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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0086500 |
Transcript ID | LotjaGi1g1v0086500.1 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Glutamate 5-kinase; TAIR: AT3G55610.1 delta 1-pyrroline-5-carboxylate synthase 2; Swiss-Prot: sp|O04226|P5CS_ORYSJ Delta-1-pyrroline-5-carboxylate synthase; TrEMBL-Plants: tr|I1JI26|I1JI26_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0086500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:12517133..12529112) extracted from Lotus japonicus Gifu genome v1.2.
ATGATACTTACTTTACCATGTAAAGTGAGTAATTGAGTCCAATCCAACCAAATCCAAAAAGGAAATGCAATAAGAGGAAA CCCCCAGAAACGCGGCAAGTTGTAATAGACAATAGTTGTCAGCAAGACTAACAAAACAAAACAGGACAGAACCACATTTG CTGTGTCTGTCATTGTTTATTCACGCAGCTCTCTCTCCACTCACAACCAGCAACACCACTCCTCTCTCCATTTCCTTCTT CTTTGTTTCTTTCTCAAACTTCAAATGCAGTTGCCAATGATGGTGTTTTTCTGTGTTTCATTTTTCAAGGTTGGAACTGC TGTTGTCACCCGCCAAGATGGAAGATTGGCAGTTGGAAGATTAGGGACTCTCTGTGAGCAGGTCACCACAGCTCACCACA CCTTCTATAATCTCTGCTTCTTAATCTCAATTAATTAATACTAACAATAGTTCTTAATCTCCATTTTCCCAGATTAAGGA ACTGAATTCCTTAGGATATGAGGTTATTTTGGTGTCATCTGGTGCTGTTGGTATTGGCCGCCAAAGACTCAGATACAGGA AATTAATCAACAGCAGGTCTCTCTTACTCTTACTTATATGCCTGCCATGCCACCCTTTATACTAAACTGCATTTTATTTA ATTAATAAGTGAAGTTTATAGTGATTAGATATGTTTTCCCAGAAAAAGTAAAATCCTTTAAGAAAAAAACAAACTTTCTA ATGAGTGTCATCAGGGTATGATTGTTTTAAAGTTTAGTAGAATTAAGTTTAGTAAACTTGAGTCTATTATAATTAAGGTC CATAGAATTAAGTTTGAGATGAATTTGTGTTTGGAAATGGTGCTGTAAAAGTAATTTTAAAAAAAAAACTGGGTTTTTGC TTATATAGTAAGATAGAATGACTTTTGAAGTGTAAATATAGATATATTGTATGGATCCCACACTTAGAATGAATTACTCT TGATGGAAAAGTGAAAAACTCTCACTTTTGTTAAACCCAAGTTAAATCACCTGGCTATTTTTAACAAAATTAATTTTAAC ATTCAAAAGTAGTTATTTTCAACTGAAACTTATAAAAAGAGCAAGCTCTTAAATAGAGTAGCTTTCCCTGTAAGCTTGTG TTTTTTTTTTTGAAGCTTATCTAAGCATTTATAATGTAATGCTGCAGCTTTACTGAGCTACAGAATCCGCAATTTGACCT TGATGGCAAGGCTTGTGCTGCTGTTGGACAAAGTAGTCTTATGGCTCTTTATGATACTTTGTTTGGTCAAGTAATTATTA TTACTTCATCTTTTTATTTCCATCAAACTCTGCTCTAGAATTCCTTTTGTTACTACTGTTTTTAATGACTTGTTCCTTTT CAGTTGTTGCTAGATTTTAGTGCAGTTTAGAGAGATGTTTTATCTCTTTTGTCTATCTGAATTGCAGCTCGACGTGACAT