Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0043900
Transcript ID	LotjaGi4g1v0043900.2
Related isoforms 1	LotjaGi4g1v0043900.1
Lotus japonicus genome version	Gifu v1.2
Description	Aminotransferase; TAIR: AT4G33680.1 Pyridoxal phosphate (PLP)-dependent transferases superfamily protein; Swiss-Prot: sp\|Q93ZN9\|DAPAT_ARATH LL-diaminopimelate aminotransferase, chloroplastic; TrEMBL-Plants: tr\|G7JTY4\|G7JTY4_MEDTR LL-diaminopimelate aminotransferase; Found in the gene: LotjaGi4g1v0043900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:5186147..5197883) extracted from Lotus japonicus Gifu genome v1.2.

ATTATTTGTGATTCTTCTTGTGATTGGACAAAATTATAATGGGGTTCATATGCTGCGTGGACATGGTTCACTTCTAGTTC TTGTTGGTTCCTTTTTGCAATGTTTTAGTTTACAAGTTCATCAGATTAAATTATTGGGTAGTCATTTCCGGGCTGTTTAG TTATCTAGTTGATTGTGTGTTGGAGGGGTTACTGTAGTGGTTTAGTCATTAGTGTTGGAAAAGTGCTAGCAAGTTGTTCC ATTGAATAGATATTAGAGATCTAATTTTTTAGTGAGATGACATTTTTTTTTTCATTTTGAAGCCTACAAGACTAAGGTCT CTCGCAATGCTAATATGGGTAAACTTCAAGCTGGATACCTCTTTCCTGAGGTATGTGATGCTGCTTCATATTTCTGCATT TGATCCTGTTTTTCTTCATTTATCAAATAAAAATGAGCCAGTGTTTGATTTGATTAAAAAATGAGATGTCGCAACAAAGC ACTTGACTCTTGAAATTTGTTATCTTGTCTGCTAAGGATAAAGAAGAAAATATGGAGAAATATGTATCATTTTAGCTATT CAATCTTCTGTTTTATTTATATATGTGCATATCCTTCTCTCTTTCTCACTCTCCATTCTCCAACTTTGAGGTTAATTCTT TATATGATATATAACTACTTTTCTGCCTTTCTTTTTGCTGGCCTTTTTTTGTTTTGTAATTTTATTACAAAAAATAGGTT GCTAGAAGAAGGAATGTGCACTTGCTGAAGTACCCTGATGCAAAAGTAATAAGCCTTGGAATTGGTGATACCACTGAACC CATTCCTGAAGTCATAACTTCTGCAATGGCAAAGGTAGAACTCTGGCATGAATAAAGCTGATATATGATATATCTTTCAT ATTTGCACTCTGGACAATAGAATATAGTCCCCCCCCCCCCCCCCCCAGTATTTGTCATTTTTCTGCTGACCTTGGAGCTC TATGGTTATTAATTGTTGAATTTCATAATAGTACCATGATACGTACCGAAGAGCATTAGGATCAAGATAAGGAAGTGTAC TGTATTGTTTACATAATTCAACCTTGAAATGGGATTCAAGTCCTGATATATAGCAGTTCCTAGATCAAAATATAGAAGAA GAAAATAGGAAAACAGATTCCAGGCTCTTCAAGAGGTGTATTGTCATATGGGACCAGTTTCTACTTGTTCCAGTTTACCC TCTTCCTTTATTCCCCTCCCCCACCTATTTTGTTACAATTCATTCTCCCACCAATTGTCTCCCTACTTCCCACGCACTGC CCTTGGCAGTAAGTTACACTTTCTTCCTTTTAGTTATGATAAGGTGCATTGTACCTCTTAGTCCTCATTCGAGATAGCAG ATTCCTTAGGGCCCGTATCTACCACATTTGATACATTGGTTTTTTTTTCAGTAGCTTTGGTATTATCTGGACAACTCTTT