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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0570800 |
Transcript ID | LotjaGi1g1v0570800.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Guanine nucleotide-binding protein beta subunit-like protein; TAIR: AT4G34460.1 GTP binding protein beta 1; Swiss-Prot: sp|P93397|GBB1_TOBAC Guanine nucleotide-binding protein subunit beta-1; TrEMBL-Plants: tr|I3S0B5|I3S0B5_LOTJA Uncharacterized protein; Found in the gene: LotjaGi1g1v0570800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:110430037..110441676) extracted from Lotus japonicus Gifu genome v1.2.
CCACCACCACGCACTTAGTCAGAACATTTCTTCTTCGTCTTCTTCTTCGCCTTCCTCATTCCCATTCTCAGCACCACAAT TCACATTTCTTCACCGAGCATTCTCATTCATATTTCAAGGAAGTTGCAGAACCAATCGCATGCAATGGAAGATTAACAGA TCATCCAATTTTCTTCATCGGAAGTTGCAGAACCACCACCAGCAGGGGAAAAAACCTAAACCATGTCCGTTACGGAGCTC AAGGAGCGTCACCTCACGGCCGCCGAGACTGTCAACAATCTCCGGGAACGGTTGAAGCAGAAGCGCCTTTCATTGCTCGA TACCGATAGTGAGACTTCAATTCTTCTTTAGATCTCTTCTCTGCTCTTGTTAATTACTCAAACTGAATCCATTTCTCTGT GTTTGCAGTTTCTGGCTACGCGAAATCTCAAGGTAGAGCTCCTGTCACGTTTGGACCAACTGATATCCTTTGCTGTAGAA CGCTGCAAGGTCATACCGGAAAGGTAACCTAATTCAGTTATGGATGAACCTCTCTTTGATTTCTGAATTTTAGTTCTGCT TCCTTTGCACTTCATAGGATTATGGAAATTGCAATATGAAGCATTCGTGTTATGAATTCTGGAATTTTTAAATTTAGGCG CTTTGTGTTGAAGGATTGTGCAAAAAACTACAAATTGAAAATGAAATAGATGAGGAGGGTTAGGGATTCGATAAGGAAAA CTAAGCTCTGCTCTTTTTGTTGTTATTATAAGCAAAGGTGGATTTAGATCTTTGTTGCCAAAAGTGAATTGTTGAACTGG TTATTGTGTCTTAGACTCTTAGTCCACGTGTTTTATCAATGAGTTTCACTGGAACCAAGGGAGAGGAGTGTAGTTAAAGG CAACAAAAGGTACACGGAAAGTGCGAAGGCCAGGTGCCAGAAGCAATACAGCACCGGCACCCGGTGCCGGTTGAGGTGTG AACTGCTCTGGCATTGTAGGAAAACCTTTTTAGTTTTTAGTGCAGATAAGACACATGATACCTTTTTGACAACAGTTAAA AAACCTACAAAGCATAGCTGTCCGACATAGTAACTGCAATACCGAAGGGATTTGGATCCCCTGGTCAAGAGTCATTTACT TCTTTGATCACTCATTTGATAGCTAAGAGAGCTTCTGTGTTTTGGTTGTTTGTGAAATAGGCTCATACACAATTCAATCA TGTTTTCTATTTACTACATAGCAAGCAATATTGACAACTCGTATTAACTTGTGTTCATTTGAATTTTGCAGGTGTATGCG