Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0401100
Transcript ID	LotjaGi3g1v0401100.1
Lotus japonicus genome version	Gifu v1.2
Description	Triosephosphate isomerase; TAIR: AT3G55440.1 triosephosphate isomerase; Swiss-Prot: sp\|P48495\|TPIS_PETHY Triosephosphate isomerase, cytosolic; TrEMBL-Plants: tr\|I3SUT5\|I3SUT5_LOTJA Uncharacterized protein; Found in the gene: LotjaGi3g1v0401100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:80337484..80349656) extracted from Lotus japonicus Gifu genome v1.2.

CACACACTTCACATTCACAACTTGTACGTAGCTAGCGTTGGCTCTTGAGATGCTCTTCAGACAGAACATCAGTGCATAAA TGGGCGCCAAAGTTCTTCGATAATCTAAGAAGAAGAAGAAAAAAAAAGGTCTATTATGGGCCGAAAATTCTTCATCGGTG GTAACTGGAAATGCGTATGCATGTCTTCTGTTCTTAATTTCTTTCCATGTCTTAATTTGTTTGGGTCGTACATGCATGCT CAAAGGAATTGTTCGCTTGAATTTTTTGTAATATTGGTCTGGTAGAATTATTTTTTTTCACCAAATCTTGTAGCTCGTGT TGTGGAAGCAATTAGATCAAGTCTATTCATATGATGCAACAGAGTAATTGATGCTTTGAAAATTTGCTTTGTTGCAGAAT GGGACTACTGAAGAGGCGAAGAAGATTGTTGGGACTTTGAATGAGGCTAATGTCCCTGGGGAAGATATTGTGGGTGAGTG TCTTTCTGATGGGTTTGATTTATCTCTTTTCTTTTCATTCCGAGTAGCGCACTTTTGGCAATATTAATTATTACATTACA TATTACATGTAATAAAAATTATATATCTGTGGTACCCCTATCCTTTTATGGCTTAATCTTACTAATTCACTCTCAATTTA AATTTTTTATAAAGATGTTTTATTTCATTCTTTCACATTAATACACTTAAATTAAGTATGAATTACATTTGATTTTATTT GTGTTTATGTGATGGTGGAAGTTAAAAAAATTATTGGCAAACCATGTTGAGTTTATCCTATTGATTTAAGATGTTGTGTT TAGTTTGAGATTGTTATTTTAATTTGTCATTGTTGAATATGAATATTTCTTTTGACATTTTCAAACATTTGAAAATAAAA TAAAATATTGTTTTGGAGCAGGTTCTTGGAAAGCGAGGGATGGGAGGTCAAAATATTAATTTTTAAATAATAGTTTCTAA CCTGATTATTTTTTAAAATGAAATGATAAATTAGCAGAATTTAATATCCTAATAATTACGTCCAATTCCATCAAAAAAAA ATACGTTCAAAAAAAGATATCCTAATAATTTATTTTTATGAAATCCTAATAATTTATTTATTATGATAATACCCCCTCTC CAGTTCCCTAGAAAAATCTCCCAGACAATATTTTACTATCTTGAGTTTAAGTAATCGTGAACTGAATTCACAGGTCTGTG TGTATATTGTCTATGTGTAAATTATTTGTAAACACTAGAAATGATTAAATTTAATTCCGACTAAAGTAATTATGTGTCTA TTTTACATGAATCAAAAATATATTTAATTTAGGCCTGCCCGTTTAATGTCATGTTCGACACTCGTGGGAATTAGTCCTAC AATTATCAGCATTGAGAATAGCTTGAATAAAAAAGATTAATCTAAATTTTTTTGTATGTTATTTAATATTTTCTCCTAAG GTAAAATCTCAACTCCACCAATCTTACCCGCTTGAAGCGTGAACAATGCACACAGGAGCAGACCTTAGTTTGGACAGGGA GGAGCTCTAACTCTCCCAAAATTTTAAAAAAATCTAATATAGTAGATGTCTCCTTAGGTTTTTTCCAGTTTATTAACAAT ATACAAAATAAAAGGTGCACAAATGACAATGAATGCATGTCGTCCAAGTGGTTTGAATCTTTGCTCATCAGTGAGGGGTA