CAATGTCTGGTTAAATCTATTTAAGGTGCCTTTTATTGATCAATAATCTGTGTGATATTTTGTAGATATGTATATTTTTT TCAAGAACTGTTAATCATAAATAATATTTTATCAACTCAATTAAATTACATCAATTCTTCACCTGTTGCTACTTGAGCAT TTGTAAATGTTGTTTTTCACTTTTTAATCAGAGATCACAAGCATTGTCAACCTTAGAAGGATATAGTGGTTATGGAGCCG AACAAGGTGAAAAGGTATGTCACATTAATGTCCATGAGAGGTTTCATCAATTATTCCATTTTTCATTTCTTGTATCTTTC TAGAATCTGCTGGACTGCCTCACACATCAAATGCAATGCCTGACCTGTTACAGTTTCCCACCCTTTCCCTTGCTGATAGT TTATTTCTCTTTTTTTGGTTGATGTTAGGACCGGTGACATGGGTTTAGGCTCACAGGATCATTTAGCCCAACAAGTGACT AAGGGACCCAAAGTTTGGCAAGTCTATTCTAGAAGGGGCAAGATAGGGAATAGTGGGTAAATTCCTAACGGAATGGTAAG AGAAAGTGATTGTAAGAGTTCCCTAATTTAAGGAAAGTGAGTGAGAGGTTGAGAGGCACCTGGGTTATTTCTGTTATTAG ATATGAGTAGGAAGCTCTAGCTTCCTATAGGAGCTTAGCTCTGGGCAGAATTCCTGGGAACCATTCCCTTTCTGTAAACA TTCCAAAGTCCATTAATAAGCAATCACTGTTGTTTTCTGTGTTCATTTTCCTCTGTTTTGTGTGACTAAGTTGGGGTTTC TAACAAATTGGTCCGACCTGCCGGATCCGCTCGCCGGAACCAGTGGATGCCATCCCGGAAATCCAAACAGGTAGCGACTC AGATGGAGGCCAAAATCGATGCTCTGGAGCACGAGCTCGCAGAGATGCGTTCGTCGTTAGCGGCTGTCACTACGGCAGTC AAAGACCTTCCCACATCACTAGTAGCGTTGATGGAACGCTCAATGGGCAAAACCGTGCAACATGAAGATTCCACTGTCAA TCGCGAGGATGTTGGTGGTGTATCGGGCACAAAACCACGTTCGCCGGAGCAGATCTCGATTCAGCAACCAGATGCAGACG TATCGCAAAGACCACTTCAGCTGCAAGGTGAAGCGCTGGCTGAATTCCGCCAATCGGTGAAGAAGGTGGAACTGCCCATT TTCGATGGCAAGGACCCAGCGGGCTGGATATCACGAGCTGAGATCTATTTTCGTGTTCAAGGAACCTCGCCGGAGGTGAA GGTAAGCCTTGCGCAACTGAGCATGGATGGTCCAACCATCCACTTCTACAATTCTCTCCTTGAGGCAGAGGAGACACTCA CTTGGGAACGGTTGAGGGACGCGCTGCTCGAACGTTATGGTGGCCACGGTGACGGCGATGTCTACGAGCAGCTGTCGGAG TTGCGACAAAGAGGAACCATTGATGAATACATCACTGATTTTGAGTACCTTACGGCTCAAATCCCCAAATTACCCGATAA GCAATACCAGGGCTATTTCCTTCATGGACTCAAAGAAGAGATTAGGGGCAAGGTTCAAAGTCTTACGACCATGGGAGGAA TTACCAGGTCGAAATTGTTGGTGGTGACGCGAGCAGTAGAGAAGGAGGTCAGAGGCGAACTCGGGTCAGGATTGAACCGG TCCAATCGGTTTGGAGGGTCGGGTTTTAAAGGAGGAGGGTCAGGCGGTTCGGGTCGACCCGGAGGGACAGATTGGGTCTG GGTAAAAGGAATGAAAGAAGCTGGGCTTCCCCAAAAACCTTCTTTCAACGGCCCAAAACCTGATTCAAAAACACCTAGTG ATCCACGTAGGGTTGGGCCAAGGGATCGGGGCTTCTCACATTTGACATATCCTCAGCTTTTGGAAAGGAGACAAAAAGGA CTATGTTTTAAGTGTGGAGGAGCGTATCACCCATTGCATCAGTGCCCAGACCGCCAGTTACGCGTATTGATTGTGGAAGA AGGAGATGAAGATACAGAGGAGAGCAATGTTCTGGCTGTTGAAGTGGATGAACAGGAAGAAGAAGCTCAAGGTGAGATGA