Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0254100
Transcript ID	LotjaGi1g1v0254100.1
Lotus japonicus genome version	Gifu v1.2
Description	Biotin holocarboxylase synthetase 1-like protein; TAIR: AT2G25710.1 holocarboxylase synthase 1; Swiss-Prot: sp\|Q9SL92\|HCS1_ARATH Biotin--protein ligase 1, chloroplastic; TrEMBL-Plants: tr\|G7J3L5\|G7J3L5_MEDTR Biotin holocarboxylase synthetase, putative; Found in the gene: LotjaGi1g1v0254100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:61193480..61204935) extracted from Lotus japonicus Gifu genome v1.2.

AAAAAAGAAAAAAAAATATAAAACTGCTACTCCTGAAGATCCGTATTCCAGAAAAAACCTCCGAAAAAAAACATTTGAAC CAGGTCAAGCTCTTCGAAGTTGTTAAAGAAACATTGGAAAGTTGATGTTATTGCGGAACCCTGCATTGACAACATCATCA TTACTAGCCGCCACAAGGAGAGTCTGCAACTACAATCTTCTCGCATCCACATTCATGGCGTCTTCAGGTTCGTTCTCAAC CTTTGTAATAAAAACGCTAGCTGAACAACTGGGTAGGCTAGTTCAACTTCAAAGCCTGAATAATATTGATTAATTAACTT GTGGATGAAATCAAAACCATGGTTATTGAGCAATTTGAGTGAAGTTTGAATATTGAAAATGACATAGCTGTTCCTTTTTC CTCCATTTTGTTTTTGCATCAGCTGTGGATTGCAGTTTGCTGGTTCTATGTGGCAAATCACTGGCGGAGAATGAGTCTGC TAAAGAAATCAAGACCAGTAACACCCTCAAGCTCCCTGACAATGGAGAACTATCCCTTGTTTTGCATTCGGAGTTTGATG ATAAAAGGGTCATGCAACCACAGTCGTTCTCAGTTAATTCATTCATGAATTCTCTTTCATCAGATCAATTTGGCAGGCTT CTCATTTGGTCTCCACGGTTGTCTTCAACACATGATGTTGTTTCACAGTATGTGTCGGGCTTGTTTCCTTTTCTGTGCTC TGTGTTTTAGACTATATACCCGTTTGGATGCAAATTAAAGAGCATTTATTGGAGTTTATTTAGTTCATTTTATAGCAGAT AAGCTCCAATAAGTCCATATCACCATACGGGCTCTACCTTGGTTGAACCTATATAGAATCAGCAGTCAGCACCCAAACTT AATTGTGCAGATGTCTAATCAATTTTTTTTTCTCATTTTCTACCTACCCGTTTTCATTTCCAGCATGTTTAAGATCTTAT TGTTCCAATTCTTATGTTATTTTTATGCAGCAACTTTTGTGAGCTTCCAATTGGTACAGTATGTGTTGCTGATGTTCAGA CCAAGGGACGAGGTTCAATATGACATTTAGTATTACTGTGACTCTCTCTCCTTTTTAACTTAAATTAGTTTATGTCAAAG TTTCTCTGTGCACTTGAGGTTTCAGGTCGGTCAAAGAATGTCTGGGAGTCTCCACTAGGTTGCCTCATGTTTTCTTTTAC TCTGCAAATGGAGGATGGACGAGTTGTTCCCTTAGTTCAGTATGTGGTTTCCCTAGCTATAACTGAGGCAATCAAGGATA TCTGTGACAAAAATGTAAGGCCTTTTTTTTTAAGTATTGACTTGATACCTATCCTGCGGTAAACCTGATGAGGGAAAGTA GTGTTGACTATTGAATTAACAAATTTAAGTATATATTTTCTATGAAAGTAATACAAGTTTACAGAAGTTATTGACTTAAT AAAATGAAATGTTTAATACTTATTTTGAAAATAAACGGCGGTTTAGGTGATTCTGGGGAAAACTATGAAGCGTTAGGCAG