Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0044400
Transcript ID	LotjaGi4g1v0044400.1
Related isoforms 1	LotjaGi4g1v0044400.2
Lotus japonicus genome version	Gifu v1.2
Description	Branched-chain-amino-acid aminotransferase; TAIR: AT1G50090.1 D-aminoacid aminotransferase-like PLP-dependent enzymes superfamily protein; Swiss-Prot: sp\|Q9LPM8\|BCAT7_ARATH Putative branched-chain-amino-acid aminotransferase 7; TrEMBL-Plants: tr\|A0A151SI87\|A0A151SI87_CAJCA Branched-chain-amino-acid aminotransferase; Found in the gene: LotjaGi4g1v0044400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:5235187..5247016) extracted from Lotus japonicus Gifu genome v1.2.

CTGTTTTTTTGATCACTTAAACTTACTCAAAGTGATCTTGAATTATATCATAGAGTCTCTAATAATTTTTAGTATAATGA TTCATCTTCCTAATATTTTTTCTATAGCTCTATGAGTTAAATCCTACACTACTTAAATTAATTTATACCCACTTTTGTTT CATACATCACCAAACCATGACAATGCAATATTCTCTTCTTGCATTTTTACACGTCCGACTTAGTTTTCCTTCACCAGGGG GTAAAATGCTTACTCGATCCCTTATGTTATCTGATTAAAAAAAAAAAAAAAAACGTGTCCACTTCCTAGCTAGTTGCCAT CACAAAATAGACTTTCCACCTCCTCCTTACATAGGCTTTTTACCTATTACTCTCCAAAGCATTGCACCTCATGCTTGTTC CATTATGCCTATCCTCCAAGCCTCCACGTGATGATTGTTTGCTGCATGTTCCACACCTCCTCCTTGGCTGAAGCCTATAT ATATCAACGTGAATTGCTTTGGAAAATATACACAGAAGCAATTGAAAATACACACGAGAGGATACAAACACACTTGTTAT GTGTAATTTATTTTTAGTGAAAATTCTTGAGTGTGAGGAGATTCTTGAGTTTTGGAAAGCTAGAATCTTGAAGCTTAGCA TTTTCTAAAGCGATTAATTTTTCAAAGATCTGAAAGGTCACGAGGTTCGCAACTTTTATGCACTACTCACGAAGGTAAGG GTAACTCAATTTTAGCGCGTCTTTGAGTCTTGCATGCTTTTATCGCACTGCATGTGTTTGAGATGAAGGTGTTTAATTTG ATTAGCAATTGATTGAAATATTTGCATGTTTTGCAATGTTGTATGCTTGCTTATGTTGACTGTTTCTGAGGCTTGTGCCA AATGTTTTCTGAAGGCTTCGGCCGAGTAAACTTATTGAGACGTGTGTCTCCGTTTTCTGAGAGGCTTCGGCCGTTTACTG GTTTCCGTCATTACTGCTTTCAAGTGGATAAGACGTGATTATTGTTGATTGATTTTGGCATATAGGGCTGAATTAAGTGG CATTCAGTGGTTGTCGTTCCACATGTCTGTCCCGTATTTCGAGGCGTTATTAAGTGGCATTCAGTGGTTGTCGTTCCACA TGTTTGTCCCGTCCTTCGTGGCGTTATTAAGTGGCATTCAGTGGTTGTCGTTCCACATGTCTGTCCCGTCCTTCGTGGCG TTATTAAGTGGCATCCAGTGGTTGTCGTTCCACATGATTGTCCCGTCTTGTGAGGCGATATTAAGTGGCATTCAGTGGTT GCCGTTCCACATGTCTGTCCCGTCTTGAGAGACGTTATTGATCGATCCATTTTGGTAGCAGCATATAGTTGCATTATAGG GAACTAACACCTGACCCTATGTTGTTGGATTTTAGTTATTGGTTTATTGATATCTGATTTGATGATACATTGTTGAGGTT ATTATTATCTGAGTTAATCTACGTTTAAGTTGTTGATATATGAGTTGAGTTATGTTGCTAGTTATTTACCATGCTAAGTA