CTGCTCAGCTTCTAGTGACAGACAATGATTTTAGAGATAAAGATTTCAGAAAGCAACTATCTGAAACTGTGAAATCCTTG TTAGCTCTAAAAGTCATTCCAGTATTCAATGAGAATGATGCCGTCAGTACTAGGAAAGCTCCATATGAGGTTTGTTGCTA TACTTGACGACGAAATTTTAACAATATCAAACTCAGTCCTAGAACTGAGTTTCTCAAGTCTTTGCTCCTTTGCACATAAC TAGTTCTATGAATTATGTAATCTTTGTAGGTGATATGATCTAGGTTTAATCTGACAGGAAATAGAACTCAGAACTATATT TGTTTATCCTTTCCAAGTTTTTATCAACTTTATGTTTTAGATTTGAATTTTCATTCTGTATCCAACGTTTTCTCTACACC AATAAATACCTCTTAAACATTTGGCTAGAACTGTGTCCACAATAACAAGCTTTATTAGGGATTTAATTTTTATTCTTCTC TGGATTTCAAGCATTCTCACTTTCTCAGTATATATGACCAAATTACAGGTGTCTGAGAATAAACTATATGATAAAGTAAG AATGCTTGAAGTCACTTTCTCAAACTTTATGGGCTTGTAACTGTCTTTTAAGCTTGAAGTTTAATTTTATGTGTGCTTCT TTGAATGTTTGCTTAGCTCCTTTCATTTAGAACTATTTAAGTGCTTAAAGTGTCATCAACTCATATTTTCTGCAGGATTC TTCTGGAATATTTTGGGATAATGATAGTTTATCTGCTTTATTGGCTCTGGAGTTAAAAGCCGATCTTCTTGTTTTGTTGA GTGATGTTGAAGGTCTTTATAGCGGCCCTCCAAGTGACCCACATTCAAAGCTCATTCGTGCATATATTAAGGAAAGGCAT CAGAATGAAATTACTTTTGGCGACAAGTCTAGGGTGGGAAGAGGTGGAATGACAGCCAAAGTAAAAGCTTCTGTTCATGC TGCTGAGGCTGGCATTCCTGTTATTATTACCAGGTTTACTATTAGACTCTATTACTGAGAAAGATTACACCTTAAACTGC TGTTCTGTTTTTTCATTTTTAAAAAAATATGATTGTTGAAGGCATATTATTCTACCCTCTTTAGGTAGTTAGGTAATTAT TTATTTTATTATTAGAAATATATTATACAACTATTCATGTGTTCACCCAACAGCTTAAACATTTGGTATAGTTGGTCCAT AACATTTATCATTGTCATTAGGTCATGACATGTGGACAAACTATGCTAAACCACTAACAATTTTGGAATATGAATAATAC ATTTAAAAAAAATTTAACTTATACACTTGCCGCCAGTTTCTCTGGTCTTTATCCTTTCATTTTATTCTATAATGTCTTTT CATCCACCTCTTTTTTCCATTTAGTAAATTTAAATGAAAATGTGTATATGGACACAAACGCAAAATTAAAGAATCCCTTA TGGCCGTGCCTCTTCTTTATTTTCCATTTGTTGATCTGTACCAAAATCACTGAGATTCAGCATGGGCACAAACTATATCG GATGCTCATCTTTGGAAGCTGGTTTTTCCTTACTTCCATCACATTTTTCTCTCCTTTCAGTGGTTTTGAAACTGAAAGCA TCATTAACATTCTCCAAGGACAACATATTGGAACCCTCTTCCATAAAGATGCACATGAGTGGACCACATTGAAAGACGTT GATGCACGCGAGATGGCTGTTGCAGCCAGGGAATGTTCCAGACGGCTTCAGGTATCTTTTCTTTATCACACATAATGTGT GATTTATGTGTGATAGATCATAGATAATATGCGCTGTATGTGAAATACTCCGAGTTTAACTTTCTCATATCCTAATTTTA CTTCACAGGCATTATCTTCAGAAGAGAGGAAACAAATTTTACTAAAAATAGCTGATGCGCTGGAAGCAAATGAAAAAGTG ATCAAGAATGAAAATGAAGCTGATATAGCTGCTGCACAGCAAGCAGGATATGAAAAATCTTTGGTGGCTAGGCTAGCTTT