TATTACTAAGAAATATGTGTTGGAGAGAATCACTTTTCAATTTGCCAAATAGCAAACCTGGCAAGTCAGTCTAATTGCTA AAGATAGTAAGAATGGGAGTATTAACCTATAAAGCATGAAGGACAGATGGATACAAATATTCTGGATGGAATAGGAAGAC AACATCCACCATCATATAGTACCTGAATGGTTTTGGGTTTTGTCAGTTAGCATTGTTAAAAAAAACAAAAGCTTACTTTG TTTTCGGTCCGTTTTACACTCCTAATTTGTTTTCTGCTTGTGATTCCAACACTTACCATTCCAGGATTTACCCAGCATTG ATGTTAAAATCAAGTGGCCAAATGATCTTTATTTAAATGGCTTTAAAGTTGGAGGAATTCTTTGCACCTCAACCTATAAA TCAAAGAAGTTCAATATTAGTGCAGGTAATAAGTTTTTCTTGAGTAGAAAATGCTATGCAGTCGTTATGGATTGCACCTC CACCCCGTGTACTAATTTTAGCTAAACTTGTCTAGTAAACCCCTGTTCTCTGAGAATTTAATTTTTGTTGTCATTTTGGT AGAAGTAAAATGATTTCAAAGTTTATGCTCATGATGAAGGTCATAATAAATGCCTTGCTATTACAGGAATAGGCTTAAAT GTCAGTAATGAGAAGCCGACGACATCCTTAAATACAGTTCTAAGAGAATTATATGTGGGAGCTTACCAGTTTCGAAGAGA AGATGTTTTGGCAGCCTTTTGTAACAAATTTGAGAAACTTTATGGTATATTTGTGAATCAAGGTATTTTGTTAATTATCT CATTATATTATTTGATGATATGATCTCTGACATCATAGCCCGAATACGATTATTATCTTAATCATTGTGTATCTACGTTC ATTCCTCTATCTCTGTGTGCTCTCTGAAACACTGATGGATAGATAAATCTTCTAATAATCTGAATCAACTTCTGTAATAA GTGCTTCTCTCACCCCTTGTGTAAAAATTTCTTGTTTGGGTATGGATGATACTGGTAGATCTATTCTTTTAATATCTGTC AAACTAGTTGTTATATATATGGATGAAGTTTTGGAAATTTATGTTTTGGGGAAGGTGATGAGTACTTGGAGTTAGTTAGT TAGTTAAGGGTTAGCATTTAGAGTTAGTTAGTTAGTTATGGCTTAGCCTATAAATAAGGGAGTGTGAAGAGGGTTTAGGT ATCTTTGGGATCATTTGGGAATTGGGAATTAGGAGAGTGATGAGTCTCTCGAATACTCATCTGTTTCTTGTACATTTTTC TGTTGAATAATATCAGGGTTTCATCAATTGGTATCAGAGCACCGATCTAGGTGCTGTGATTGCCATCAATTCGTGAAGAT GTTTCCAGAATTTGATGGAAGAGAGGCCTACGGATGGCTCATTATGGTGGAGCAACACTGTGAGGCCAAGGGAGTATCCG AAGAGGAGAAATTCTCAGGGGCAGAGAAGGCTTTGACTGGTGAAGCTTTCATGTGGTGGTTTTGCTGGAGAAGACGCAAT CAGAAGGCAACATGGTGGGAATTTGTGGAGGCTCTGTTGAGGAAATTCGAACCAGAATTGGAACCGTACATGCCAGAACC AGTTCAAGATTCAGAGGAGGAAGAAATCCCTGGGAAGCAAGAAGTCTTGGAGGCAGAACGAAGAACTGTTGTGGTGGAAG CCAAACCTGAGGCCAATTCAGTGCTGTTGGCGAAATCAGAGATCAAGCCATATTCGCCGGAGAATTCTGAGATGGAAGCG TCGCGGAAAGACTCGGAGTTTGCAATGGCGGCGGAGCAAACAGCGGAGGTGTCACGGTGTCAACCGGTCACCGTGGTTGA TTACATCGATTGCACGTTGACGGCGAAAGGGGAGAAGATCGACGCCGAAGGGGAAATCAAAATCAAGCGGTTACAGGAAG GTTCTTCAATGGAGAAATGGCAGATTTGCAGCATTCATGGGAGGAAGAAGGTGCAACCAATCGTTTTGCCCCAAATCAGT GATTTAGGGTTCGATTGGGAGAGACGGCCGCCGCGGAAACCGCCGGATTCATGTCTCTGCACGGCGGTAACCGCCAATCG