TTAGATTGGACTTCCGAAAAGAATCGAATTGTTAGTGCATCCCAGGACGGACGATTGATAGTGTGGAATGCTCTGACAAG CCAGAAAACTCATGCCATAAAGCTTCCGTGTGCATGGGTCATGACCTGTGCTTTCTCGCCAACTGGTCAATCTGTTGCAT GTGGTGGTCTTGACAGTGTTTGTTCTATATTCAATCTTAATTCCTCCACTGACAGGGATGGGAATCTAAATGTTTCGCGG ATGCTTAGTGGACATAAAGGTTATGTTTCCTCTTGTCAGTATGTTCCGGATGAAGATACTCACCTAATTACTGGTTCTGG TGATCAAACATGTGTTTTATGGGATATTACTACTGGCCTTAGAACATCTGTTTTTGGCGGTGAATTTCAGTCTGGACATA CTGCAGATGTACTTAGGTATGCAAGTAGATTATTTTTATTTTTATTTTTATTTTTAATTTGAGCCAGTATTTTTTGTTTT TCATTTCTTAAACAGCTCATTTGAAATTTAGAGCAATTGTATAAATGCTAATCAAACAATTTTCTACAATCTGAACACAC AATGATAAGAATATGAAATCTCACTGGTGGTAAACATGCTGGTTAAATTTAAATCCATAGCATCTTCCTATTAGGTTCCT TTCATGTAGAACCCCCTCCCCCATATTCTTTAACATGATGTGCAGTTTCTAAGAAGTTTTTTTTTCTTTACTCGCTCTCA GCATTTCCATCAATGGATCCAACTCTAGAATGTTTGTATCTGGTTCTTGCGATGGAACTGCAAGATTGTGGGACACTCGT GTGGCAAGTCGAGCAGTGCAGACATTTCATGGACATGAGGGTGATGTCAATACTGTCAAATTCTTTCCTGATGGAAATAG ATTTGGAACTGGCTCAGATGATGGCACTTGCAGATTGTTTGACATTAGGACTGGGCACCAACTTCAAGTATATTATCAGC AACACAGTGACAATGAAATCCCACATGTAACCTCCATGGCATTCTCCATATCCGGAAGACTTCTTTTTGCTGGATACACA AACGGCGCGTGCTATGTTTGGGACACTTTATTGGCAAAGGTAATAGGTTCTTCAGTGTAATGTAAAACGAAGTAGGGTGT TTTATTTCTGCTCATAGCCTTGCAACACAGTTAAATCCAGTTGAGCTTTTTAACAAAATATATGTTGCTTTATAGTTGTT TATCTTCAGTGTGAAATTGTAGTAGATTTGCCACGCTATTGCCTTCTTGAATTGGTCGTTGTTTTTATTTTGTAACTCAA TTAGGGCTAATTATTATGTTTGTCAGCATATTGGATATTCTGGTTTTGAGAGGTTTGTGTTATGTCTCAAGTCATTGCCT AACACTTGGGCTTGCTTTGTGTGATGGTAGAAGGAGTTAAGATGAATCTTTTGAAGTGATTGTTTGAGAATTTTTCTTAT TTTGGATAAAAGGCAAGAGAAGGGATGATGAAAAAGTGTGGGAGTTCCAACTTTGACTATATGATTTGTGTAGACCGACA ATATATTTTTCATGACCCAACTATCCCAAAAGTTGGAGCTTATGGGGCTTGAAGCGTGAACAATGCACAAGTGAACTAAC TACCTTGTGCGGAAATTCAACTTTTTATTACAATAATCGGGAGCAGTAGGGATTGATCTCTAGACCACTTGGTTATAGAG GCTCAAATACCATGTCATGAACCAACTATCCCAAAAGCTTAAGTTGTTGGGTAAATGATATTATATTTCTAACATATATA AAGTCTAATGCTTGGCAAACTGGGCATTTTTTTTCTTTTAGAAAGAAAACTGATAGAAATAACAAAATCCAATCCCATCT