Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0054500
Transcript ID	LotjaGi3g1v0054500.1
Related isoforms 1	LotjaGi3g1v0054500.2
Lotus japonicus genome version	Gifu v1.2
Description	Molybdenum cofactor sulfurase; TAIR: AT1G16540.1 molybdenum cofactor sulfurase (LOS5) (ABA3); Swiss-Prot: sp\|Q9C5X8\|MOCOS_ARATH Molybdenum cofactor sulfurase; TrEMBL-Plants: tr\|I1KZR5\|I1KZR5_SOYBN Molybdenum cofactor sulfurase; Found in the gene: LotjaGi3g1v0054500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:5692121..5702834) extracted from Lotus japonicus Gifu genome v1.2.

ATCTTGGATTGGTCGTGTCCGAATCTCAGTTCATGAACTCACAGTAATCTTCTTATACATGTGTCGAAGACTCGTTGAAG ATACGTCTCCACTATTGCTTCCATTAAACTCTAGATTCGCCTTTTCATTTTCATCATTACGTAACTACTGTACTTGACCT GGCTATGGCGGCGGAAAAAGAAGAATTTCTCAGAGAGTTCGGCGAACACTACGGCTATCCAAACGGCCCCAAAACCATTG ATCAAATTCGTGCTACTGAATTCAAGAGATTACAAGGTCCTTCAATCTTTTCATATATCTTAGCAATATCATCAACTTTG CAAAATTTTGGAATTGAAAATTTGATGCTGTTTGTTTCTGCTTCCGATTAATACTGAGTTTCATCTCATCGCAATCACAA TTTGAAATTACAGATACTGTATACTTGGATCATGCTGGTGCTACTTTATACTCCGAGATGCAAATGGAGTCGGTTTTTAA GGATCTCACTAGTAATGTATATGGAAATCCTCGTATCCTATTGTGATTGAGAATCATTGCAGTTCAATTATTTACGCGTG TTGTGATATCAAATATGAGTAAGTCCCTCGTTTGAAGAAAAGGATAGTGTTAAACACTTTATAAGTGTGATGACGCTTAC ACCTAATGTTTTAAGGTTTTGGGGTAAAAGATGTGGTGTCTAATTCACTTGTGGTTTATCTTTAGCCTGTGATGATCCCC TGTGTTTTTTTGCCCCTCGCGGCCCAACAGGGTGGAGATATTCTTAAAATTGAGTGTAGAGTGAATTTATGTAATTGGTA GTTTACACTCTTTATGAAGTGAAATTCCTTAATCATGATACTAGATAGCCAAAGTGACTCCAGTTCTGCGACTTCTGAGA TTGTGAGCGCTGCCCGCCAACAGGTACAGACAAATATGCAATTACTTAAACATGTCAACTGCCTTTTTGTTATTAAATTA TGATAATTTGGGATTATGTTCTGTGGTGAGTGATCTTTATCTAGACAAATGTTTGTATTTTGTTATTTTGTATGTGTAAG GAGTGCTAAAGTTCAATTGGTGAATGCCTGTCTGGACACCATACTTTGCCTGGGGTTTACCTTGTCTTGCTTTGATTAAC TTGGTGGGCCATGTTGTCTCTCCCATTTAAATGAGTCCAGTTGCCTACTAGGGAATTGCTATTGGATTCCTCTTTTGTAC CTTTTGATTTATGTTTCAGAAAATTCTGCATTTTGCACAGATTATTGAACTATTAGTCATACAGGTCCTTAAATACTGCA ATGCATCTCCCAAAGACTATACCTGTATATTCACATCTGGGGCAACGGCAGCGTTGAAACTGGTTGGAGAGGCTTTTCCA TGGAGTTGTAACAGTAATTTTATGTATACAATGGAGAATCATAACAGTGTTCTTGGAATAAGAGAGTATCCTACCTGATA AGAATGATAAGTTATACAATGCCATTAAATTTAGTGAAATGGGCTAAGTCCTGGCATTAGGTGCATAGATTTCAATAACA TATTCTTTTGGCCCTGATGTAAGTCTAATTCAATTTTCTTTCTTTCACTTCATATATATATATATATATATATATATATA TATATATATTTAACCATTTTTCTGTTCAGCAGCACTTAAAACTAAACTAGTTTTATATATATTTGTTTGTTTATGCTGAT TTTGTGTACATTCTTGTGTTTGGATTCAGAGAATGCCTTATCTCCTTTGATTGAATACAATATTTTCCTTCCAATAACAT