GTATGATGAGTTTCCAGAACATCAACGACACACCGAGAGAGCAACCCCAAACCATGCGTCTTCAGGGAACGATTCAAGGG GTCCCTGTTCTGGTATTGGTGGACAGTGGGGCTACCCACAACTTCATAGATCAACGATTAGTTCTCCGAATGGGTTGGGA AGTAGAAGATACGCCTTAGATGTCCATCAAATTGGGAGATGGGTTCCAGACAAGCGCGAGAGGCCGCTGCAAACGCATAG AGCTGAAGGTAGCTGATTACCAGCTCGATTGCGCACCCCACCTCTTTGATTTAGGAGGACCCGATGTCGTTCTCGGCATA GAATGGCTTAAGACCCTCGGAGACACCATAGCCAATTGGGAAACTCACACCTTGTGTTTCTGGAGTGGACAAAAGTGGGT CAAATTGCAGGGTTTAACCGCGGGAAAGGAATCTATGGTGGCTTTACAACGCATCGTCCGACGGGCAAACTGGGCAGAGC ACGGCATCCTTTGGTCCCTGGAAACCTCTGAGTCACAGAAACCTCTTGGCAAAGATCTTACAGGCCAACAACAAGAGAGC TTACTTCGGTTACTGGACAAATACCGTGTCGTGTTTGAAGAGAAGAGCGGTTTGCCACCAAGCAGAGGAAGGGAACATTG CATCAATATCAGAGAGGGGCACGGCCCTGTGAACGTTCGACCGTACCGCTATCCACATCTGCATAAAACTGAGATTGAAA AACAGGTTCGCGAGATGCTGGAAGCGGGCATCATCAGACAAAGTACAAGCGCTTTCTCAAGCCCCGTCATTTTGGTAAAG AAGAAAGACCAAACTTGGCGGATGTGCGTGGACTACCGCGCTCTAAACAAGGCTACAATTCCTGATAAATTTCCCATACC GGTCATTGAGGAGCTCCTGGATGAATTGCACGGGGCAAGATATTTCTCTAAACTAGACTTAAAATCCGGGTATCACCAAG TCCTTGTACGACCGGAGGATGTGCATAAAACCGCTTTCCGTACACATGAGGGGCATTATGAGTTCATGGTGATGCCCTTT GGTCTTATGAATGCCCCTTCAACTTTTCAAAGTCTGATGAATGAGGTCTTTCGACCCATGTTACGTAAGGGAGTATTGGT GTTCTTCGATGACATATTGGTGTATGGCCAAGATTGGACTTCTCACCTCAACCACTTGGAAGTTGTTCTGCAAATTCTCC AAGACCAGCAGCTTACGGCAAACATGAAGAAGTGTCAGTTTGGCCAAAGAACCGTGGAATACTTGGGCCACTTGATATCG GAACAAGGTGTGGCGGTAGACCCAAGCAAGATCACGAGTGTGGTGAACTGGCCTACTCCCAAAAATGTTAAAGGGGTCAG AGGATTCTTAGGATTAACGGGGTATTACCGTAAGTTTATCCGAGATTACAGGAAGGTGGCAAAGCCCCTAACAGAATTAA CCAAGAAAGATGCTTTCAAATGGGGACCCGAGGCGCAACAAGCTTTTGAGGTGCTGAAAACCAAGCTTACTACAGCACCA GTTCTGGCGCTGCCCGACTTCAACAAGGAATTTTTGGTTGAGTGCGATGCATCAGGGAATGGCCTTGGGGCTATCCTCAT ACAGGGTAAAAATCCTATCGCTTATTATAGTAAAGCGTTGGGGGTCCGCAACCTAGCCAAGTTAGCGTACGAGAAGGAGT TAATGGCAGTGGCCCTTGCAATCCAACATTGGAGGCCTTACCTTTTGGGCAGGAAGTTCTTGGTTTCGACGGACCAAAAG AGCCTCAAAGAGTTACTTCGTCAGAAAATTGTTACCGGGGATCAACAAAACTGGGCAGCCAAGCTGTTGGGCTATGATTT TGAAATTGTTTACAAACCAGGTCGCTTGAATCAAGGTGCAGACGCACTATCTCGAATGAGTGAGGGCGCAGAATACCAAA CCATGAGCTCATATCCGTTTTGGGAAGAGCAAGCACAGGTAGCAGCGGAATTGCAATCCGATGCCAAGTTACAAGCCATT