GAAATAGGTCAGGCGGCTCGTCAAGGGCCTATGACTCGGCTCGTCTAAGGCTCGGCCCGGCCTGGCTCGTTTATTAAAAA AGTCAGGCTTAGGCTTTTTAAAAGGCTTGTTTAACTAAAAATGTCAGACCCAAACAATTTAAAAAGCCTATTTGGCCTGA CAGACCGGCCTACTTATATATTATTTTTATTAATAATATAAATAAATATAATTTAATTATATATAATTTAATTTTTTAAA CCGACGTATACTTTAGTATAAAAGAAAACTCAAAGTCCCTACCCTAACCTAGATTAGAAACGTTCCAGACATATTCAGCA TAGCACATCCTCACCCGCACGGGACGCAGGTTGCAGCCAGCCGCCACTGTCGATCTGCCGCTACCAAGTCCACCTCTCCC GCAATGATATAGGTTTAGTTTTTGAAATGCAATGAAACAAGTTTTTTATTTGAAAAGAAAGTGCAATGATATATAAAAGG CTTATTAGCCCGTCGGCCTAATGACCTTCTTTTGATAAAATTGTCTGTTAAATAGGCTTTTAAGAAGGCTTGTAGGTCAG GCCAGACCTTCGAAAAGGTCATGTCAAGCCATAAAATTTGGTCTATTGATAGGTCACAGGTCAGGCTTGGGCCACGAAAA GAGAATGCAGGTCAGGCCTAGACCACGCAAAGCTTGGCTCGGCTCGGCCTATTTCCACCCTACTCATCACCTCTCAGTTG AACCAAATCCTGTTCATTTTTTGCTATTTTATATTTTATATTGTGTTTTTCATCTAGCTGTCTCCATCTTTTCTTTTATT ATTATATTTTTAACTAGCTTCACCTTTACATTTAACCACAATTTAGATAAAAGTGTAAAAAAGGGGAAGTAAATTTCTAT GATTATTATTTTAGGTAAAATTCCTATAATTATTAACATAACTTAAAAACAAATTTTCAATATTAATGTAAACGAATTAA GTTTATCTTCATTTTTTTTCGTATATGAGTATTGTCGATAAAAAAATTATTTTATGTATGGAAATTTTATTTTAGCCCCA TGAACTTTTTCTCCAAGTTCCGCCACTGAATTATGCACATGACCAAAAATATGTTGAAATTTCATTTTTTATTATAAGAA TTTGATGCGACAATGATAAACTCTAGATTACTAGTCAAAATTAAATATTATTCTAAAAGCTTAAATGGTTAGAGAAGATG TTGGTGTTGACATATGCCAATTAACTTGTGTTTTTTTTACAGAGGTTGTTGTGAGCCCTCCTTTTGTGTTCCTATCCTTT GTAAAAGCTTTACTGCACTCTAACTTCCATGTTGCTGCTCAAAACTGTTGGGTTCACAAAGGCGGTGCTTATACCGGGGA GGTCAGTGCTGAAATGCTTGTGAATTTGGACATTCCTTGGGTTATTCTTGGTCCATCTGAACGAAGACTGCTTTTAGAAG AATCAAATGAGGTACAAATTGTCCAATTATATTGCATGTGCTGACTCTATTATGATTCTACTTTGTGGTGTTATTACTCT TGTACAGGCAAAATTTCAGATTATATGATTGATATTTGCTCATTTTTACTAAGCTGCTTTATTGTCTGTTACAGTTTGTG GGAGATAAAGTAGCGTATGCACTTTCACAAGGTCTGAAAGTTATTGCTTGCATTGGAGAGACGCTTGAACAGCGTGAAGC TGGTACAACATTGGCTGTTGTTGCTGAGCAAACAAAAGCAATTGCAGGTTCATTTTCCCCCCATTCATAAATTCATATTC TGTATATTGTATATACTTGAACTCTTGTGTTGTCATTTCTCTCTATGAGATGATTTCTCAACTCTCACACTGTCACACAT AATATATTGAATTATTTACCAAAGTAATTATAGGTAGATATACATTTTGTGACATACATTCATTAGACATACACATTTGT GGCGGTTTATAAGGATGTCACTATGGGCCCTTAAAAATCCCTACAAGTATGTTTGTCTAATGGATATTTCTCACAAAGTG TATCTCTATAGATCATTATTGTATTTATAATTCTAGATAACAAGCCTTCTCTGATTGCATTAACTGATTGCCATTATTTC ACCACTTGCAATTTTCTTGGTAATCAATATTTGTACTGACATCAATTGTATTTACAGCTAAAATACCAGATTGGGATAAT