TACTCAAGTAAAAGATTCCTGTCACTTCTGATAAATATACGTGTCTTCTTAACTTTTTCCATCATGATTACTTTGCTGTA TTAGATGATTCATAGCTCTAGTCTGTGTAACTCCTTAATAAGTATTAGATATGCTCTTGGTCAAGGAGCTACAGCTGTTT CTGTAGATATTGAAGAAGATGTGCATCCTAGAATAACAAGAGAAACTGTTTCTACAAAGATATCACTGCACCAAGAACAA AGGAGAAAAGTGGTTGGATTGCCGGAGGGAGAGCCAACAGGTAACTCTTGTGGTCATGGATATGTTTCTTCTCTTTAGAT GAGTATCTTATATCTCTTTGTTCCATGCAGGTGATGTGTATAATTTGTTTGCCTTTCCCTCAGAGTGCAATTTCTCAGGG TTGAGATTTGACCTTGACTTGGTGAATATTATCAAGGAAGACTCGAGCAGGTTTTTTGGATTTTCTTCAATTTGCAAGTA ATATACAGAATTATTTGCCATGCAATAATTGAGCTGTTTGTTAAATTGATAGATAGATAAATAGATAGAGAGAGAGAGAG TAGAAAAAGAGATAGGGAGAGAACTTCATTTATCTGTGGAACTTCTTTTAAGCATTAATTATTAATATTGTATTTTTTTT ATACTTTCATAAGAAATAAACAGTGGTTGGTCTTGATTGATGCTGCGAAGGGATGTGCTACCATGCCACCTGATCTGTCC AAGTATCCTGCAGATTTTGTTGCAATCTCATTTTACAAGGTATACGATTTTATGTTCTGATTTTGTTTTGATAAAGGATA ATTTGAAAATTGATGCTTTGTATTGTGCATTTTTGTTAGCTGTTTGGCTATCCAACTGGGCTTGGAGCTCTCATTGTTCA AAATGGTACGCTACTGGTTTGGGCAACGTATATACTCTAATTTTATGCTAGCCTCATGATTCAACAATTCTCTGCATTTT ACATTGTGCTAGGTTTCGTTGATTATTATAGTCACGTGACTTACTTATTTTAACAAATTAGGAGCGTTAGATTTAAAAAA GATGTACGGGTCATATTTAGTGTAACAAGATTAATAAGAGTGTAAGTTGAACACTCGTGTGTATATATATATATATATAT ATATATATATGATGTAAATTTGATTCTGTAAAAGCTGGTCTCTTACTGATTATTGTTTTGATTCTTTTATATTACAGATG CTGCCAAGTTACTGAAGAAGACTTATTTTAGTGGAGGTTTGTGGTTTAGCAGTTACATGCGTCTTTGTGATTAACACTTG GTTATTTGATTGGGCCGTCCCCATACAGGAACAGTTGCTGCATCAATTGCTGATATTGATTTTGTTAAAAGAAGGGAAGG TATTGAAGAGCTGTTTGAGGATGGCACTGTTTCATTCCTTAGCATAGCATCTATCCGCCAGGGCTTTAAAATCCTGGATT CTCTAACTGTATCAGCAATATCACGGTATGCAGAATATGGTAAATATATGAATTTTGCTATCATAATATCATCGCTCATT TAAAGCTCCTAATGGTCGTCTATTTTATCATTGCTGATCATATGGCTGATTCATCTTATTGCTTATGTTTTTTCACATCC ATAATAATAAAAACAACCAAGTCTTTTCACACTAAGTGAGGTCAACTGCATGGATCAAATGATATCATGATGCCCTACTA TGAATTAATTCAACAATACATTATTTAACTCCAAATATGTTTTAATGATTTGGCCTATAGTTTTCCTTTGTCTTTCTCTA TCTCTCACTATTGGCTATCCTCCATTTAGTCCTATAAGTAGAGATAAAGGAAGACGAAGGAAAGATCTAAGAGAAACTAT TGTAGAAGACTCAGATCTATATGACCCTTCTAAAGACTTCGTTTTTGATTGATTACAAATTTACAATGGTTTTGTTTAAT ACATATAGACAATTCCACCTAGTGGGAAAGCGCTTTTGTTGTTTATGTAGATGTAGAAAGCTATAGTACCTTCTTCCCAC GACTTGAGGGCCTATTGTTTGATTATTGATAATAGGAAATTTTAAATTTAATCTTGGATTTTGGTACTGTTTTCTACATC ACATGTACTGACATGCTCACTGCTACCTGAAACTGGATAAATTATTAGAGTAGATCCATGAGGGTTGAATTTAAAGCCAA TTTAATGAAACTTTTTATGTTTTGGCAAAGGCTTTTGTTGTTGTTTGATATTGTGGCAATAAAGGATTTAACTTAGTTTT GGTTTTTTACTGGTATTTCTTTATTTATTTATTTATTTATTTATTTATTTTTCCCTTTAAGTTGTTTGAACATTATTTTC