ATTAGAGTTGAATAGCATGATTTTTTCTTTTATACATGGTAATTGCATGGAGTTAACCCTTTCTATTTGCTACTTGTTGT TTGGGCGCTTAACGCTATTAGGCGATAGAGATCCTTCCGCCGAGGCTTAGCTGCTCGAGTTGGAGATCGAGTTGTAAGCG GTGGAGTAGAGGTGTGAGAAGCAGCTTTGCTTCTCTTCTTGTGGACTATGTTTGAGTCTCCTTTTCTATATGAGAACTCT GTTATTAAAGCCTTGATTGAGCCACTGTTAAAGTGCGCATGTTTATTCTAAACCTTACTTATGGTGTTGTAAACTATTAT TACTATATATCGGGAAACAGGTTATTTAAATAAAGTTATCATGTGTTTCCAACCCTATGGTATTCATTCTCATTTTCAAA AAAAAATACCCTTGGATTTTAGGGATTGCAGAATAGTCCTTAGACTTTGTTAGGTTACTAATGTGATTCCTCAGTTGAGA AATTGGGGCGTTACAAGAATCAAACCTTTTGACAAATGTTAGGGACTAAAACCCACTTTTGCTCCGACGAGGGATGAAAA CCAAGCATTTGATAAAGGTTAGGGACCAAAAACTTATTTAAGCCTAATTTATTTCATAAATTTTGTTTACAAGTTACATA AACTGGTTAATATTGACTGTATATTTTATAGTCAATATATTTTGTCTATTTTTGGTTACAAGACGAAAACAGAGTTGTTA GTTGTCTTTTTCTCAAAACATAATATATTATATTATTGAAGAAGAAACCGTATGAGAATAATTCTCTCATGAAGTAAGAA ATACTAAAATAACCCCAAACAATACAACCAAACCTTTTATGGTGATCATATTTTAAGAATGAGTCTCACTAAAACCTTTT TAAGACACAGAGAAAAAAATCTAGTGAAGAAAAAATAGTATCACATTCTCAAGTGAACCATAGTACAAAGACTCAAAACG ACAAACCCCACCTTAACACCCAAACCAAACCCCTAATAAATATTACAAAAACAAACTAAAACCAGAAAGACCTTGAGTCC TCGCCCTTATGAAAACCCAGTCATGCAAAGAAACCATCACATAATGCTATAAAAATAATCCAGTAAGCTCAACCATGCAA AGCCCTTTTTCTGAGTAAACCTGAGTTTATACAAACCAAAGTCCACATTGTGTACGCTACTTCAGTGTTACCCAAAATGA ATGGTTCCAACCAAGGCAAAGCTACTAAAAACCAAACCTGTAGATCCTCACTAAACCCACGAGCCTTAGGTGTGAGGATA GTAATACCCTCTGATTCGGGGGTACCTGTAACACGCACAAACAAATGTAGAGCTAGCATAAGCACCCTCACAACCCATGA AGCTAGTGAAGGGAGCGGCTTCCAAAGTAAAAAATTGTACTCTCCTTTACAACATCCATACCTTTTGTTAAACACACAAT ATATAATCCCTTCAACAAAAATTAAAGTGCTGCCAAGGAAACCAAAACCGTTCAGCCTCCTCCTTCCTTCTCCTTTCCAA CGTTGTGCTCGGAACCCATACCTACACTAGGATGAGGCCTAAATTTGAAGGTTTGCACCAAAAGTGGAGTTACGAGGTGA GAAGGTAAGGACCTTTTTTTTTGGTAAGCCAAAGTGATATAAATAGGGAGTACAAGGGGTACTCCAAGCCCATGATACAA AGAGAATCATTATTTGATGTAATTCATTTTCCTTTGTGGACCCCGTATTTAAAAGTACAAATATGAAATTCTATTGCTTT ATAACTGAAAATAGAATAAAATACCTACAATATATATAATATAAATAATTGAAGTAAATATAAGATTGTTGTTCTTTCAA AAAAAATATAAGATTGTTAATCTAGTCGTTGGCATAACAAAGCTTGGGTTCATGACAACGATAACACTGTGAAAAAATTT AAGGGAGAAAATACTTAAATAAGTAATAAAAACATCTGTATACAGAAAAAGTCAGCATAATTTTAGAAACTTGTGTGGTA AAGTATGGGTTCATTAACTAGGCAACAAACCCAAAAAACTAAAATAAGTTGGCTAATGTGGTAATTATATAAGGAAGACA