TGTAACATCTGGTCATATCTTAATCTTTTTAGGCATTGGTTTCTCCCACGACTGCTTACTTGTATTGCTCGTGTGCTTGT GTCGTTGCAGCTTCTTGTAAGGCTGAATGATTTCTTCATTTTATTGTAGGTGGTCTTGAATCTAGGATCACTTCAAAACT CTCATGATGGAAGGATCAGCTGTTTAGGTTTGTCAGCTGATGGAAGTGCCTTATGTACAGGAAGTTGGGACACAAATTTA AAGGTGAGCGTGCATTTTGGTCTGATTCTGAAATTTATGGGTTATGTGTGACACATAGGAGCAATACCAAATTTTGTAAG TTAGCCTCTATGTTGGTTGAAAATTTCATATTTTTTTCAAATCAGTATATTATAGGATTGAACAAAAAAAGGTGGTTTAT ATTTGTCTGGTTAGTTTCTTTTTCTCTAATGTTAAAACTTAAAAGTAATCATGATTTAAGCCAAAATGTACGTTATATTG ATCGATTACATGTGAGCTTATACAGATTTAACATGTGCCCACTTACGCTCTAGAACATAATTTCTTTACGATTGTTCAGG ACATTACTTACATAAAAGAAAATTCTGGACATAATATTGGGATTTATTCTTAGGCAGTGTTAAGTTCTTTGGTGAGCAAG ATCATGTTCTGGTGTTGGAATCACAGTTTTCATCATCTCCCATGCTTACTATTTTAACCACTAAGAACTTGTTGTCCTGG GATATTCTTGCACTAGCATTAGTAAACCATTGCATATTTATATCAACTGTATTTAGGAATTCTAATGTATGTGGATGTCA CGGGTCAAACTCAATCGGATATGGTGTTTCTCTGAGTGCTATCTATCTCTTGGAAAAGTTTAGGTGTTAGCTTGACATGG TTATTTGCTTCTTGCAGATTTGGGCATTTGGAGGGCATAGGAAGGTGATTTGATGGAGCCCGTTAAAGGGCAAAGAGTCG TACTTTGACCTCCTTTATGAGGACCACTCCTTGTACGGTATTGTGGCTCATCACAGTCCAGTGCTGATGTTTGTGAATTG TGATTGTAAATTTGGAGGAAAATTGGAAGGCAATGAAGTTAGCGATGGAACCAGTGCAGCAGTTTGCTAATCCCGTTTTC ATTGGTTCTTGTGTGTTGTGATCTAGTAGTATTGTACTGGTGGCTTCTATACCTAAGCCTGAAAAGTTAAAACCAAAAAG GACTGTTTGCTTTCCCATCTCAATTAACAACTAGTTGAAGATGAGGAACGGTAGACTACAGTGACGGACAAATGGAGTTT AATTGAAAATGAGTTAGCTGTTATTACTTGAAATGCGTAGTGGAAAAGCTAACGTCCACAACTATATAAACAAAACGTGA ATAAAATGATCGATTTTGCGTTAAGTATTTATACATGAGAAACTACCAAGACAGGAGGGTCTTTTTATTTGGTAGTTTTC CTAGGGTTTACAGTAGAATATTTTAAAGGATCATAAACTTCATGTTTCTCACATTTGACTATAATAACGAGTGTTTTAGA TTTACAGGGGTGCATTGTTGTGAATTTGTGAGGAGAAAATCAATGTGCGTTGAACTCGGTTTTTCTCTCCTCTTTACCTC CCATTGTATTTCTTCATTGATGGTGATAGTTGTATGTTGTGTTTTCTCGTTAATGTTAAAACGTATATCAGATGGTTTTA TTCGTTTAGTAACCAATCTTTTAAAATCAAGTGAGGAAACTTCCAAGTCTTTCTCATCAGCTATAGTTTGCTTTTAAGGT TAATGATCATCTGAGCTCATTTTTAACAGAGTCAATCTAGCGCATTATGTGCTACTATAGATGGTGAATATCACCAATCT