TTTGATTATTATTTTTAAAGCCTGCAAAATATGTTGCCTTGTAGACATACCACATCTCTTGCATTGTATGCAAGGAAAAT GCTTTTGGCCCTGAGGCATGAGAATGGATCTAACCTCTGCATCCTATATGGACGCCATAATTCAATGGTTAGTTTGTGCA AAATGTAGCTTTGATTGTCTGTCATCCTCTTGAGGAACTTAAGCAAAGTGTTAATACTATTTCTATTTCTATTCAGGGAC ATCGTTATGAAATGGGTCCAATAGTTTCGTTCAACCTCAAAAGACCAGATGGCTCTTGGTATGGATATCGGGAAGTTGAA AAGCTAGCATCTCTTTCGGGAATTCAGCTAAGGGTAAAATTATGAATTTCTTCATGTTGATGTTTTCTTTTAGTGAACTC ATATAGTCACCCTAGTACAACAATTGTTTATTTGTACTTCGCCGCTTTTATGTTAAAATTATTAATCGATTGCTGATTAT TTATCGTCACCTATTGTTTAGACAGGATGCTTTTGCAATCCAGGTGCATGTGCAAAATACCTGGGCTTGTCTCATGTGGA TCTTATTACGAATACTGAGGTGTGTCTACTGTCTACTTTAGCTTGCTAAAAACCGAGTATGATAGTTTATCTATTGAGTG TATAAAATGATTGCAATATTTATGTATTTAGGCTGGCCACGTTTGTTGGGATGATCATGATATAATCAATGGAAAACCTG TTGGAGCTGTAAGAATATCCTTTGGCTACATGTCAACATATGACGATGCCAAGGTTTGATTCTTAGATGATTTTACGTTT TTGTTTGACTTTTGAACCATTAATATTTTAAGTGGGCAACTTATTGAGATAAAACAGGCTATCAGAGAAATGTTAAATGC ATATTGCTAGTTCTGTTTGGTGTGTTAATGTTGGATTAATTGTATTTTCCAAGATTTTGTTTACCCTTTCACAAATATTT TTTTATGTTTTGATTTTCAGAAATTTGTTGATTTTGTGGCAAGTTCCTTCATGTCCCCTCAAAATCACATTGAGCATGGG AATCAATTGAAAGGTCCACCCTGTCCAACATTAATTAATTCTCCAGATTCAATGTATTGAAATCCAAGTTGCTTATATGC TTTCAGTGACAAGGACTTAGATTTGCATAAGCATATAGAGTGCACATCTTAATTCGGCTACATAGTAGGTTTACTTACTT TTCACCTTGGATCAATCTTTGGGCATCCAGAAATATGTACATTATATCAATCCTAATGATTGGAAGACAGGAAAGGAATA CAAAATAACTAAGGAAACTCTGAACCTACAGTAGCTAACAATCATGACTAGGAGAGTAAATCAATTTAGAATATTCATAG CTAATCACATTAAGTCTAATTCCTATCACCGATATTCTCTCCAATTTGGAATTGATTTTGGATCATTGAGAGAAATCTAG GAAATATAGATCCAACTTCTGATTTTTCTTTCGTAAGTTATGCCTAAGCAGCTCTCATGCCATCATCTACAAACATGAAC CACCTGGTGCTAGAGATGTTTGTCACACTCACATGGAATGAACCTGAGACATCAGTTTGAACTGAAAAGACACAAGATGG TTGATAAGGGTAGAACGAGTTTCTTGTGAGTTTCACAATCAGGACCCTTTTAGGATGTATCAATAGGACAAAATAAGGGC AAGTATTTTGTTAATGAGCTAGTCCATTAATAAGGGCAAGTATTCTGTTTTCATTCTTTTAGATGTACATTTACTCCGTT ATTACCTGCAGGGCTTGAGAAAGGGGTCCTGGATGCTAGTTATTATCTCAAATCAATTACAATATATCCAATAAAATCCT GTGGAGGTTTCAGTCCAAAAAGTTGGCCTCTTAGCGACAATGGTAATCATTTACTTTCTACCGATTGATATTTTTTTTTA TAAATAAGTAGTTATATATACTTTGTCAACTCACCTAGAACAGCTATAACCTATCAACAATTGTAGATTGTTCAAAAATA GGCTTTAGGTGCAGGTAGAGGAAAACGAATACTCAGAATCATAATAAAAAAATCATATTAATATTGTTATGAATGATATG ATGTGATTAGAGATTATGGTCTCATTGGCTTAGCTTACACCCAAACTCCTCCATGACTTTTGCTAATCTCCCAAACCAAG CTCCGGGAAATTGTCAACTCCTAGAAAGCTTTTTCGCAGCTTGTATACCTTGTCACAACACAAATACCATTTCTTTAACT TTCAAAATCTTCCTTTCTCTCTCCAGTTTTTTAACACCTTAATAGTGGATATTATTTATTTCCTGCTCTAAAATCTGTTC