AAAACCTGGGAAGGCAAGACATTTCATTTTTAGAATAAATCATCTGAATTTTAACAAACTGAAAAGTTTTTGATGATAAT CATAATATATGATAACTGACAGATTGAAAGCCTTGCGAACAACTTGCGAATTATTGCAAATATGGAAGAACCAATTGGCC AAGTATTAAAACGAACTGAGGTAATGAATTTATCTGGAAATGTATTCCTGGATCAATGTAGCTTATGAAATACCATTTGT GAGAAATTTATAAAGCAGGATCAGCTTCCCTTCCACTTACTATTAAACTGAAGATTCTAATTTTATGTCTTTCTACTAGA TAAAACGGACTCATGTTATTCACAATTTTGTGTGAAGGCATTGTCCAAAGTGTGCACAATTTTTTCTTGGATATGATTGC ACAATTTTTTGTTTTTTCTTTATAAATATTGATCTGATTTGTTTTTCACTGCTGCCAATTTATTTAGCTTTCAGATGGGC TAATTTTGGAGAAAACATCATCTCCTTTGGGAGTTCTTCTGATTATTTTTTAGTCTCGCCCTGAGGCACTAGTACAGGTA AATTAAACCCTACCAATCTTCTCTGTCTCATTTTCTCTCTTCACCTTCTGTTTTATACTTAAGCCAGTTTTCCCCAAAGG AAAAACACTTTTTTCATTTACTTTTTCACTTTTGTTGAGCACTTATATTCATCTGCTATCCTTGTTCATTGTTTTTTCAA GTGTCAGCATTCAGAAGGTATTAGGGAAGATCTGTTAAGAGGGAGATCTGTTAACCTAAATGAATTTTTTTTTGGGGTGG GGGTTGCTTAAATGAATGTGTGCTTTCAAATAAGCTTGATAGCATGGGGTATCGAAATTTAACAGATATATGGTACTTAT CTGTAAAATTGAGAGGTTCTCATCCCCTTGGGCTGTATTGGTAAAAAGGGGATATTTTGTCCTTTAGACGTATGTGCTAG CAAATTGAGCTTTTTAATTTTTTAATGTTACTGCAAATACATTTATTGTATGCATAGGTTTCTAATTGATTAAATGAATC TGAAGTTTAACTGTTTATCATTATTGATCTGGTCGCTTTGTATCTTTTGAACAGATAGCTTCCTTGGCAATCAGAAGTGG GAATGGACTTCTCTTGAAAGGAGGCAAGGAAGCTTTGCGATCAAATGCAATTTTGCACAAAGTTTGGTTTCAAATAAGAT AATCTTAAACTATTTTCTGTTTGAATTTAATACTGTCTGGCAATCTCATTAATAAATTCTTTTGGGGGTGGTTCCTGTTC TGGGATGCAGGTAATTACTGAAGCCATACCAGATACTGTTGGTGGAAAACTTATTGGACTTGTGACATCAAGAGCAGAAA TTCCTGAACTACTTAAGGTATATTTATCAGTAGAGCTTAATTGCAGATTTATGAACTTGTTCCGTTTGAAATTATAACCT TTTAGCGAAACAAGGACTTCAATTCATTTAACTTTCAGCTGGATGACGTAATTGATCTGGTGATTCCAAGAGGCAGCAAT AAACTTGTATCTCAGATCAAGAGTTCCACAAAAATTCCCGAGTTGGGTCATGCAGGTAAGACCATTGTGCTTATGTTTAT ACATAATAAGCGAGCAATTGATAGATACACTTAGTTAGTTAGTTGGGGTTAGTAACTATAAATTGGAAGGTTGTAAGAGT GTTGAGTATCTTTGGGATCATTTGGGAATTGGGAATTAGGAGAGTGATGAGTCTCTCCAATACTCATCAGTTACTTATAT CCTTCTCTAATTCCCCAATTGGGAATTATGGTTCATCTTGAATAATACTCTTTCTCTCTACATTCTTGGCTGGATCTTAT CAGCAATGCTTGATTGCTTGATATGGTATGGTAAATCCTAGTGAAAGAATTTATTAGTGACTATCATAAATCATAATAAG GTTCATTATTACTGATCCAGATGGAATTTGCCACGTCTATGTTGACAAGTCTGCTAACACGGAGATGGCAAGGCAGATTG