ACTGCCGGACACGTTCTTTTGCTGGACGGAGGTCTTCATTCAGACCTCTGTTCTTTGCTCTTCGATGGTTGCCATTCAAC TGGAGACTAAGCCACCAGACCGCAGTGGTGGCAGCTCACACTTCATCCTTGGCGATTCTTGCAGATCGGACTTGGTGGCC AACCGTCCTCCAGCTAAGCCACCGGATTTGGCTGAGACAGCGGTGGTGGGATACTGTGGCCTCGAGTTAGTTCGCACGGA GGAGAGTAAAGGGCGCTCGCTCATTCGCAAGTCGGTAACCGTTTCACGGCCGCCGGCGAAGCCACCGGACTTTGCAGTTA TGGCGGGGGGACGCTCGTTTCCGTCGTCGCTGGTTGGGTGTGGTCTTTCCGTTGTCTTCACACGCACACGCGTTCACACG AAGCAGAGCAAGGCTGGCTCAGCTAGATTTTTCAGAATTGGGTCAAAGTTTGACCACAAGGCCAAAGCCCATAATGCTAA ACAGAAGGAACGGGCCCAAGAGGAACTTTTCTTTCTCAATCATCTACAGACCAGTTCATTCCCTTACTCTAATGGGCCAG GCCCAACTGTTGGAGTATTTGTTTTTTGTTTGTTTAAAGAAGCTTGTGTTTTACCCCACCTTGAGGACAAGGTGGATGTT TAGGGGGGAGTATTGATGAGTACTTGGAGTTAGTTAGTTAGTTAAGGGTTAGCATTTAGAGTTAGTTAGTTAGTTATGGC TTAGCCTATAAATAAGGGAGTGTGAAGAGGGTTTAGGTATCTTTGGGATCATTTGGGAATTGGGAATTAGGAGAGTGATG AGTCTCTCGAATACTCATCTGTTTCTTGTACATTTTTCTGTTGAATAATATCAGGGTTTCATCAGGAGAGAGGGATACAG TTGTAGGGCATAGGATGCATCAGTGCAGTATATAATTAAAATTCCCTTGCGTGTTAACAATTACAGGTGCAAACCTTAGG TGGCTCTTTTCCCCTTTTCTAAGGCTTTACGATTTCTTTTAGTGGTCTGTACTCTGTACTGTTGACTTAGAAGGTCAGAC CTGGTGCAATGATATGGGTTAGAATATAATATAAAACCATTAAAGTGGCCCTTACCCAATAGCTTAAGCTTTTTGGTTAA TTGGTTGCTTGACATGGTATCAAAGCCTCTATGACCGAGAGGTCTAGAGTTTGATCTTTGCTCCCCTCACTTTCTAATTA AAAAGTGGAATTTAATTAAGCACATGGTAGGCGGGCCTGTGCATTTATCCACGCTTCAAGCCCAAAAGGCTCTTGCGTGA GGGGGCGTGTTAGAATATAATATAAAACCATTAAAGTGACCCTTACCCAACAGCTTAAGCTTTTGGGATAAGTGGTTATT TGACAATATGGTTGCTACACTTTGATCTTATAGTCATGGTATAGCCTCTGTGCTCACAGGGTAAGGCTTTGTACATTCCC GCCCCCCCCCCCCCCCAAACCGGACATTGGCACGAGCATAGTGCACTAGGCTGTCTGTACCTTGTTTTATATCCAAAATC TGGAAGGGAAAATAAAACAACAATACTATTGCCTTTTAAGATCAAAATCACATGCTCTCTTCCCTCTTACCTCTTTTTCC CCTCTCTCTCTCTATACCATTCATGGTCCTTCCTTTGTCAGTTAGAAACTTTAAAAGAGCTTTGTCCATTTTGGTCTTCT GAAGATATATGTACCCATCGGTCTATTGTTCATTTATAAATAGTTTGGCAACCACTTATTAATAAGGTCTATATTAGAAA AGACTGCAGAGGTAATAAAGGAGAGTTGTATCATTAATTTAATAGATTGCATGGAAGGTAATCAAGGGATAAAGAGAGAT TTATGTAACATATTTCTTCTAAGGCCATCAAGGGAGTCAAGAAGGAAAGTTGACCCGCATGGCTATAAGAAAGATGACAA GACAGAGGCAGAGACATTATTAGTTATGAGGTAGAGTGTAGGGTCTATCGAATATGCTGTATATCTTCATTTCAATCCGC