TATATAGAATAGATTGAAACAAATGCATTGAATATAACTGGCAGACAGTTATTGCTAGTCAAAATGTTCTTCAAACAATA ACTTGAACTGCAATCCTCGGAGTTTTGGACTCAATATATTTTTAGGTTCCCTCTAAATATAAATGTAAACACATGTTTGT AACATCAATTTGGCACAATGCTACATAACAAAACTAAACTTTGAATATTGAAGCTTAATTGGTTTCTTTTTTCTCCCTGC ATTTTTACCCGACCTTCAGTTGGTCATGGAGACCTCCCATCTACCAGCCAGCAATGGTGAAGCTATGAACAGGTTATTGC TCGACAATAAATTTTGGATTCACGATTTCACGCTATACAAATATCATTGCACGAATTTTATTTTTTTTATAAGCCATGAA TTTTATATTGAAATGAAGTATTAAGAGGCACTTCAACCCAATATAAGAGAATTCACCTTTTGACTTTAAAATTTTGACAT GGGCTTTCATTGACGATGAATAAACCATGCTGACGTTAAGGAATACCAAACCTCCATTAATTGTATACCCTTTTTAATCA AGTTGACGCTCCATTTTATGTTATGTGATAGAATTTGTTTGCCTATTATAATTTCATAGTCTTCTGGTTCAAAAGCTTTA TGCATTACCATCATATATGTTGATTAAAACATGTCATTAACTTTAATTACTAGAAAGTCAAAAATATCATTGGTCTTCAT TATTCATATTGCAAAAATTGATAATATACAATGTAAAGATGTGTGGACACCCATTCCACCTCTACCCCAATGAAAGAGCT TGGATGGGAAAAGGGCAAAATCTTTACATAATGTTAATGACAAAAGGTAATCCAAATATAAAAGGATAGAAATATTTTCT TCTCTTTTACCCTTTCTAATAAACATATTAGTTAGCTAGTTTACACCATACTAGAAGAGCATATATACAACTAATCCAAC TCAATGTTTTTTTTTTTGGTAGGGAGACTGAAGAAAGATTTGCCAATATTGATTGGGACAAACTTTCATATGAAGTTATT CCAACTGATTATATGTACATTATGGAATCCAATACAGATGGGACCTTTTCAGATGGAGCTCTCGTACCTTTTGGAACCGT TCAAATCAATCCCCATTCTTCTGTTTTAAATTATGGACAAGTAAGCTATATATTGCTTTTAAGTATAGATTAAATAAGAA GTGCGAGACAGAAAGAAAAATATATATGGTATATATGAGTGTATGTACTATTTAGTATCTACATTTGATAAGCGAAGAAG ATTCGGCATTAGTAACTCATAAGCTAAATATTAATGCTTCTAATTCATCCATTACACTTGGTATTAAAACATTCATATAT GCTGACAAGTATACATATATGAATTATGATGCATGTGCATGTATAATAGGGACTATTTGAGGGCATGAAAGCATACCGAA GACCAGATGGTGAGGTGCAGTTATTTCGACCAGAAGAGAATGCACTGCGCATGCAAATGGGAGCAGATCGGTTATTATTG GCAGCACCTTCCGTTGAGCAATATGTTGATGCTGTAAAACAAGTTGTCCGTACAAACAAGCGTTGGGTATACATTTGTTG TTCTCATTTCTGACTTTTTTTCCTTTTTATTCTTATAGCAAGATTCTAGCATATATCAGTAAAATAGGCAGGTGTATATC ATATATAAAAATACCGGTTGGTTCAAGTGTGGTACATGTTTAATTTCTTTTTGAGCAAGATTTTTTATGTCTTTTCTGTC CATATCTCTCTAATGTGCTTGGATAGAATGGGTGTGAAAAATGTACTTTTCCTGTTTTTTCCTAATCTTGAATATTGAGA GTTGTTAACTGGAACTGCATGCATGTAGGTGCCTCCTCACGGAAAAGGAACATTGTATATCAGGCCTTTACTATTTGGAA GTGGAAGTGTTATGGGTATCTCACCGGCGCCCCAGTCAACCTTCTTAATATACGCTAATCCAATTTGCAATGTTTACAAG GTAAGTGATCCCCTGCAAATTTTAACTTTCAACTAAACTAATATGAACAACCAAACAAAGATGATGATGAAAAGTTGAAT TGATTGTCAAACATATTGATTAAACTTTCATAAAAAAACTAAATGGAGAAAGGAAAATAAATATCAGCTAAGTATATATA