GTTGTTTTGGCCTATGAGCCAATTTGGGCCATTGGGACAGGAAAGGCTGCAACTCCTGCTCAGGCACAAGAGGTCCATGC TGACTTGAGGAAATGGATTCATGACAACGTGAGTGCTGAAGTTGCTGTGACTGTGAGACTTATCTATGGAGGTACTTCCA TTTGTACTTTACTCTCTATCATTATTCATATGCAGTTGCTTAGGTGTGAAATAATAAGCATATGTTAACTGCAGGTTCTG TAAATGGAACAAACAGCAAGGAATTGGCAGCACAGCCTGATATTGATGGATTTTTGGTTGGCCGTGCTTCCTTGAAGGTG ATTATTTTTGTTGTGTTCTGTTTTTATTTATTTATTTGTATATATGAAACTTACTCACAAAAAATTGAAGGTAAGACTGC TTACATTAAATCCACAAGTCTGGCCTATTGTTTTATATACAAAACTGACTTCTGTACTTTCTGAAATTAGCTGGAGTTTG TCGACATCATCAATGCTGCCACTGTGAAGAAGAACTGAATTCCTAGTTAGGAACTTGTATGCTGCCTTTCAAGCTGCTTC AGAAATTAGTGTGTTTTGTGGCCAGTGCTTTGAACTCGTCTTTAGTACTGAATAAATATGATTTCCTTTCACGTAATCTG TAGGGTATCAATTGGATTTTGTGGTTAAACTTCTCATAAAACACAGTGTAACTGCCATAACAATTGGTGGGTAAATAATA ATATTGAACGCCAGAGTTTTTGTTGATTGTGCTTTTATGATCTTCATTTTCTTTCCTCCATTGATACTCTTGTCATTTAG ATTGTGTTTTGGACTTTTGGTCATGGGGGATTTGCATCCTCTTGAGTCTTGAATGAGATGTGTATTTTAGATGCGAAAAT TAATAAAATGAATTTACCATGAAAAGACAACATGTAAGGTATAATGATAGGAGGCTCTCCAGCTTCACATTTCAAGCAAA TTTAACATACATGAGAAATTGATTTGCATTTGTTAGTATAGAAAAGGTGAAAATAAATGAACATACATAAGAAAGTAATG CAGTAAACTTAACTTCCTGCACAATGTTATAGACTTAAACAGTTATTTTTTCGGAAGACGATGACAGTAAAATGCCACAT TAGATACATATTGCTTTGATTTGACTATTAATCTTGTTTTAAATACATTCACAAATTAATGAATAATCATGGGAACAAAC CCATAGAAACATCATATTATTACTTTGGAACAAGGATTTACATACAATTGACTCAACATTCCCTGTATGGACTTCCTAAG CCATTCAGTTATACACATTCTTCTTTCCCCACCAATAAATAAAGAAAAAAATTCCATAAAATTCTCTATATCTCTATATT TCCACATCCTGAAACTATAGTCAAAGGGCTCAACGGTATCTCGTATTTGAACTACGGGGAGTCACACCATGTAAAAATTT TGTATATCCAAGTAAACTAAGCTTTCCATCAGTATTTCTTATCCAATCTTTGATAACTGAGTAAGCTGGGGGACCAAGAT TCAACTCCTGCAGCCATAAAGAATAAAATATTATTATATATTGAAAAACATATGGATGCACAATTACATGTCAGGTCAAA CATGGAAGAATGGATTATTATGTAATAGAGAAAGAAAATAATAGCAGCATTTACTCTTGCTAATTCTTCAACCGATATAA GACGGTTGCCCTCTCTCTCAAAATGTTCAAAAGCAGTGGAGGCAATATCTTCCCACCTATCAAGTGCCTCCAATTGATAA GTGCTAATTGCAGCTGCACAAAATTCTTCAAAGTCCAACTTTCTATAGGCAAGTGGTTCCATCTACAAAATGATTCAAGG AAGTTTACTGGATATGAGGTACTTGACACAAGCTTTAATGCATAAATCATAACTACGCAGGAACATGTCCAGGAAAAAAT GCCATGTAAGTAAAAAACAAATTGCAGACATATATGATATAACTATCACTTCACACTTCCAAGTCAGACAGGGGTATCTG ACTATAGAGCAAATGCAATGGTAGGTAGATCAGTAATCTAATATGCCATTATATTTTCTTCAGAAATATTTCTGAATTGG AGCAAAACTACTACTGCTAGGGTCAAATATTTAAGAAGAGCATAGCTGGGAACGTATATGCAATGACATGTCTGGATTCA