ATCAGGGCGCTGCAAGAGGATCCCGCCACTCATCCGGATTTCACGTACCAGCGAGGTACCCTGTTTTATAAGAAGCGTTT GGTACTGTCGCAGCACTCTGCTTTCATTCCCAAAATGTTAGCAGAATTCCACGCCACTCCTCAAGGAGGGCATTCCGGAT TCCTGCGCACCTACAGACGCATAGCTGCCAATTTATATTGGGTGGGCATGAAAAATGATGTACAGGAATTTGTGAGGAGT TGTGACACTTGCCAACGTCAGAAGTATATGGCTTCCTCCCCTGCGGGACTCCTCCAACCCCTTCCTATCCCGGAGCAAAT TTGGGAAGATGTCTCTTTGGACTTCATCACCGGGTTATCTAAGTCAAAAGGATTTGAGGCGATTCTGGTTGTCGTGGATA GGCTGTCAAAATACTGTCATTTCCTTCCTCTGAAACATCCTTATACTGCCCGAAGTATTGCAGAGCTGTTTGCCAAGGAA ATAATCCGATTACATGGCATTCCTTCCTCCATCGTTAGTGACCGCGACCCCTTATTCATGAGCCACTTCTGGAAGGAAAT TTTTCGTCTACAAGGCACTCAATTGAAGATGAGCTCCGCTTACCACCCTGAGTCGGATGGACAAACGGAGGTCGTGAACC GTTGCCTAGAGACCTACCTTCGCTGTTTCTCTGCTGATCAACCCAAGACATGGGTATGTTGGTTACATTGGGCCGAATTT TGGTTCAATACCACCTTCCATTCTGCGGCAAATCAGACCCCTTTTGAGGCGGTTTATGGCCGCAAACCTCCGGCTCTTCC TCGTTGGGGACTCGGGGAGACTAGGGTAGAGGCCGTGCAGCGTGAATTGCTGGATCGTGATGAAGCCCTACGACAATTAC GCACTCAGTTGTCTCGCGCGCAGGACAGAATGCAATCTCAGGCTAATGCTAAGCGGGTTGAGAAATCTTTTGCAGTAGGA GAGTGGGTCTTCGTCAATTTGCGAGCACACCGTCAACAATCGGTGGTAACCAGGGTGCATGCTAAACTCGCAGCGCGTTA TTATGGACCTTATCCGATTGTAGCTCGCGTTGGGGCAGTGGCATACCGTCTGCAATTACCTGAAGGTTCCCGCGTCCACC CTGTCTTTCACATTTCTCTTTTGAAGAAAGCAATTGGAGAGTATGAACACCTTGAGGGAGAAGGAACGGAGGCAGTCAAC CCTGGGAACATACTCGCGACTCGTACTATTTCTGCACAGGGAGAGGACATTCCCCAAGTGTTGGTCCACTGGCAAGGTAA GTCCGCAGAGGAGGCCACGTGGGAAGATGTTTTAACCATCCGAAGTCAATTCCCTACCTTCAACCTTGAGGACAAGGTTG CACTTCTAGGGGGAGGTATTGTTAGGACCGGTGACATGGGTTTAGGCTCACAGGATCATTTAGCCCAACAAGTGACTAAG GGACCCAAAGTTTGGCAAGTCTATTCTAGAAGGGGCAAGATAGGGAATAGTGGGTAAATTCCTAACGGAATGGTAAGAGA AAGTGATTGTAAGAGTTCCCTAATTTAAGGAAAGTGAGTGAGAGGTTGAGAGGCACCTGGGTTATTTCTGTTATTAGATA TGAGTAGGAAGCTCTAGCTTCCTATAGGAGCTTAGCTCTGGGCAGAATTCCTGGGAACCATTCCCTTTCTGTAAACATTC CAAAGTCCATTAATAAGCAATCACTGTTGTTTTCTGTGTTCATTTTCCTCTGTTTTGTGTGACTAAGTTGGGGTTTCTAA CAGTTGAACAACTACTTCCTAGTTTATTTTTGTAAGTAGAACATAAAATGTTTTCCTTTTTTTTTTTATTCTAAGTTTCC TGTATTTTCTTGATCCTTGAGGCAATTAAGGAATTCTTTTTTAATGTCTCCCTTTTTAGTTGACTTCACTTATTCTGTAA GTTTTTCTCTGTTGTGCACTATTTGCCTTTTTAGTTGACTCCACATGTACTGTAAGTTTGTCTCTGTTGGGCACTATATG CCTTTATTCTTACCAGAGTTTTACGGGAAGATTAATTCATGATGTGTAACAAATTTGTGTGAATTTTTTCATGTAAGCTC