CTATGCCGTTATCTATTGTACGTACGTAGATCAAGAAAAATTTAGTTCACAAGTTAAAATATCTTCTCTGAAATTAATTT TAGCATATAAGGAGAATATTAGAAATATAATGTACTAAATGTTAGTGGTGAAAATATGGCTCATGGGCGGGTAAATTTTT AGCATAGTGCACCATATAATTTCTCATATATTGTTTATATGTTATATTTAATATATATCTACAATCTTTATTTGGACAGG GACGAACTGCAGCCTTGAGTTTGTGGGTTCATGATAAACTTCCTCGCGCATATCCTGGTGGAACTGGTGGAGTAAAAAGT ATAAGTAATTATGCACCTGTAAGTTTATCTTAATCTGAATGATAAAATCATTAAGAGATTAATTAGAGGTGGTAATAAGA TTAATAACGAATAACTTAACTTTTTTTCAAACAACAAAAATTGATTCAATAAAATTACAAATTAGATTATCAAAAGGTAG CCCAAAACGGCACCTCTCATCACAACCTTGTTTCCCTAGGGGTATCGGCTAAGGCATTAGCTTTCTTATAAACGTGACAT GCATACATTGCAACATTTCACTTCCTAGTGAAGCCTATCTATAAGATTCAAGCTATTAATGAGCTTCCACGGTCAGAATG AAACACAATTTACCCACCCAGTAGTCAAAGAAGAGTCGCTTTCAATTGCGATTGATGTCCCTAAAACTAAGTTCTCGCAA AATAAAAGATCGAGCATTCAGAATCCCTAGCACCTCCGCTTCATAGGCCCTCTTCCACCCAACCTGTTTAGAGAAACACC CCACAATTTTTCCTTCCGCATTCCTTAGCCCACCCCCCAAATTCCACTCACGCTTGGGTTCCCTTTTGAAGCCCATCCAC ATTGAATTTAAGGATAGAACCTACTAGAGGCACTCATGATACAAAACGTTGCAACTTTCAATGGGGTGGAATACTAGAGG CACTCATGATACAAAACGTTGCAACTCTCAATGGGGTGGAAATTTGTTGATATCCAAATGATCTGCAACCTGATTCATTT GATTGGGACATTATATTGTTACTTTCTAACTTACTTTGATCCCCCAAGCTAGCCTAATTAATTTTACATTTCAATCACTC TCTCCACAACAAAGTTACTGCCATTAAATATATGATCATATGTTTCTAGCCAAATTTCCCACCAAATAGAGTAAGCTAAG CTACCAGCTTCTAGATTAAATCAAATGTAGAAACATGATTGTATAACTTTGTGTTATAAATTGGCACTTAAATGAAACAG AATATTAAAATATACATTATGATAGTTTAATGATGTTCATGTCTATGTTCTCAATTTTTTCAGGTCTTCCAAGTGGTAAA AGAGGCAAAAGAAAAAGGATTTTCTGATGTTCTGTTTCTCGATGCAGCAGAACATAAATACGTTGAGGAGGTATCTTCAT GCAACTTTTTCATTGTTAAGGTAACTAATGTTACATATATAGTAGTATTTTTTTCTTCATCAATTTGAAAATCTTCTAAA ATCCATATTTTAAACTCCCCATTTGACTCTTTAATTTCAGCGGAATGTTATTACAACTACACCTGCAACCGGAACTATTC TTCCTGGAATTACAAGGAAAAGTATCATTGAACTTGCTCGTGATTTGGGTTACAAGGTGATTATTACTGATCTTGAATAT ATAATTTCGAAAGAAAGTAACATAAATTTCTTGGGCCAGTACTAATCATGTCAAAAAGTTATACTCCTTCCATTTCTAAT TATAAGATCTAATACAAAAAATTACGCTTATTAATAAGAAAGGGATTGTCTAAATAACTCATAATATAGTTTGGGTTAAA TAATTCATCATCCAATCACATTTGAGATAAATGAGTTGGAAATAAATTAATAAATAAAATATACAAATTCCAACTCACTT ATCTTCAATGTGATTGGATGATGGGTTATTAAACCCAAACTGTATCATGGGTCATTTAGACAACCTCATTAAGAAAACAT TAAATGTGTCTAATTAGTGTATTGGTTTTTTAAAAATGCATACATTCATGATTCATCCATATTTACCCTTTGTCATTTTC TCTCACTAATTAATGGTAGGTGGTAATTAAAACTTTGGAATTGAAAACACACAATTAATGTGAGGGGTATATATGAAAGA