TCATGCCAAATATATTTTCTCTATATAAGTATAAGAATAATGTCTCACCGTTTGTATGATATCAAGAACCCTTGACTCCC TCATGGCATCAGTTGCATGCCGTACAAGAGCCTGCAAAGTTTAATTTGAAACTTGATTATAGGGACTAATAAGTTGTAAA GAAAGGACAGTGAGGGAACAATGGCAAACCAGAAGAAAAACACACTCATCTACACAGATATGAAAGACAAAAGAAAAAGT TGCGCACATACACACTGTATCAATCATATCAAAACTGGAGGATTTATAAGAGAAGCAGTATATAACCATTTTGAAATTGT CAAGGGAGATGTGCCCTTCTCTATTTGGTTCCAACAAACTGAATTGTGCCCTAAGATAGGGCAATTCATCCTCTGTCAAG GCTTTTGAAAGGGCCTAAATAATAGAAGCAAAAAAGATGAGTTAGAATAGGACAGAAAAAGATCTTCAATAGGCAATAGT CTAATTTCAGAACTGGTAAAAGAAGTGCTAAAATATGTTTTTCAAATAGCAAACTATTGAGGATATTTTATGCGGAAGAA ATCCATGTCAGAGTTTCCTATCAAGTATTAGCTTTGCCACCATCATAATTGATGATAGACCTTTAACAGCACACATTTTT TTATTTCATTTTTCTTTGACGGGAAAAAACACATTTAAGTGGCTCACATCATAGACCAAAACAATGTGATGAAACTACCG TTATACACAGGGAAAAAAATCATAAAAAAGGAAGGAGAGCATGTGATATCAGTTGAGGGAAGGATGAAGAAATGCATAGA ATGAACTGGAGCAAAAATATGCCATAAAAAAAAAACTTATTTAGTACAAACATGGGTGATAGATAGTACTAAGTAAGGAA TAACATGATTAGGGATGATACTATTAGTTAAACTCAGGATTAGCATATTCAAGGAAATGAATTAAAGGGTACCTTCACTG CTGCACGTTTGAATGGTGTCGCATGAATATAAGCCTTCACTAGTTTATAAACTAATATATCTAAAGGGATGGGGCGGCTG TCATCCCTCAACCAAGGATGATCTGCAGTTAAAGAAATATGCATTAATTAGTCAAATAAATTCGATTTACACGGATAGTT AGGTATGAAATTCCAAAATCAGAAAGATTGATTAAATTGTTCAATTTTCAATACTTATGCCCAGATGTTATTATGTGGTG ATGAGTCAGTTAACAGATAAGAATCTCATGATGATTAAAATGGGAACATTGAGTTAAACTGATATGACAACTTACTTAGA GCTTGGACAGCAGACATTCTTTTCCTGTAGTCCTTGTGTAGGAGCCTTTTCACAAAGTCCTTGGCCTCTGCAGAGGCAGA AGGCCAAGGTAAATCATCAAAGTTTAGGTCAGCTCTAAGCACTGCACGGAAAATTCCAGATTCTGTCCGTGCCCAGAAAG GTCGGCTTCCACATAACAAGATAAAGCTAATAACACCAATACTCCATATATCTGCTTCCAGACTATATGACCTGTGAAGG ACCTCAGGTGCCACATAATATGCACTCCCAACAATGTCATTCATTCGTTCGTCTGTATATTAACACACACATGAAGGGAA AAAATTAAGAGGGGTAGCCTTAAATCCACAAACATCAAACCAAGCATGAACGAAAGGTAGCAGCAGTTTTGGGAAGTGGC TAAATGAGACAGACTACAGAGACCGAAGCAAGCACTATCTAGTGCCAAATATCAGTAACCTGTTCCTTTTATTCATAATA TATGCAGATGATCTCTTTAATCCATATTGTTCGTTTCAAAATGATTCAGATTTGTGGATGTATGAATAGGCCCAGCCAAA TGACACTGAAAGTGATGCGATGTAAAATCCCATGTAAATTTTAAAACATGGCCAAAAGTAGTTAGAGGATAAAATAACAT TGCTAAATGCATTATTATCACTAAAACCCCAAAAGTCCCAACAGTCAACATGATGTCATTTAAGAGTATTATGCAAAGGT AAGCCACACAAATGAAGTACGTATTTGGTAGAGACTGTTTTGCGAGGAAGAGGAAAATAAAATTGAGAATCACTCTAATT CTTACCTGGCCGGATGAAGTCAGACAGACCAAAATCAATAAGCTTCATTTCAGCATCCTCACTTCTTGAAGTGAAGAGGA