TACTGGATGCAAAAGTATATTATCCAGCAGCCTGCAATGCCATGGTAAATTAAATGTACCGGATGACCGTGCAAGATTGC TGATGTTAGCTATTTTCTTTGCTCATGAATCACTGCCATGCATAACTTCTTTTTGTCTGCTTTTAAAATTTTAACTCTTA GGAAACACTTCTTGTCCACAAGGAGTTAATAGAGAAAGGTTGGCTTAATGATATTATAGTTGACCTACAAACGAAAGGTA TAATTTCTTGCAATCATTTCCTCTTGTTCTTGATTCTCTTTCAACAGGTGATAATACAGTTTGCTTTAATTTCTGGATAC TACTCATTAGGTTTTGTTTGTAGCTCTAGCTGGATAAAGGTTTTTGTTGTAATTTCTCATTTCTCTCCAAAAATATGACA TTTAAACATTTGATTTTCGTGATTGCGTAATGATAATAATTATCAGGTTGCAATCAAGTCTTTTAATATGCCAAGTTTTT TATCCTTTCTGGAAGTTTAAGGACTCATGCTAATGCATGGCTGCAAAATGCATGCTCTTTAAGATTTGGATTAGAAGATA AGAACCCGCGTTATCTAATAAACTCAGTTGGCAATATTTTTTTATATATTTTCTTATGGGAAATATGGTGTTGGTTTTGA GGATGTTTGTGGGTAAATAAGATGTAGGTTTTGTATCTCAACCAAACCCCTAAAGCCACTCATGTTAGATTTTACTGCAT AGAGTGGATGTAATAACACATAGCAAAGCTGAATTTTATATGATGAACAAATAAGGAATTTAGTTGTATGATTTCTTAAA TTCTCTTGAGCAAATTCTGTTGAGAAGACAACATAAAGAAAGCATGAGTATGATGGTTTTAATGCTATGTCTCAGGGCCT TCTGCATCACAGTGCTTGTAATTCCAGATTCCAATCCATTGTGAACAAATTTTACGCTCATACGCTGAACATTATAAAGA GAAGCATATTTAAATATCTATTATTTAATGGTTTAGAGTTTGTTCACGTAAATTTCTAATATGGGCATTTATTTCCTTTT GGAACTGAAACTTTCATGTTCAAAAAGATCTTAGATATTTAATTTTAAATGCTAATCGAGTGTCAAAAATCTAAATAATG TTCATTATTCTTCTTTTTGTTGATTAATAAATATTAAAGAAATTTAAACGATCTTCTAGGAAATTAAAGAAAATGAAAGC CATCCCCAAGATTTATATTGCAATCTATCTTTATGTTAACCTAAGTCTTGCATCCTTACTAGTCTGGTGCGTTGTTTCAT CATTTTAAAGATTGAAAAATTTATCATATTATCTGGGAGTCGGAAGACTGTTATACTGAATTGATAGGTGTTACTATCTT ATTTCAAATGCAAAAATGATGTAAAATTTATGCAGGTGTTACATTATATGGAGGACCAAAGGCAACTTCTTTGTTAAATA TTCCACAGGCACGTACGTTTCATCATGAGTACAGTTCATTGGCTTGCACTGTTGAAATTGTGGATGATGTGTATGCAGCT ATTAATCATATAAATCTTTATGGAAGGCATGTCAGTGTTTTATTCTTTATTAGAAACGTGTGAAACAGATTGCTTTCATT TCCCTTCTACTCTCTGTTCCAATTCAAACCGACATCTATATTGGTGCAGTGGGTTAATATGGAAAAATATCATATCTTCT ATTTCTTTGTGTGGCAGTGCACATACTGATTGCATCGTTGCAGAAGATCATGAAGTAGCTGATGTGTTCCTACGCCAAGT AGACAGGTAATATCTGAAACACCATGCTCCTTAATCTCGTTTCTGCAATGATAAATAATAAATACAGTTGAAAAAGATAT TTCACTCAATTCTCTACTTTGCAGCATTTTGTTATTGTGTAACTATTTGGCAGTCTTTGACAAAGTTACACAAAAGTATA ACATTAAACAAACATTACCCTTTAAACTATCACTGCTTTCTCAGAAGATATCAGCACATTGTGCAATGGAAGTGATGTAA