CTTTATTGATCTTGTAAATTTACCACATTGCTCCTGCTGTGTATGGTTACTAGCATTATTTGAGGAGTTATAAGGTAGAT TTACAGTTTCAAGTTTTTTGATCCATTTTCTAACTACTAGAATTATAAGGTAGATAATATAGTTCATGTAATTCATTCAA TATCTTGCATCTTTCATTTGTCCAATACTACAGTCCTGTGTATGAAAAGAATCAAAGAAGGTTATTGAACTCTTAAGAGT ACGAGTTAGTTTACTTGAAGATATTAAATTAAATAGATTAAGAAGAATGGGAAATTAAGTTTTAGGTTAAAGAAGGAAGG GTAGTTATTTGACCAATAACATTAGCTTTTGCTTTTGAACCATCTACAAGGGTATTGTTCTGAGGAGTTGTATAGGAGAT AAGGTTAAGAAAAGAACAATAAGATCCTATGCAACAGAGGGATGTGCTTCGAGTTGGTTCCGGTGGTGGGAGTCTTGTGC CCCTGAAATCTTCTAGATGTCATTTCAATTTGTCGTCATTAATGTTTTCACTACGTGATGGCAAAAAACCATCCAGAATT ATCCTCAGCATGCAACAAACGGGGAATATAAGCGAGTAATGTAAGAAATTTGAGCTAGTGCAAAGCTGTGTTGTCATCCT GTATGGATGAATAGGTTGTAGGGGGGGGGGATCCAAGTGGAACATAAGATCCATTCCTTGGAAACCCTCATAGAATTGAT TGCTTTGGCCAAACTTGTTGATGAGAACTAGGTTGCTAAAAGGGAGGCCCCCGATCTTGAGTAGCAGATTCGGAATGCCA ACCATGGTTTATGTCAACAAAAACCACACCTGCCAGTGTTGAATAATATGTACTCAGACTTGGGTGACGGCACTAACTCT ATTGGTTCCACACTCTCCACACTTGTCTACACTAGGAAGAGTGTCACAGATAATATTGAGTGTTAGAGAAGGGGGTGGCC TTAGAAGATTTTCCAGTGCTAAGTTGCAAGAAAAAAATGAGAAAGGGCCTTTGTTTTAGGTGTGATGAGAAGTTCAGTTT AGAGCACGCGTGCATGTACATACTTGTTTAATTGGATTTTGGTGGAAGTTGGAGAGGAACTGATTGACAGACAAGGGAAA GAACACCAAGATGTGGAGGAGAAACCTCGTCCTTTATCCCTTCACAACATGATGGGGATAATATCTAGAAGGACCATGAA ATTATGGGGGCATCTAAATGATAGGAAAGTGATGATACTAATCAATTGGGTGTATCCAACAATTTTATTGTATAAGGGCT AGTGCAAGAACATGAATTGCCTATGATCAATGCTCTTAGTACAGGGTTGAAGCTGGGGATGACCAAAAGATCAAATGCAG AGGCGTGTGAAAAGGGGTTATATGCAAGTTCAGGGCCAAGGTTTCTATCGTGCAAGGTTTCTTCTTCTTTGGGTTGGGAG GAACATATGTGGTCCTTGGAAGGTCTGGGAGAGGTCAGGGCCAATTTTAGAGAACTACCTACGAAGATTGAGGTGGCAGA CCATACTATTGTTCTTAAGGGAGACCCTTATATAGATCAGCACCATCTTTAAAGTCCATGTAAAAAGCTCTAAGGACTAG GGAGAAGAGTTCAATATGGAGTACAAATTAGTATCACAAATATCAAAGGAGTATACTGTTTAGCCAGAAATAGAAGATGT CTTTCAAGAACCTCAGGGACTGTCACCAAAAAAGAAGACATGGCCATACTGTCCTCCTGAAAGAGGGAGCCTTAATTCCT AAATCTGACCCTATAGGTAACCCATATTATAACCAAAAGGGTTAGATAAAATTATGAAATATTTTTGTCTCTATTCTAGC ACTCTGATACTAGAAAGAAAAAAGGATGGGAGGGTGGAGATATTGTTGATTATAAAGCCATATACAAAGCAACTGCAGCC AAATTTCCAATGTCAACAATAGATGAAAGATTTGAACAAGTTAGGAGGAGCTACTGTTTTTTCCAAATTAGACCACAATG TAGATGCGTGAGGTAGATGGGTAGATGCACTCATTAAAGCATTAGTGTTTAATGTTTATAGAACATATGATCTTCATCAC