TATGGAGTTATTTAAAATATTAGATTATGCCATTAAAATTGAGATACCAGTACAAGAATCTTGTTTTTGCCTATATCTCG AGTTCTATAACGAAGTCTTTTGTTGTGATCAAGATCCTTTCTAGTTGGTCTAAAAAGACGACCATCACATAAATTTGATT AAGGTCTAAATCATAATGAGCGACAAAACTTGAAAAAGTGAATTTAACACTAGAGATTAGTGCAACATATAGTAACAAGT CTAGCCTTGTACTTTTAGATGTTTGGCATTTTAAATCCTGTTTGGTCTTTGAATCTTCAAGCTTATCACACTTTATGCAG ACTTACAAGCTAAAGAGAGTCCTCATCATGATACAGAAAAGCATAAATTTCAAAAAGCCTAAGTGATTTGTTTTTCATAT ACTAAACAATGGCTGTTCAACAAATATCCTATCTCGAGGACACAAACATTGATCAAGGTAAATCCTCAAAATTCATAATG CATTCACTACTAGGAAAAATGAAGTATAATCATGAGGAAGTGTACTCCAACAGGCCCGAGATAACACTTCCACTATCTTT GCCAGCCTAACAAGAATGCAGCGAGTGAGGGACAAACAAATGCGTACTAAGCCCAAGCGTACAGATCTTGTAATTCTTCA CACATGTCTATCTTTGTGCCTGCTTAACTCCAATCTCATAAACAAAATTAGGGTCGAATTCAGTCAACATTTTTTGACTT CATGGATCACCCGCTTGCCACTATCTCATGAATGGCATCGCTGACAGTTTCATCCTCGGATCTGACAGTCAGTTTCATTG CAACATCTTTTGGACCATCAAGTCCAAAAGACAACCGCACAAGCACCTTTACATTCCCTATGAATACACCTGACAATAGA CATGTGTGTGATCTTGAATTGGGTGGAACAACCTCTGTACCCTGCAGATCAAACAAATAAAAATTTGTGAGAAAGATATC ACCTTCAAACCAATAAGAGACACCGTACTCTTTTCATCTGAGAATTTCTTATGTGATCATGGAGAGAAATATCTTACTCC ATGGCGAGTGTACAAACCACGTGTTCAGACCATGTGGAATCTCTTATAAAATGTTTTGAATAAAATGTTTTACATGCATG GATAGACAGCTTGTGGTTAGAGTTTGGCAGCAACATTATTACTCTTACATGTTGGCCAATATTTTGCTTCTACATTTGAA ATATCAAACTCATACACTGAGCTTGATCTTTGTAAGCCATCGAGTAAAAAGTCTTTGGTTACAAAAGCGCCTAAGAATGT CTTTCAAGGATTTGGCACCTCTAAAGTGAGTCATTATGACTGTTGGTTGAGAAATCAATCATTGAAATTATGATCTATAC ATGCACATGTATAAAAATTTATGGTGCTCATTAATTTGCTATTGATTTTTGTATCAATGGTTGTGATGACTTATTTAAGT GAGTCCCTTGAGGAGCTAAATCCCTCTTTCAATTTAGGTTCTTTGTGCACATGCACAGACAAACATGCTGCCAAAATAGA TATGAGCATGCATGGGCTTCTTTGTACTAGAGTTTGGCAATGACAGTTAGGTCCTAGAACTAAGCCCATTTAAATGTATT TAGTAGTCAGTTAGGGCGTCCCAAACACCATTTTCTAATTAGTTTCCTTTTCTGCCCCAGGTCCTCAGACCACCCATGAG CATCCAACAAGCAGAAGGTCAGAACAATCAAACTATAGTAAAACTAGTAAAAATCGTATCATCACCTTGCCTTGCTCACA ATCAATTTAATAAAATAAAAGTAGGTCAGTAGTGAGGGCATTGTGTGCTACTACAATGGTTAAATAGTTAACAAAGCAGC AAGTAACATCATTGATCATTGGCTTACCTCACAGGGCTGCAAACCAAGAAGGTTGGTCACAGTATTTACAGCCTCAGCCA