AATTCTGTGAAAGCAAAACTCGGACAGAATCAGCAACACTATTGACATTCTTTTTCTTATATAAATATAACTCATGATAT TAAAAACAGAACTAGATGTTATTATTACAAATTATTATAGGGACAAAGATTAATTCATAACAGCACAAACCTCAGGCTTC AGGTCACGGTGGACAACGCCTTGAAGATGACAAAATGCAACTACACTTAGAATCTGCAAAACTATAACCTTGGCATCCTC CTCCGTATACTTTCCTCCCCTGGTTTAGAAGTGAACGCTATTCAATTAAATTAGAGGATTATATATATCAATTTAAAAAT CGCAAATAAAAAAAAAATAAAAACCAACCTTGATAAAATTCTGTCAAGAAGCTCCCCACCTTCACACAATCTGATAAGAA GGAAAATTCCGGAAAAGGTCACTATATGATGATGCTACAATCTGGAGATACATGCTCCCAACAATTTAACTATACTTAGA AAATATCCAACAAAAAGAGTATAAGCTGAGTAGAAACTTATAAATTAAAATCATTTTACAATCTAGATGTGATTGAAATT ACTTAATCTTCCTAACAGGGAAAGGCACAAAGGAAAATAGAACCAAAACTGAGAAACTGGAAATTAAATGCAGAGCTAAT AGAAAAATGATAAGAATATGTACAACAATGCCTTTCTATTGTTCAAAGCGGCTACAAATTAACAAAATGTACATAGAAAA CCATAAAGATTCAGTTCTGTAGAATTCGACATTATTCTTGCTTTAGATGATATTGAAAGTGATGACAAAACACATACTCC ATAACTATGTATACATTGTTGGCATCCTCAAAAGCATCATGAAATTTGATGAGATGCTTATGGCCAGATAGAGCTTTTAA TATCTTCACCTCTCGGCGAATGTCTTCAATTGCTGTTGCTGTGGTCATCTGCCAAACAAATCCTATTAAGACTGGAAGAG GTATCCATTGTGCAAGCGTAAAGAAAGAAAAAAATAATAATTATATGCGAATATGACTTCTTTTTCTTCAAAGTTTTAAA CTCAAATAAAACTGCAAGGCACATAAAGTACAAAAACAAAAACCAATTTTTTTCCATCCCATACCCTATCATGTATTAAT TTCAAAGAATCAAAGATAGGCTATTTACCTTTAAAATCTCATTGTTTGACTTATAGCTTTTCATTAAAAGTAGAATTGTG TCTTAGATGACAGCAGTGTAGTTAATTTAAAATGACAACTTTCTGCTCTGGTTAATTGCAGTAAAATGTAAACTCTGGGG CTTTTGGAAAAATACAAGGTCATACATATGTTGAAAAGATTGAAGGTCAAGATCTAAGTTTTTCTGACTAATCCAATAGT GCACAAAATCAGATTTAACATTTAAAATTGGTCAACAGCAGCTATTCTTCTTTGTGAAAGAAGCAAAGATAGTAAGTTTG AAACAGCTCCTGGCTTTCCTATCAGATTCCAGGTTATTTCAATTCTGGCTTACACCTCCCCCTCCATTCCTTTATAATTC CAATCCCAGCCTAATGGTCATATTCTCAATTACCCAAATCTGGTACTTATCATTTCACCTATCTTATCTCTGATTAACTT ACTTTAACTGCATTTAATCACCAGGAGTAGGTCCCAGTGGCCCAGTATTCCCTCTTCCCCCCTCTTCTAGCACACATCTT TGCAAGGGGGGGGGGGGGATCTAACAGGATAATTCAGAAACATCTATAGAAATAGTAAATTTAGATCACAAATTTTCCAA ATCTATGTCATTTTCACATCACAGCCACAGGAAACCATGGACTCTGTAAAGGTCACACTACAAGTAACGCATTAAGTAAC CAAAGCAGCCTCATTATTAAACTTCAGATAATTACATTCCAGTATGTACAATAATCAAACTCACAGTAAAACATTAGTAC TGCTTGCTGACTTGCTTTAACTTACCCGGACCGAGGTCCTTAATGTAGCCTGCTGGAGTACAACTTTTGAGGACTATTAT GAAAACTATTAGGAATACATATTATTTAATTTCTAAGAGAGGATGGTTCCAGGTAGAGCGTAAACTTAGAATGCAAAAAA AAATGAAAATAGAAATGGTGCAAGTGCAATCACTGGAGGAGAAAGGTTATGTTATATGTATACGAAAACCTATATATGAG