TTATCGTTTGTCTTGTATTGATAGTGCGTCTGTTATTCACAATGCAAGCACAAGATTTTGTGATGGGGCACGATTTGGAC TAGGTGCAGAGGTATGTTTTTTCTTTTTTTGCATTTTCTAATCAATCTATTGAATTAATGTTGTTGATTTAATTTTGTAT TTCTGTCTTGGTTGAATAGGTTGGAACAAGTACAAGCAGGATTCATGCTCGAGGCCCAGTTGGCGTTGAAGGATTGTTGA CAACAAGATGGTATGAGCTGGTGATCATTATAATGCTTAAGAAACAGTACAAATCTTGTACTATACAACTAACAATTCCA TTCTGTCTCTTGGTTAATATATGTACTTGAATGTCACTAATCACTTTTGCATGAGGAATGAAAGATTTATCATTCATATA AAATTAATCTATATGTGCTAATAAAGGACTATATAGTTTACATTTCAGCCTCTCATTTGTCACTTATAATCTACGAGCCT GTTTGGATTCAGGCTTATTGGAGCTTAACTACTCCAGAAAGTGCACTAAATAAGTTTTAATAACTGTTCTTTGATTTGCA TCTAAATGGGTAGTACATAGCAAATCTTTAAAAATCAACTTGCTCCTACCAGATTAATATTCAAACCAACACTACAGTCT ATGATACACTTTCAACCCATGCATCTAATATCTTAAATTTCTTCCCATCCAAGATAATATTTATTCTAGCAAGTTTTTGT TATTTTCCTTAGTGTTATTTTACTTTTTCTTTGCGTGCGCAGGATTCTGAAAGGAAGTGGACAAGTAGTAGATGGTGATA AAGAGATTGTCTACACCCACAGAGACCTTGCAACTTAATTTGGCTGTTGTCTGCTGTATTTTCTTCTGTAACCTCTTGTC ATGGGATTGCAGGGTGGAGTTGTACGATTAAACAGGGGTATTTGTATTAACTGTTGATTTTTTTTCCTAAAGATGTTTCC GGCAATGTCAATTACAGGACTTGTGAGGATTTTGTTATTTAATGCATTTGTTTTTGGAGTGAGCAAATGAATATTATAAC CTTTCCTTTCAGCTTAAACACTTACATTATCTACTTGTCCTCTGCTCATGCTAGGAAAATGCAGGGAATATGAAGTTCCA ATGGAATTCTTGTTTATTGACATCTATGTTTATAATTTAGATTAGTGAGATGATTGTTTCTGAGAGGTATGTTAATGTCA TCATTTTTTCCACTTAAATGATGTGCTAATCGGTAATATGTTCAAGCCTCTTATCAATACAAGTTTGAATTGCCTTGAAT CTAATCGGTAATATGTTCCTAAATTAGTATACGTGATTATATTTTCAATTAAAAGTGCATAAAAATTACTCATTTTGCTC AGGAGTGGGCTGATATACACCATTTTTACCATACTAACAGAAAATCCTTATTTTTAACACTAAAAAGGGAGTTTAAACTC TATCACAAGTGCAAAAAAATATAAAAACCTATAACCTACCCAATTTGAGAATTCTCGTGTTCCTATGTTCCTAGAAAATT AAAAAGAAAAATTGAAAACTACTCTAAAATAAGCTATTTCAAAAGTAACATGCAAAATTCTATTCCATAAGCGATAGAGA TGCATTCATCAAATTGAAGCCAAACCACAAGTTCAACATATAGCCATATACTATCTTGCTACATATAAAAATGCGCACAG CTTATGAATCCCAGCTAAAAGCCGTCTAACAAAGCACCCACGAGAAATGCAGGTGGATAAAATAAAATAACTAAACATTT TCAGCCATAATAATGTGCCTTTAATATGAGCTACTACTGAAACATAATGTTAGGATCTCTGATTATGTTTTTCTTCAAAT GCATACTAAGTGATTTGACAAAAAATCAGCATCTTCCAAGCTGACAGACAGCAGTTGTAAGCACATAACTCTTGAATGAA AGCTCATGCTTGAATGAAGCTCTTGACCTTTTTCAACCACACCAAGTATTCTTTACTGTCCTTGTTGATCATGTACTCAT