AGCTCTCCCTAGGACCAAGACCATACTCATCCACACGCTCACAATCAGGGCCCATGCTCTCCCATGCATTCCTGAAGTTG GATACCCCCAATTTCAACACGTAATCTGCTGAAACAACTTCCAGATCCTCCAGCTGGTATTCATCTTCAACACCATCATC TTCAGTCTCACCAGTGGTTGGGTCAACCTGAAAAAGATCCAATTTGTGCTTTTAGATTTTCTAAAAATATTATAGGCCGT TTTCCACAAATTCCCTAATAGAAGGAAATGAAAACAAGTATTATATGCTTGAAATGTACACATAATCATGATACATATTG TGTCTGGATCAAATAATATAAAACAATAAAGCTTCATAAAAGTAAAGGGAAACAAGCACCTCTTTAACAAAAAATTTCAG TGTGTTAGAAAATTTTCCAACTGTTGGCACTCCCTCAGGCTTCTCAAATGCCACAAAAGTCTGTCCAGGTGAATCGTAAG GAAGAGACCTGAGAGGCTTGGAGAACACCTCTGAGAATTCCTCAGCATCTGAGGAATCCACAATTACAATAACCTGTAAT AGGGGGAAATAATTACAAACAAGACCTGAAATTTGATTGCTTTATGAAATTTCAACTTATATTTGTTATTACATCTTCCA ATAACTGTTCCGGTATTGTGTTTGTGCAGTTGTACTGGAACACAACATGCCTATCAAAAATATGTTTGACAACATTAACT GCATATTCTGTCTCAGCTTCAGTGAGCTCCACGGGTGGCGAGGACTGGAAAGAAATATTAAAATACATACATTGTATTAG ACCAAGAAAGAAAAACAAAATGTAGAATTGTGAAAGAATAATCAAAGTGAAGCGTGAGAACCTTAAAAAGCTTCCCAAAG TTTGCAAACTCCGGAATGGACGAAAGCATCCTCTCATATGCATCTGTAGTTGACGGGGGGGCACTTGGAGGAGCACCCAA ACCAGTTGGCTTTTTACCAGGGGCTTTCTTCTCTGCAAGTGGTTGAGACTTGACCTCCTTCGGCACAGAGTTAATGTTAA AAGCCTCTTCTGAAGGCTCCTGCATTCATATAAAACACATGAGGTGATGTACTAATGGAGTGCAAGAATATACCATGGAC TTACATAATTTTTCAAACTAGACTCCAGGTTGACAAGTGGGATATCAAATGGCCCAAACAGGAAGTCATTTACATCTTTA TCAGTCTCAACAACAGAACCATCATCTCCAAGTGTGTTCAGATAAAGGGTTGCCCTATCGCGAACCTGCAAAGAAATAAA AATACCAGATATAAATATCACAAACCATATACTTCTAGAAATGCCTCACAAAACAAGACAGAAATTCACCTCATCATCAC TGTCAAAGAGACATCGCCTAAGCAGAACAAATATGCGAGGCTGAAAGAGAAAGAGTAAGGTAGGAGATTTTAAATTAAGT TAACACCAAATATAATATAAAATTTTAGCAAACCATACAAATAAAATAATAAACAAAAGACAAGTAACACCTTTATTTCA TCAACTGCAGCACCGAACCTTGCCAGTGTGCTCACAGCACTGGCCCTCACAGTTGCATTCTCGAGATGTACTCTATTATA AATGAAACGAATGTATTTGCTGGGATCCGATGTTTTTGGCCCTTCAATTCCCAGGAAGTGAAGTATCTTCGGTACAAGGA GGCCAAAATTGTTAACAACAACAAACACAATTCCAGGAAAAGAATGCGCAAACTGTGAATAATAAAAGACAAACCAAAAT ACCTGTGTGGACAAATAAGTGAATTCACAATCCTCAATGAACTCACAGAGATGAAGCAGTCCAGTTTCTTTTGCATCAGG