glu734Asp
G/A 31492656 synonymous_variant p.Leu737Leu
A/T 31492659 synonymous_variant p.Pro738Pro
A/G 31492684 missense_variant p.Lys747Glu
T/G 31492761 synonymous_variant p.Val772Val
T/C 31492767 synonymous_variant p.Leu774Leu
A/C 31492853 missense_variant p.Tyr803Ser
T/A 31492857 missense_variant p.Ser804Arg
C/A 31493201 missense_variant p.Ser919Tyr
A/G 31493423 missense_variant p.Lys944Glu
A/T 31493427 missense_variant p.Tyr945Phe
G/T 31493429 stop_gained p.Glu946*
A/G 31493430 missense_variant p.Glu946Gly
A/T 31493436 missense_variant p.Asn948Ile
G/A 31493528 splice_region_variant&intron_variant
C/A 31493541 downstream_gene_variant
C/A 31493579 downstream_gene_variant
C/A 31493586 downstream_gene_variant
C/T 31493747 downstream_gene_variant
A/G 31493871 synonymous_variant p.Ser995Ser
G/C 31493938 downstream_gene_variant
A/T 31493996 downstream_gene_variant
T/G 31494021 downstream_gene_variant
T/C 31494025 downstream_gene_variant
A/C 31494035 downstream_gene_variant
T/C 31494038 downstream_gene_variant
G/A 31494042 downstream_gene_variant
A/G 31494047 downstream_gene_variant
A/G 31494053 downstream_gene_variant
A/C,G 31494071 downstream_gene_variant
C/T 31494073 downstream_gene_variant
T/C 31494113 downstream_gene_variant
C/T 31494114 downstream_gene_variant
G/C 31494122 downstream_gene_variant
A/G 31494153 downstream_gene_variant
C/G 31494158 downstream_gene_variant
G/T 31494163 downstream_gene_variant
A/G 31494182 downstream_gene_variant
C/T 31494188 downstream_gene_variant
G/T 31494211 downstream_gene_variant
T/A 31494213 downstream_gene_variant
C/G 31494260 downstream_gene_variant
C/A 31494289 downstream_gene_variant
A/G 31494291 downstream_gene_variant
C/A 31494729 downstream_gene_variant
C/A 31494735 downstream_gene_variant
T/A 31494907 downstream_gene_variant
T/A 31495064 downstream_gene_variant
A/T 31495181 downstream_gene_variant
A/T 31495266 downstream_gene_variant
T/A 31495274 downstream_gene_variant
G/C 31495423 missense_variant p.Cys1065Ser
G/A 31495511 downstream_gene_variant
T/C 31495647 downstream_gene_variant
C/T 31495878 downstream_gene_variant
C/T 31495883 downstream_gene_variant
C/T 31495887 downstream_gene_variant
G/A 31495904 downstream_gene_variant
T/C 31495909 downstream_gene_variant
G/A 31495936 downstream_gene_variant
C/T 31496040 downstream_gene_variant
G/T 31496111 splice_acceptor_variant&intron_variant
A/G 31496146 missense_variant p.Gln1091Arg