GTAGAATATTTTTTGCTAGATTATTGTTAAAGGTCTTATATTTAGGAACATAAAAAATTTAAAACTGGGTCTTATAATTA GGAACGGAGGGAGTAGTATGTTAGTGTACAAGTTTTTAACTTGTTCTGTTATTTTTCGTGAACCAATTATCTCAAAAGCT TATATTATTGGTCAAATGATACATTAATTATTTTATATTATATTTTTAAAACGCCTCTCACACAATAGATAATTTGGGCT TAAAGCATGATCAATGCACATGTCCACCCTACATATTAGAATTAGGGAGACATAACTCAACCAAAAAACTAGCTTAGGAG TTAAGGGTTGTTCTATTCTCTTTTTTTTTGAAAATAGAAATATATATTGATAGATAATAATCGATAGTACAAACATCACA TAACAATGTGAGCAAAAGTCCCCCCAATGCTACAAAGCAAATCTAAAAACGAGTTTGTCTCATAAAACATTACAAGGCAA CAAACTAACCCAGAGCCACAATCATAAGGGCCTAGCCCCTAAATCAAGCATTAGCCGACCAACAAGAAAATGCATCCGTC GGGGACCTAGATGCGGCGAGAGGAAGTCTCGCAAACCCATCAAAAACAGATCTGCATCTCAGTATTGAGGAGCACAAATT AGCACAAGACATCGACCAAAGGCAGCAGCAAAACCGAACAATAGTTCCAGGTTATCAAGAACCTCCTACAAACTCTGACT CGGCGCACTCAGAGCCAACGCCAACTGCCCAACCAACATACCTACATCCCAAAACTGCCAAGGACAACCCATCACACACC AAAAACCCCGAACAAGCTAGGAAAGCACCAGCCTATGCATCCTAACCATTTCAGAACAACCCAAAGCATGTGAATAATAA AAAAATTGAGAGACTTATCCTGGTATTGCAAACACAGCTATGTTCTTTTTCACAGTGACAAAATTCTTGTCTCATAACAT ATTGGAGGAGAGAAAGAGATTAGCCTTCTAGGAAGAGATAGTAGGGGACTTAACACGAGCCTCATAACAGCGAGAGTGGA ACCTTTCAGTACAACCCATTCGGACAGAACCTAGAGCATGGATCCTCTTTGACAGAACGCTTCCTCACTCTCTCCCTCAC ACATAGTAGCATCTGAAAGTTAGAGGCGACGAAGAGCACGACAGAGCAGAGACGTCAAACAACAGAGCTTTTACCCCACA GTAGATCTGGCACAATGAAAGTAGGGGAAGAGGAACCTCTCAGATCTGGAGATAAAAACAAGGGGATCATCAGATGGGAG AAGCACGGCCCAGAACGTCGCTGCCGTGAAAGAGAACAACAAGGGCGGCCACCGCCGCTTATTGAAAGCTAAAGAAAGCA ATCGGGGCTCCAAGCACCATGCGAAACAGGTCACCGAATCTTTGGAAGGTGGAGGAGAAGGAGAAGAGAGGGGAAAGCAT AAAACGAAGTTAAGGAATGAAGGGTTGATGTCGCGCATAGAGGCGGCGCGACGACCACCCAAGGGGACTAGGGTTAAGGT TGAGAGAAAGAAAAGAGAAACGACAAGAGCAGGAACCCGAGCCCACATGTAGGGTTGTTTTATTCTAATCTTTATAAACA TTTGTTTAACCATATTTCTAGCAAATGTGAGACTTCTAAAAGCATCTTCAATGGGAGTATGTAATGTCAAATACATACTC CCACCAATATCTATTACCATTGGAGCATATTTTTAATTTCAACATGGCTAGTGAGGGTATGTGAGAGTGGATACTCAATT TAGTCATGAAAAGTGTGTTTGCATTTATTATTGCTTAATGTAAAAGGTTTAAATAAAACTTGCAATTAATAAAATAATTT TTTATATAAACTTGTAAGAGTTGTTTGGTTGGAGTAAAAGTTAATAAAATGATGTAGATGATGTGGCATTATTGAGAGTT GTAAAAAGTAAAATGTAAATACTTTAGTGAATATCATGGTTAAAGATGCTCTAATTAATATTTGGAATGTGGAATTAACA TCAACGAGTGACCCAATATGGAAGGTCTCCATAATAAATGGGTCTAACTAGGATATACTCTGATACCATATTAGAATCAG GAAGGTCTAGCTCAACATAAAATCTAGCTCAAAAGTTGAGGGTTGCTCTATCATTTATTTGTTTAACTATTTCTCTAGTA