GCAAGAAATTTGTTGTGCTAGGTTTGATTCCTCTGATTTCTAAATACTTGTGGAAAGACTTCTGCAAACTCTCATCCAGA TCCCTGAAACAGAACAAGTTCAATCAAACAATGCCTAACTAAAACAAAAATAAAGTTGCAAATTCAAGAGGACAATAATA ATGATAATAAGATCCAGAAAGAAGAGAAGAAGGGCATACTGAAAATCCGGTCCCTCATAAGCAATTTGATCCTCAGAAAG CTCAGGATTCTTAACAGACAAGCTGTCAATAACAATCTCATCAGAGTAAGCCATACAGCTAAACTCCAAGAAGGGTCCAC CCTTCTTGGAAACACTCACTGAAAGTGGAAGGCTTGACTGAGATGCTCTCTCACTCTCATCATCACCGCCACCATCAACA CCATTTTCTTCCCCTGTGACAAGATCAGGCATGTCAACCTGAACCTTAATCTCTTCACCTTGGTAAGTCCTTTCCAGTGT TATGGTCTGGTTTCCCGGATTATCAACTATCTTAAAAGGAAAATTTTTCGGAAGATCCTCCTCCTAGCATCAACCAATTG AAATTTCAACATTGCAGAACATAAATTCAAAAAACCAAAAAGCAATTTAACTAATAAGGCCCCGTTTGAGAAAACAACTT AATTAAGCGCTTATTCATAAGCTATTTTAAAAAATTTATTAAAATAAATTGAAAATAAACTATCTATAAGCATATGCTCT TTTTCATAAGCTATCATGAGTAGCTTATGAAAATAAGCTCAAAACAGCGTCATAAGCTGTTTGCATAAGCTCTTCCCAAC AATTGCACAAGCGTTTATGCTATCAGATAAACTCAAATAAGCTCTCTCAAACATGGCCTAAATCCTATTTGGTCAACAAC AAAAAATGGAAAGAAAAAATGAAATTTCAACATTGCAGAACATAAATTCAAAAAACAAAAGAGCAATGTAACCAGGGGCA GATTTACCGCCTGGCTTGCCTGGGCCTTTGCCCAGGCTCTGAGGAAAAAAAAAATTTATTTCTTTGGACCAGGTAAGGTC TTGGGGAAAAAAAGAAGAAGAAAGAAAGGGCAAAATTGTGAAGAGTGTCCTATGTTGATCGATTGTGAGGGAAGAGGATT GTGTTGTGTCGCTGTGGGTGAGGCCTGAGGGAGCGAGGCGGTGGGTCAGGGTGAGTGGGTGAGTGAGTCTGTGAATGAAT TATTAGAGTAGAATAACAGTAGCAGTAGCAGAGGTGAGAGGCCAGAGAGCACAACTCTTGCACCTTGAGATGAGGAGAGT GGCTACTTGTATTTGGGGCTGGTGTGAAGTTTCTTTCACTAGAGATTTCTCCAAATACCCATAGCTTCCGAGCGTTGATT GCACGGTGATCGTCATCTTCTGATTCAGTTCCAATGCCCCCAAACACTTACTTGACTTGGGATTGAAATTGAAATGAGGA GAGAAAGAGAAGAGCATAGAAGGAGAAAGAAAAAACCTCAAACTCTAACACAAGCGTGACCCATCCAAACAAACCATGGC TTATCATGTGACATTTTTCTCAACTTTTTCAAAGCTTCTGAAATTGAATCACTAGTCCCTGAGCCACCTGGCACTCTCAC CACCATAACGTGTCCCCTCCCCTGATTACTTACACCATTAGGACCTTGATTTCAGATAACCATTTTTCCTTTATTTTCTA GCACCTAATAATCAATTTTTTTACAAGAGGAAGTTATATATATAAAGTCTGCTAATATATTTAATATTGATAAAATTAAG GTGATATTAATTTTGAATCTGTTAACTATATATTTGAGTTGAGTGTTCAATTGAGAATGAGACATATTTGTCATTACAAC AAACTATTTACGTTGAAACACCGCAATATCTGTCACCGCAACCACAATGTAAACTAGATGTGGGGTAGTTAGGCGACTTA ATCTTGCCCAGGCTCTCTAAAAGTCCTGGCTCCGCCACTGAATGTAACTAATAAATTATAAATTCTATTTGGTCAACAAA