AAGATTTGAGGATTTGTATTTGGCCTTTTTTTCCACGTGTGGAATGACACCTGTAGCTTTCTTTACCATTTCTTTTGGTT TGTTTTCTTTAGTTGATATATTAACTACCAAAGCTTTACGATTACACTAAATCATTGTCTTTGTAATAAGGGGTGCCAAC TGCCAGAGTTCAATCTTTGCAATTGATGTTAATGTTTACCTTTCGGAAAAATGCAATTAGTTGAAGATGCTAAGGGTTTG AATTTTGAAACATAGATTACCTTGTGTGTATGCATGTGTTATTTTTAAGTCTAAGTGCGTATGCCTACTATCTTTTACAC AATTTTATGATACTTGGAAGATTGAGAGACATCCATAATCTATGCAGCCATTAAGAAGTGCAATTGCTTCGACATTTTAC GGTGATCTTGGTATAGAAGAAGATGATATATTTGTCTCAGATGGAGCAAAGTGTGATATATCTCGCCTCCAGGTTCATTT TGTATCTTTTAAATATAATATGTCCTACTTAAATCATATTCTGCCTATTGTGTTTTTTACCTGGTCCATTTACTGCTGTT GGATTTCAGATACTCTCCTTTGTGGGTGTTTTCCACAATGAACAAGTTCTTCCTGAACATAACTTATTATTTCTTTCATT TTCTTTGGCAGATTGTCTTTGGGTCAGATGTGAAAATGGCTGTTCAAGACCCATCATACCCGGTAATTCATACCTATGTG GTTGTTTAAAATGATATTCCCATATCAACCTTAAGTATTCATTCATGTTTCGTTATCCCAAAGACCCAAATGGATACTTT CATTCTGTTCCAGTTGTTACGTCTTTATTGATTTCCTGTGTGATGCGCGCTCTTTGATACAAATTGCAATAGAAAATACA TGGTTCTATGAGTTTTTTAAATTGTTTATATAAGGTCAGAGGACTTGAAAGAATTGTTCATTCTAATATTTGAAGAAAGG CTTTTTTGGTATTTGATTGGCAAATCTTGAATGGAAAGATTGCCCATTACCGGAGAAAGTGACATTTGGACATATGCCTA CACATGAAAAGCTTCAATTAGCTTCTTTGAACAATGTTTCAACTTTGATCATAATTTCTTTTATTTTAAATTGGTTATTG AAAGTATAACGTGTAAGGTTATCTATCTTGACCATAGTAGTCAAAATTGCGATTATAATCGCGCATAAGTGCCTTGGGCA CTGATTTGTAAGCGTTTTCTTGCTTAATTGTGGCTTAATCACTAGTTTTATCACATATTCGCATAATTGCACCATAAAGT GTTTTTTTTCATCATTGTTATTTATTCTGTTTATATACATATATATTTGAATACACACACACACACACACACACACACAT ATATATATATATATATATATATATATGAAGTTCACTAAATGTTACGATTAATCTCATCATTATGCAATTTACGATTAACA CTCCCGATCAAGGTCATATTCTTGATTTTGAGTTTTGACTACTATGATCTTGACACTTGACATTGTTGTCCCTTCCATAC GCGGGGAAGAGTTAATAGCTAGTTGGAACTTTAATTTGGGGATTATTATACAATAATTTTAGAAGAGGCATAATATCTAA ATTTTAGAAGAGGGATAAGAACCTTTAGGTGACATACCTAACGTAGGAAAGTTTTTGCCTTGCATCTTTTTTGTTTCTTT GGTGGAATATTTCATTGTCACTCCATATCTACAACTTACAATGAATAAGCTGGTTTTAATCTATGTACCCGATGCGTAGG GCTTAGCATATCCGTGCTTTAGAGTTCACAACTAAAAACTTTGATGCATATGAATATGCTTCAGCTTCAAGGGGAGTGTT GATTATGATTGAGATATTTAAATTTGTAGAGTTTGATTGATTTGTTGTATAGTTTCCTTACGTAGCAGATTCTAAAGATA CAAGAAAACATTATGTAAATAGGGCCTACAGTTTCCGGATTGATTTCATCAACCTTGTATGTAAATATTATACAAATCAT TCCAGAGATACAAGAAAACACTTTCAGATCATTCTTCTCTTAATCCTAATGAACTGTGTTGAAATAATATAGATAATATG