AATGGGAGACTTCTAACACTACCATGTGTTTAAAATTAATTTTATTATTAGAATAATGAGAAAATAAAAATCGAACCATA TACCACTTAATTATAAAGGCTTTATGACATCTACAAAAAAAAAGAGGCATTAAGACCATTTCATGATCTAATTATCCCTG AAGCTTAAGATAAAATACACAGGAATGGTTTTATGTTATAATTTATATTATTAATTTTTTAGATCAATTTTTACCTTTAT CTTATGGTGTGTTTGGTTTACGTTTGAAAACTAATTTTTGACTTCTCAAAATCAATTCTAACAAAAAGCTACTAATTGTG ATTGTGCATTGTCTATTCTGTCCACCACTCAACCAAACACACTTAATTTTTTTATCTATCTTTTACTGTTCATATCACAT ACCCCTACTTTATGTTTGTAAACTAGTTCTAAATTATTTTGATCTTAATAATTTGTGTAGCTAAAATTACCATTATTTAA TGAATAAACTTTCCATGTTTTATGTGAATGACAATCTCTTGCATGTAAACTCAAGAATTACTCTTTGTAAAGTGACTAAA CTTTTACTGAACTCTATAACAAGCTTCTTTTCAAATTTTATGTCAATACTTCTATAGTTCTCAATATTTTCTTTTTCATT CATGAATATACTGTGCGTCTGTGCAATTCAACTACATATTAAATATAAAAATGTTAAAGATTATTCTAAATAATCATTTA ATAAAAAAAATTAATCATATCGTAATGTGCAATTACATGATGTTTAACTAATTTTTATTGAAAAATATGAATATTAATAA AATAAATTGATTAAAGAGAAAACAATTATTGATTAATTAATTGAAAGAATGTTTAATTGATTTAGTATCGATATGCAGAA AAGTTATATGAAAAATGATTTTTTTTACATCAGAAATTTAAATTTTGCATCCTCCAGGGACTGGACCTCCCTTGCATAAC TCACATGTTCTTTAGCTCTTACCCATTTGAGCTATCATTTGAGGACTATGAAAAATGATGTTGAAATGTGCAGTATATTA ATATATTCATTTTTACTACATAAAAATAAAAATGCACATTAATAATCATACATAATTAAGTTAACTATGCCTTTCAAAGA AAAATTAAGTTAACTATATTACATGCACTTCCGTTATAATCTTCACTAGTTCACTTCTTAATTCCTTACTTATGATTTTT TCTGCTAATTTTGCCCAGGTCGAGGAACGAAAAATTCCAGTAAAAGAACTACTTAAAGCTTATGAGGTTTTTTGCACTGG AACTGCTACTGGGATTGCTGAGGTTTATAGTGTAAGCTACAAGGATAAAAGGTACAATGTCAATATGTCATTCAAATTCT AATAATAATAATAATAATGAAAATGAAAATAAAAATGATAATGATACGTACATAATAAGTTGATATTGTTTGTGCAGGGT TAAGTTCCAAACTGGACCCGACACTGTGACTCAGAAGTTGTATGATTTAATAACGGGAATCCAAACAGGTCTAAAGGAGG ATAAGAAAGGATGGGTGGTGAAGATTGATTAAGCAATTACTAGTTTATATAAACACTAGTATTGTGACTTGTACAACGCA CGCACGGAGAATATTCAATTTTTTTTTTTAAATATAAGGTGCTTGATGTGGTACCTTTATTTAAATGAGTGTACGGTACC TTAAATGATGTAAAACCTCTTTATCTCCAATTTTTTTAACTTCTAAAAGCCTCTAGCACCATCATTCATG

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0044400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCACTACTCACGAAGGGAGACTGAAGAAAGATTTGCCAATATTGATTGGGACAAACTTTCATATGAAGTTATTCCAAC TGATTATATGTACATTATGGAATCCAATACAGATGGGACCTTTTCAGATGGAGCTCTCGTACCTTTTGGAACCGTTCAAA TCAATCCCCATTCTTCTGTTTTAAATTATGGACAAGGACTATTTGAGGGCATGAAAGCATACCGAAGACCAGATGGTGAG GTGCAGTTATTTCGACCAGAAGAGAATGCACTGCGCATGCAAATGGGAGCAGATCGGTTATTATTGGCAGCACCTTCCGT