Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_31565 LG8 48526175 48529951 hypothetical protein LR48
 Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   response to abscisic acid, defense response to fungus, monocarboxylic acid biosynthetic process, defense response to fungus, response to chitin, response to wounding, cellular response to hormone stimulus, protein autophosphorylation, stomatal complex patterning, monocarboxylic acid biosynthetic process, response to bacterium, response to water deprivation, protein autophosphorylation, defense response, root development, defense response to fungus, cellular response to oxygen-containing compound, response to salt stress, response to abscisic acid, cellular response to hormone stimulus, regulation of defense response, response to salt stress, protein autophosphorylation, signal transduction, cellular response to hormone stimulus, response to water deprivation, response to water deprivation, monocarboxylic acid biosynthetic process, cellular response to oxygen-containing compound, response to bacterium, root development
Cellular Component   located in   nucleus, plasma membrane, plasma membrane, plasma membrane, plasma membrane, cytoplasm, cytoplasm, cytosol, plasma membrane
Molecular Function   enables   protein binding, protein tyrosine kinase activity, protein tyrosine kinase activity, non-membrane spanning protein tyrosine kinase activity, protein kinase binding, non-membrane spanning protein tyrosine kinase activity, protein tyrosine kinase activity, protein binding, non-membrane spanning protein tyrosine kinase activity
Pathway   B 09159 Environmental adaptation   C 04626 Plant-pathogen interaction [PATH:ko04626]
SNP Position Effect Amino acid change
T/A 48526519 missense_variant p.Phe49Tyr
G/A 48526538 synonymous_variant p.Arg55Arg
C/T 48526625 synonymous_variant p.Tyr84Tyr
G/A 48526644 intron_variant
C/G 48526853 intron_variant
T/G 48526923 intron_variant
C/A 48526941 intron_variant
C/T 48526946 intron_variant
T/A 48526960 intron_variant
G/A 48526977 intron_variant
A/C 48527225 intron_variant
T/G 48527229 intron_variant
T/A 48527233 intron_variant
T/A 48527260 intron_variant
A/C 48527327 intron_variant
T/C,* 48527358 intron_variant
A/C,G 48527398 intron_variant
A/T 48527440 intron_variant
C/T 48527742 intron_variant
T/A 48527744 intron_variant
A/G 48527746 intron_variant
A/G 48527755 intron_variant
T/A 48527770 intron_variant
A/C 48527812 intron_variant
C/T 48527820 intron_variant
G/C 48527873 missense_variant p.Leu171Phe
G/T 48527879 synonymous_variant p.Gly173Gly