TGAATTTTGTTCTACAAGATGAATTCAATGTAATGGTTTGGAATGGGATCCTATTTATTACAGGATCATTTTGAAAAAAT ATTGTTCTGTTCATCATGTTGTTAGTCTTAAATGATAGTCCTATTTCAATTATATGGGGATTTTTATCATAATTTTTTGT TACTGTTCTATTGTTTTTATTTTTCACAGTAATGAAGTTTTATCCTTTTCTCTATAATTTTCTCTTTTAGCTTTTAATGT TAATTTGTTTAAATTTTGAGCAGGCCTAAAACATGATCGGGAGTGGGTTCTCAAAAGTCTCAGTGGTGAAATTCTTTCAC TGAAAAAGGTAATCCATTAAATGATGCATGAGTTCTCAAATTTATGTTGTTCTTGGATGCATGATGCATATTTCAGGAAT CGTCTTTTATTTTATTTTTATCTATTTTAGTTGTTCAGTTTGGTTTAATTTATGAAGAATGGTGTTTTTTCCTTTTAAAA TTTGGATAATGTTCATTGGTGGATACGGTATGGTGTACGTGGTTGTGTTCTAGCATATCCTAGTAGTTTGTTGTGGCTAG TTTGAAATTGGTTAGAGATAGTTATTATTCATCAGTTAGTTAGTTTATTGGTGTATACATGATGTGTACCTGATTCTAAA GTTTTGATTTGTTTGCTACTTTGATCTTAATCTTGTAGGTTCCTGAAATGGGGTTTATAAGCCCCTTCATTGACCTCAGT CAGGGAATGTTGTTTGTAGAGTCTCCACGTTGTAAAGAAAGATTGCAAATCAGGCTTGAGTCAGTTTATGATGGTGAGAT TGAGGACATTCAGCTGTATGGTCAGAGGTACATGTTGTTATGCACGTTATGCATGTGTGTGTGCGCGTGCGGGCGGGTGT GCGTGTGTGTGCTAAACACAATAGGAAACAAAATAATTATATTCATACAGAATCATTTACAGCCAATTAAGAGCTTTAAA TGCTCAATTTTACACCCTGTCGTCAAAATCTGACTTGGAGTATCACATGAAGCTCTAAATCTATTCTTCTACTTATACTT TCTATTGTAAGCTTTAAGAAGGTTACAATATCTTGATTTTAATGAATAAATTTCCTTTTGCTGTAAAAGAAAAATCTTAA AGTTGATTCAAAATTTCATTGCACACTCAAATTTAATCTGGATCTCTCATAATTGGATTTATTTTGTTTTCATTTTTTCG TTGCTCAGGTATAAGGTGTACAATTACAGCACTGAGACTAATGCATGGTTTAGTGAAGCTGTTGGTAAACCTTGCACGTT GTTACGATATTCTAGTTCCAATCATGATTTTGTTTTGAAAAAGACCAAAGGTGCAGTCACATGCAGAGATGCAAGGAGTG CCGTCAGTTTTGCAAATGAAGCACAATTGTTACTTGTATCTGAGGAAAGTGTTTCTGACTTAAATAGAAGGTTAAATTCA GATTCAGGTATGATTTTGTACCCATTTTCTTATATATGACATGTAAGCCCTTGTATATCTTAATAATTTTCCTTTCTTAT TAAGTTTTACTTCAAATCCATTTAGAAGCTATTGATTACTGACAACAACAATAACCAAAGCCATTTCCCACGAAATTTGA TCTACCACGTAGATCAAATGACCATAATGTCTTATCATGAATAATGCCTATTGATATACCCTCTAAATCCAAATCGGTAT GTTGTTTTCATTGGTCTCTCTTTACCTTCAACTATTGGACTATCCTCCATATGGTCTACCTTCCTTATCGTGCTTCTACG AGTTTTCTCCACAGATTCTCAAACCATCTAAGATGACACTATTATTATTTCTACAATTGGTTCTACCTTAACTTTATCTT CATTACTTTCAATCATAATCCTAGATTCTTGTGTGACCAGTCATCTATCATTACATTTTTGTCTTTGTATACTAACTTTG TTCTTAAAGTAGGGTGTAGGTTTTGATAAATTCTACAAAACTAGTTCAAGATGCACGATGGATTTGCATTTTTGCTAATT GATTTAATTATTTGGTCAACTTCTGATAATGCAAAAAGGGTTTTAATATAAGAAATGAAATTGAATGTCACCAAATTTCT TTCAAATTAATTAACTTTCACATTCAACTCTACCTCATGAATTTTAACCACAATATTTCAGAAAATTATGTTTGCTAACT GTATTTGATGTTTATTAGGTGTACAGAAGAGCATAGGTGGAACAACAATGCAAGTCAATGCGAGTAGGTTTCGTCCCAAC CTTGTGGTATTTGGAGGCAGACCTTACGATGAAGATGAATGGAGTGATATTAGGATTGGGAATAAGTATTTTAGAGTAAG