Genomic Resources - Ricebean Portal

Integrated genomic strategy for accelerating domestication of
ricebean (Vigna umbellata) under genetic enhancement of minor pulse

Gene Details:

Gene ID	Chr. No.	Start Position	End Position	Function	View on
Vu_13917	LG3	40446291	40451337	hypothetical protein LR48	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	protein phosphorylation, protein phosphorylation, response to jasmonic acid, innate immune response, response to wounding, innate immune response, protein phosphorylation, innate immune response, response to jasmonic acid, immune response
Cellular Component	is active in	plasma membrane
Cellular Component	located in	plasma membrane, plasma membrane, plasmodesma
Molecular Function	enables	guanylate cyclase activity, protein serine/threonine kinase activity, kinase activity, protein binding, protein binding, protein binding, protein binding, protein binding, protein serine/threonine kinase activity, protein binding, peptide receptor activity, protein serine/threonine kinase activity

SNP	Position	Effect	Amino acid change
A/T	40446305	missense_variant	p.Glu5Asp
G/A	40446432	missense_variant	p.Gly48Ser
G/C	40446479	missense_variant	p.Lys63Asn
A/C	40446605	splice_region_variant&intron_variant
T/C	40446607	splice_region_variant&intron_variant
G/C	40446609	splice_region_variant&intron_variant
G/T	40446651	missense_variant	p.Arg91Met
G/T	40446693	missense_variant	p.Trp105Leu
G/A	40446723	intron_variant
C/A	40446725	intron_variant
A/T	40446833	intron_variant
T/C	40447074	intron_variant
T/C,*	40447128	intron_variant
G/C	40447137	intron_variant
T/C	40447171	intron_variant
C/A	40447177	intron_variant
C/A	40447183	intron_variant
C/T	40447285	intron_variant
T/A	40447368	intron_variant
C/A	40447379	intron_variant
A/C	40447380	intron_variant
A/G	40447385	intron_variant
T/A	40447565	intron_variant
G/A	40447654	missense_variant	p.Ala133Thr
C/A	40448083	missense_variant	p.Pro244Gln
A/C	40448084	synonymous_variant	p.Pro244Pro
G/A	40448181	missense_variant	p.Ala277Thr
C/G	40448794	missense_variant	p.Thr481Ser
A/T	40448800	missense_variant	p.His483Leu
C/G	40449056	stop_gained	p.Tyr568*
G/A	40449151	missense_variant	p.Cys600Tyr
A/G	40449198	missense_variant	p.Arg616Gly
G/A	40449304	stop_gained	p.Trp651*
C/T	40449353	synonymous_variant	p.Asp667Asp
C/A	40449381	missense_variant	p.Gln677Lys
G/A	40449452	synonymous_variant	p.Gly700Gly
C/T	40449535	missense_variant	p.Ala728Val
C/T	40449577	missense_variant	p.Ala742Val
A/G	40449716	synonymous_variant	p.Pro788Pro
A/T	40449818	missense_variant	p.Gln822His
C/T	40449951	stop_gained	p.Arg867*
T/A	40450257	intron_variant
C/A	40450258	intron_variant
G/A	40450307	intron_variant
G/A	40450374	intron_variant
A/C	40450404	intron_variant
T/A	40450431	intron_variant
T/A	40450434	intron_variant
T/G	40450459	intron_variant
C/A	40450467	intron_variant
T/G	40450485	intron_variant
A/G	40450526	splice_region_variant&intron_variant
T/A	40450568	intron_variant
C/T	40450578	intron_variant
T/G	40450591	intron_variant
C/G	40450616	intron_variant
C/T	40450667	intron_variant
G/A	40450681	intron_variant
C/T	40450726	intron_variant
C/T	40450734	intron_variant
G/A	40450766	intron_variant
C/T	40450881	intron_variant
A/G	40450889	intron_variant
G/A	40450895	intron_variant
T/C	40450908	intron_variant
C/T	40450909	intron_variant
A/G	40450912	intron_variant
T/A	40451018	stop_gained	p.Cys923*
T/A	40451105	stop_gained	p.Cys952*
T/C	40451183	synonymous_variant	p.Phe978Phe
A/G	40451295	missense_variant	p.Ser1016Gly

