Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_08304 LG2 4510660 4518250 hypothetical protein LR48
 Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   camalexin biosynthetic process, macromolecule localization, camalexin biosynthetic process, response to salicylic acid, response to wounding, systemic acquired resistance, response to water deprivation, camalexin biosynthetic process, camalexin biosynthetic process, defense response to bacterium, response to molecule of bacterial origin, response to chitin, response to molecule of bacterial origin, response to water deprivation, signal transduction, regulation of immune system process, response to water deprivation, defense response to fungus, systemic acquired resistance, defense response to fungus, regulation of defense response, response to salt stress, defense response to fungus, systemic acquired resistance, defense response to bacterium, response to salt stress, defense response to bacterium, response to molecule of bacterial origin
Molecular Function   enables   ADP binding, ADP binding
SNP Position Effect Amino acid change
T/G 4510672 missense_variant p.Leu1249Phe
A/C 4510675 missense_variant p.Asn1248Lys
C/T 4510678 synonymous_variant p.Leu1247Leu
A/G 4510680 synonymous_variant p.Leu1247Leu
A/C,G 4510682 missense_variant p.Ile1246Ser
A/C,* 4510687 missense_variant p.Phe1244Leu
A/C 4510689 missense_variant p.Phe1244Val
C/G 4510698 missense_variant p.Val1241Leu
A/G 4510705 synonymous_variant p.Phe1238Phe
C/A 4510712 missense_variant p.Trp1236Leu
G/A 4510729 synonymous_variant p.Pro1230Pro
G/A 4510730 missense_variant p.Pro1230Leu
T/C 4510758 missense_variant p.Ile1221Val
C/T 4510771 synonymous_variant p.Lys1216Lys
G/C,T 4510775 missense_variant p.Ala1215Gly
C/T 4510776 missense_variant p.Ala1215Thr
T/C 4510795 synonymous_variant p.Glu1208Glu
T/A 4510804 missense_variant p.Arg1205Ser
C/T 4510808 missense_variant p.Ser1204Asn
T/C 4510809 missense_variant p.Ser1204Gly
G/A 4510816 synonymous_variant p.Tyr1201Tyr
A/C,* 4510842 missense_variant p.Tyr1193Asp
A/T,* 4510844 missense_variant p.Phe1192Tyr
T/G,* 4510852 missense_variant p.Glu1189Asp
C/G,* 4510860 missense_variant p.Asp1187His
T/C,* 4510868 missense_variant p.Asn1184Ser
G/C 4510890 missense_variant p.Pro1177Ala
T/A 4510908 missense_variant p.Asn1171Tyr
C/A 4510921 synonymous_variant p.Val1166Val
C/T,A 4510923 missense_variant p.Val1166Leu
C/A 4510935 missense_variant p.Ala1162Ser
C/A 4510944 missense_variant p.Gly1159Trp
C/T 4510965 missense_variant p.Glu1152Lys
C/G 4510972 missense_variant p.Lys1149Asn
T/A 4510980 missense_variant p.Ser1147Cys
A/T 4510985 missense_variant p.Val1145Asp
A/T 4510997 missense_variant p.Leu1141Gln
T/C 4510999 synonymous_variant p.Arg1140Arg
C/T 4511000 missense_variant p.Arg1140Lys
A/G 4511005 synonymous_variant p.Asn1138Asn
C/T 4511010 missense_variant p.Glu1137Lys
A/G 4511015 missense_variant p.Ile1135Thr
T/A 4511018 missense_variant p.Gln1134Leu
C/A 4511023 synonymous_variant p.Val1132Val
G/C 4511030 missense_variant p.Thr1130Arg
T/A 4511032 synonymous_variant p.Ser1129Ser
A/C 4511039 missense_variant p.Phe1127Cys
C/T 4511053 synonymous_variant p.Leu1122Leu
A/T 4511059 missense_variant p.Asn1120Lys
C/A,T 4511067 missense_variant p.Gly1118Cys
C/G 4511085 missense_variant p.Glu1112Gln
C/T 4511086 synonymous_variant p.Leu1111Leu
A/C 4511093 missense_variant p.Leu1109Arg
G/C 4511123 missense_variant p.Pro1099Arg
A/G 4511130 missense_variant p.Phe1097Leu
G/C 4511132 missense_variant p.Thr1096Ser
C/A 4511147 missense_variant p.Arg1091Leu
G/A 4511151 synonymous_variant p.Leu1090Leu
C/G 4511201 missense_variant p.Cys1073Ser
C/T 4511207 missense_variant p.Ser1071Asn
C/A 4511210 missense_variant p.Arg1070Leu
T/A 4511228 missense_variant p.Gln1064Leu
T/G 4511256 missense_variant p.Lys1055Gln
A/G 4511268 missense_variant p.Phe1051Leu
A/G 4511325 missense_variant p.Tyr1032His
A/G 4511329 synonymous_variant p.Asp1030Asp
C/T 4511331 missense_variant p.Asp1030Asn
T/C 4511339 missense_variant p.Asn1027Ser
T/*,C 4511345 missense_variant p.Tyr1025Cys
C/A,* 4511347 missense_variant p.Arg1024Ser
G/*,C 4511370 missense_variant p.His1017Asp
G/A,* 4511377 synonymous_variant p.Leu1014Leu
T/C,* 4511382 missense_variant p.Ile1013Val
G/T 4511390 missense_variant p.Ser1010Tyr
T/C,* 4511394 missense_variant p.Lys1009Glu
A/T 4511419 missense_variant p.His1000Gln
T/A 4511420 missense_variant p.His1000Leu
G/T 4511426 missense_variant p.Thr998Asn
T/C 4511458 synonymous_variant p.Leu987Leu
C/T 4511473 synonymous_variant p.Thr982Thr
G/T 4511474 missense_variant p.Thr982Lys
A/T 4511551 synonymous_variant p.Leu956Leu
C/G 4511606 downstream_gene_variant
C/G 4511609 downstream_gene_variant
T/C,* 4511651 downstream_gene_variant
T/G 4511673 missense_variant&splice_region_variant p.Glu948Ala
T/C 4511692 missense_variant p.Lys942Glu
A/G 4511696 synonymous_variant p.Ser940Ser
C/T 4511697 missense_variant p.Ser940Asn
C/T 4511700 stop_gained p.Trp939*
C/G 4511702 synonymous_variant p.Gly938Gly
G/A 4511714 synonymous_variant p.Asp934Asp
A/G 4511719 missense_variant p.Cys933Arg
G/C 4511721 missense_variant p.Ala932Gly
C/A 4511729 missense_variant p.Trp929Cys
A/C 4511747 splice_region_variant&intron_variant
C/T 4511769 downstream_gene_variant
C/T,A 4511774 downstream_gene_variant