C/A 31496172 missense_variant p.His1100Asn
C/G 31496214 missense_variant p.Gln1114Glu
G/C 31496231 missense_variant p.Glu1119Asp
A/C 31496234 missense_variant p.Lys1120Asn
G/A,* 31496238 missense_variant p.Val1122Ile
C/T,* 31496242 missense_variant p.Thr1123Ile
T/C,* 31496243 synonymous_variant p.Thr1123Thr
A/G,* 31496248 missense_variant p.Tyr1125Cys
G/A 31496252 synonymous_variant p.Ser1126Ser
A/C 31496254 missense_variant p.Tyr1127Ser
T/G 31496258 missense_variant p.Phe1128Leu
G/A 31496269 missense_variant p.Ser1132Asn
C/A 31496280 missense_variant p.Gln1136Lys
C/T 31496307 missense_variant p.Leu1145Phe
C/A 31496316 missense_variant p.Leu1148Ile
T/C 31496329 missense_variant p.Leu1152Pro
G/A 31496352 missense_variant p.Glu1160Lys
A/T 31496429 synonymous_variant p.Ser1185Ser
C/T 31496431 missense_variant p.Thr1186Ile
A/G 31496435 synonymous_variant p.Ser1187Ser
G/A 31496442 missense_variant p.Asp1190Asn
C/G 31496444 missense_variant p.Asp1190Glu
T/C 31496465 synonymous_variant p.Tyr1197Tyr
G/A 31496502 missense_variant p.Ala1210Thr
G/A 31496526 missense_variant p.Glu1218Lys
T/A 31496643 missense_variant p.Tyr1257Asn
G/A 31496738 synonymous_variant p.Gln1288Gln
G/A 31496844 missense_variant p.Asp1324Asn
G/A 31496861 synonymous_variant p.Leu1329Leu
G/C 31496873 missense_variant p.Met1333Ile
T/G 31496915 synonymous_variant p.Leu1347Leu
G/A 31496961 missense_variant p.Glu1363Lys
A/G 31496972 synonymous_variant p.Gly1366Gly
G/A 31496978 missense_variant p.Met1368Ile

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_36994.1
MSYSTKKHDVFVSFRGEDTRTNFTSHLYKALEDKSIGAYIDRQLDRGESVWPALAKAIRDSHVSIVVFSENYACSKWCLEELVKILECRKELGLVVIPVFYNIDPSDIRNQKGTYEKALAELLESDEEKGPKWKASLTEAANISGWDSRTHRDEAHVIENVVNDVLQKLHLRCPTELKGPVENEENCRNVELLLKSCRVIGIWGMGGIGKSTIAKILFAKHFPQYDHVCFVTNAKEYSLDKLFSTILKEEVSAKNVVGSSFHMRRLRSKKVFIVLDDVDMDSFEPLEYLCGEDHATRILDACGFEATSGIEVLADKSLLTISYTNIIQMHDLLQQMGLEIVRQECRADPGRRSRLKDNEAREVIEENKGTEAIQGIELDLSQVKNLRLRSDTLTKMKALRFLRFYNSSGQSSWNTYLDLPATLEPFSDKLRYTEWIGYPFECLPSPFCAKFLVEIHMQHGKVKQLWQGIQELDNLEGIDLSGCKQFEELPDLSKAPRLKWVNLSCCESLRYLHPSVLSSATLVTLILNGCTKLESVKGEKRLKSLEKISVNGCLSLEEFAVSLDLIKILNVSNAPVRRMGKLKSLNLEEFPRSLRRWLELVKTTVSHHLKHSYVLKLDQYDGTTLPEFIKNSENLRILSVENCDLLMHLQKLPSSIGYLGVINCTSLVSVSDLVNLANVMRGSTRFITFKNCLKLDEHSCRLIMKSVKLIMVCSAFDNLVRKSCDVRDYSYNSVELCLPGRKVPQEIKYRSTESFITIDLPKLSNLRGFIYSVVLSPSGEMKKHDTKIICKRHLRQNTRESWVYSDIEGLNTDHVYIWYDPFHSDGILKYNEPSVSFEFCVRNDKGEVDGSMFIKECGVGLISVSELPSVLEELDWHSDKKKDLVNRVELITGQRITLTSIEQSDERKNHFSALEEIINSTHKEAKTDSGTDYGQNTTKSTDAVKYEGNRETSIKQDATLPETVESELDKEHESKEKSKSDSEIVKPVSAENGKSTHKETKTNSGTSVVKYKGNKEVPKSDATLHETMESHSDNENQFREKSVTQSEVVEMIELENTESTCKETLSIAGRGPKEKSRESTKIVADEHLQSTSLQASSQGGSEHLHDRLEESNKQVVQTYDTEKFVTKYSYFDLESCLQQLHENPFAILDLLSNELSPPLKQSETCVQKVAQANDATTVLDEFRTLVFSTSLLDKLPDQSYRQQIEESLRKLHAYRREITKEQEGVDKFIELYDKAANISQEKMLTEDKQIKLASKKRDLYNKLQDSKLKVQQFDTAISTSKSEIENLQKRQREIQGAINKLQQENEALEKERSAQEVLYSEKQTKKDETLELVKYMSTSVVYTIKQLEELEEKRLSLALAYEDLKEPYGIMKTKPPF*


CDS Sequence:
>Vu_36994.1
ATGAGTTACTCCACGAAAAAGCACGACGTGTTCGTGAGCTTCAGAGGGGAGGACACACGAACCAACTTCACTAGCCATCTTTACAAAGCTCTCGAAGATAAATCAATCGGAGCTTACATAGATCGCCAGCTAGACAGAGGAGAAAGTGTCTGGCCGGCACTTGCCAAAGCAATTCGGGACTCACATGTCTCAATTGTTGTTTTCTCTGAAAACTATGCTTGTTCCAAATGGTGTCTGGAAGAGCTGGTGAAAATTCTTGAATGCAGAAAAGAACTGGGTTTGGTAGTTATACCTGTCTTTTACAACATAGATCCATCAGACATAAGGAATCAGAAGGGTACTTACGAGAAGGCATTGGCAGAACTGTTGGAATCCGATGAAGAGAAAGGGCCAAAGTGGAAAGCTTCTCTCACTGAAGCAGCCAATATATCTGGATGGGACTCTAGGACACATAGGGACGAAGCTCATGTCATTGAGAATGTTGTCAATGATGTATTGCAAAAGCTTCATCTGCGATGCCCTACTGAATTAAAGGGCCCTGTTGAAAATGAAGAAAATTGCAGAAATGTAGAATTATTACTAAAATCATGTAGGGTCATTGGAATTTGGGGTATGGGTGGAATTGGCAAGTCCACCATTGCTAAAATCTTGTTTGCTAAACACTTTCCCCAATATGACCATGTCTGCTTTGTGACCAATGCAAAAGAATATTCGCTAGACAAGCTTTTCTCTACCATATTGAAGGAGGAGGTTTCCGCAAAAAATGTCGTAGGGTCATCGTTTCATATGAGGAGACTCAGAAGTAAAAAGGTTTTCATTGTACTTGATGATGTTGACATGGATAGTTTTGAGCCATTGGAGTATTTATGTGGGGAAGATCATGCCACACGGATACTAGATGCCTGTGGTTTTGAAGCAACTAGTGGAATAGAAGTTCTCGCAGACAAATCTTTGTTAACAATTTCATACACAAATATAATACAAATGCACGACTTGCTGCAACAAATGGGTTTGGAGATTGTACGTCAAGAATGTAGAGCAGATCCTGGCAGACGTAGTCGCTTGAAGGATAATGAAGCTCGTGAAGTGATTGAAGAAAACAAGGGAACTGAAGCAATTCAAGGAATAGAACTGGATTTGTCTCAAGTTAAAAATTTACGTTTGCGTTCTGACACATTGACGAAGATGAAAGCCTTAAGATTTCTGAGATTCTATAACTCCTCTGGTCAGAGTTCTTGGAATACATACCTCGACCTTCCTGCAACTCTTGAGCCGTTTTCTGATAAACTAAGGTACACTGAGTGGATTGGATACCCTTTTGAGTGTCTTCCATCACCTTTTTGTGCAAAGTTTCTTGTTGAGATTCACATGCAACATGGCAAAGTTAAACAACTTTGGCAGGGAATCCAGGAACTAGATAACTTAGAGGGAATTGACCTAAGTGGATGCAAACAGTTTGAAGAGCTTCCAGATTTGTCTAAGGCGCCAAGACTTAAATGGGTGAATCTCTCATGTTGTGAAAGTTTGCGGTATCTTCACCCGTCTGTTTTATCCTCGGCCACGCTTGTTACTTTGATACTGAATGGGTGTACAAAACTCGAGAGTGTTAAAGGTGAAAAGCGTTTAAAATCTCTAGAGAAGATCAGTGTCAATGGCTGCTTAAGTCTGGAGGAATTTGCAGTGTCATTAGATTTAATTAAAATATTGAATGTGAGCAATGCACCAGTAAGGCGAATGGGAAAACTCAAGAGCCTCAATTTAGAGGAGTTTCCAAGATCCCTTCGTCGTTGGTTGGAACTTGTCAAGACTACGGTGAGCCACCACCTCAAACATTCGTACGTGCTAAAGTTAGATCAATACGATGGGACAACGTTGCCTGAATTCATTAAGAATTCCGAAAACTTGAGAATTTTGTCCGTGGAGAATTGTGACTTGTTGATGCATCTTCAAAAGCTTCCATCCAGCATCGGTTACTTAGGTGTCATTAACTGCACTTCACTGGTGTCAGTGTCAGACTTAGTCAATTTGGCAAATGTGATGCGGGGAAGTACCAGATTCATTACATTCAAGAACTGCTTGAAATTGGATGAACATTCATGCAGACTTATAATGAAGAGCGTAAAGTTAATAATGGTGTGTTCTGCATTTGACAACCTGGTGAGAAAATCCTGTGACGTCCGCGACTACAGTTATAACAGTGTTGAGCTTTGTTTGCCAGGAAGAAAGGTCCCACAAGAGATTAAATATCGGAGCACCGAGTCCTTCATTACCATTGACCTTCCCAAACTTTCCAACTTGAGGGGCTTCATTTACTCTGTTGTTCTTTCTCCATCTGGTGAAATGAAGAAGCATGACACCAAGATTATATGTAAACGCCACTTGAGACAAAATACGAGGGAATCATGGGTATATAGTGATATCGAGGGCTTGAACACCGATCATGTTTATATATGGTATGATCCATTCCACAGTGATGGCATTCTCAAATATAATGAGCCAAGTGTTTCTTTTGAGTTCTGTGTTAGAAATGATAAGGGGGAAGTTGATGGCTCTATGTTTATTAAAGAGTGTGGTGTTGGCCTTATAAGTGTTTCAGAACTGCCGAGTGTTTTAGAAGAGTTGGACTGGCACTCGGATAAGAAGAAGGACTTAGTGAATAGAGTGGAGTTGATTACAGGACAAAGGATAACCTTAACATCAATTGAACAATCCGATGAGAGGAAAAACCATTTTTCTGCTTTGGAAGAGATTATCAATTCTACTCACAAGGAAGCCAAAACTGATTCTGGCACAGATTATGGGCAGAATACTACAAAATCTACTGATGCGGTCAAATATGAAGGAAATAGAGAAACGTCAATCAAACAAGATGCAACATTGCCTGAAACTGTTGAATCGGAGTTAGACAAAGAACATGAATCTAAAGAAAAGTCAAAGTCAGACTCAGAGATTGTTAAACCAGTTTCAGCTGAAAATGGTAAATCTACTCACAAGGAAACCAAAACTAATTCTGGAACAAGTGTGGTCAAATACAAAGGTAATAAAGAAGTGCCAAAATCAGATGCAACATTGCATGAGACCATGGAGTCACATTCAGACAATGAAAATCAGTTTAGAGAAAAGTCAGTCACACAATCAGAGGTAGTAGAGATGATTGAGCTAGAGAACACTGAATCTACTTGCAAGGAAACCCTGAGCATTGCTGGAAGAGGTCCCAAAGAAAAATCTAGAGAGTCTACAAAAATTGTGGCCGATGAACATTTACAGAGCACATCTCTTCAAGCCTCTTCCCAGGGGGGCTCTGAGCACTTGCATGATAGGTTAGAAGAATCGAATAAGCAAGTTGTACAAACTTATGATACAGAGAAATTTGTTACTAAATACTCGTACTTTGACCTTGAGAGTTGCCTCCAACAGTTGCATGAAAATCCATTTGCAATCCTTGACTTACTCTCTAATGAGCTATCCCCTCCTCTGAAACAATCAGAAACTTGTGTTCAAAAGGTAGCTCAAGCAAATGATGCTACAACCGTCCTCGATGAATTCCGAACCTTAGTGTTCTCAACTTCATTGCTAGACAAACTTCCAGACCAATCCTATCGGCAACAAATTGAAGAATCACTACGAAAACTTCACGCTTATCGTAGAGAAATTACGAAAGAGCAAGAAGGTGTAGACAAATTTATCGAGCTATACGATAAAGCTGCCAACATTTCTCAAGAAAAGATGCTAACCGAGGATAAACAAATAAAACTGGCATCTAAGAAGAGAGACTTGTATAACAAACTTCAAGATTCTAAACTGAAAGTTCAACAGTTTGACACTGCCATCTCAACTAGTAAGTCTGAGATTGAAAACCTCCAAAAGAGACAGAGAGAAATCCAGGGAGCTATAAATAAGCTTCAACAAGAAAATGAAGCCTTGGAAAAGGAGAGGTCAGCACAAGAGGTTTTATACTCAGAAAAACAAACCAAGAAGGACGAAACACTTGAATTGGTGAAGTATATGTCGACTTCTGTTGTTTACACAATCAAACAATTAGAAGAACTTGAAGAGAAAAGATTGAGTTTGGCTTTAGCTTACGAAGACCTCAAAGAGCCATATGGAATAATGAAGACAAAGCCCCCATTTTAG


Promoter Sequence:
>Vu_36994::LG11:31487349-31489349(+)