AAAAATTGAAAATAGAAATTTAGCCACTACCATCATTTATTCATCATGAAACTATGAACTGAGGGAAGAGATGCAACTTA CAGCGCTGTGATCGTCGGTTTCCTCAGCGCAGGTGATTTCGGATTCGATGACTCGGAGAAGGGTCTCATCGGAGGTGGGT TTGTTCTTGACAGCCACAGAAGAAAAGTGAAATCTCGGAACCACGGAATCCTGGTGCCGGTGCAGCTGGTTGACGGCGGC GAACAGGGCGGCGCGATGACCCGGTTGGGTTTTCTTGATCAATTGGCCCGCAGCAGCAAAAGACCTCAATAAAGGACTCG ACTTGCGAAGAATCGAGTTGAACGCCATTTCCAGAGAAGAGGTTTGCTAGGGTTTTGTGAGGGTTTTAGGAGGATTGGGG TTTGGGAAACTCTACAAACCCTCACATATATAAATACGGGATTTTTTTACACTTTTATTTATTGTCAAAGTAAACAAAAA GAAAAGTTATTTGGAATTGAACTTTTCTAAAAATATTTGAAAATTTTGATTTATATGCAC
CDS sequence (LotjaGi1g1v0086500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCAGTTGCCAATGATGGTGTTTTTCTGTGTTTCATTTTTCAAGGTTGGAACTGCTGTTGTCACCCGCCAAGATGGAAG ATTGGCAGTTGGAAGATTAGGGACTCTCTGTGAGCAGATTAAGGAACTGAATTCCTTAGGATATGAGGTTATTTTGGTGT CATCTGGTGCTGTTGGTATTGGCCGCCAAAGACTCAGATACAGGAAATTAATCAACAGCAGCTTTACTGAGCTACAGAAT CCGCAATTTGACCTTGATGGCAAGGCTTGTGCTGCTGTTGGACAAAGTAGTCTTATGGCTCTTTATGATACTTTGTTTGG TCAACTCGACGTGACATCTGCTCAGCTTCTAGTGACAGACAATGATTTTAGAGATAAAGATTTCAGAAAGCAACTATCTG AAACTGTGAAATCCTTGTTAGCTCTAAAAGTCATTCCAGTATTCAATGAGAATGATGCCGTCAGTACTAGGAAAGCTCCA TATGAGGATTCTTCTGGAATATTTTGGGATAATGATAGTTTATCTGCTTTATTGGCTCTGGAGTTAAAAGCCGATCTTCT TGTTTTGTTGAGTGATGTTGAAGGTCTTTATAGCGGCCCTCCAAGTGACCCACATTCAAAGCTCATTCGTGCATATATTA AGGAAAGGCATCAGAATGAAATTACTTTTGGCGACAAGTCTAGGGTGGGAAGAGGTGGAATGACAGCCAAAGTAAAAGCT TCTGTTCATGCTGCTGAGGCTGGCATTCCTGTTATTATTACCAGTGGTTTTGAAACTGAAAGCATCATTAACATTCTCCA AGGACAACATATTGGAACCCTCTTCCATAAAGATGCACATGAGTGGACCACATTGAAAGACGTTGATGCACGCGAGATGG CTGTTGCAGCCAGGGAATGTTCCAGACGGCTTCAGGCATTATCTTCAGAAGAGAGGAAACAAATTTTACTAAAAATAGCT GATGCGCTGGAAGCAAATGAAAAAGTGATCAAGAATGAAAATGAAGCTGATATAGCTGCTGCACAGCAAGCAGGATATGA AAAATCTTTGGTGGCTAGGCTAGCTTTAAAACCTGGGAAGGCAAGACATTTCATTTTTAGAATAAATCATCTGAATTTTA ACAAACTGAAAAGTTTTTGA
Protein sequence (LotjaGi1g1v0086500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MQLPMMVFFCVSFFKVGTAVVTRQDGRLAVGRLGTLCEQIKELNSLGYEVILVSSGAVGIGRQRLRYRKLINSSFTELQN PQFDLDGKACAAVGQSSLMALYDTLFGQLDVTSAQLLVTDNDFRDKDFRKQLSETVKSLLALKVIPVFNENDAVSTRKAP YEDSSGIFWDNDSLSALLALELKADLLVLLSDVEGLYSGPPSDPHSKLIRAYIKERHQNEITFGDKSRVGRGGMTAKVKA SVHAAEAGIPVIITSGFETESIINILQGQHIGTLFHKDAHEWTTLKDVDAREMAVAARECSRRLQALSSEERKQILLKIA DALEANEKVIKNENEADIAAAQQAGYEKSLVARLALKPGKARHFIFRINHLNFNKLKSF