TAAGTGAGACACCACAGTTTTATTCTGCTCTAGGTTGCTAGCCTTTTGTCTCTAGTAGCTGTTCTCTGTAAATAATGTAA GTTTTATATGCAGGCCTATGTAGACTCAAGTGTGATTATGGGCCAGACTGGCTCCTTCCAGAAGGACGTTGAGAAGTTTG CGAACATCGAATACATGAGGTGTAATCCAGAAAATGGCTTCTTCCCTGATTTGTCTTCCATTTCTCGACCAGATATAATT TTTTTCTGTTCGCCAAACAATCCTACTGGTGCTGCTGCAACAAGGGAGCAACTGACCCAACTAGTTCAGTATGCTAAGGA CAATGGGTCTATAATAATCTATGATTCAGCATATGCAATGTATATTTCTGGTGACAACCCGCACTCCATCTTTGAAATTC CCGGAGCCAAAGAGGTAAGCGAGTCTGTAACTGATAATTTGATGTTTAAGGACTGGTCTTTATGTTCACTCTTTACTATG ACTACGATTCCTATTTCTTAGCATCAATTGACTGCTAAGTTTTTAATGGAATGCATCTGGTGGAATCTTCTTGATTACAT GTATTTGCCACTCTACCTGAGTACATGTCGCTTATGCAATAACTTAAATTTAACACGTGTGAATGTGATTTCAAATTTAT TTTGCAACAAGTCCCATACCTTCTTGATTTGGTTATTGCGATAGTGCACTGAAGAATCTCGTGTTTCTTACATGACTCAT TAGTTTTTTTAGCTTTGACGACAAACCTTTTCTGTTGCACTATGAATTATTTCCATATTACCATGTCAAATTCATCTAGT ATTGGCTTTGTTTAATAGCACTAGTCTAGGAGGACTAACTTTTTCAATCTGTCTGAGTGTGATTCCAGATACTGAATATT TTGCTGACATTATATGTCTACGTATGCAAGTATTATATTCTTTTATTCAAATAATACATAGTTTGGATGATTAAACTGAC ATACCACTACAAGGAAATACATGACATCAAGCAGAATTTCCATCCAGGGTTTTTTTAGAATGGCCCAAAATTTAGAAATT CAGTTAGGAATCTGCTTTTGATGTGCAGTGAATGCCATGGATTTCTGTTGCATATCAGTGTATGACTACTTATGGCCTAT TGCAGGTTGCTATTGAGACTTCATCATATAGCAAGTATGCTGGGTTTACTGGAGTCAGACTGGGTTGGACTGTGGTTCCA AAACAGTTGCTGTTTTCAGATGGATTTCCTGTTGCTAAGGACTTCAACCGTATTGTTTGCACTTGTTTCAATGGCGCGTC AAATATTTCCCAGGCAGGTGGTCTGGCTTGTCTTTCACCAGAAGGCCTTAAGGTAAGTTACTTTATTTTATTCTTGAAGT TTCTGCAACGCAGAAATTTCCAAATTTCCATACATTATTTGCCTCTTCCTCCTACCACTTGATGCTTCTGTGGCTCCTAT TATTATGGCATTATTAAATATTAAGTGCGTGATTGGATTTCCAGTGAATTCAACGCCGATCCATGTTGAACCCCTGTCAG TGTGGGAAATTCTTGCTTCTTTCTTGGTACCTTGAGATACATGCTTTCATGTATGCATTTTCATGAACGCAAAAACAAAC ACACTGCATTCCACTTGCATTTTCTCTTTATACCAAACTTTTCAGCTACTAAATTTTCTGGGCTGAGGCGGTTTTCTTGG ATGATTTAGAACAAATATGAAAGCTTATTTGAAATATATTTGTCAAAGAACTTACATGATACGATTGCTGCAATTGAGTG CAGGCTATGCGAGATGTTATTGGATTCTACAAAGAAAACACTAGCATTATAGTGGACACATTTGACTCTCTCGGGTTTAA GGTCTACGGAGGGAAATCTGCGCCCTATGTGTGGGTTCATTTCCCAGGGCAAAGTTCATGGGATGTGTTCAGTGAGATTC TTGAGAAGACTCATGTGGTTACAACTCCTGGTAGTGGTTTTGGACCTGGTGGTGAAGGATTTATCAGGGTTAGCGCCTTC GGTCACAGGGAAAATATCTTGGAGGCATGCAGAAGATTCAAGCAACTATACAAGTGA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0043900.