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_13917.1

MEKSEEKEESVDLSRISLRPLELSDLDDFLVWTSDEKVATFCTWDPYGSKAEGINFIQNIANKFAWCRAICLDDRAIGKGVATVVVKEVVKVAFMEQSLPNLERMEALVDFNLVMICFSAMLYAVTALNTDGVALLSLQKHWTFVPPSINLSWNASDSTPCSWLGVQCDNNHSAIYLNLSGNSISGNCTLLQNLDLSYNSITGNIPDSLRNLQNLVSFSSMYNGITGQIPEFLFQLQHLEDLLLNQNSLSGPIPMNVGNGTEIVTLYLDRNQLSGMIPPSIANCSKLVELYLDYNQFHGVLPDSINNLQSVVKLSFSNNRLEGTIPLLGSSTCKTLQYLDLSVNKFSGGIPSTLGNCSGLTEIYALNTSLGGSIPSSLGQLTQLSVLRLETNHLSGQIPSEIGNCRSLKYLMLNNNELEGEIPSELGKLSQLQDLRLHFNNLTGGIPVSIWKISSLQQLHVYYNNLSGEVPLELAELKQLRKLGIYHNQFSGVIPQNLGINSSLVEMDLSYNLFTGNIPANLCFGQQLLRLVLASNQLQGGIPPDMGRCTTLTRLRLDGNNLSGPLPDFTSNCSLTYMDFSGNNINGTIPSSLGNCKNLTTVILSHNNLSGIIPFGLGNLVNLQRLNLSQNKLEGPLPHELSNCKKMQYFDAGFNSLNGSFPSSLRTWTGLATLNLRDNHFTGGIPTFLSEFEGLYDLHLGGNVFGGQIPRSIGGLKNLFYELNLSANGLTGEIPPEIGKLTLLQSLDISLNNLTGKIEVLEDLTSLIELNISYNSFSGPLPDTLVNLLHSSSSSFLGVPGLCVRCFPSNCSKSSSLKPCDENNTTHRKGLSKIKVMLIAVGSALLISILLLGLVYLIYYKQDVKIFPEQRSSTLLKKVMKVTENLNDRHIIGRGAHGVIYKVEFIGYIAPENAYSTVMSRKSDVYSYGVLLLELICRKKVLDDPSFVEGKDLVGWVRCIWEKTKGIDGIVDSGLEEELLDSNLREQVEQVLLMALRCTDKNPGERPTMREVVKELIVRCKDIDMKKSKC*

CDS Sequence:
>Vu_13917.1

Promoter Sequence:
>Vu_13917::LG3:40444291-40446291(+)