GATATCCCTAATGAGAATCACAATTGAATCTACAATTGCCTTTTTGTAATCAAAACCACCTTCTTCCCTAAGGATGTTAC TCAGGAAGTTCATCCTGAGAATAATAGCAGGATACAAACCAATAATTTAGGCCAATCATCTAGGGAAAAATATAGGAAAC TATTTGGGGAGAGGAAAACTATAGTATGGCAGACATACAGAGATCGATATTTTAATGGGAATTTCAGGCACAGTGATCTT ATTGCTTCAACAACAACAATTTTGAACTCATCAGCAATATCAGACATAAAATTTGTAATCTGCTTCATAAGACGATCCAC ACTTGATTCATTTCCGGTCTTCAAAAGTGTAGTAATAGCAAGTGTGGCAATGCTTCTGTTCTGGTCAGATATTAAGCTTT CCATATCAATGTTGCAGTTAGTGACTGACATTGGATGTGTCATTGCCACCTGCAAAATTTCAAAGCCATGCAAAACAATT AAAAAAAAAAGCTCAAGTTTGAACAACACAAGCCCTATGAGAATATTTAGGAACATTGAAAATCTTGATTTTTATCAAAT CTCTCAAATATAGAATGGAAAAAACAAAATGGCCATCCCTTGGGGAGGGAGGCTTGAGAGTTGGGAGACATGTCATAGAT ATCCTTTTCAAATTTTATGAATGCATAAGAAATTACTTCTGCTAAAATTTGAGTAATTAAAGGTTTACCTTGTTCAAGGT GCGGACAGCAGCAAATCTCAAGACTGGCTTAGAAGAACTTAAGAATAGCTGAAGAACAGTAATTGCGGGAGCTAATTCTC GGCTTGTTACACCATTGAGCTCCGTAATTGCCCTCGCAGATTCAAAAATCACCATCTCTGACTTGTGACGAAGGCAACTC TCAAGAAAATCATAGAAGGGGCGGTCTCCTGTCTGTGTATTATTACCTGACTCACGAATAACCTACAAATATAATGAAAG ATAAAGCTTCAGCAACTAAATATCGTTCCATAACAAAGATCGCAGGAAAGAAAAACACACCTGACTTGTGTAACGGATCA AAAGGCACTGTGCTATAGGTGAGCGAACAGTCCCCCTTGTCAAGCTAGTAACCAGCTTGCTAACAGCTAGACGATCATTC TGCCGTATCTGCAATGTTTTAAATCACCAAGTACAACAAATTCGTCTTTAGAATTTATATTTGTCTACTGTGAGATAAGG GAAAAAGGCTTCTGAGAAGGCAAAATCAAACGATGAGAAGAGAAATTTATAGCAGGGCTTTAAGGAAATGCAAATTATTC AATAGAAATTGTTCATATTGGTTCAGCTCAATCTGTAATTTTACAAGATAATTACATTAGATATGTGAAGAGTCTGACTT TTCCAAAATTTACAGCAATAACATTTAATGCAGTCAATAAAATACAAACTATGCCAACTTCAACAACAATACAGATATCA ACTCTCTGTAACTTGAAAACTTTTCACTGTAAATAAGAAGCAACCACTTGTAAATTGCAGTTGAAATTGAGGTAAGAGTA AAATTATGGGCATGCTAAAAAATGTAGCTGTAAAAGACAGCATGTAGATGAAATAGAAACCAAACAAACAAAGACCACTT CTACAGGTGAATTTGAGCAACTTTTGCTTTCTTTTGGTTCAGTCAAATTCAGCATGAATAAACGCATATAAGAGTCAAGC ATCACTGAAAGAAATGCATTTCATTAAGGGAAGATGAAGTACGAAAGAATGAAGACTAGCTCATGAGGAACATTCATCAT TCATGATAATTAGCATTGTTAAGCCAAGAAGTATAACAATCATTTAAGAAACTGCACTTGCAACATAAAGTGAACCCTGA