TTCTAATAACCTTCCAAATATGTAATTTCCAACCTTTGCTTTCTTTCATGATCTCTGGTGCATGAAACTTGTTTTGAAAA TCTTGGCTCCATGACTCCATCTTTCTCAAATCCTGTGTATCCGAGCAAGTGACGGTTTTCTTCTCATCCTTTGATACCTG CATCAACTACCCCAGGCTACTCTAAATCCCAGTTCTTTCAGTGGCTATTGATGTTGTTCATCCTGAGCTGGTCATCCTCC ATCTCACTTCCTTTCTTTTCTTGCGCACCATGTTTTCCTCATGTTAAGCCATCTGCGTCTCTTTCTCAATCTTACTATGT AGCGTACTATGCTTGTTTGATTGTGGCTGATAGACATAAATAAGAGCAACAGACACGAAGTTATAGAAATTTCATCTATA TGCACTGCATGTTAAGAACAATGATTCTTGTACTTGACTTTAGGGATTTTCTTTCTTGACATTTCCCCCTCTCCATCTTT TTTCACCAGTCACTAGGGGGATGTAATCGATGCCAGATAATCAATCTTGCATTAAGTGATGGACAAGTGCAAAAGTCAAA GGAACCTTTGGCAACTTTAGCATCATATAGGAGAGTTAAGGTTGGCCAAGTTGTCCTTAGCTGAACTTTTGTTAAATATC TGGTTTACTTGATGCATTAATTGTTTAATGTTATTATACATCAAAACAGGGAAAGATTGTATTTGGCATACTACTGAAGT ATGATGGAGAACAGCAACAAGGTGAGTCCTGGCTTCATGCAGGGCAGGATGTACATCCAGAGTAAAGTGTGCAATTTGTA CATATAATCATACACGCAAACCCTCAATTCATGTTTTCTCGAACTCTATATATAGGAAGCTTGTTGAAAAGTTGTATATT TTTTTATTTTGATGTTGTACAAATCCTTCGGAGGATACTTTTTTTGGGTACATCGGAAAGATAAATTTCACCCTCCAGGA TTGATCCCTGGACCTCCCCCACCCAACCCATATGTCCTCCAGCTCTTACCATTTGAGCTATCATTCGGGTACCCTTAGGA TGATACTTAGCAAGATGCATATTGTCCATAATTATTTGTTGTATTGTATATTGAGAACAGAAAAATCAATAATAAATACA ATAAAAGGTGTTTATGTTGTAATTTGATTCTGCCACCCTACTAACCTTGAATCTTGGGGGCAGTAGTGATCATGGATTTG TATCAATCGATTCAGTTCAGTAAATTTCCTTATTCTAACATTCATTTAATTTGATTTTAAATGTATATATGATACTTTAC ACCAGAGGATTACAACAAACTCTTGCTCATTTCATTTATCTATAAATTAAGTGTTTTTAACTTTCAAAGTTTATAATCTG AGAATATTTTTCAAGCATTTTATCACTATAAATTAAGTGATAAAATCAATTATCAAATTAAGTGTTAAAAACACTTAATG AGGTATGAAGAAATGATTATTCTTTGTATAAATATAACAGAGACACAAACAGACACACATGCACACTAGACATTTATGGT TAGTCCGACTTAGATCTGAGCCCTTACCTCAAAGAATAGAACTGAATTGAAGCTTGAAAAGTATAGTTCCGGCCTTAGAA ATGTATAAAACCTATGCCTGTATACGTTAGTATTCATTTCATTATTTAAACCTTTGTCATGAATGACTTAAGATGGTCTT GAAATTATATCTAAAAGTCTTAAATTAGGTATAAATAGTAACCATATTCAAGCTTTAAAATGAAGGAAATCCGACAAGGG AGATCAATTAATGTTGTCTCGCAATTTAGCTCTAAGTAGCTTCCAGTTAACTGAGAATTAGCCGCCAAATTTGCTGTTTC TGCGAAAACCCAGAATTGATGAAAATTCTTCTCTTTGCACGTTTCTTTCGCTGTTCTCGACCTAATTGGCTGGAAATGTG TCTAAGGGTGATATGTGTACGATTTTATGCCATAGGAGGTGAAATGTTTGTGTTGGAAAGAAGCTAAAATGTGG

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0054500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTTCAGAAAATTCTGCATTTTGCACAGATTATTGAACTATTAGTCATACAGGTCCTTAAATACTGCAATGCATCTCC CAAAGACTATACCTGTATATTCACATCTGGGGCAACGGCAGCGTTGAAACTGGTTGGAGAGGCTTTTCCATGGAGTTGTA ACAGTAATTTTATGTATACAATGGAGAATCATAACAGTGTTCTTGGAATAAGAGAATATGCTCTTGGTCAAGGAGCTACA