TTCCTCCTTCTCTAGGAAACTTGACGAAGCTCACAAACCTTGACTTGTCCATGAACAACCTCGTTAGAAACATACCTGAACAACTCGTGTCGGGTTTGCACAACATTGTGCAAATCGAACTCTACCAGAACTCGCTCTCCGGCACGTTGCCACGCGTTGCGTTTGCAAAGCTTGCTAACTTGGAACGGTTCGATGCCTCCACGAACGAGTTGACTGGGACGATTCCGGACGAGTTGTGCGGGTTGAAGAAACTCGGGTCGCTAAACCTGTTCGCTAATAAACTCGAGGGAACTTTGCCTGAGAGTATAGTGAATTCGGAGAACTTGTACGAGTTGAAGTTGTTCAACAACTCACTCTCTGGGTCATTGCCTAGTGGGTTGGGTGGAAACTCAAAGTTGCAGAGTTTTGACGTTTCGTTTAATCGATTCTCCGGTGAGGTTCCGACAAGGTTGTGCAGTGAAGGAGTGTTGGAGGAGCTGATTTTGATTTACAATTCATTTTCCGGGAGGATCCCAGACAATCTCGAGGAATGCAAGAGTTTGAAAAGGGTTCGGCTTAGGAACAATAACCTTTCTGGGGTTGTACCAGGGGGTTATGGGGTTTACCCCATTTGTATTTGTTGGAGCTTGTTGAGAACTCTCTTTCTAGGTCGATTTCTAATCAGATTTTCGGGGCACGGAACCTGTCAATTTTGTTAATTTCAGGAAATAATTTTTCTGGGTCGATTCCTGAGGGCATCGGTGAATTGGTTAATCTTGGAGAGTTTGTTGCTAATAATAATAATCTTACTGGTCGGATTCCGACAATTGTGGTTGGGTTGAGTCAGTTGGATAGGCTGGTCCTCAGAGACAATCAATTTTATGAGAGATTCCTGCTGATGTTGGTGGTTGGAAGGCGCTCAATGAACTTGATTTGGCGAATAACAAAGTGGATGGGAGTATTCCTAAGGAGTTAATGGACTTGCCTGCGCTTAAATATCTTGATCTTTCTAATAATCGTTTATCTGGTGTAATTCCAATTGAGCTGCAGAATATGAAGCTGAACTTGTTGAATTTGTCGAACAATCAGTTTTCTAGGCGTGATTCCTCCTCTTTATGCCAATGAGTATTACATAAATAGTTTTCTAGGAAATCTGGGGCTGTGTAGTTCTCTCTCTGGTCTGTGTCCAAGCTTGGATGAGAACGAGGTAAGGGCAGGAAATATGTGTGGATTTTCTTATTCATATTTGTGCTTGTTGGGATTGTGTTAATTGTTGGCGTGTCTTATATTCACACGCAGAAGTATTGGGGATTTAGGGTTTATTAAAGAACTACAGGGTTACAGAAGAGCATAACAATACATATCATCTTACCTCCTCAACAAGACGAACTCCAACCTTCAACTGAGATGACAAAGAAGAACCTAACTTTGCCCCAACTGAGATAACGAAGAAGAGCCCAACTTTCGTAATCTGATTTCAATCACCCACACACGTGCCAATCACTTAATCTCATTCCACAAATTAAACAAGCAACGTGACAAATACTTAAGACAGAAGCTGGCAGAAGACGTGGCCTCGCCGTTTGCCAGATCAACAAAAAGTTGACGCTGTTCATTTTTAAGGACTAATATTACATGTTTCAATACTATGAGGACTAAAAGCCATCAAAGTTTTGAATAGGAACTAAAACCAAAATTCAATGATAGTTAAGAGACGAAAAACATATTTAACCCTTAAAAATAAAATAAAAATTAAACTATCTTAATTTATAAAACTAAAAAAGCAATATAGCACAAGTTTATAAATTTTTAATGGTTAAAATAGATATAGAAATTTAAATCTTTTTGGTTAAACCATACATCTTGATGCTATTTTTACTTTTATTCACTAATCCCAATCTTCACAAGAAACCAAAAAAAATAAAACCCAAAAAAGAAGCATATCAAGAAAAGCAAAATTGTCAGTTGCTTCAAGCTGCAACAAACCACAAGTAAAATTAAGAACTCCATCATCAAGCCAA

Gene Sequence:

>Vu_13917(+)