G/A 4511775 downstream_gene_variant
A/G 4511791 downstream_gene_variant
T/A 4511794 downstream_gene_variant
G/C 4511802 downstream_gene_variant
A/C 4511810 downstream_gene_variant
A/C 4511813 downstream_gene_variant
T/C 4511822 missense_variant&splice_region_variant p.Lys926Glu
C/T 4511827 missense_variant p.Cys924Tyr
T/C 4511831 missense_variant p.Asn923Asp
A/G 4511834 missense_variant p.Tyr922His
C/G 4511835 missense_variant p.Lys921Asn
C/T 4511843 missense_variant p.Glu919Lys
A/G 4511849 missense_variant p.Tyr917His
T/A 4511858 missense_variant p.Met914Leu
A/G 4511896 missense_variant p.Met901Thr
T/A 4511897 missense_variant p.Met901Leu
C/T 4511904 synonymous_variant p.Gln898Gln
T/A 4511905 missense_variant p.Gln898Leu
T/C 4511908 missense_variant p.Lys897Arg
T/C 4511909 missense_variant p.Lys897Glu
C/T 4512018 downstream_gene_variant
C/T 4512061 missense_variant p.Glu877Lys
C/A 4512062 missense_variant p.Leu876Phe
A/C 4512083 synonymous_variant p.Pro869Pro
G/T 4512085 missense_variant p.Pro869Thr
T/G 4512104 missense_variant p.Lys862Asn
T/C 4512131 synonymous_variant p.Arg853Arg
G/A 4512164 synonymous_variant p.Asp842Asp
A/G 4512169 missense_variant p.Tyr841His
C/T 4512174 missense_variant p.Ser839Asn
T/A 4512175 missense_variant p.Ser839Cys
A/T 4512196 missense_variant p.Phe832Ile
G/A 4512229 synonymous_variant p.Leu821Leu
A/T 4512232 missense_variant p.Ser820Thr
T/C 4512241 missense_variant p.Met817Val
C/T 4512258 missense_variant p.Gly811Asp
G/A 4512284 synonymous_variant p.Gly802Gly
C/T 4512285 missense_variant p.Gly802Asp
G/A,C 4512288 missense_variant p.Thr801Ile
G/A 4512290 synonymous_variant p.Thr800Thr
T/C 4512293 missense_variant&splice_region_variant p.Ile799Met
A/G,C 4512309 downstream_gene_variant
A/G 4512316 downstream_gene_variant
G/T 4512328 downstream_gene_variant
C/A 4512341 downstream_gene_variant
G/A 4512405 downstream_gene_variant
C/T 4512409 downstream_gene_variant
C/T 4512434 downstream_gene_variant
A/T 4512443 downstream_gene_variant
T/C 4512482 intron_variant
C/G 4512497 intron_variant
G/A,T 4512509 intron_variant
A/T 4512512 intron_variant
C/A 4512514 intron_variant
T/C 4512532 intron_variant
T/C 4512535 intron_variant
T/G 4512536 intron_variant
T/C,G 4512541 intron_variant
G/A 4512563 intron_variant
T/C 4512599 intron_variant
C/G 4512612 intron_variant
G/A 4512619 intron_variant
A/G 4512638 intron_variant
C/A 4512650 intron_variant
A/C 4512681 intron_variant
A/G 4512698 intron_variant
C/G 4512708 intron_variant
C/A 4512716 intron_variant
C/A 4512719 intron_variant
C/T 4512729 intron_variant
C/A 4512777 intron_variant
T/A,G 4512778 intron_variant
T/A 4512779 intron_variant
C/A 4512796 intron_variant
T/G 4512798 intron_variant
G/A 4512802 intron_variant
T/C 4512826 intron_variant
A/C 4512829 intron_variant
A/T 4512860 intron_variant
A/G 4512871 intron_variant
T/A 4512873 intron_variant
C/T 4512874 intron_variant
G/A 4512881 intron_variant
G/C 4512883 intron_variant
G/C 4512895 intron_variant
T/C 4512907 intron_variant
G/A 4512908 intron_variant
C/T 4512911 intron_variant
C/T 4512921 intron_variant
C/G 4512925 intron_variant
C/T 4512927 intron_variant
C/T 4512928 intron_variant
A/G 4512929 intron_variant
G/A 4512936 intron_variant
T/A 4512951 intron_variant
A/T 4512990 intron_variant
C/T 4512995 intron_variant
T/G 4513012 intron_variant
T/C 4513015 intron_variant
C/T 4513019 intron_variant
C/T 4513021 intron_variant
G/A 4513031 intron_variant
A/G 4513039 intron_variant
C/G 4513045 splice_region_variant&intron_variant
A/G 4513064 missense_variant p.Ile794Thr
T/C 4513083 missense_variant p.Lys788Glu
A/G 4513092 synonymous_variant p.Leu785Leu
C/T 4513093 stop_gained p.Trp784*
C/T,A 4513094 stop_gained p.Trp784*
A/T 4513095 missense_variant p.Trp784Arg
C/T 4513103 missense_variant p.Arg781Gln
C/T 4513113 missense_variant p.Gly778Arg
A/G 4513128 missense_variant p.Trp773Arg
C/G 4513135 missense_variant p.Lys770Asn
T/C 4513139 stop_retained_variant p.Ter769Ter
C/T 4513142 missense_variant p.Cys768Tyr
G/T 4513145 missense_variant p.Thr767Asn
C/G 4513147 synonymous_variant p.Leu766Leu
A/T,G 4513163 splice_region_variant&intron_variant
A/G 4513164 intron_variant
C/A 4513169 intron_variant
A/T 4513170 intron_variant
G/A 4513178 intron_variant
G/A 4513180 intron_variant
C/T 4513198 intron_variant
T/G 4513217 intron_variant
T/A 4513225 intron_variant
G/A 4513230 intron_variant
C/G,* 4513233 intron_variant
A/G,* 4513234 intron_variant
A/T,* 4513235 intron_variant
C/T 4513243 intron_variant
C/G 4513245 intron_variant
T/C,* 4513271 intron_variant
T/C 4513273 intron_variant
T/A 4513279 intron_variant
C/T 4513286 intron_variant
T/A 4513292 intron_variant
T/C 4513304 intron_variant
C/T 4513308 intron_variant
G/A 4513310 intron_variant
A/G 4513358 intron_variant
A/G 4513367 intron_variant
C/T 4513370 intron_variant
T/A 4513378 intron_variant
A/G 4513387 intron_variant
A/G 4513396 intron_variant
G/A 4513400 intron_variant
T/C 4513402 intron_variant
A/G 4513405 intron_variant
C/T,A 4513423 intron_variant
G/A 4513432 intron_variant
C/A 4513446 intron_variant
T/A 4513481 intron_variant
C/G 4513485 intron_variant
T/A 4513489 intron_variant
A/G 4513500 intron_variant
G/A 4513518 synonymous_variant p.Ile760Ile
G/T 4513528 missense_variant p.Thr757Asn
T/A 4513585 stop_lost p.Ter738Leuext*?
C/T 4513784 missense_variant p.Val672Ile
T/A 4514022 intron_variant
G/C 4514149 intron_variant
T/G 4514152 intron_variant
A/C 4514293 intron_variant
C/A 4514310 intron_variant
T/C 4514373 intron_variant
T/C 4514377 intron_variant
C/T 4514387 intron_variant
A/G 4514388 intron_variant
T/C 4514409 intron_variant
A/T 4514445 intron_variant
C/A 4514455 intron_variant
A/C 4514495 intron_variant
A/C 4514653 intron_variant
T/C 4514750 intron_variant
C/T 4514830 intron_variant
T/C 4514845 intron_variant
T/C 4514973 missense_variant&splice_region_variant p.Glu604Gly
C/G 4514978 missense_variant p.Glu602Asp
C/T 4514982 missense_variant p.Gly601Asp
A/G 4514988 missense_variant p.Ile599Thr
T/G 4515028 missense_variant p.Asn586His
A/C 4515099 missense_variant p.Ile562Ser
T/C 4515103 missense_variant p.Ile561Val
T/C 4515118 missense_variant p.Thr556Ala
A/C 4515147 missense_variant p.Ile546Ser
T/G 4515235 missense_variant p.Asn517His
C/T 4515264 missense_variant p.Arg507Gln
T/A 4515285 missense_variant p.Glu500Val
G/A 4515356 synonymous_variant p.Val476Val
A/C 4515531 missense_variant p.Leu418Arg
G/T 4515878 missense_variant p.Pro329Thr
C/T 4516208 missense_variant p.Gly252Arg
C/T 4516258 missense_variant p.Arg235Lys
G/T 4516298 missense_variant p.Leu222Met
C/T 4516377 missense_variant p.Met195Ile
C/A 4516396 stop_lost p.Ter189Leuext*?
C/T 4516405 stop_gained p.Trp186*
C/G 4516407 missense_variant p.Met185Ile
T/C 4516506 intron_variant
T/C 4516515 intron_variant
T/A 4516565 intron_variant
C/T 4516587 intron_variant
A/T 4516630 intron_variant
C/T 4516667 intron_variant
T/A 4516675 intron_variant
C/T 4516913 intron_variant
T/C 4516917 intron_variant
T/A 4516982 intron_variant
T/C 4517071 intron_variant
G/C 4517150 intron_variant
G/A 4517477 intron_variant
A/G 4517499 intron_variant
G/T 4517561 intron_variant
A/G 4517746 missense_variant p.Cys169Arg
T/C 4517838 missense_variant p.Tyr138Cys
A/G 4517960 synonymous_variant p.Leu97Leu
T/C 4517994 missense_variant p.Asn86Ser
C/A 4518091 missense_variant p.Val54Phe

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_08304.1
MLNFCGSYSFIRVLFSFVSWLFGGLKGAEEKPTTDNNDPTIDNNDPQIKHDVFVSFRGKDVHRGFLSHLTEAFQRRNIDAFVADNNLEKGEEIWPSLVEAIEGSSISLVIFSQNYASSRWCLEELVTILECREKYGTYVLPVFYYVEPTYVRHQSEVQRWRRALNLASCLAGINSSKFSTHVAVNVDYLKSLLKDDDSDNSVAFELGRLKDKALITISDDNTVSIHDSLQEMAWEIVRQESVEHPGNRSRLWELNDICEALKNDKVKEAIRSIRIHLPTIKEQKLVPQILEINMSKLEVFVCGRYDELTLLKGPQFLATELRFLSWYQYPLKSLPENFSAEKLVILKLRNGRMEKLWDGVKNMVNLKQVDLSRSQNLKKLPDLSKATNLEVLLLMSCSSLTSVHPSIYSLPKLVKLDLLCCTSLTTLGSSNFNQLLHLDISFCSKLRTIPKLPLSLETLNARECQSLKTILFPSPAVEQLKENRKGILFWKCTNLDNQTLEAIGLNVRMNVMNYANQNISTPCHNHVEHCDDDNCDSYSGVYVYPGIRVPKWLEYKTRKDSIIIDLSSAPPSLLIGFIFCFVLGKYNNTDVDRFEVMITIDGEDEEKNPMSNNNSPQINYDVFVSFRGEDIRDGFLSHLTEAFDVKKINAFVDDKLEKGEELWPSLVEAIEGSSISLIIFSPDYASSPWCLKELVSILECKEKYEQTVIPVFYHVKPTDVRHQSSDGYRKAFADHERKHNNEVQLWRDVFEKSAYLSGLESSKFRNDADLLKAIVDLVLRRLTKSLVNSKGLVGIDKRIADITTGYLKYLLKDGERDNSMVVSLERLKDKALITFSKDNVVSMYDSIKEMAWEIVRQESPEDPGKRSRLWDPDDIYEALENDKVSEATRSIQIDLETLKKQKLMPHIFSKMSKLRFMEIYGEDKYNCYNKFSGEKLVTLKLGGVEKLWDGVKNLVNLKELDLRNSRNLKQLPDLSKASNIEVLCLTGCLSLTSVHPSVFSLTKHEILNLDGCKSLTILATHLHLCRLRYLNLNDCYNLTEFTLTSDNMKQLSLEFTRMKALPSSFGHQRKLEFRSLCASRIERLPSSFANHTQLRYLDITFCPKLLTIPELPLSLETLYAGGCNSLKTVFFHSTAVEQIKENRRLVSFVNSMKLDEPSLEAIGLNARINVMKFANQHLSAPKQDDFQNYNDYEKNFYSYQAFYGYPGSRVPEWLEYKSAKYSVIIDLSSAPPSPVYGFIWCFVLVETFMILNLTSL*


CDS Sequence:
>Vu_08304.1
ATGTTGAATTTCTGTGGCTCTTATTCATTTATCCGGGTTTTGTTTTCCTTTGTCTCTTGGTTATTTGGAGGACTGAAAGGTGCAGAGGAAAAACCTACGACTGACAACAATGATCCTACGATTGACAACAATGATCCTCAGATCAAGCATGATGTTTTTGTTAGCTTCAGAGGCAAGGATGTCCATCGCGGCTTTCTTAGCCATTTGACTGAAGCTTTTCAAAGGAGAAACATAGATGCCTTTGTAGCTGATAACAATCTAGAGAAGGGAGAAGAAATATGGCCATCACTTGTTGAAGCAATTGAAGGATCATCCATTTCATTGGTCATATTCTCACAAAACTATGCTTCTTCTCGTTGGTGTTTAGAAGAACTCGTGACAATACTTGAATGTAGAGAGAAATATGGAACTTATGTTTTACCTGTTTTCTACTATGTAGAACCCACATATGTACGACATCAATCCGAGGTGCAACGCTGGAGACGTGCTTTGAATTTGGCTTCTTGTTTAGCGGGAATTAACTCATCAAAATTTTCAACTCATGTAGCTGTGAATGTGGATTATCTGAAGTCTTTATTGAAAGATGATGACAGTGATAATTCTGTGGCTTTTGAGTTGGGAAGGTTGAAAGACAAAGCTCTCATAACTATATCTGATGATAATACTGTATCTATACATGATAGTTTACAAGAAATGGCGTGGGAGATTGTTCGCCAAGAGTCTGTTGAGCACCCTGGAAATCGCAGTCGGTTGTGGGAACTAAATGACATTTGTGAAGCATTGAAAAATGACAAGGTTAAAGAGGCTATTAGAAGTATAAGAATTCACTTGCCAACAATTAAGGAGCAAAAGTTAGTGCCTCAAATTCTGGAAATTAATATGAGCAAACTGGAAGTTTTTGTATGTGGTCGCTATGATGAACTTACTCTTCTTAAAGGGCCACAATTTTTGGCAACTGAGCTAAGATTTCTTTCTTGGTATCAATACCCTCTGAAATCATTGCCAGAGAATTTTTCTGCAGAGAAACTTGTAATATTGAAGTTGAGAAATGGAAGAATGGAAAAACTTTGGGATGGAGTGAAGAATATGGTGAATTTAAAACAAGTTGACCTTAGTCGATCACAAAATTTAAAGAAGCTACCAGATCTATCAAAAGCCACAAATCTAGAAGTCCTTCTTCTTATGAGTTGTTCTTCGTTGACTAGTGTTCATCCATCTATTTACTCTCTGCCCAAACTTGTGAAATTGGACCTTCTTTGTTGCACATCTCTCACCACACTCGGTAGCAGCAATTTTAATCAACTGCTACACCTTGACATAAGCTTTTGCAGCAAGCTTCGAACTATTCCAAAGCTTCCCCTATCACTTGAAACTCTGAATGCCAGAGAATGCCAATCTTTGAAGACTATATTGTTTCCTTCACCGGCTGTCGAACAATTAAAGGAGAACAGGAAAGGCATTCTGTTCTGGAAATGCACGAACTTGGATAATCAGACTCTGGAGGCTATTGGGTTGAATGTTCGAATGAATGTGATGAATTATGCAAACCAGAACATATCCACACCATGTCACAATCATGTTGAACATTGTGATGATGACAATTGTGATTCTTATTCAGGTGTTTATGTGTATCCAGGAATTAGAGTTCCAAAGTGGTTGGAATATAAGACAAGAAAGGATTCTATAATTATTGATCTCTCTTCTGCTCCACCTTCCCTTCTCATTGGCTTTATTTTCTGCTTTGTTCTTGGTAAGTACAATAACACAGATGTTGATAGATTTGAAGTGATGATCACTATTGATGGCGAGGACGAAGAGAAAAATCCCATGTCAAACAACAACTCACCTCAAATAAACTATGATGTTTTTGTTAGCTTCAGGGGTGAAGATATCCGCGATGGGTTCCTTAGCCATTTGACTGAGGCTTTTGATGTGAAGAAAATAAATGCCTTCGTAGATGATAAGCTTGAGAAGGGGGAAGAACTATGGCCATCACTCGTCGAAGCAATTGAAGGATCGTCCATTTCTTTGATCATATTCTCACCAGACTATGCTTCTTCTCCTTGGTGTTTGAAAGAACTTGTGAGCATACTTGAATGCAAAGAGAAATATGAGCAAACTGTCATACCTGTTTTCTACCATGTAAAACCTACAGATGTACGACATCAATCATCTGATGGTTACAGAAAAGCATTCGCTGACCATGAGAGAAAACATAACAATGAGGTTCAACTCTGGAGAGATGTCTTCGAAAAGTCTGCTTATTTATCTGGACTTGAGTCATCAAAATTTCGAAATGATGCTGACCTGCTAAAAGCAATAGTGGATCTTGTGCTGAGGAGGTTGACGAAATCCCTGGTTAACTCAAAAGGGCTTGTTGGAATTGATAAAAGAATTGCAGATATAACCACTGGCTATCTAAAATATTTACTGAAAGATGGTGAAAGAGATAATTCAATGGTTGTTTCACTAGAAAGACTTAAAGATAAAGCTCTTATAACATTTTCCAAAGATAATGTTGTAAGTATGTATGACAGTATAAAAGAAATGGCTTGGGAGATTGTTCGACAAGAGTCTCCTGAAGACCCTGGAAAACGCAGCCGGTTGTGGGATCCTGATGACATTTATGAAGCTTTGGAAAATGACAAGGTTAGTGAGGCCACTAGAAGCATACAAATTGACTTGGAAACACTTAAGAAGCAGAAGTTAATGCCTCACATATTTTCTAAGATGAGCAAACTAAGATTCATGGAAATATATGGGGAAGATAAGTATAATTGCTACAACAAATTTTCTGGTGAAAAGCTTGTGACATTAAAATTGGGTGGAGTGGAAAAACTTTGGGATGGAGTGAAGAATCTGGTGAATTTAAAGGAACTTGATCTCAGAAACTCAAGGAACTTGAAACAGCTGCCAGATTTATCAAAAGCCTCAAATATTGAAGTACTGTGCCTCACGGGTTGTTTGAGTTTAACCAGTGTGCACCCATCTGTTTTCTCTTTGACTAAACATGAGATTTTGAACCTTGATGGGTGCAAGTCCCTTACTATACTCGCAACCCATCTCCATTTATGCAGGCTCAGGTATCTCAACCTTAATGATTGTTACAATCTTACGGAGTTCACACTGACATCAGATAATATGAAACAACTGAGTTTAGAATTCACGAGAATGAAAGCACTTCCCTCATCATTTGGGCATCAACGCAAGCTTGAATTTCGAAGTCTTTGTGCAAGTCGTATTGAGAGGCTACCTTCATCCTTCGCCAACCATACACAACTGCGATATCTAGACATAACCTTTTGCCCGAAGCTTCTAACAATACCAGAGCTTCCTCTTTCCCTGGAAACTCTATATGCTGGAGGCTGCAATTCATTGAAGACTGTATTCTTCCATTCAACGGCAGTGGAACAAATAAAGGAAAATAGAAGACTGGTTTCGTTCGTCAATAGCATGAAGTTGGATGAACCTTCTCTAGAGGCTATTGGGTTGAATGCACGAATCAACGTGATGAAATTTGCAAACCAACACCTATCTGCGCCAAAGCAAGATGATTTTCAAAATTACAACGATTATGAAAAGAATTTTTATTCTTATCAAGCCTTTTACGGGTACCCAGGAAGCAGAGTTCCAGAATGGTTGGAGTACAAGTCAGCAAAGTATTCTGTAATTATAGATCTCTCTTCTGCTCCACCTTCCCCCGTATATGGCTTCATTTGGTGCTTTGTACTCGTTGAAACCTTTATGATCTTGAATTTAACATCGTTATAA


Promoter Sequence:
>Vu_08304::LG2:4518250-4520250(-)
TAATTACTAAAGAAAAACGTTTACATTTTAAGAAAAGTAATTTTAGTAACTTCCTATTTTTTTACAAAAAAAATTAAACAAGTTTTTAAAAGAATTCAAATTTTAAAATGTTTTGGAAAACTCCTTTTAGAACACATTTTATATCATTTTGGAAAGCTTGTTTTAGAAAATCTCATTCAAAAAACTTGTTTGAGAAATTTTATTTTGAAAATCTTATTTTGAAATGCATTTTATGTGTTCCAAAAGGCTTTTCCAAAAATTGTAGAAATTTTATTTAGATTTTTTTTTTCTGGAAATTCTGTTCCAAGAATCCTGTTCTGGAAATTCCATCAAACTTATTTTAAAAATTTTCTAGAACAAGTAGTCCATAAGTCACGCTTTTAGGAAGAGTAGAATGGCCATTTTAAAAATCATGAGGGTGCACCTAGAAATTTTGGGGGTTCAAGAAGGAAAAGTCAAAGTCAAAATATATATTACACCTCCTGAAACACGAATCCGGATACTAAATTCCCACTACTGACCCAAATTCCCGAAGCCTATGTTTTCGTGATGGGTTTCAGTAAGAAACCGAACCTGTTTCAAGCAGGCTATACTGTGTTGTCTACGTAATATCTTTCGGCCTTTTCCTTACACCCCAACAATTTTCTTTACACCCCTCCATTTTGAAAATGATATTTTATTTATCATAAAAGCAACTTCTAGATTATCCATTCTCTCGATCTTTTGAATAAGTTTTCTAGAATTTCCAGAATTTAATTTTTAAAATCGGATTTCAATAATGAAAATTTTAGAATAAAAGTTCAGGACAAAAATTTTAGAGTCCACGAAATGCATTTTGAAACAAGCTTTTCAGACAAGATTTCTAGAATATACTTTCCAAAATGTAAATAATAATTTTCAAAATAATATTTCTAGAATGAATTTTCCAGAGTAAACCCTTTAAAATACAAAAAATGCGTTCTGGAAAGAGCTTTTTAGAATAAGTCTTTTTCTGCAATGTGTTCTCTAATTCTTCTTTTTCTTCCTCTACAACGATGGTAATTATGACAATGGTGTGTGGAGTAGCAGCCTTGCTGGTTTAACAAACTTCTTCACGTAAGGGAAAAAGAATGGTATGCAAGAATGAAAATTATAAAATCATGTTACTAAATAACAGATTTTTCAGTCTTCAGAAACATGCTTAGTTTTGAATCAAACTATATACTCAAAAGACAATAGTATGCAAGACCACTTAAAACTACCAAGATCATAACATGGAATACGACGCTACACGAAGTGATGATTGTGTCAATTTCCCAGAAAAGTTAGGCATATTATTATTGCTAGTTTGCATGTTTATCGATGCATGGGTCTTGTGCTACCTCGATTTTTCCATGGGAGTAGCAAAGAGAGAAGCTTTTTCCTTCACCATCACCTTCTTTACTACTTGCTTAAACACAGAATTGCTTACGCTTTTATCATTTAGTTTATTCCTTTTGAGTATCTTATTTCAGGAGTGTTATATTTCTCTCTTTATTACGCATTCAGAAAAGCGTACTAGTGAATGTTTTAGAATTTGGCTGTCATTGTAAAGTGTTTAATCACTGTGTTAGAATAACTTTTAAGCTGTAAAGGTAAAACAGCATCTGCTTTTTTCTTCATTACTGAAAATCCTTAAGTGGAATTGCTTCATAAACTGTAAGGCTCGCTGAAAGGTACTCCATCAATCGTTCGTTTTGGGTCAAAAGAAAAGGAATAAAACAAGAACGAAGGCTTAATTTGCACGCTTCCTAATCCTGAAGAATTAAAGCTGGTATTCATGCATTTGTCATATGATATCTTCTTCATTTCTCATTTCAGCTTGTTATCAACTTAACTTCTGTCTTAATTATAATAAAATCTCTGATTTTTTCCTATGTTTCTAACTTTCTTCAGGTTTCAGTTGCCTTGAAGCTCAAGCATTTTCCCGTGTAAAGATAAATAAAAGACCCAGTTTTGCAGTTGTACCAATCCAATCAAAT


Gene Sequence:
>Vu_08304(-)
ATGTTGAATTTCTGTGGCTCTTATTCATTTATCCGGGTTTTGTTTTCCTTTGTCTCTTGGTTATTTGGAGGACTGAAAGGTGCAGAGGAAAAACCTACGACTGACAACAATGATCCTACGATTGACAACAATGATCCTCAGATCAAGCATGATGTTTTTGTTAGCTTCAGAGGCAAGGATGTCCATCGCGGCTTTCTTAGCCATTTGACTGAAGCTTTTCAAAGGAGAAACATAGATGCCTTTGTAGCTGATAACAATCTAGAGAAGGGAGAAGAAATATGGCCATCACTTGTTGAAGCAATTGAAGGATCATCCATTTCATTGGTCATATTCTCACAAAACTATGCTTCTTCTCGTTGGTGTTTAGAAGAACTCGTGACAATACTTGAATGTAGAGAGAAATATGGAACTTATGTTTTACCTGTTTTCTACTATGTAGAACCCACATATGTACGACATCAATCCGAGGTGCAACGCTGGAGACGTGCTTTGAATTTGGCTTCTTGTTTAGCGGGAATTAACTCATCAAAATTTTCGTAAGCTCTTTCTTCCCCATAAATGTCAAATATTTTACACTTGTTATGTAGTTTATGTGCATATTATCATATCTTGGTTTGTTAAATGGAAAAAGTGATGTAATTAATCATTGTGTTGAAAATTGTTTGCAGAAGAATGTTTATTATTCATTACTTTCTAATAAAATAATTGTAGCCAATGCAACTATGGCAGAATTCTGATGGGTAGACCATGCTTTGTTGCTAGTGCAAAGAGTTCAGTGCTTAAGTTACATGTATACATTAAAATATTTATAGATATATCTAACAAAAATCCCCTTTGTTTTTTAGTACTGACTATTAAAGAATCACCACAAAGAAATTTTCCGTCATGCATTTGAATCCCTCACGAAACTTCCAAACAATTATGTCAAAGACCTTGATTTTAACAGAGTGAAACTCTCTTTTGTGTGATATATAGGGGTGATGCTGAACTAGTTAAGGAAATTGTCAATGAAGTGCTCAAGAGATTGGTTAAACAGTCAATTAACACAAAAGGGCTCGTTGGAATTGATGAAAAAATTGCAGCTATAGAATCACTGATGACAGAGGAGCCAAAGCAAACCAGACTTATTGGAATTTGGGGTATGGGAGGTATTGGCAAGACAACTCTTGCAGAAGAAGTATTTAATAAACTACAATCTGAATATGAAGGTTCCTATTTTGCAGCCAGTGAAACAGATCGATCAAACAAACACGAGCTAATTTCCTTGAAGGAAAAAATGTTTTCTAAGCTATTAGGATATGATGTCAAAATCGATACACCAAATTCATTGCCCAAAGGTATTGTCAGGAGAATTGGTTGTATGAAGGTTCTTATTGTTCTTGATGGTGTGAATGAGTCCGAACAGCTGGAAAAACTGCTGGGAACTCTCGATAATTTTGGATCAGGTAGTAGAATAATTGTAACAACTAGAGATGAACAAGTGCTGAGGGCTAACAAAGCAGATAAGATATACCAGCTTAAAGAATTCAATTTTGACAAAGCCCTTGAACTTTTCCATTTGAATGCCTTTAAAACAAATGATCGTGTGCAGGAATACAAAGAGCTTTCTAAAAGGGTGGTTGATTATGCCCAAGGCATTCCATTGGTTGTGAAAGTTTTGGCTGGTCTTCTTCATGGAAAAAATAAGGAAGAATGGGAAAGTATGTTGGGAAAGCTTAAGAAAATGCCTCCTAAAAAAGTTTATAAAGTAATGAAACTGAGTTATGATAGTCTAGATCGCAAAGGGAAACAAATATTTCTTGATCTTGCATGTTTCTTTCTCAGAACTCATGTAGCTGTGAATGTGGATTATCTGAAGTCTTTATTGAAAGATGATGACAGTGATAATTCTGTGGCTTTTGAGTTGGGAAGGTTGAAAGACAAAGCTCTCATAACTATATCTGATGATAATACTGTATCTATACATGATAGTTTACAAGAAATGGCGTGGGAGATTGTTCGCCAAGAGTCTGTTGAGCACCCTGGAAATCGCAGTCGGTTGTGGGAACTAAATGACATTTGTGAAGCATTGAAAAATGACAAGGTTAAAACTAAACTAGATACTGTGTCTTTGGAACAGTTTTTGGTGAGAAATGTGGCTTTTGGTGATGTTTAACTTTTTTCTTTAACATTGGTGACAGGTTAAAGAGGCTATTAGAAGTATAAGAATTCACTTGCCAACAATTAAGGAGCAAAAGTTAGTGCCTCAAATTCTGGAAATTAATATGAGCAAACTGGAAGTTTTTGTATGTGGTCGCTATGATGAACTTACTCTTCTTAAAGGGCCACAATTTTTGGCAACTGAGCTAAGATTTCTTTCTTGGTATCAATACCCTCTGAAATCATTGCCAGAGAATTTTTCTGCAGAGAAACTTGTAATATTGAAGTTGAGAAATGGAAGAATGGAAAAACTTTGGGATGGAGTGAAGGTAGGTGCCTCACTGTTATTAGTTTGTGTTAATTTAGCTTGATGTGATGATATCTTAATTTTGTTTCATTACATTGCAGAATATGGTGAATTTAAAACAAGTTGACCTTAGTCGATCACAAAATTTAAAGAAGCTACCAGATCTATCAAAAGCCACAAATCTAGAAGTCCTTCTTCTTATGAGTTGTTCTTCGTTGACTAGTGTTCATCCATCTATTTACTCTCTGCCCAAACTTGTGAAATTGGACCTTCTTTGTTGCACATCTCTCACCACACTCGGTAGCAGCAATTTTAATCAACTGCTACACCTTGACATAAGCTTTTGCAGCAAGCTTCGAACTATTCCAAAGCTTCCCCTATCACTTGAAACTCTGAATGCCAGAGAATGCCAATCTTTGAAGACTATATTGTTTCCTTCACCGGCTGTCGAACAATTAAAGGAGAACAGGAAAGGCATTCTGTTCTGGAAATGCACGAACTTGGATAATCAGACTCTGGAGGCTATTGGGTTGAATGTTCGAATGAATGTGATGAATTATGCAAACCAGAACATATCCACACCATGTCACAATCATGTTGAACATTGTGATGATGACAATTGTGATTCTTATTCAGGTGTTTATGTGTATCCAGGAATTAGAGTTCCAAAGTGGTTGGAATATAAGACAAGAAAGGATTCTATAATTATTGATCTCTCTTCTGCTCCACCTTCCCTTCTCATTGGCTTTATTTTCTGCTTTGTTCTTGGTAAGTACAATAACACAGATGTTGATAGATTTGAAGTGATGATCACTATTGATGGCGAGGACGAAGGTAAAAATATCAGTGTTCCGATTTACATAGATTATGGCTATGAGAAAACTGAATCAGATCACGTGTGTGTGATGTATGAACAAAGATGTTCTACCTTCTTAAACAACAGAGCCAAAAACCAAACAAGGTTTAAAATCCAGGTTACAGTGGAAGAAGCACTCTCACACAAGTTTTTGAAAGGATTTGGCGTTAGCCTTATAAACCGCTCAACATATAAAAAATTCATTCAGGAAATGCAATTGCGAGAGTCACAGTATCAATTTCGTTAAACAAATGAAATTTGGCTGTGCTTCATGTTGATCCAGGTGTTCCTTCCTTTGATATCCCATGATTTTTTTTAATCTTATATGGGTTTGGTGTATCTTAGTGTATGAGAAATTTACAGTTAGCAATTTTAGTTTCTTATGTCTCATATGTAAGTTAAACAATCTAATAGTAGTAAGTATGAGGTATGAAGTTGAGTTCTTATTGTATATACAAAATATTTTATATGTAAAAGACATTTCAATTTGAAGGACCATGTTATTATATATATATATATATATATATATATATATATATATATATATATATATATATATATGTATATATATATATATATATATTTGGAGGAACAAGAATATTACCAGGTAGCAAGAGACAACTCAAACAAAAAAGAAGGGAACATGACGAACTGGTGTGTCCAAGATCTCTTAGGACAGTTCGGTTCATACTAAAACATATTCAATTAAAAAATAATCTACGTAGTGACTGCTATCGTACTAGTTTTATTTAATTAACAAAGCCGCTGCTCCTCCCATTTATCAATAATTGAAAAAAGCCTGGGGCCTCCATTACATTTATTCAGTGAATCCTTCTTCCAATCCAACACCATACCCAGTTTCTCTTTGTTTGACAAATTGTATTTGTATTTGTTTGTCTCTTGTTCATTTCTCTGTGTCCTTTTCTATTTCTCTCTGTTATTTCGAAAACTGAATGGTACAGAGAAAAATCCCATGTCAAACAACAACTCACCTCAAATAAACTATGATGTTTTTGTTAGCTTCAGGGGTGAAGATATCCGCGATGGGTTCCTTAGCCATTTGACTGAGGCTTTTGATGTGAAGAAAATAAATGCCTTCGTAGATGATAAGCTTGAGAAGGGGGAAGAACTATGGCCATCACTCGTCGAAGCAATTGAAGGATCGTCCATTTCTTTGATCATATTCTCACCAGACTATGCTTCTTCTCCTTGGTGTTTGAAAGAACTTGTGAGCATACTTGAATGCAAAGAGAAATATGAGCAAACTGTCATACCTGTTTTCTACCATGTAAAACCTACAGATGTACGACATCAATCATCTGATGGTTACAGAAAAGCATTCGCTGACCATGAGAGAAAACATAACAATGAGGTTCAACTCTGGAGAGATGTCTTCGAAAAGTCTGCTTATTTATCTGGACTTGAGTCATCAAAATTTCGGTTAGCTCTTTTTCCACATAGATGATCAATGTTATCTAGTTGTCATATAGTATATATGCATAGCATGGTAGCTAAACTGCAAAATGATGTAAGCTTTTGTATGTTTATCAGTTAATACTTTTGCATGACAAATAATTTGAGTCAATACCATTAGGCTAGAATTCTGATGAAACCAGTGCTTTGATCCATTGAATTTAGCAGTTAAGGAATCTCCACAGAGAAGGATGGAAGAAATATAAAGGAAATTTTCCATAATGCATGTTGAGAACATCTTTGCCCCAACAAATTTCCAAATGAGTTAATATTGATAGCATTGATTTTAACACATCGCCTGTATGTGGTGTTTTATAGAAATGATGCTGACCTGCTAAAAGCAATAGTGGATCTTGTGCTGAGGAGGTTGACGAAATCCCTGGTTAACTCAAAAGGGCTTGTTGGAATTGATAAAAGAATTGCAGATGTAGAATCATTGATACACAGAGAGTCAGAGAAAACCAGTCTAATTGGACTTTGGGGTATGGGTGGTATTGGCAAGACAACCCTTGCAGAAGAAGTATATAACAAACTACGGTCTAAATATGGAGGTTGTTATTTTTTGGCCAATGTAAGAGAACAGTTAAGCAGACACGGAAAAGATTGTTTGAGGAATGAAATTTTTTCTGCACTGTTGTTAGGAGATTTGAAAATTGACACGCCAAATTCACTGCCAGAAGATATTGTTAGGAGAATAAGTCAAATGAAGGTTCTCATTGTTCTTGATGATGTGAATGATTCAGATCGCATAGGAGAGCTGTTAGGAGGTCTTGACAATTTTGGATCAGGCAGTATCATAATTGTAACAACCAGAGATGAGCAAGTGCTTAAAGCTAATAAAGCTGATGAGATATACCATCTTAGAGAATTCACTTCAGATGAAGCTCTTGAACTTTTCAATCTGAATGCCTTCAACCAAAGTGTTCATCAAAGGAAGTAAAATAAACTCTCAAAAAGGATTGTTCACTATGCCAAAGGGCTTCCACTAATTCTAAAAGTTTTGGCTCATCGACTACATGGAAAGAATGAGGATGTATGGGAGAGTGAGCTAGACAAGCTTAAAAAAGTGCCTCCTACAAAAGTTTATGATGTTATAAAGCTGAGTTATGATGATTTAGATCGCAAAGAGAAACAGATTTTTCTTGATCTTGCATGTTTTTTTTGCATATCATCTGTGAAGATAACCACTGGCTATCTAAAATATTTACTGAAAGATGGTGAAAGAGATAATTCAATGGTTGTTTCACTAGAAAGACTTAAAGATAAAGCTCTTATAACATTTTCCAAAGATAATGTTGTAAGTATGTATGACAGTATAAAAGAAATGGCTTGGGAGATTGTTCGACAAGAGTCTCCTGAAGACCCTGGAAAACGCAGCCGGTTGTGGGATCCTGATGACATTTATGAAGCTTTGGAAAATGACAAGGTTAAAGCCTAAATAAATGTATAACATCTGAGTATTTTTTGTGAGGAATATGGTTTAAATGATGCTTAACTATTCTGCTATATTGGTGACAGGTTAGTGAGGCCACTAGAAGCATACAAATTGACTTGGAAACACTTAAGAAGCAGAAGTTAATGCCTCACATATTTTCTAAGATGAGCAAACTAAGATTCATGGAAATATATGGGGAAGATAAGTATAATTGCTACAGTCAACTTTTTTCTGAAGGCCTTCAATATTTGGCAACTGATTTCTTCGTTGGGAATTTTACCCTCTAAAATCCTTGCCAGACAAATTTTCTGGTGAAAAGCTTGTGACATTAAAATTGGGTGGAGTGGAAAAACTTTGGGATGGAGTGAAGGTAAATATGAGTCTCACTTACAATTCTTTGCTAATTCAAGCAATAAGAAATTGATCTAACTGTAGTGACATCGTCATTTTGTTTTGTTTTATTCAGAATCTGGTGAATTTAAAGGAACTTGATCTCAGAAACTCAAGGAACTTGAAACAGCTGCCAGATTTATCAAAAGCCTCAAATATTGAAGTACTGTGCCTCACGGGTTGTTTGAGTTTAACCAGTGTGCACCCATCTGTTTTCTCTTTGACTAAACATGAGATTTTGAACCTTGATGGGTGCAAGTCCCTTACTATACTCGCAACCCATCTCCATTTATGCAGGCTCAGGTATCTCAACCTTAATGATTGTTACAATCTTACGGAGTTCACACTGACATCAGATAATATGAAACAACTGAGTTTAGAATTCACGAGAATGAAAGCACTTCCCTCATCATTTGGGCATCAACGCAAGCTTGAATTTCGAAGTCTTTGTGCAAGTCGTATTGAGAGGCTACCTTCATCCTTCGCCAACCATACACAACTGCGATATCTAGACATAACCTTTTGCCCGAAGCTTCTAACAATACCAGAGCTTCCTCTTTCCCTGGAAACTCTATATGCTGGAGGCTGCAATTCATTGAAGACTGTATTCTTCCATTCAACGGCAGTGGAACAAATAAAGGAAAATAGAAGACTGGTTTCGTTCGTCAATAGCATGAAGTTGGATGAACCTTCTCTAGAGGCTATTGGGTTGAATGCACGAATCAACGTGATGAAATTTGCAAACCAACACCTATCTGCGCCAAAGCAAGATGATTTTCAAAATTACAACGATTATGAAAAGAATTTTTATTCTTATCAAGCCTTTTACGGGTACCCAGGAAGCAGAGTTCCAGAATGGTTGGAGTACAAGTCAGCAAAGTATTCTGTAATTATAGATCTCTCTTCTGCTCCACCTTCCCCCGTATATGGCTTCATTTGGTGCTTTGTACTCGTTGAAACCTTTATGATCTTGAATTTAACATCGTTATAA