ATCACTAAATGATCTTAAAGGATGACAAAGTAACCAAACCACATTTGCAGCATACCTGATGTAGCAAAGCCAGTGCATGA AACTGGACAAGAGCTGCTCTTGATTGGACAGCTTCCTGAACCTCATTGCTCCACCTTTTCACAATTTCAGGATTTGTCTG TAAAGGGAGGCGCAAAATAATCAAGAAACATACATGGAATGTGCAAATATAGAATTACAAAATAGAAATTATTATTACAT GGAGTAGATGAATGCCACTGATTAAAGCCGCACTTGCAACAACCGGATTCTTATCTACAATTGCTTGCTTCAAATACCGC TCAATTTGGGCAAGGAGTGTTCCATCCGTAATACGACAAAGTACTCGAATGGCATTTGCCCTGTACATATCAATCTTGCT ATTCATGTCCTTCATGAGAGAGCTTGTGACGATAATAACCTGTTAGAAGATTAAAGAAATAGAACAGTCATAATCTAAGT TCGTAATACACACAGCACAGACCGTACATATGAATCTAACATATAACCTCATCTGCAGAGGGGGAGATCTCCTTTATCAT CAGGTAGACCATTCTCCTCAATCCCATATCTTTAGACTGGAAAAGCTTAGTCACAGCAAAGAAAACTTCTGTAGCCTCGA CCTAGCAAAAATAATAAAATCAAAAGGATTCATATCGCACCAACATGATTCCACAAGGTCAATCCAGAAATAAGCATGGT AATGGATATCTCTCAAATCTCAATACCTTTGTAAATGTCTCTCCCTGATTCAGGAGGTATAGCAGCTTTGTAATAACCTA GAAATAAGATGAAAAAACATACACAGCATCAAAATTCAACTGCGAAAAATCTACGGAAACAAGATTTAAACATGCGAATG GTTTAGTTGAAGATGAAAAACCTGCGAACATCTCCTAGCATCTAGTTGCGGGTCATTGAAAACCCTTGCCTCCTGAAGAA CAGCCCCCTTTTCAATTCCCAGGAAGGGGGAATACTCGACTGTTCAACAACCAAAATCACAATTAGCATCACATTCACAA TTCGTTTCGTTAATCAATTCGATATAACAAGCAGAACTCG
CDS sequence (LotjaGi1g1v0570800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCCGTTACGGAGCTCAAGGAGCGTCACCTCACGGCCGCCGAGACTGTCAACAATCTCCGGGAACGGTTGAAGCAGAA GCGCCTTTCATTGCTCGATACCGATATTTCTGGCTACGCGAAATCTCAAGGTAGAGCTCCTGTCACGTTTGGACCAACTG ATATCCTTTGCTGTAGAACGCTGCAAGGTCATACCGGAAAGGTGTATGCGTTAGATTGGACTTCCGAAAAGAATCGAATT GTTAGTGCATCCCAGGACGGACGATTGATAGTGTGGAATGCTCTGACAAGCCAGAAAACTCATGCCATAAAGCTTCCGTG TGCATGGGTCATGACCTGTGCTTTCTCGCCAACTGGTCAATCTGTTGCATGTGGTGGTCTTGACAGTGTTTGTTCTATAT TCAATCTTAATTCCTCCACTGACAGGGATGGGAATCTAAATGTTTCGCGGATGCTTAGTGGACATAAAGGTTATGTTTCC TCTTGTCAGTATGTTCCGGATGAAGATACTCACCTAATTACTGGTTCTGGTGATCAAACATGTGTTTTATGGGATATTAC TACTGGCCTTAGAACATCTGTTTTTGGCGGTGAATTTCAGTCTGGACATACTGCAGATGTACTTAGCATTTCCATCAATG GATCCAACTCTAGAATGTTTGTATCTGGTTCTTGCGATGGAACTGCAAGATTGTGGGACACTCGTGTGGCAAGTCGAGCA