ATGGAGAAATCAGAAGAAAAAGAAGAAAGCGTCGATTTGAGTCGAATATCTCTTCGACCCCTTGAGCTCTCTGACCTGGATGATTTCTTGGTGTGGACCTCCGATGAAAAGGTGGCAACTTTCTGCACTTGGGATCCTTATGGTAGCAAAGCAGAGGGAATCAATTTCATCCAAAACATAGCCAACAAGTTTGCGTGGTGCAGAGCAATATGCCTGGACGACCGTGCTATTGGGTTTTTCTCTTTCCTCCAATTCAGAGCATGATCAAAGCAGGAACAGATCCTTGGAACTTGGCTATGTTATTGGTTCCAAATACTGGAGTAAAGGGGTTGCCACGGTGGTTGTGAAAGAAGTGGTTAAGGTTGCTTTCATGGAGCAATCGTTGCCAAACTTGGAGAGGATGGAAGCTCTTGTTGATGTGCTGAATGTTGGGTCTCAGATAGTGCTGGAAAAAGCTGGTCTTCATTGAGCTGATTTTGATAAACCCTAATTTGGAATTTGGTGGTGCTTAATTTCAAATTTTGAACAAATTTTTGGGTTTTATGAACCCTAATTTCGTGATGAACTTGCTAGAGTTGAAGATGATAAAATGAGACTATAAAATGTAAGGTTAGAAGATGATAAACTCTAATTTAGATTTAAATTATAAAAAAACCTAATTTTTAAATTTATAATATAATGAAATTCTAAGTAACAACATAATATCACATATAAAAAACTTGATTCTATTAAACGAATTTAACGTGAAATTCTAAGTAACATCATAATATCACGTATAAAAAATTTAATTCTATTAAACCAATTTAATTAAACCAATTTAACAGTTAATTTTTCGAGTTAATTTTTGACTCAACTGGGAACAAAATTAATACAGAAATCTTGGAAACATCAACATAAACAGCGACTGTTTAACCAATCTTTTTTAATTATTTGACACTTATGGATAGACAAAACTGATATATATAGGGAGTTAACAACATTGTTCCTTGACACTCAACACTCTTTCACTATGTTACTATCTTTCTCATTTCCCTTCTCTCTCAATCTTCCTTCATTCAGATTCTAGTCATCAATTCCTCCATAAACCTCATTCAAAATTTAATCATAAAGCTTGAAAATAGGTACTTTTTTTAAACACTGTTGTATTTTTTTTTATTAAGAAGTATTCTCAATATGTATATGTCTATGAGGAATGAGTTAGAGATTCCAAGTCGATAAAGCAATTTCCAACACTTGAATTTTCCATTTCTTTTTAGCTTGCTTGTGTGTGTGTGTGCTACACATCATGGTGAAGTTCAACTTGGTCATGATTTGCTTTTCTGCCATGTTATATGCCGTTACTGCATTGAACACTGATGGGGTGGCTCTTCTGTCACTCCAAAAGCATTGGACATTTGTTCCTCCTTCCATAAACTTGAGTTGGAATGCTTCTGATTCCACTCCATGCTCTTGGTTAGGAGTCCAGTGTGACAATAACCATAGTGCAATCTATCTTAACCTCTCTGGAAACTCAATTTCAGGTCTTTTGGGACCTGAAATAGGACACTTGAGTCACTTGCAAACACTTGACTTGTCCTCAAACAACTTCTCAGGGAACATACCTCCTGAGTTAGGAAATTGTACTCTGCTTCAGAACCTGGACCTTTCTTATAACAGTATCACAGGAAACATACCTGATAGTTTGAGAAACTTGCAGAATTTAGTGTCTTTCAGTAGTATGTACAATGGGATAACTGGTCAAATTCCTGAGTTCTTGTTTCAACTTCAACACTTGGAAGATCTTCTCCTGAACCAAAACTCTTTGTCTGGTCCCATTCCAATGAATGTTGGGAATGGTACAGAAATTGTGACACTGTATCTGGATCGTAATCAGTTGTCAGGAATGATTCCGCCGTCCATTGCAAACTGCAGTAAATTAGTGGAGCTGTATTTGGACTATAACCAGTTTCATGGAGTTCTACCTGATAGTATTAACAATCTTCAAAGTGTTGTTAAGTTGAGTTTCAGTAATAATAGACTTGAGGGTACCATTCCCTTATTGGGATCTAGCACATGTAAAACTTTACAATATTTGGACCTGTCAGTAAACAAATTTAGTGGAGGCATACCTTCAACCTTGGGGAATTGCAGTGGATTGACAGAAATTTATGCTTTAAACACAAGTTTAGGAGGAAGCATTCCATCCTCCTTAGGCCAATTAACACAACTTTCTGTTCTTCGCCTTGAAACCAATCATTTGTCTGGTCAAATACCTTCAGAAATTGGTAATTGTAGGTCATTAAAATACTTGATGTTGAATAACAATGAACTTGAGGGAGAGATTCCAAGTGAATTAGGAAAGCTAAGTCAGTTGCAAGATCTTAGACTTCATTTCAACAATTTGACAGGTGGAATTCCAGTGAGCATTTGGAAAATTTCCAGCCTTCAGCAACTGCATGTGTATTACAATAACCTTTCTGGTGAGGTGCCTTTAGAATTGGCAGAACTCAAACAACTGAGAAAACTTGGCATATACCACAATCAGTTCTCTGGAGTCATTCCTCAAAACTTAGGAATCAATAGCAGTTTAGTGGAGATGGATCTCTCATATAATCTTTTCACTGGAAACATCCCAGCTAATCTATGCTTTGGACAACAATTACTTAGGCTAGTCCTGGCTTCAAATCAATTGCAAGGTGGTATTCCTCCTGACATGGGAAGATGCACCACACTTACTAGGTTAAGGCTTGATGGAAACAACTTAAGTGGACCCTTACCTGATTTTACAAGCAATTGTAGTCTCACCTACATGGACTTCAGTGGGAACAATATCAATGGAACAATTCCATCAAGTTTGGGAAACTGCAAAAATCTTACTACTGTTATTTTATCTCACAACAATCTTTCTGGGATCATACCCTTTGGGCTAGGAAACCTTGTGAACCTTCAAAGGTTGAACCTTTCTCAAAACAAATTAGAAGGTCCTTTACCACATGAGCTGTCAAACTGTAAGAAAATGCAGTACTTTGATGCTGGATTCAATTCTCTAAATGGTTCATTCCCGTCTAGTTTGAGAACTTGGACAGGGTTGGCAACATTGAATTTAAGGGACAATCATTTCACTGGGGGTATCCCAACTTTCTTATCAGAATTTGAAGGCCTTTATGATCTACATCTTGGGGGAAATGTTTTTGGAGGCCAAATTCCTAGATCAATTGGTGGGTTGAAAAATCTTTTTTATGAGTTGAATCTAAGTGCTAATGGGCTGACTGGTGAAATTCCTCCTGAGATTGGAAAACTGACATTGCTGCAAAGCCTGGATATTTCTCTCAACAATCTGACTGGAAAAATTGAAGTTCTTGAAGATCTCACTTCATTGATTGAACTCAATATTTCATACAATTCTTTTTCTGGTCCTCTTCCAGACACACTGGTGAACTTGCTCCATTCTTCTTCCTCATCATTCTTGGGAGTTCCTGGCTTATGTGTTAGATGTTTTCCATCAAATTGTTCCAAAAGTAGCAGCTTGAAGCCATGTGATGAGAACAACACTACACATCGAAAAGGGCTGAGTAAAATTAAAGTTATGTTGATAGCAGTTGGATCTGCACTACTGATATCAATTCTGTTACTTGGTCTTGTTTACCTGATATACTACAAGCAAGATGTGAAGATTTTTCCCGAACAGCGATCATCAACTTTGCTCAAGAAGGTGATGAAGGTCACAGAGAACCTAAATGATAGGCATATTATTGGGAGAGGAGCTCATGGAGTTATTTACAAAGTTGAATTCAGTCTGGACAAGGTTTTTGTCATAAAGAAATTTCCCTTTAAAGATAACAAAAAACTGATTACTAGCATGAACGCAGAGATTGAAACCACTGGGAAGATAAGGCATAGAAATCTAGTGAGAATAAAAAACTTCTGGTTAAGAAAGGACTTTGGTCTAATCATGTACAAGTACATGGAAAATGGAAGTCTTCATGATCTTCTGCATGAGAAGTTTCCACCACCAACTTTAGAGTGGAATGTTCGCTGTACAATTGCAGTTGGAATTGCACATGGACTTGAATACCTCCATCATGATTGTGACCCTTTCATAGTGCACAGAGACATCAAACCAAAGAATATACTATTGAATTCTGATATGGTGCCTCGTATTGCTGATTTTGGCATTGCAAGACTTCTATATCATTCCTCTTATTCATTGCAATCTTTATCTGTTCCTGGTACAGTAGGGTACATTGCACCAGGTAATTCTTCTAGTCTTTGTTCATCATGATAACTTTATTATTATTTTTTTAAATACAAGGATTAAACATGTTTATAGTTTCTAAATTTTAACACGAAATTGTAATATTTTTTTTATGAAACTTTGATATATTTTGATCTTCAAACTTTAAAAATAAATGAATATAGTCTTTTTAATTTAATTATGTTAAAAAATTGTGTCATACATGTTTTCTAGCTAACATTAAAACGAGAAATGTCAAATAGTTTAAACAACTCAAATGTTAACATAAAACGTATTTTACAGATAAAAAGAAATTTAATATAATTAAGTTAAGATGATTAAATTTATTATTTTTAAAATTTAATATCAAAGTTTCACACAAAAAAAATTCGAATTTTGCATAGTCTAAAAACATATTTAAACTAAATATGAATTCTTTAATGGAATAACACATGTTTATCTTGGTATGCACCAGAGAATGCTTATTCAACAGTGATGAGTAGGAAGAGTGATGTGTATAGTTATGGAGTGCTTTTGCTAGAGCTGATATGCAGAAAGAAGGTGCTAGATGATCCTTCATTTGTAGAAGGAAAAGATCTTGTGGGGTGGGTTAGATGTATATGGGAAAAAACAAAAGGCATTGATGGAATTGTTGACTCAGGGCTTGAAGAGGAACTTTTGGATTCAAATTTGAGGGAACAAGTTGAACAAGTGCTCTTGATGGCATTGAGATGTACTGATAAGAATCCAGGTGAGAGACCAACAATGAGAGAAGTGGTCAAGGAGCTGATAGTTAGATGCAAAGATATTGACATGAAGAAGAGTAAATGTTGA