T/C 48527880 missense_variant p.Tyr174His
A/C 48527881 missense_variant p.Tyr174Ser
A/T 48527906 synonymous_variant p.Val182Val
G/A 48527910 missense_variant p.Ala184Thr
T/C 48527939 synonymous_variant p.Leu193Leu
C/T 48527954 splice_region_variant&synonymous_variant p.His198His
C/T 48527973 intron_variant
C/T 48527988 intron_variant
A/T 48528011 intron_variant
T/C 48528148 missense_variant p.Ser235Pro
G/C 48528190 missense_variant p.Ala249Pro
T/C 48528265 missense_variant p.Ser274Pro
C/G 48528321 intron_variant
T/A 48528326 intron_variant
A/C 48528337 intron_variant
T/C 48528359 intron_variant
C/T 48528367 intron_variant
T/C 48528405 intron_variant
T/C 48528440 splice_region_variant&synonymous_variant p.Leu290Leu
C/G 48528449 missense_variant p.Arg293Gly
A/C 48528473 missense_variant p.Met301Leu
G/A 48528497 missense_variant p.Val309Met
G/C 48528543 missense_variant p.Ser324Thr
A/C 48528575 missense_variant&splice_region_variant p.Ser335Arg
A/G 48528627 intron_variant
T/C 48528636 intron_variant
G/T 48528656 intron_variant
C/T 48528661 intron_variant
T/A 48528693 intron_variant
A/T 48528704 intron_variant
A/G 48528727 intron_variant
C/T 48528776 intron_variant
T/C 48528781 intron_variant
G/A 48528821 intron_variant
G/C 48528871 intron_variant
A/G 48528879 intron_variant
G/A 48528883 intron_variant
G/T 48528887 intron_variant
T/C 48528897 intron_variant
G/C 48528909 intron_variant
C/A 48528930 intron_variant
C/T 48528946 intron_variant
A/G 48528961 intron_variant
G/T 48528980 intron_variant
T/A 48529008 intron_variant
C/T 48529026 intron_variant
A/G 48529047 intron_variant
T/A 48529069 intron_variant
T/A 48529070 intron_variant
G/A 48529071 intron_variant
T/A 48529075 intron_variant
T/A 48529079 intron_variant
A/T 48529086 intron_variant
T/A 48529091 intron_variant
C/A 48529096 intron_variant
A/G 48529130 intron_variant
T/C 48529136 intron_variant
A/C 48529156 intron_variant
T/A 48529202 intron_variant
T/C 48529226 intron_variant
A/G 48529228 intron_variant
A/C 48529251 intron_variant
C/T,* 48529285 intron_variant
G/A 48529304 intron_variant
C/G 48529311 intron_variant
G/A 48529355 intron_variant
G/T,* 48529372 intron_variant
G/A 48529375 intron_variant
T/C 48529401 intron_variant
G/A 48529404 intron_variant
C/T 48529548 intron_variant
T/C 48529550 intron_variant
T/G 48529563 intron_variant
G/T 48529575 intron_variant
C/T 48529580 intron_variant
C/T 48529591 intron_variant
A/G 48529614 synonymous_variant p.Pro337Pro
G/A 48529695 splice_region_variant&intron_variant
C/T 48529705 intron_variant
C/G 48529716 intron_variant
A/G 48529729 intron_variant
A/C 48529735 intron_variant