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTAAACTTCAAGCTGGATACCTCTTTCCTGAGGTTGCTAGAAGAAGGAATGTGCACTTGCTGAAGTACCCTGATGC AAAAGTAATAAGCCTTGGAATTGGTGATACCACTGAACCCATTCCTGAAGTCATAACTTCTGCAATGGCAAAGAGATCAC AAGCATTGTCAACCTTAGAAGGATATAGTGGTTATGGAGCCGAACAAGGTGAAAAGCCATTAAGAAGTGCAATTGCTTCG ACATTTTACGGTGATCTTGGTATAGAAGAAGATGATATATTTGTCTCAGATGGAGCAAAGTGTGATATATCTCGCCTCCA GATTGTCTTTGGGTCAGATGTGAAAATGGCTGTTCAAGACCCATCATACCCGGCCTATGTAGACTCAAGTGTGATTATGG GCCAGACTGGCTCCTTCCAGAAGGACGTTGAGAAGTTTGCGAACATCGAATACATGAGGTGTAATCCAGAAAATGGCTTC TTCCCTGATTTGTCTTCCATTTCTCGACCAGATATAATTTTTTTCTGTTCGCCAAACAATCCTACTGGTGCTGCTGCAAC AAGGGAGCAACTGACCCAACTAGTTCAGTATGCTAAGGACAATGGGTCTATAATAATCTATGATTCAGCATATGCAATGT ATATTTCTGGTGACAACCCGCACTCCATCTTTGAAATTCCCGGAGCCAAAGAGGTTGCTATTGAGACTTCATCATATAGC AAGTATGCTGGGTTTACTGGAGTCAGACTGGGTTGGACTGTGGTTCCAAAACAGTTGCTGTTTTCAGATGGATTTCCTGT TGCTAAGGACTTCAACCGTATTGTTTGCACTTGTTTCAATGGCGCGTCAAATATTTCCCAGGCAGGTGGTCTGGCTTGTC TTTCACCAGAAGGCCTTAAGGCTATGCGAGATGTTATTGGATTCTACAAAGAAAACACTAGCATTATAGTGGACACATTT GACTCTCTCGGGTTTAAGGTCTACGGAGGGAAATCTGCGCCCTATGTGTGGGTTCATTTCCCAGGGCAAAGTTCATGGGA TGTGTTCAGTGAGATTCTTGAGAAGACTCATGTGGTTACAACTCCTGGTAGTGGTTTTGGACCTGGTGGTGAAGGATTTA TCAGGGTTAGCGCCTTCGGTCACAGGGAAAATATCTTGGAGGCATGCAGAAGATTCAAGCAACTATACAAGTGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0043900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGKLQAGYLFPEVARRRNVHLLKYPDAKVISLGIGDTTEPIPEVITSAMAKRSQALSTLEGYSGYGAEQGEKPLRSAIAS TFYGDLGIEEDDIFVSDGAKCDISRLQIVFGSDVKMAVQDPSYPAYVDSSVIMGQTGSFQKDVEKFANIEYMRCNPENGF FPDLSSISRPDIIFFCSPNNPTGAAATREQLTQLVQYAKDNGSIIIYDSAYAMYISGDNPHSIFEIPGAKEVAIETSSYS KYAGFTGVRLGWTVVPKQLLFSDGFPVAKDFNRIVCTCFNGASNISQAGGLACLSPEGLKAMRDVIGFYKENTSIIVDTF DSLGFKVYGGKSAPYVWVHFPGQSSWDVFSEILEKTHVVTTPGSGFGPGGEGFIRVSAFGHRENILEACRRFKQLYK

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	PTHR43144:SF1 View details on PTHR43144:SF1 Search for proteins/transripts with this domain View external data on PTHR43144:SF1	1	397	397	6.5E-247	–