GCTGTTTCTGTAGATATTGAAGAAGATGTGCATCCTAGAATAACAAGAGAAACTGTTTCTACAAAGATATCACTGCACCA AGAACAAAGGAGAAAAGTGGTTGGATTGCCGGAGGGAGAGCCAACAGGTGATGTGTATAATTTGTTTGCCTTTCCCTCAG AGTGCAATTTCTCAGGGTTGAGATTTGACCTTGACTTGGTGAATATTATCAAGGAAGACTCGAGCAGAAATAAACAGTGG TTGGTCTTGATTGATGCTGCGAAGGGATGTGCTACCATGCCACCTGATCTGTCCAAGTATCCTGCAGATTTTGTTGCAAT CTCATTTTACAAGCTGTTTGGCTATCCAACTGGGCTTGGAGCTCTCATTGTTCAAAATGATGCTGCCAAGTTACTGAAGA AGACTTATTTTAGTGGAGGAACAGTTGCTGCATCAATTGCTGATATTGATTTTGTTAAAAGAAGGGAAGGTATTGAAGAG CTGTTTGAGGATGGCACTGTTTCATTCCTTAGCATAGCATCTATCCGCCAGGGCTTTAAAATCCTGGATTCTCTAACTGT ATCAGCAATATCACGACATACCACATCTCTTGCATTGTATGCAAGGAAAATGCTTTTGGCCCTGAGGCATGAGAATGGAT CTAACCTCTGCATCCTATATGGACGCCATAATTCAATGGGACATCGTTATGAAATGGGTCCAATAGTTTCGTTCAACCTC AAAAGACCAGATGGCTCTTGGTATGGATATCGGGAAGTTGAAAAGCTAGCATCTCTTTCGGGAATTCAGCTAAGGACAGG ATGCTTTTGCAATCCAGGTGCATGTGCAAAATACCTGGGCTTGTCTCATGTGGATCTTATTACGAATACTGAGGCTGGCC ACGTTTGTTGGGATGATCATGATATAATCAATGGAAAACCTGTTGGAGCTGTAAGAATATCCTTTGGCTACATGTCAACA TATGACGATGCCAAGAAATTTGTTGATTTTGTGGCAAGTTCCTTCATGTCCCCTCAAAATCACATTGAGCATGGGAATCA ATTGAAAGGGCTTGAGAAAGGGGTCCTGGATGCTAGTTATTATCTCAAATCAATTACAATATATCCAATAAAATCCTGTG GAGGTTTCAGTCCAAAAAGTTGGCCTCTTAGCGACAATGGCCTAAAACATGATCGGGAGTGGGTTCTCAAAAGTCTCAGT GGTGAAATTCTTTCACTGAAAAAGGTTCCTGAAATGGGGTTTATAAGCCCCTTCATTGACCTCAGTCAGGGAATGTTGTT TGTAGAGTCTCCACGTTGTAAAGAAAGATTGCAAATCAGGCTTGAGTCAGTTTATGATGGTGAGATTGAGGACATTCAGC TGTATGGTCAGAGGTATAAGGTGTACAATTACAGCACTGAGACTAATGCATGGTTTAGTGAAGCTGTTGGTAAACCTTGC ACGTTGTTACGATATTCTAGTTCCAATCATGATTTTGTTTTGAAAAAGACCAAAGGTGCAGTCACATGCAGAGATGCAAG GAGTGCCGTCAGTTTTGCAAATGAAGCACAATTGTTACTTGTATCTGAGGAAAGTGTTTCTGACTTAAATAGAAGGTTAA ATTCAGATTCAGGTGTACAGAAGAGCATAGGTGGAACAACAATGCAAGTCAATGCGAGTAGGTTTCGTCCCAACCTTGTG GTATTTGGAGGCAGACCTTACGATGAAGATGAATGGAGTGATATTAGGATTGGGAATAAGTATTTTAGATCACTAGGGGG ATGTAATCGATGCCAGATAATCAATCTTGCATTAAGTGATGGACAAGTGCAAAAGTCAAAGGAACCTTTGGCAACTTTAG CATCATATAGGAGAGTTAAGGGAAAGATTGTATTTGGCATACTACTGAAGTATGATGGAGAACAGCAACAAGGTGAGTCC TGGCTTCATGCAGGGCAGGATGTACATCCAGAGTAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0054500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MFQKILHFAQIIELLVIQVLKYCNASPKDYTCIFTSGATAALKLVGEAFPWSCNSNFMYTMENHNSVLGIREYALGQGAT AVSVDIEEDVHPRITRETVSTKISLHQEQRRKVVGLPEGEPTGDVYNLFAFPSECNFSGLRFDLDLVNIIKEDSSRNKQW LVLIDAAKGCATMPPDLSKYPADFVAISFYKLFGYPTGLGALIVQNDAAKLLKKTYFSGGTVAASIADIDFVKRREGIEE