TATGAATGATACCAAATTACCGCATAGCTATGCTAAACCCTCTAAAAATCATGCTTGAGGAGACTGTTCTAGACCATATA GCGAGACTGGACTCCCCTTGAGCAACAAACAAACCCCAATGGTTGCTTCATATAAACCTCCACCAAGTCACCATGTAGAA ATACACTTTTAATGTCCAGCTGATCTAATAGCAAGTGATGCATGGCCTCTGTGGAGAGGAAAGGCAGATTAAAGTCATTT TAGCAATAGAAGAGAAGGTATCACTATAATCAGGTCCAAAAATCTACATATAGCCTTTGCTGCAGGACAAGCTTTTAGAT GCTCCACCTGTCCATATTGACAACTTCTTAAAATTCGGGCTAGGCCCAACTCCACTTCAAAAGCTAGCTTAGAGGTGAGG ATATCTTTCACATATAAAGACGTATTTAGACATATCTAGGATCTTATCACACACCCCTCTCGCCCAAGGTTGGACATCTT AGCGTGGGGTTTGCAAAACTGGACGTGTGTAGTAGGTGGCCCATTTATAGGTGGCCCAATAAACTGTTATAGGATAGACT CTGATACCATCTTAAAATTCACGCTAGGCCTAACACCACCCTAAAACATAGCTTAGGGGTTAGGATTGTTTTCTCCTTTA TAAAGACCAATTTGGTAATATCTTTAGCCAATGTGGAACCTTTACATAACTCAAGATTTTTCAGGTGGAAGAGGAACTTC ATTTCATGTCTGGTTGAATTCCAAGGTCGTTATTTCATCAATCATAGCATGTTGCCACCCTAGAAGGGTTAGTGCCACCG CCCACCTGGATAGTTTTTGGGGTAGGAAACAGGAAAAAGAGAAAAAACAAAGGTGCAATGAAATGGAGAAAGATGGTTAC AGCCGAGATATAAATGGGATAAGAATTACGAATAGAACATGTAACTTTGTAAAGGGCTATGGACATGTCATTAGAAGGCC GGGTTAGGTTTGAAGCAGGGTTAGGTTTTTGAGCTGGAAGTGAATGGCCTAACTCTTGAGGGTCAGCCACCAAAGGTTTC TTGGGACAGGCTAAAACGTCATACGTGAGGGGGTCCTTGACCCTGTAAACGGAGACACGTGGGTCGAGATAGGGCATAGG TAATACTTGGGAGATGGTAATAATATCAATACATCTCTCTCTTCGTAGACATTAAACACGCGGAGCCCTACGAAATTTAT TGAATGTTTATGAAAAGAGATACATGCAAAATTTTCATGATAAGGTCATGTGAAAATTTTCCATGAGAGGATTTATTCCC AAAACTAATGGCTTTTAATTATCACGAAAATACCAACATAATGTTTTTGATATATATGGTTGACCAATTTGATGTTGCAT GCATCTTTGGAATATAAAAACAGCCAGACTTGAAAATAAAAAATAAACAACCAAGATGCTGTTACCAGTTAAAGTTTTAT AATTAAGATGTTTCCAGACTTCTGAATTTTCTTAAATATTGTATATTGTGATGATTAGTTAAGTAACCAAGGGCACTCAA TAAATTGCTGTATATGACATTTAAGGTAATTCTGAGCTTCACCATTATGTTGAATGCAGGATTTCAAACCCTAGAGGAGC TATATTATAAGACATGGTTGCACAGGTAACTTGAACTTTACTGTACTCTCATCTGTAGCTTATATTAACCTTTATTCTTT TTCTTTCTCGGTGATGACATTCATGTCAAGACTTAGTAGAGTTGACTGGTATTTAATGTTGATGGGATTAAGAAATCATA GTATGGTTAGAGTTTGCCTTCAACTCTTTCATGCTTAAAAATTACAATGAATTGAGCATAAAAGGACGTAGAGCTAGAAC ATTTAACTTATTGAGCTTAGTTAGCAGTTGAAGATTTAATTTTGACATGATTTATTCATCGTCCTGATTATGCTTTTTAT TTGGAGAAAGCAAATCCTAATTTTGCATATTTTGGAATGGTTTAGCTGTACAGTAATCTATACTTTCAAAATGTCATGCA GTGGGCAGAGAGTTATTGTGCAGGAAAATAATGAGGACAAAGTGATCGAACATGTGGTAACTATTCAGGTATGGTAGATG