TGAGCAATATGTTGATGCTGTAAAACAAGTTGTCCGTACAAACAAGCGTTGGGTGCCTCCTCACGGAAAAGGAACATTGT ATATCAGGCCTTTACTATTTGGAAGTGGAAGTGTTATGGGTATCTCACCGGCGCCCCAGTCAACCTTCTTAATATACGCT AATCCAATTTGCAATGTTTACAAGGGACGAACTGCAGCCTTGAGTTTGTGGGTTCATGATAAACTTCCTCGCGCATATCC TGGTGGAACTGGTGGAGTAAAAAGTATAAGTAATTATGCACCTGTCTTCCAAGTGGTAAAAGAGGCAAAAGAAAAAGGAT TTTCTGATGTTCTGTTTCTCGATGCAGCAGAACATAAATACGTTGAGGAGGTATCTTCATGCAACTTTTTCATTGTTAAG CGGAATGTTATTACAACTACACCTGCAACCGGAACTATTCTTCCTGGAATTACAAGGAAAAGTATCATTGAACTTGCTCG TGATTTGGGTTACAAGGTCGAGGAACGAAAAATTCCAGTAAAAGAACTACTTAAAGCTTATGAGGTTTTTTGCACTGGAA CTGCTACTGGGATTGCTGAGGTTTATAGTGTAAGCTACAAGGATAAAAGGGTTAAGTTCCAAACTGGACCCGACACTGTG ACTCAGAAGTTGTATGATTTAATAACGGGAATCCAAACAGGTCTAAAGGAGGATAAGAAAGGATGGGTGGTGAAGATTGA TTAA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0044400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MHYSRRETEERFANIDWDKLSYEVIPTDYMYIMESNTDGTFSDGALVPFGTVQINPHSSVLNYGQGLFEGMKAYRRPDGE VQLFRPEENALRMQMGADRLLLAAPSVEQYVDAVKQVVRTNKRWVPPHGKGTLYIRPLLFGSGSVMGISPAPQSTFLIYA NPICNVYKGRTAALSLWVHDKLPRAYPGGTGGVKSISNYAPVFQVVKEAKEKGFSDVLFLDAAEHKYVEEVSSCNFFIVK RNVITTTPATGTILPGITRKSIIELARDLGYKVEERKIPVKELLKAYEVFCTGTATGIAEVYSVSYKDKRVKFQTGPDTV TQKLYDLITGIQTGLKEDKKGWVVKID

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
Gene3D	G3DSA:3.30.470.10 View details on G3DSA:3.30.470.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.470.10	1	176	176	3.1E-56	IPR043131 Show description in modal box View details on IPR043131 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF006468 View details on PIRSF006468 Search for proteins/transripts with this domain View external data on PIRSF006468	2	347	346	1.1E-112	IPR005786 Show description in modal box View details on IPR005786 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR42825:SF17 View details on PTHR42825:SF17 Search for proteins/transripts with this domain View external data on PTHR42825:SF17	4	347	344	1.1E-199	–
PANTHER	PTHR42825 View details on PTHR42825 Search for proteins/transripts with this domain View external data on PTHR42825	4	347	344	1.1E-199	–