LFEDGTVSFLSIASIRQGFKILDSLTVSAISRHTTSLALYARKMLLALRHENGSNLCILYGRHNSMGHRYEMGPIVSFNL KRPDGSWYGYREVEKLASLSGIQLRTGCFCNPGACAKYLGLSHVDLITNTEAGHVCWDDHDIINGKPVGAVRISFGYMST YDDAKKFVDFVASSFMSPQNHIEHGNQLKGLEKGVLDASYYLKSITIYPIKSCGGFSPKSWPLSDNGLKHDREWVLKSLS GEILSLKKVPEMGFISPFIDLSQGMLFVESPRCKERLQIRLESVYDGEIEDIQLYGQRYKVYNYSTETNAWFSEAVGKPC TLLRYSSSNHDFVLKKTKGAVTCRDARSAVSFANEAQLLLVSEESVSDLNRRLNSDSGVQKSIGGTTMQVNASRFRPNLV VFGGRPYDEDEWSDIRIGNKYFRSLGGCNRCQIINLALSDGQVQKSKEPLATLASYRRVKGKIVFGILLKYDGEQQQGES WLHAGQDVHPE

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
SignalP_EUK	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	25	25	-	–
Hamap	MF_03050 View details on MF_03050 Search for proteins/transripts with this domain View external data on MF_03050	1	730	730	18.63	IPR028886 Show description in modal box View details on IPR028886 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53383 View details on SSF53383 Search for proteins/transripts with this domain View external data on SSF53383	8	412	405	5.77E-45	IPR015424 Show description in modal box View details on IPR015424 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR14237 View details on PTHR14237 Search for proteins/transripts with this domain View external data on PTHR14237	17	630	614	1.7E-192	–
PANTHER	PTHR14237:SF19 View details on PTHR14237:SF19 Search for proteins/transripts with this domain View external data on PTHR14237:SF19	17	630	614	1.7E-192	–
Pfam	PF00266 View details on PF00266 Search for proteins/transripts with this domain View external data on PF00266	19	406	388	6.5E-23	IPR000192 Show description in modal box View details on IPR000192 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.640.10 View details on G3DSA:3.40.640.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.640.10	30	223	194	1.6E-24	IPR015421 Show description in modal box View details on IPR015421 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.1150.10 View details on G3DSA:3.90.1150.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.1150.10	239	413	175	4.1E-23	IPR015422 Show description in modal box View details on IPR015422 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03476 View details on PF03476 Search for proteins/transripts with this domain View external data on PF03476	441	559	119	2.5E-17	IPR005303 Show description in modal box View details on IPR005303 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF141673 View details on SSF141673 Search for proteins/transripts with this domain View external data on SSF141673	442	573	132	1.7E-26	–