AAAACTGTTTTGCCTAGGGTCCTAAAAATTTGGATAGAGTACAGATCAAGTTTGCACTTGATGTATAATTTGTAGTTTGA AAGAAGAGGCAATTTATGCTATTGGCTATTATTTATTGGTGAAGTTAGAAATATTCAAAACTGAAATTGTTTAAAAGAAT GCAATATATGTGAATGATCTGCCAGCCATTTCCTATGGTAATACAATAATATTGATGTTTTGACTTCAGTTATCTTTGCT GCAAAATAATTCAGTTTCATATTATTTAATTCTTTTTATGTACAGGGTTTGACTTCCTCAGGATATTTGTTGGCAGTCGG TGATGACAGTCAAATGTGTGAGCTCCACCCTGATGGTAATAGGTAATGAATAACATATCTTTCTCTTCTAATTGCATGAT TAAATGTATGTTTGGAAACCATTCTGCAATTGATTTTAAAGGCAGAATCAATTCTAAGGAGACGCTTCTGGGTTTAAAAA TGATTCTGATAAAAAAAAAAAAAAAAAAAAAAAAAACTGATACAAACATGCTAATCTATTGTGATATGCACAGTTTAGGC CTTTTGAAATTTGAAACACAACATTTAGTTATCAGAAACAATGATCTATCTACTTAACACATTTATACGAAATGAACTTT TCAAACTATGTTATTTCATGATCTGATTATAATATCAATTGGAATTGAAAAGAATTTTCTTCTCTGGTTTCAGCTTTGAC TTTTTCAAAGGACTGGTCAGAAGGAAACTTGCCTGAAGAATATCCCCTTGCATATTTCACCAAAGGCAAATTCTCTCACG CTCTCTTTGTATATATTACCAAGGTTTTGGCTTTGTAGCTAAAACAACTTACCAATAAATCAAATGAATTTGTTTCTTAT GTTTGTCATTAGAATCTTAGAGCATTTGTATTCCATTTCATTTTCCTTGCCTGGTCAAGCAAGATCTTCTACATTATGCC ATGTGAAAAACATCATGCAGTTGCGACCAAAATAAATTATTGTTTTCTCCTGATAGAACCATGTTTCATGATTGGTGTAG TCAATCATTTGTAAGGAATATGGTGGTCCTTCTTCGCCAGCTATGAACTGATTTGAGAAAAATATTTCTGTCTCATTGTT GTGTACCATAATCGCCTTTGCTTCCTAATAAAGTATGCTTGAACTAGATGCTTAATCTGATTGTGTTGACTCTCTGTCAT CCATGATCCATCTACCACTCCCATCATGACCGAGGTGTCACATACTCCTGTAACTCTGAGTGGCTGTCGCTTTCTCAAAC TTGGACTTCGGATGCTTTATCCGCGGTGTAACGAGAAAGTGTGAGTGCTTGTTTGGAAATTCTTCTAGAATTGATTCTAA AATCTAAATTTATTATGGGGAGAAGCTTCTGTAAGTAGCTTTTCTGGATGCTAAAATTGATTTTGATAAAAGAAAAACTA ATCCAAACATATGAAAAATAGATTGTACAAATGTCCTGCTTTGAGCTTTAAACAATGACACATTTATATTAGCATATGTT TCAAGATAGTTGCACTTAATTTAACCTAACTTTACATTGCTTTTCTAAATTTGCATTTATTCCACTAAGAGTAGTGCTAT GTGACTGATCAACTAATACTATTAACATTCAACATTTTTTTCCTTTTTGGGGTGGAGGGATGGGGTGGGGAATTTTTTCA CTGTTACAGTAGCAGG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0254100.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTATTGCGGAACCCTGCATTGACAACATCATCATTACTAGCCGCCACAAGGAGAGTCTGCAACTACAATCTTCTCGC ATCCACATTCATGGCGTCTTCAGCTGTGGATTGCAGTTTGCTGGTTCTATGTGGCAAATCACTGGCGGAGAATGAGTCTG CTAAAGAAATCAAGACCAGTAACACCCTCAAGCTCCCTGACAATGGAGAACTATCCCTTGTTTTGCATTCGGAGTTTGAT