TATATATGAACGAGAGAGACAATGCTATATGCTGACAACCAGATCTGCTATGTTCATTAAATCTGTGATTATGTTATATG TAAAAGCAGGCCCCTGAAAATTGTAATTCATCTAAAACTCAACTGAAAAAAAAAAGCAGGCCCCTAATTTTTACAGGTTT GAGACATAACTTCTCTTACAACATTACGAATCACTCACATCTCACCTCCTCTAGAACTAGAGGTGACTTTGACTAAAGGC TATGCAGGCAGCTACAACGGCAGCCGACGGCGGCGGCGGCAGATTCCTAGGAACTTTGGTTATATATAGCTAAATCATAC AATTTAGTTGCGATTTAACTATTAACGACCCCCTCGTCGTTGTAATCCCGATTTTGACTACTATTGCCTGGACTAGTCAA GGGCTAGTGCACAGCCAGCCTGCATCAGCACTAAGGCACCAGAGTGAGGTGGAATGTTAAGATCCAACGGCAAGGTCCGG GACTTGAATTCCGCGTTGGAATTATGAGATTCTAATATGGCGTTAATAAGGTATTGAGCTCTCCAACTACAATGGCTAGC TTTGGTGGTAAGTTCGCACAAGGTTCTTATCAATTAGTACCAATGACTATATTTGGTCACCTCCCATGTCCTACCATAAC ATACTTCGTCCAAATCACACACAGGTGTCATTTTTCGAGATATAAACTACAAAATTCAAAACTTCAACCCCTCTGAAGAT TCTTTATGTGAGACAACTTACCACTCAAGTTTTAATCCTATTAATTACCTTTGGAAAAAGAAGTGAGGCCCGAAAAAAAA AATGTACAACTAAAGTAGCCCAAGATTCTTACACCAGTGAATCAAGCAACAATGATTAACCTGAGTTTCCCAAATGCCAT TGTAAAAATCCACAACAATCACAACAAGACCTCACAATAAAATGACTAAAAATAGTAAAATACTAATCACACAGAAAGAT CAATGACTTGACAAAATACCAGATTAGTGTCAATTAACTAGAAATTGCAACTACCAAATAAACCAAACACAATCATAAAA TTATACCAAAAAAGCAAAATCAGCAAAACAAACATCTCCCAAAAAAATGGAAAGGCATTGGATTGATTGTACCTTAGCCT TGGAAATAATCTTAACAGCTACAGGTTGGTCTTTGAGGTCACCCTTCTTACCCTTAGCATAGCAAGTATGACCAAAATGC CCTCTCCCCACTTCCTTCCCAAGCTCATACTTAGCACCAATATTCTTGCTATACCCAAAGCTCTTATCCAGCACCTCCTC CACCACACCCTCCTCCTCCGGTATCGTCCCCTCCTTCGGCTGCTTCGCGTGTCCCAACCGCTTCGCCAACGACGCCCTGA TATGCTTCGCCGGCGAAGGCGGCGGAAACGGCCGTCGGAGGAAAAACCTCCTCGGCGTGCCTCTCGCCGGCGACGGCGTC ACACCACCACCGTACGGGTACGGGCTTGCGGCGGAGGAAGACCGCGCCGGCGTGAAATTCCCGGCGGCGGTGGTGGAGGT GGGAACTATGGTGGTTGTGGTGGTGGTGTGATTTTCCGGTGAGGGATTGGTTTTGCCGTAGCACTGGCCCATGGTGATCA GACGGTGGGAGTGAAAGTCAGTGCATCGGAGGGTCGAGAGTGATCCAGCGTTGTACGAATTGGACGCTGGAAACTTGAGA GAGAGGATGAGAAAGAGACAGAGGCGTTGAGAAAGTGAAGAGAAGAGAAGTTGTGTGTTATGTAAGGAAATATAATGGAA AGGGCGGGTGAGAGGTGTGACTGGTACACTGTTCAGGGGGTCGTTGAATTGCTCATACTTTTACTCTTTCTCATGACAAA AAATAAATAAATT