ProSiteProfiles	PS51340 View details on PS51340 Search for proteins/transripts with this domain View external data on PS51340	575	731	157	28.526	IPR005302 Show description in modal box View details on IPR005302 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03473 View details on PF03473 Search for proteins/transripts with this domain View external data on PF03473	589	728	140	4.7E-28	IPR005302 Show description in modal box View details on IPR005302 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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0006777 View details of GO:0006777 AmiGO InterPro QuickGO	Biological process	Mo-molybdopterin cofactor biosynthetic process	The chemical reactions and pathways resulting in the formation of the Mo-molybdopterin cofactor, essential for the catalytic activity of some enzymes. The cofactor consists of a mononuclear molybdenum (Mo) ion coordinated by one or two molybdopterin ligands.	Subterm of View details of GO:0009108 View details of GO:0018130 View details of GO:0019538 View details of GO:0019720 View details of GO:0090407 View details of GO:1901362 View details of GO:1901566
GO:0008265 View details of GO:0008265 AmiGO InterPro QuickGO	Molecular function	Mo-molybdopterin cofactor sulfurase activity	Catalysis of the sulfurylation of the desulfo form of molybdenum cofactor (MoCo), a cofactor required for the activity of some enzymes, such as aldehyde oxidase.	Subterm of View details of GO:0016783
GO:0030151 View details of GO:0030151 AmiGO InterPro QuickGO	Molecular function	Molybdenum ion binding	Interacting selectively and non-covalently with molybdenum (Mo) ions.	Subterm of View details of GO:0046914
GO:0030170 View details of GO:0030170 AmiGO InterPro QuickGO	Molecular function	Pyridoxal phosphate binding	Interacting selectively and non-covalently with pyridoxal 5' phosphate, 3-hydroxy-5-(hydroxymethyl)-2-methyl4-pyridine carboxaldehyde 5' phosphate, the biologically active form of vitamin B6.	Subterm of View details of GO:0043168 View details of GO:0050662 View details of GO:0070279

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0054500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0054500.1