GATAAAAGGGTCATGCAACCACAGTCGTTCTCAGTTAATTCATTCATGAATTCTCTTTCATCAGATCAATTTGGCAGGCT TCTCATTTGGTCTCCACGGTTGTCTTCAACACATGATGTTGTTTCACACAACTTTTGTGAGCTTCCAATTGGTACAGTAT GTGTTGCTGATGTTCAGACCAAGGGACGAGGTCGGTCAAAGAATGTCTGGGAGTCTCCACTAGGTTGCCTCATGTTTTCT TTTACTCTGCAAATGGAGGATGGACGAGTTGTTCCCTTAGTTCAGTATGTGGTTTCCCTAGCTATAACTGAGGCAATCAA GGATATCTGTGACAAAAATGATTTACCCAGCATTGATGTTAAAATCAAGTGGCCAAATGATCTTTATTTAAATGGCTTTA AAGTTGGAGGAATTCTTTGCACCTCAACCTATAAATCAAAGAAGTTCAATATTAGTGCAGGAATAGGCTTAAATGTCAGT AATGAGAAGCCGACGACATCCTTAAATACAGTTCTAAGAGAATTATATGTGGGAGCTTACCAGTTTCGAAGAGAAGATGT TTTGGCAGCCTTTTGTAACAAATTTGAGAAACTTTATGGTATATTTGTGAATCAAGGATTTCAAACCCTAGAGGAGCTAT ATTATAAGACATGGTTGCACAGTGGGCAGAGAGTTATTGTGCAGGAAAATAATGAGGACAAAGTGATCGAACATGTGGTA ACTATTCAGGGTTTGACTTCCTCAGGATATTTGTTGGCAGTCGGTGATGACAGTCAAATGTGTGAGCTCCACCCTGATGG TAATAGCTTTGACTTTTTCAAAGGACTGGTCAGAAGGAAACTTGCCTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0254100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MLLRNPALTTSSLLAATRRVCNYNLLASTFMASSAVDCSLLVLCGKSLAENESAKEIKTSNTLKLPDNGELSLVLHSEFD DKRVMQPQSFSVNSFMNSLSSDQFGRLLIWSPRLSSTHDVVSHNFCELPIGTVCVADVQTKGRGRSKNVWESPLGCLMFS FTLQMEDGRVVPLVQYVVSLAITEAIKDICDKNDLPSIDVKIKWPNDLYLNGFKVGGILCTSTYKSKKFNISAGIGLNVS NEKPTTSLNTVLRELYVGAYQFRREDVLAAFCNKFEKLYGIFVNQGFQTLEELYYKTWLHSGQRVIVQENNEDKVIEHVV TIQGLTSSGYLLAVGDDSQMCELHPDGNSFDFFKGLVRRKLA

Download Protein Sequence

Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
PANTHER	PTHR12835:SF5 View details on PTHR12835:SF5 Search for proteins/transripts with this domain View external data on PTHR12835:SF5	28	361	334	5.8E-130	–
PANTHER	PTHR12835 View details on PTHR12835 Search for proteins/transripts with this domain View external data on PTHR12835	28	361	334	5.8E-130	–
ProSiteProfiles	PS51733 View details on PS51733 Search for proteins/transripts with this domain View external data on PS51733	93	283	191	27.75	IPR004143 Show description in modal box View details on IPR004143 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55681 View details on SSF55681 Search for proteins/transripts with this domain View external data on SSF55681	96	298	203	2.36E-48	–