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0401100.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGCCGAAAATTCTTCATCGGTGGTAACTGGAAATGCAATGGGACTACTGAAGAGGCGAAGAAGATTGTTGGGACTTT GAATGAGGCTAATGTCCCTGGGGAAGATATTGTGGAGGTTGTTGTGAGCCCTCCTTTTGTGTTCCTATCCTTTGTAAAAG CTTTACTGCACTCTAACTTCCATGTTGCTGCTCAAAACTGTTGGGTTCACAAAGGCGGTGCTTATACCGGGGAGGTCAGT GCTGAAATGCTTGTGAATTTGGACATTCCTTGGGTTATTCTTGGTCCATCTGAACGAAGACTGCTTTTAGAAGAATCAAA TGAGTTTGTGGGAGATAAAGTAGCGTATGCACTTTCACAAGGTCTGAAAGTTATTGCTTGCATTGGAGAGACGCTTGAAC AGCGTGAAGCTGGTACAACATTGGCTGTTGTTGCTGAGCAAACAAAAGCAATTGCAGCTAAAATACCAGATTGGGATAAT GTTGTTTTGGCCTATGAGCCAATTTGGGCCATTGGGACAGGAAAGGCTGCAACTCCTGCTCAGGCACAAGAGGTCCATGC TGACTTGAGGAAATGGATTCATGACAACGTGAGTGCTGAAGTTGCTGTGACTGTGAGACTTATCTATGGAGGTTCTGTAA ATGGAACAAACAGCAAGGAATTGGCAGCACAGCCTGATATTGATGGATTTTTGGTTGGCCGTGCTTCCTTGAAGCTGGAG TTTGTCGACATCATCAATGCTGCCACTGTGAAGAAGAACTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0401100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGRKFFIGGNWKCNGTTEEAKKIVGTLNEANVPGEDIVEVVVSPPFVFLSFVKALLHSNFHVAAQNCWVHKGGAYTGEVS AEMLVNLDIPWVILGPSERRLLLEESNEFVGDKVAYALSQGLKVIACIGETLEQREAGTTLAVVAEQTKAIAAKIPDWDN VVLAYEPIWAIGTGKAATPAQAQEVHADLRKWIHDNVSAEVAVTVRLIYGGSVNGTNSKELAAQPDIDGFLVGRASLKLE FVDIINAATVKKN

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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	PTHR21139:SF6 View details on PTHR21139:SF6 Search for proteins/transripts with this domain View external data on PTHR21139:SF6	1	253	253	1.2E-141	–
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	1	253	253	1.8E-104	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR21139 View details on PTHR21139 Search for proteins/transripts with this domain View external data on PTHR21139	1	253	253	1.2E-141	IPR000652 Show description in modal box View details on IPR000652 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_00147_B View details on MF_00147_B Search for proteins/transripts with this domain View external data on MF_00147_B	3	247	245	55.498	IPR022896 Show description in modal box View details on IPR022896 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51351 View details on SSF51351 Search for proteins/transripts with this domain View external data on SSF51351	3	247	245	4.19E-89	IPR035990 Show description in modal box View details on IPR035990 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51440 View details on PS51440 Search for proteins/transripts with this domain View external data