SUPERFAMILY	SSF56752 View details on SSF56752 Search for proteins/transripts with this domain View external data on SSF56752	7	343	337	7.19E-101	IPR036038 Show description in modal box View details on IPR036038 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01123 View details on TIGR01123 Search for proteins/transripts with this domain View external data on TIGR01123	43	346	304	3.7E-94	IPR005786 Show description in modal box View details on IPR005786 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01557 View details on cd01557 Search for proteins/transripts with this domain View external data on cd01557	53	334	282	2.03391E-117	IPR033939 Show description in modal box View details on IPR033939 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01063 View details on PF01063 Search for proteins/transripts with this domain View external data on PF01063	66	302	237	1.3E-40	IPR001544 Show description in modal box View details on IPR001544 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.10.10 View details on G3DSA:3.20.10.10 Search for proteins/transripts with this domain View external data on G3DSA:3.20.10.10	177	346	170	1.4E-56	IPR043132 Show description in modal box View details on IPR043132 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00770 View details on PS00770 Search for proteins/transripts with this domain View external data on PS00770	230	259	30	-	IPR018300 Show description in modal box View details on IPR018300 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:0004084 View details of GO:0004084 AmiGO InterPro QuickGO	Molecular function	Branched-chain-amino-acid transaminase activity	Catalysis of the reaction: a branched-chain amino acid + 2-oxoglutarate = L-glutamate + a 2-oxocarboxylate derived from the branched-chain amino acid.	Subterm of View details of GO:0008483
GO:0009081 View details of GO:0009081 AmiGO InterPro QuickGO	Biological process	Branched-chain amino acid metabolic process	The chemical reactions and pathways involving amino acids containing a branched carbon skeleton, comprising isoleucine, leucine and valine.	Subterm of View details of GO:0006520

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0044400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0044400.1