TATTTTTTTTCTTACGTTTCTGTTCTAAAAATACTTCCAAGTACAAAAGAACTTTTAAAGAGAATTATACTTCCATATAATCAAAAGCAAGTTAAGAAAAGAACAAGAACAGAAACATATATTGCACAGGAAATTTACATTAATGTATCGTCATACAACCAATTCCAATGAACAGAATGATTAGCCTATCTTAGACATCTCAAACGTACACTTTTCAGCAATTCCTTACAAAAAGTGAAGTCTTGATGTCTTGAAAGGTTTCCTGAGTGTCTCCAGTATTTTTCTCGCTTTTTCGTGTCAGAAGATAGTTTCTGCCTTTCTGTCACGTCTTTTTAAGCCACTTAACTTAATTAATTCGCTCAGCGCACATGTGTGTGTGCGCCGTGCGAATTTTCTTTAACTGCTGCACTTCAACTGATGTTATTCGCTCAGCGCACAGGTACTGGTGTGCTATGCGAATTTACTTTTTTTAGCTGTGCGAATTTTGGCTTGCGTTATGCGAGAATTGGCTGACAGACTCCAAACTATACACCCTTTCTTGTACAATTATTTACATAACAATCTACTTCCTATTACAACTTTTCACTGAGTAATAACATGAATAATTATAAGATTGAGATCATTTATAAGTGTAAAAACAACTCTTTTTCACACTTATCATGGAGGTGGACATAGATGGTGGATTGGAGGTGGAAACTAATGGTAGAGTGGAGGTGGACAAAGATGGTGGACTGGAGGTGGAAACTAATGGTAGAAACTGAGCCAGTTTTCTTTCATGTGTTTTTCGTTGAATTTCATTTGGGACCAAAGTACACAGTTTTAAATTGAAAAGGGGACACGTTGCACATTTTTTTACCAAAGGGAAAACTAAATTTAACATTACATATAAACACTTGAATGTAAACATTTAGCTTCACCTTCACATTACGTGAACACCTACACCTAAACGTAAACATTGAGCTTCACCTTCACATTACATGAATATAAACATTGACTTAGACCTTAATGTAAACATTGACCCACCTACGAACATAAACCTAAACAGACCCACATTGTCACAATGTTCACTGCAATAACAACACACACAACTCCAACTAACAATTTTATCCTTTCTCTGACAATTTCACCATCTCTTTCGTCAATCTTTTCTTCATTACACCACTTGAAAAAGTTACAGTACATCTCTCTTGAAGATCCACCCTATTATTCACCAAATAAGCCACCAAAATTGATTCAAACTCAGCAATCTATGAACAAATAAATTCCAAATTAAGTGAGAAGGGTATTCATAAAACTTTGTAATGACGACATCCCAAAATTGTCTGCCAACATTCTGTGGAGTTTTGGCCACTTTGCTTACAACAAAATTGTCACATTTGCAACGAGGGATTATCCCACCTCCCCTTCAACCACCATCGTGTGAGGAATGCGAAATTCTTTCCGGCCATGTATTGGAACAAAAAGAACAACCTTCGGAAGAAGCTATTTCTATCTACCCACAACTACTTTGCTCAAAAAAGAGAAGAAGTTGCACGAACCCTCACCAACCCTAACCCTTTTCTTTTACCCAATAACTTAAACTTTAAACATTTCCACCAAGTCAATTCACTTCACATTGCCACGCAATCAATAAGTGCCTAGGTCATCTAATTTTAGCCACGGTGGCACGCCGTAAGCTAAAAAGACTACGCCGTAAGCTAAAAAGATCATTTTAAACATTTTTTAACGAAAAATAGGACCTAAGTGATCTTTTAAAAAACGTAGGACGACTTTGAAAAAAACTCCACGAACAGAGATCAAATGTATTAAACCCATAATATAATATTGAATACTTCCGGAAAAAAGGAGGAAGAAAACAGGTAGAATACTTCCTTTTAAGGTAGAATGGTGGAACGTGTGCTGACTTAACATGTTGGAGCGTTACCAAGTCAACGAATGAAAATCAAATAAAAGAAGAGCTTGATCGGGATTGTTCCTTGCTTGCATTGGCAGTGGCGAGA


Gene Sequence:
>Vu_36994(+)
ATGAGTTACTCCACGAAAAAGCACGACGTGTTCGTGAGCTTCAGAGGGGAGGACACACGAACCAACTTCACTAGCCATCTTTACAAAGCTCTCGAAGATAAATCAATCGGAGCTTACATAGATCGCCAGCTAGACAGAGGAGAAAGTGTCTGGCCGGCACTTGCCAAAGCAATTCGGGACTCACATGTCTCAATTGTTGTTTTCTCTGAAAACTATGCTTGTTCCAAATGGTGTCTGGAAGAGCTGGTGAAAATTCTTGAATGCAGAAAAGAACTGGGTTTGGTAGTTATACCTGTCTTTTACAACATAGATCCATCAGACATAAGGAATCAGAAGGGTACTTACGAGAAGGCATTGGCAGAACTGTTGGAATCCGATGAAGAGAAAGGGCCAAAGTGGAAAGCTTCTCTCACTGAAGCAGCCAATATATCTGGATGGGACTCTAGGACACATAGGTAAGCAATTAGCTTTCTCTATGGTTTCACCTCTTCCACTTCTTTCTCAAGTTCATACGCTATAATGTCTTGTTTTTCTCTTCCACTTTTCCAATTTTTGTTATTCCCAAGTTTGTACTTGAACAGAACTTTTGAAGATGTTTCATGTTTTTTTTTTTTGTAGAGTTTTAATATATAGTTACTTAAAAGTTACACTGACTAGTTGTAATCTTTGATTGATTGACAGGGTACATTTTTTTAGTAAATTATACGTTTTTTTTTTCTATCCTTTTCTTGAATTTCATTGAACACCCCTTTTTCCTCTTGAGAATCTACTCTAAATTCTTTAATTGTTTTCACAACCTTAATCTGTTATACATTATACCATCTTCTTTGAAGAGTCTGGAAAATATTATAATGTCTACCTTGCACGAGTGATTGCTGTAAACTTTCAGTGTTTTACATATTCACTTTCACTCGTTAGATTCAAAACATGTCGTTAATATTCCCCTTTAGTGATTTGTTTCATATCTTTGTTAGGGACGAAGCTCATGTCATTGAGAATGTTGTCAATGATGTATTGCAAAAGCTTCATCTGCGATGCCCTACTGAATTAAAGGGCCCTGTTGAAAATGAAGAAAATTGCAGAAATGTAGAATTATTACTAAAATCATGTAGGGTCATTGGAATTTGGGGTATGGGTGGAATTGGCAAGTCCACCATTGCTAAAATCTTGTTTGCTAAACACTTTCCCCAATATGACCATGTCTGCTTTGTGACCAATGCAAAAGAATATTCGCTAGACAAGCTTTTCTCTACCATATTGAAGGAGGAGGTTTCCGCAAAAAATGTCGTAGGGTCATCGTTTCATATGAGGAGACTCAGAAGTAAAAAGGTTTTCATTGTACTTGATGATGTTGACATGGATAGTTTTGAGCCATTGGAGTATTTATGTGGGGTGTATGAAGGCCAGCATAGTGATAGTAAACTCGTTATAACAACAAGAGATAGGCAATTGCTTGTTGGAAGGGTTGATGCGATATACGAGGTTCAGAAATGGAAGAAAACAGAATCTCTGAAGCTTTTTTGCTCAGAATCCTTTAAGAAAAGTTATCCCGAAGGAGGTTATGAGAGTCTCTCAGAAAGTGCAGTTGAATATGCTGGTGGCGTTCCATTTGCCCTTAAAGTTTTGGGTTCATATCTTCGTTCAAAAGGTATCAGTTTTTGGGAAAGTACTATAAGAAAACTCAGCTTGTATCCTAACGAGAGAATTCAGAAAGTGTTGGAAATGAGCTACACTGGATTGCATGATCTAGAAAAAAATATTTTTCTAGACATTGTATTTTTCTTTAGAGAAAAACAGGAAGATCATGCCACACGGATACTAGATGCCTGTGGTTTTGAAGCAACTAGTGGAATAGAAGTTCTCGCAGACAAATCTTTGTTAACAATTTCATACACAAATATAATACAAATGCACGACTTGCTGCAACAAATGGGTTTGGAGATTGTACGTCAAGAATGTAGAGCAGATCCTGGCAGACGTAGTCGCTTGAAGGATAATGAAGCTCGTGAAGTGATTGAAGAAAACAAGGTAAATCAATAATCTGCTGACTTTTTATAAGACAGAAAGTTGCAGATAATTTGATACACTTTACTTCTTTGGTGTTTGTCAGGGAACTGAAGCAATTCAAGGAATAGAACTGGATTTGTCTCAAGTTAAAAATTTACGTTTGCGTTCTGACACATTGACGAAGATGAAAGCCTTAAGATTTCTGAGATTCTATAACTCCTCTGGTCAGAGTTCTTGGAATACATACCTCGACCTTCCTGCAACTCTTGAGCCGTTTTCTGATAAACTAAGGTACACTGAGTGGATTGGATACCCTTTTGAGTGTCTTCCATCACCTTTTTGTGCAAAGTTTCTTGTTGAGATTCACATGCAACATGGCAAAGTTAAACAACTTTGGCAGGGAATCCAGGTAACTAAAGAATGATATGTATGTACACATTTTTAAATTTTTTTGAGGATTTTCCTTTGTGATGCCACCACCTTTTGAATGTTCACAGGAACTAGATAACTTAGAGGGAATTGACCTAAGTGGATGCAAACAGTTTGAAGAGCTTCCAGATTTGTCTAAGGCGCCAAGACTTAAATGGGTGAATCTCTCATGTTGTGAAAGTTTGCGGTATCTTCACCCGTCTGTTTTATCCTCGGCCACGCTTGTTACTTTGATACTGAATGGGTGTACAAAACTCGAGAGTGTTAAAGGTGAAAAGCGTTTAAAATCTCTAGAGAAGATCAGTGTCAATGGCTGCTTAAGTCTGGAGGAATTTGCAGTGTCATTAGATTTAATTAAAATATTGAATGTGAGCAATGCACCAGTAAGGCGAATGGGAAAACTCAAGAGCCTCAATTTAGAGGAGTTTCCAAGATCCCTTCGTCGTTGGTTGGAACTTGTCAAGACTACGGTGAGCCACCACCTCAAACATTCGTACGTGCTAAAGTTAGATCAATACGATGGGACAACGTTGCCTGAATTCATTAAGAATTCCGAAAACTTGAGAATTTTGTCCGTGGAGAATTGTGACTTGTTGATGCATCTTCAAAAGCTTCCATCCAGCATCGGTTACTTAGGTGTCATTAACTGCACTTCACTGGTGTCAGTGTCAGACTTAGTCAATTTGGCAAATGTGATGCGGGGAAGTACCAGATTCATTACATTCAAGAACTGCTTGAAATTGGATGAACATTCATGCAGACTTATAATGAAGAGCGTAAAGTTAATAATGGTGTGTTCTGCATTTGACAACCTGGTGAGAAAATCCTGTGACGTCCGCGACTACAGTTATAACAGTGTTGAGCTTTGTTTGCCAGGAAGAAAGGTCCCACAAGAGATTAAATATCGGAGCACCGAGTCCTTCATTACCATTGACCTTCCCAAACTTTCCAACTTGAGGGGCTTCATTTACTCTGTTGTTCTTTCTCCATCTGGTGAAATGAAGAAGCATGACACCAAGATTATATGTAAACGCCACTTGAGACAAAATACGAGGGAATCATGGGTATATAGTGATATCGAGGGCTTGAACACCGATCATGTTTATATATGGTATGATCCATTCCACAGTGATGGCATTCTCAAATATAATGAGCCAAGTGTTTCTTTTGAGTTCTGTGTTAGAAATGATAAGGGGGAAGTTGATGGCTCTATGTTTATTAAAGAGTGTGGTGTTGGCCTTATAAGTGTTTCAGAACTGCCGAGTGTTTTAGAAGAGTTGGACTGGCACTCGGATAAGAAGAAGGACTTAGTGAATAGAGTGGAGTTGATTACAGGACAAAGGATAACCTTAACATCAATTGAACAATCCGATGAGAGGAAAAACCATTTTTCTGCTTTGGAAGAGATTATCAATTCTACTCACAAGGAAGCCAAAACTGATTCTGGCACAGATTATGGGCAGAATACTACAAAATCTACTGATGCGGTTAGTCAAGAATTCTTATATGTCGACAAGATTTCACAAACTTTGCCCTCCATTTACTAGAAATGTCAAAAGATACAAAATCTAAACTTACATTTTATGATTATTTTGATTTTCTATTATGTCAATAGTAAATTATTAGTTTGTGCAGGTCAAATATGAAGGAAATAGAGAAACGTCAATCAAACAAGATGCAACATTGCCTGAAACTGTTGAATCGGAGTTAGACAAAGAACATGAATCTAAAGAAAAGTCAAGTGAGTAGTTCTATGCAAGCATACCAATTGTTAAACCATACAACTAATTTATGCCATGTCCATTCACACATCTACATGACAAATATTTATATTTTGAGTTTAGTTTTTTCTGTTGAAATTCAAGTGTGAATCTAATTTTTATATTAAGTAAAAAGGAAATATTGAATACATGCAAGAAAGAATATTTATAAATCTAAAACATTGTTTTGGGTTGAAAGGAGCGTCAATCCATCTGATTTCAAAGACAATTCAAGTATGAAGTTATCTCAAACTACTTGTCTTCAAATGCAGAGTCAGACTCAGAGATTGTTAAACCAGTTTCAGCTGAAAATGGTAAATCTACTCACAAGGAAACCAAAACTAATTCTGGAACAAGTGTGGTAAGTCAAGAGTTTTATATTTCATTAACAAAGTTGTCCCTCCATCTTACTAGAACTGTAAAAAATATAAAATAGGAAATTACATTTTATAATTATTAGGGTTAAAGATGTTTTTTGTCTCTTAACTTTAAGTGAAGATTGAAATTAATCCCTCTTCAAAACTTTAACCCAATTTAGTCTCCCAATTTTATAAATGCGTGAATTTAGTCCTTTTAAGTAAATTTTGTTAGGTTTATTTGCATTGTTAAGTTTCAAACGCGTTTCATGATAACATTTAAATTCCTTACCCTATTTGACATATTTCCGCTTCAATGCTAGCTGAGAAATACATTTGAGACGTAACATAAACTTAAACAAAATTTAGTTAAAAAGACTAAATCCACCTAATTCTAAAGATGAGGACTAAATTGGTCCAAAGTTTTATAGAAAAACTAATTCTAATTTTTACTATTAAGGAACCAAAAACATATTTAACATTTATTATTATTATTTAGTTTAATTTTCAAATTTTCAAACTTTCAATACATTATATTGTGCAGGTCAAATACAAAGGTAATAAAGAAGTGCCAAAATCAGATGCAACATTGCATGAGACCATGGAGTCACATTCAGACAATGAAAATCAGTTTAGAGAAAAGTCAGGTAACTCATTATAACCGTGGTTGAAGTATCACATTAGCTACTGATATGACCAAATTACGAATCTGGTGAGGAATCTTTTGTATTTATTTTCTATATGATAATTCAAAAGTTCTGAGTCACCTATGTGCATCTATCTTTTGGGTTTAGGTTTTTGGTAGATAGAATGTTATTCTAAGGGCTGCGTATACTCAGGCCATTTTAGTCCATGGTCTTACGGCACACTTTTTTTTTTCAAATATTTCTGTGTAGTGTATAATATTTTTTATATAGTTTATAATATATATGACTGCATATTTCTTATTATAATGAAAAACTAATTATGATTAATTGTTGTTTGACGTGTAATTAAACAAATTTAATAAATATTAGATACTCTTATGGAGCATTACTAATTTCTAGTTTTATGTGTATATATTTATGTTGTCTATGAAACAATTGCAAATTTTGTATGCTTATGAATGAAAATTTTGTTATTAAATCATTATTGTCCCTCACTTTTCGGTTTCTCTTCACTTTTGTTTTACTCTCCTAGTCCCTCAAAAGCCATTTATGTTCCAGATACCATATTAAAGCATTAATAGTGGAGGGGATAAAGTAAGAATAAATACCGAATAAAATATGTGATGGAATGGAACAAGGGGGAAATTGGACAAGAAGTCTAAATCCATCACTAGAGGAGAATAATTAATCATAAAGATTACTAAAAGGTTTTTCATGCAAAGCATATGTATCTATCTTTTTGGGTTTTCTTTCTTGCTGATTCCTTTTTTTCTCCTGCTCATAATTTTCTTCTATGTTTAGTCACACAATCAGAGGTAGTAGAGATGATTGAGCTAGAGAACACTGAATCTACTTGCAAGGAAACCCTGAGCATTGCTGGAAGAGGTCCCAAAGAAAAATCTAGAGAGTCTACAAAAATTGTAAGTATCTTTTATTTTGAATTTTTTTATCATATTTGAAAGTGTTTAAAAACATACAAAAACGTAACAGCAGAGTTTTCATCATAAAGAAAAAATTTAGGTGTATGAAATGTCCAAGATTAACAACCTAAAACAACACTGAGAATAATAGAACCAATTAGTGGAGAATTTGTGGCTAATCCTACCTAACTAAAGTTGATCTCAATAAAACTTTCGAAAGCGAAAGGACATAGCACTTATCGATAATAGAAGCATGTTCTGGTGCATAGATCCAAAGAGGGTCCATCAAGGCTTGGTTTTTATGCTGTTTCACAGATTCCCTATGAAACCAATGCAAAGATTTGTATATACTTGCATCAAATAATTTCCGCCTGCAACAACCAACCTTGTTTTCTCCACAAAATTCAATTCATTTCTCCCTGTTTAGCACTTGATGGGTCCTTTCGAAGTGTTCTTTAATAACTAAGAGGCTGAAATCTCTTGTGAAGCATTATATGCTTTTCCATTTTACCTATACATAGATCTCTAATAAATTTCAGGTAATAATAAAGAGTATGCCTAAAACAATACATCAGAGAGTGTATAACTAGTATTTATCATTGAAGTATTTGACTTTGTGAAACTTGGACTTCCCCATTTCACAGGTGGCCGATGAACATTTACAGAGCACATCTCTTCAAGCCTCTTCCCAGGGGGGCTCTGAGCACTTGCATGATAGGTTAGAAGAATCGAATAAGCAAGTTGTACAAACTTATGATACAGAGAAATTTGTTACTAAATACTCGTACTTTGACCTTGAGAGTTGCCTCCAACAGTTGCATGAAAATCCATTTGCAATCCTTGACTTACTCTCTAATGAGCTATCCCCTCCTCTGAAACAATCAGAAACTTGTGTTCAAAAGGTAGCTCAAGCAAATGATGCTACAACCGTCCTCGATGAATTCCGAACCTTAGTGTTCTCAACTTCATTGCTAGACAAACTTCCAGACCAATCCTATCGGCAACAAATTGAAGAATCACTACGAAAACTTCACGCTTATCGTAGAGAAATTACGAAAGAGCAAGAAGGTGTAGACAAATTTATCGAGCTATACGATAAAGCTGCCAACATTTCTCAAGAAAAGATGCTAACCGAGGATAAACAAATAAAACTGGCATCTAAGAAGAGAGACTTGTATAACAAACTTCAAGATTCTAAACTGAAAGTTCAACAGTTTGACACTGCCATCTCAACTAGTAAGTCTGAGATTGAAAACCTCCAAAAGAGACAGAGAGAAATCCAGGGAGCTATAAATAAGCTTCAACAAGAAAATGAAGCCTTGGAAAAGGAGAGGTCAGCACAAGAGGTTTTATACTCAGAAAAACAAACCAAGAAGGACGAAACACTTGAATTGGTGAAGTATATGTCGACTTCTGTTGTTTACACAATCAAACAATTAGAAGAACTTGAAGAGAAAAGATTGAGTTTGGCTTTAGCTTACGAAGACCTCAAAGAGCCATATGGAATAATGAAGACAAAGCCCCCATTTTAG