on PS51440	4	247	244	80.023	IPR000652 Show description in modal box View details on IPR000652 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00311 View details on cd00311 Search for proteins/transripts with this domain View external data on cd00311	5	246	242	3.22124E-122	IPR000652 Show description in modal box View details on IPR000652 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00121 View details on PF00121 Search for proteins/transripts with this domain View external data on PF00121	6	245	240	8.9E-84	IPR000652 Show description in modal box View details on IPR000652 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00419 View details on TIGR00419 Search for proteins/transripts with this domain View external data on TIGR00419	6	239	234	7.6E-85	IPR000652 Show description in modal box View details on IPR000652 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00171 View details on PS00171 Search for proteins/transripts with this domain View external data on PS00171	164	174	11	-	IPR020861 Show description in modal box View details on IPR020861 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:0004807 View details of GO:0004807 AmiGO InterPro QuickGO	Molecular function	Triose-phosphate isomerase activity	Catalysis of the reaction: D-glyceraldehyde 3-phosphate = glycerone phosphate.	Subterm of View details of GO:0016861
GO:0006096 View details of GO:0006096 AmiGO InterPro QuickGO	Biological process	Glycolytic process	The chemical reactions and pathways resulting in the breakdown of a carbohydrate into pyruvate, with the concomitant production of a small amount of ATP and the reduction of NAD(P) to NAD(P)H. Glycolysis begins with the metabolism of a carbohydrate to generate products that can enter the pathway and ends with the production of pyruvate. Pyruvate may be converted to acetyl-coenzyme A, ethanol, lactate, or other small molecules.	Subterm of View details of GO:0006754 View details of GO:0006757 View details of GO:0009166 View details of GO:0016052 View details of GO:0019359 View details of GO:0042866

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0401100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0401100.1