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 |
---|---|---|---|---|---|---|
Phobius | 1 | 19 | 19 | - | – | |
SignalP_EUK | 1 | 19 | 19 | - | – | |
Phobius | 1 | 6 | 6 | - | – | |
Phobius | 7 | 14 | 8 | - | – | |
Hamap | 10 | 279 | 270 | 28.674 | ||
Gene3D | 11 | 280 | 270 | 9.0E-83 | ||
PANTHER | 13 | 368 | 356 | 1.6E-204 | – | |
PANTHER | 13 | 368 | 356 | 1.6E-204 | – | |
SUPERFAMILY | 14 | 277 | 264 | 2.88E-54 | ||
TIGRFAM | 14 | 282 | 269 | 7.2E-63 | ||
Phobius | 15 | 19 | 5 | - | – | |
Pfam | 15 | 255 | 241 | 3.5E-35 | ||
Phobius | 20 | 379 | 360 | - | – | |
PRINTS | 47 | 61 | 15 | 3.6E-59 | ||
PRINTS | 91 | 119 | 29 | 3.6E-59 | ||
PRINTS | 131 | 152 | 22 | 3.6E-59 | ||
PRINTS | 170 | 197 | 28 | 3.6E-59 | ||
ProSitePatterns | 227 | 244 | 18 | - | ||
PRINTS | 229 | 249 | 21 | 3.6E-59 | ||
Gene3D | 281 | 376 | 96 | 2.1E-16 | ||
SUPERFAMILY | 289 | 365 | 77 | 3.37E-9 |
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 , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Glutamate 5-kinase activity | Catalysis of the reaction: L-glutamate + ATP = L-glutamyl 5-phosphate + ADP + H(+). | ||
Cellular component | Cytoplasm | All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures. | ||
Biological process | Proline biosynthetic process | The chemical reactions and pathways resulting in the formation of proline (pyrrolidine-2-carboxylic acid), a chiral, cyclic, nonessential alpha-amino acid found in peptide linkage in proteins. | ||
Molecular function | Oxidoreductase activity | Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced. | ||
Biological process | Oxidation-reduction process | A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons. |
Expression pattern of LotjaGi1g1v0086500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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