PANTHER	PTHR43144 View details on PTHR43144 Search for proteins/transripts with this domain View external data on PTHR43144	1	397	397	6.5E-247	IPR019942 Show description in modal box View details on IPR019942 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR03542 View details on TIGR03542 Search for proteins/transripts with this domain View external data on TIGR03542	3	394	392	3.7E-153	IPR019942 Show description in modal box View details on IPR019942 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	9	392	384	3.75E-73	IPR015424 Show description in modal box View details on IPR015424 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	12	391	380	1.0E-138	IPR015422 Show description in modal box View details on IPR015422 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00155 View details on PF00155 Search for proteins/transripts with this domain View external data on PF00155	28	392	365	7.8E-35	IPR004839 Show description in modal box View details on IPR004839 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00609 View details on cd00609 Search for proteins/transripts with this domain View external data on cd00609	30	394	365	1.04053E-70	–
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	39	294	256	1.0E-138	IPR015421 Show description in modal box View details on IPR015421 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:0008483 View details of GO:0008483 AmiGO InterPro QuickGO	Molecular function	Transaminase activity	Catalysis of the transfer of an amino group to an acceptor, usually a 2-oxo acid.	Subterm of View details of GO:0016769
GO:0009058 View details of GO:0009058 AmiGO InterPro QuickGO	Biological process	Biosynthetic process	The chemical reactions and pathways resulting in the formation of substances; typically the energy-requiring part of metabolism in which simpler substances are transformed into more complex ones.	Subterm of View details of GO:0008152
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

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0043900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi4g1v0043900.2