A/G 48529739 intron_variant
T/C 48529818 intron_variant
C/T 48529850 synonymous_variant p.Leu370Leu
G/A 48529858 synonymous_variant p.Val372Val
G/A 48529879 synonymous_variant p.Arg379Arg

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_31565.1
MHRSPDHAHGHGRMQDECDKWDFLKFMSHASPPDYFVRQGNTTYQDDLFLRKRTRMRRWLCCTCQVEESYPSNENEHLKSPRNYGDNNQKGSKVSAPVKPETQKAPPPIEAPALSLDELKEKTDNFGSKALIGEGSYGRVYYATLNNGKAVAVKKLDVSMVSRLKNDNFVELHGYCVEGNLRVLAYEFATMGSLHDILHGRKGVQGAQPGPTLDWIQRVRIAVDAARGLEYLHEKVQPPIIHRDIRSSNVLIFEDYKAKIADFNLSNQAPDMAARLHSTRVLGTFGYHAPDVACAMSFYISFHDLLLRLMCVLGFQLGNQFELQNKSLYLLSQLEFEATPRLSEDKVKQCVDPKLKGEYPPKGVAKLAAVAALCVQYEAEFRPNMSIVVKALQPLLKTPAPAPES*


CDS Sequence:
>Vu_31565.1
ATGCACCGTTCACCAGATCATGCACATGGTCATGGCAGAATGCAGGACGAGTGTGATAAATGGGATTTTTTAAAATTCATGTCACATGCGTCTCCTCCTGATTACTTTGTCCGCCAGGGGAATACAACTTATCAAGACGATCTATTTTTGAGGAAGAGGACAAGGATGCGTCGGTGGCTTTGTTGCACTTGTCAGGTGGAGGAGTCTTACCCATCGAACGAGAATGAACACCTGAAAAGCCCAAGGAATTACGGAGACAACAACCAAAAAGGCTCAAAGGTGTCAGCTCCTGTCAAGCCTGAAACACAAAAGGCACCACCACCTATTGAAGCTCCAGCCCTATCTTTAGATGAGCTGAAGGAAAAGACTGACAACTTTGGTTCAAAGGCATTAATTGGTGAAGGATCGTATGGAAGGGTGTATTACGCAACCTTAAACAATGGAAAAGCAGTGGCTGTGAAAAAGCTTGATGTTTCCATGGTCTCAAGATTGAAGAATGATAATTTTGTTGAGTTGCACGGGTACTGCGTTGAAGGAAACCTCCGTGTACTTGCATATGAGTTTGCTACTATGGGCTCTCTTCATGACATATTGCACGGTAGAAAGGGAGTTCAAGGTGCACAACCAGGGCCAACACTTGATTGGATACAGCGAGTTAGAATCGCAGTTGATGCAGCCAGGGGATTGGAGTATTTACATGAGAAAGTTCAGCCACCAATTATACACAGGGATATCAGATCAAGTAATGTGCTAATATTTGAAGACTACAAGGCTAAGATAGCTGACTTTAACCTTTCCAATCAGGCCCCTGACATGGCTGCCCGTCTTCATTCAACTCGTGTATTGGGAACTTTTGGTTATCATGCTCCAGATGTTGCCTGTGCGATGTCCTTTTACATAAGCTTTCATGATTTATTACTGAGGCTTATGTGTGTGCTTGGATTTCAGTTAGGAAATCAATTCGAGTTGCAAAATAAGTCGTTGTATCTTTTAAGTCAACTGGAGTTTGAGGCTACTCCACGATTGAGTGAAGATAAAGTGAAACAGTGCGTTGACCCAAAACTGAAGGGAGAATATCCCCCTAAAGGAGTTGCTAAGCTTGCAGCTGTTGCAGCACTGTGCGTGCAGTATGAAGCTGAGTTTAGGCCGAATATGAGCATTGTTGTTAAAGCACTCCAACCACTTCTGAAGACTCCTGCTCCTGCTCCAGAAAGTTGA


Promoter Sequence:
>Vu_31565::LG8:48524175-48526175(+)
TTATAATTTTAAAATATGTTGTTATTTTCTTAATGACTTATTAAATAGAAAGTGTTTGATGGTACAGGAATTTTTAATATCAGTGTCAATTTTTTCATTTAAGTTTCTCATGTTCCTAAAAAAAAACTTGATAACTATCAATTTCAGCTTATTTTATAAGATCAAATTCCCTCAGCAAAAATATATTAAAATTTAAACTAAACTATTGTATAGGTGTAGGTATCTTAATTAAATTTGATGATTTGCGTTTGTAAAATGAATAATTAGGTTGGATTTTCTCATAAAATGTGAGTCGACTGAGATATGTATTTTCAACTCATTAAAAAAAATTTGTCAACTCTTTGACAGTAAACAATGGAATATAAAAAATATATAAAAATTAATTAAAAAATAAAACAATTTCATAATTTACCAATATTTTAATCCTACAATAATACAATAATTAAAATAAACAATATAGGAAACATGTATCTAAGTAATAATAATGTATATTTAGGGTTTAAATTATAAATATTTTATTTAATGAAATATTAAGAAAATCCTATCTCGTATTAAATATAAACATAATAAAGTTTTGTCTTATGAGTGATAAATAAAGCCTATTTTTAAATAGAAAAAACATTTTGAAGTTTCGTTTCTCTCATAATTAAAATAATTATATTTTAAAAAACAATTTAACTTTAATAATATACGGGTGGAGTTGTCAAAAAAGTAAGCTACTTTGGCTCCCTATAATTCATGTTAGCTAAGATGAATAATAATAATACTATTTCAATTGTCAAACTTTGAGTTTTTATTTTCTATTAAATTTTGCTATTCTTGCGAAGTTTTCTTATTTTTTAATTTTAAAAAGGAATTATTTCGGGTATTTATTTAGATAGCAATGACTTTAATTGGAAAGAAAAAATATAGCCGTTATTTTAGTGGTTTAGTTGAACAGATTCTCTTTCAATATAAGAAAATCCAAAAGCATGTGCTCCAATTTTATTACAACGGTCGACACCAATATTAAAAGCAAAAAATAAATAATAATCAGTACTCTCAGGTCCTAAAATAATGGTAAATTAAAGAAAAGGTCTTATTTTCATTCCCACACAATATAAAATTATAAAATTATAAATTAGAAAATTAGAAATAGAAAAAGTAACAGTTGGCTACAGATACCTTCTCCACTCATCGTTCATTTTCTTTCCTACCAAGTTAAGAAATAAAAAGTGTCTCATTTATTTTATTTTTAAATCAACATTAAAAAGTCAAAGATTTTTTAGTAATTGTGCTTTATTTATAACGCAAGGTTTGATAATTATTAGAAGTGAAAGAAATGTTTATGCATAAAACTAAGGAAATAAAACTGATTTGATGGCATTAATTATTATTAATAAATGATTGGGTGTGGAATGAAAAAAGGTGCCTGATATTATAAAAAAAAATTGTAAAATAAAAAAGAATAATAAAAAGAAGAGAGGCAGCACACCTGGTTTTCTCTCTCTTGTTCCTGGGGTCTGAATCTGTTTATTATTCGTTGCTTGGGTTGGCAAAAACAAACCCTAAAACATCAATCTCCTCTCATCTCAATCTGAAATCGTATAATCTTTAAGGTAAATTCTCTCTCTCCCGTTCCTTTCACCTCTAATTTCGCTATTCTTCTCTTCAATGCCTAATTTTGGTTTCTTTCCCCTTTCTCTTATTTCCCTCTCTTTCCTTCTTCGCTTCTTCATTTTTTGGGCCTCTTCGGGTGTTCTGCGCTTTTGCGAATCCGATTTGGCTTCTAATCCGCCATTCCTTTTTTGGATTCGTCTATAATTTCCTTTTTCTCTTTCAATTTTTCCCCTCTTGATGGACCGCAGAGACTACCACCACCGTCCTGCTCATTTGGTGAGAATTCCCTTTCAATTTTCCACTGCAATTCTCCGCTTCCTTTCTCACCCGCAATTCCCTCTCCAATTCAACATATCTGCCTCTGTAATTTTTATTTCCTGATTTCCGATTTTTAAAGGCCA


Gene Sequence:
>Vu_31565(+)
ATGCACCGTTCACCAGATCATGCACATGGTCATGGCAGAATGCAGGACGAGTGTGATAAATGGGATTTTTTAAAATTCATGGTTTTGGTGCCCCGGTTCATTTCTCACTGATCGTTAATTTTTATGGTGTAATCGAATAGCTGGCGATGAGGCACTGTTACTTTTCAACGCTGAAATATCTTAAATTTATTTATTTTTACACCTGTTTTTAGAGTTTCTTGTTTTTCACTTATGACGTCACGTTTGGGATATTTATGGTTCTTGATGTGATTATATGCAGTCACATGCGTCTCCTCCTGATTACTTTGTCCGCCAGGGGAATACAACTTATCAAGACGATCTATTTTTGAGGAAGAGGACAAGGATGCGTCGGTGGCTTTGTTGCACTTGTCAGGTGGAGGAGTCTTACCCATCGAACGAGAATGAACACCTGAAAAGCCCAAGGAATTACGGAGACAGTGAGTTTATTGGTTTAATCCGTATTGTTTACCATTAAGAAACAACGAAAGTAAACTGCGAAGGATACCCAAAGGCTCATAATTTTCCTCTCAACGATTATCTTTGGTTTATTTCTTTTAGCTTCCATTTTATTTTCTATTGATCTTTTTCATTGCTTTCTAGGGTACCGATTTTCAATAGAACTCATTTAGGCCACAGCAGTGGCTTTTTGCGTATAACCGTTCTCTGCCATGATACGAGCTTCGAATACCCAATTTTAGAGAAAATAAAACATTGTTGTTTGGGGATTTTTTGGGTAAAAGTGTGACCTTGCCCTCGTTTTCTATTTTTTTTTTTTGCTGTAGAAACGTAATTGATGTTAAACCCTTATACCCTGACCATATTACAAAATGTTATGTATGGTTTGACCTCTGTTTCCTTTACACTTCGTAAGAACATTTTTTTTTTCTTCCTCCTTTTGAACCTCCCGGACAGTCATTCTGCTACTTTTTTAGTCTATTCTGTTATGTTATTTTTCTACTGATTTCACCATCTTTTCCCATTTACTATGTTCACAGTGCTCCTAAATTGATGTGGTTTATTATTTATGATAATTTTCTTTGATCTTCAATGGTTGTATTATATTATTGTACCCTGTAGTATAATATTTAAATTAGGTGTCACCCCCCTTTCCGGCAGCTCTTTTAGAGTTAGATTGTATGTGCTACTATTCGATATATAATGATGACTTCAATTAGATGCTTCGAAGTAGTTCGCCATATTAGATCACTGGCACATTTCCTGGTAATGATTACTCACGTTTCAATAATTATTTGCTCCAGACAACCAAAAAGGCTCAAAGGTGTCAGCTCCTGTCAAGCCTGAAACACAAAAGGCACCACCACCTATTGAAGCTCCAGCCCTATCTTTAGATGAGCTGAAGGAAAAGACTGACAACTTTGGTTCAAAGGCATTAATTGGTGAAGGATCGTATGGAAGGGTGTATTACGCAACCTTAAACAATGGAAAAGCAGTGGCTGTGAAAAAGCTTGATGTTTCATCTGAACCAGAATCAAACAACGAGTTTTTGACCCAGGCATGTCTCTCCTACCAACTAGGCGAAACCAACCGTTATAATTTATACACTTCAAGTATGTTGGATTCTAGATTGTTTTGTCAATTTATTAGTCTTCTCATCCAGTGTTTGCTATTTCAGGTTTCCATGGTCTCAAGATTGAAGAATGATAATTTTGTTGAGTTGCACGGGTACTGCGTTGAAGGAAACCTCCGTGTACTTGCATATGAGTTTGCTACTATGGGCTCTCTTCATGACATATTGCACGGTATGTATCTTAATGTCCCATCTTAACTTGTACTTCATATCCAATTAGTTCCGTCAATGATTTTGGTTGTCTTTATGCTACAGGTAGAAAGGGAGTTCAAGGTGCACAACCAGGGCCAACACTTGATTGGATACAGCGAGTTAGAATCGCAGTTGATGCAGCCAGGGGATTGGAGTATTTACATGAGAAAGTTCAGCCACCAATTATACACAGGGATATCAGATCAAGTAATGTGCTAATATTTGAAGACTACAAGGCTAAGATAGCTGACTTTAACCTTTCCAATCAGGCCCCTGACATGGCTGCCCGTCTTCATTCAACTCGTGTATTGGGAACTTTTGGTTATCATGCTCCAGAGTAAGCTTCAAGATCCTGCTAGCTATTCATTTTATATCTATATTTGTTTTCGTACTTCCTTTGAATTTTCATATGCATGCTATCCTGTACTATGAATAAACCTTTTTATATGTTTACACTTCTAGTGTTGCCTGTGCGATGTCCTTTTACATAAGCTTTCATGATTTATTACTGAGGCTTATGTGTGTGCTTGGATTTCAGTTAGGAAATCAATTCGAGTTGCAAAATAAGTCGTTGTATCTTTTAAGTCAACTGGAGTTTGAGGTGAATTTTGCTTCTAACTAAATTTAGAAGAAAAAAAAGTATGTTGGCACAGTATTAAATGGAAACTGAAAGTTGGTTTGGATGCTCCCACCGATATCCAAACACACCCTATCACATGGAATTGGACATTGAATAATTTCTCTTGTAGTCATCTATTAAATTTGTTTATGGTTTCTTTAACTTGTTTATGGTTTCTTTACCTTGTTTCCCTTTCCATTTTTGTATGAATTCAATTCAAATGTGTGCAATCTTTCAATTTTACTTGATGATAAATCTGCAAGTGTTGATTGTTAAGTTGTAGTAAGAGGAGGGAATGCGGTTCCATGGTATCAGTACTGGTTTCGGACGTGAACCAGTTTTTTTTATTGACCCTGTACTCTCCACAATTGACTTAAATTTAGTAGAAGTTAAATTGATATACAGGAAATATATGCAGTGTATCTAGTTTTCTTGATTCAGTTTACCTTGAAAGGTCTTTATTCACATTTATTTTTGAGTTTGTTTGTGCGAATGTTGTTCCTGAACAGTATATTTCACTGTTGATATCCCTGCAATCTAATTCAGCATGTGGTTGAAGGAAGTATCTTGTTCATCATTGCTATTAGTTTTTATGGTTTGTGTTGTTTAGGACTCTGGTCCACTTAATGAGTCATGTGAATTCCTCAAGAAACTTTAAAAAACAATTAATACTTTTGGCTGCTTAGCTATCTTTTTTTATCTTTAATCTGTTGTTTCTCATCTCAGTTCTTTTTCCTCTGAAATTTTATGTGGTTTTATCGATTCTTAGCCATCTGAGTTGCCAAACTTTACAGATATGCAATGACTGGGCAGTTGACTCAAAAAAGCGATGTCTATAGTTTTGGTGTTGTTCTTCTTGAGCTTCTCACAGGAAGAAAACCTGTTGACCACACCATGCCTCGAGGACAGCAGAGTCTTGTCACATGGGTCAGTGCTCCTGCTTAAATCTATACCTTGTCTCTGCATTTTCATTTGACACTGATGGCCTTGTTGACGCGGTATTTTTTGTAGGCTACTCCACGATTGAGTGAAGATAAAGTGAAACAGTGCGTTGACCCAAAACTGAAGGGAGAATATCCCCCTAAAGGAGTTGCTAAGGTGCCTGTTTCTCTTTCACTCTCCCCTTACTTGCACACACATATGTACAGAGATTATATTTTGACTAATGAATAAAGTTCTGGTGCCTGGATCTTCCATTAGATGCTCACATTAACAGTACTTATTGTTGACAATGCAGCTTGCAGCTGTTGCAGCACTGTGCGTGCAGTATGAAGCTGAGTTTAGGCCGAATATGAGCATTGTTGTTAAAGCACTCCAACCACTTCTGAAGACTCCTGCTCCTGCTCCAGAAAGTTGA