Gene3D	G3DSA:3.30.930.10 View details on G3DSA:3.30.930.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.930.10	96	297	202	9.6E-47	–
CDD	cd16442 View details on cd16442 Search for proteins/transripts with this domain View external data on cd16442	108	282	175	7.32134E-49	IPR004408 Show description in modal box View details on IPR004408 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03099 View details on PF03099 Search for proteins/transripts with this domain View external data on PF03099	111	238	128	4.6E-29	IPR004143 Show description in modal box View details on IPR004143 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00121 View details on TIGR00121 Search for proteins/transripts with this domain View external data on TIGR00121	111	336	226	1.7E-37	IPR004408 Show description in modal box View details on IPR004408 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02237 View details on PF02237 Search for proteins/transripts with this domain View external data on PF02237	300	355	56	4.0E-12	IPR003142 Show description in modal box View details on IPR003142 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0004077 View details of GO:0004077 AmiGO InterPro QuickGO	Molecular function	Biotin-[acetyl-CoA-carboxylase] ligase activity	Catalysis of the reaction: ATP + biotin + apo-(acetyl-CoA:carbon-dioxide ligase (ADP forming)) = AMP + diphosphate + (acetyl-CoA:carbon-dioxide ligase (ADP forming)).	Subterm of View details of GO:0018271
GO:0006464 View details of GO:0006464 AmiGO InterPro QuickGO	Biological process	Cellular protein modification process	The covalent alteration of one or more amino acids occurring in proteins, peptides and nascent polypeptides (co-translational, post-translational modifications) occurring at the level of an individual cell. Includes the modification of charged tRNAs that are destined to occur in a protein (pre-translation modification).	Subterm of View details of GO:0036211 View details of GO:0044267

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0254100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0254100.1