GTGCAGACATTTCATGGACATGAGGGTGATGTCAATACTGTCAAATTCTTTCCTGATGGAAATAGATTTGGAACTGGCTC AGATGATGGCACTTGCAGATTGTTTGACATTAGGACTGGGCACCAACTTCAAGTATATTATCAGCAACACAGTGACAATG AAATCCCACATGTAACCTCCATGGCATTCTCCATATCCGGAAGACTTCTTTTTGCTGGATACACAAACGGCGCGTGCTAT GTTTGGGACACTTTATTGGCAAAGGTGGTCTTGAATCTAGGATCACTTCAAAACTCTCATGATGGAAGGATCAGCTGTTT AGGTTTGTCAGCTGATGGAAGTGCCTTATGTACAGGAAGTTGGGACACAAATTTAAAGATTTGGGCATTTGGAGGGCATA GGAAGGTGATTTGA
Protein sequence (LotjaGi1g1v0570800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSVTELKERHLTAAETVNNLRERLKQKRLSLLDTDISGYAKSQGRAPVTFGPTDILCCRTLQGHTGKVYALDWTSEKNRI VSASQDGRLIVWNALTSQKTHAIKLPCAWVMTCAFSPTGQSVACGGLDSVCSIFNLNSSTDRDGNLNVSRMLSGHKGYVS SCQYVPDEDTHLITGSGDQTCVLWDITTGLRTSVFGGEFQSGHTADVLSISINGSNSRMFVSGSCDGTARLWDTRVASRA VQTFHGHEGDVNTVKFFPDGNRFGTGSDDGTCRLFDIRTGHQLQVYYQQHSDNEIPHVTSMAFSISGRLLFAGYTNGACY VWDTLLAKVVLNLGSLQNSHDGRISCLGLSADGSALCTGSWDTNLKIWAFGGHRKVI
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 |
---|---|---|---|---|---|---|
PIRSF | 1 | 371 | 371 | 1.1E-139 | – | |
PANTHER | 2 | 370 | 369 | 4.0E-164 | – | |
PANTHER | 2 | 370 | 369 | 4.0E-164 | ||
Coils | 3 | 23 | 21 | - | – | |
Gene3D | 10 | 369 | 360 | 1.2E-102 | ||
SUPERFAMILY | 54 | 368 | 315 | 2.98E-71 | ||
SMART | 54 | 93 | 40 | 1.3E-8 | ||
Pfam | 57 | 93 | 37 | 1.0E-4 | ||
CDD | 57 | 369 | 313 | 9.37432E-78 | – | |
ProSiteProfiles | 61 | 377 | 317 | 49.065 | ||
PRINTS | 61 | 77 | 17 | 5.7E-28 | ||
ProSiteProfiles | 61 | 102 | 42 | 14.385 | ||
PRINTS | 80 | 94 | 15 | 1.3E-7 | ||
ProSitePatterns | 80 | 94 | 15 | - | ||
PRINTS | 80 | 94 | 15 | 5.7E-28 | ||
SMART | 96 | 135 | 40 | 0.0028 | ||
PRINTS | 99 | 114 | 16 | 5.7E-28 | ||
PRINTS | 117 | 134 | 18 | 5.7E-28 | ||
SMART | 145 | 185 | 41 | 7.0E-8 | ||
Pfam | 149 | 185 | 37 | 3.0E-4 | ||
ProSiteProfiles | 152 | 194 | 43 | 12.647 | ||
PRINTS | 172 | 186 | 15 | 1.3E-7 | ||
ProSitePatterns | 172 | 186 | 15 | - | ||
SMART | 192 | 233 | 42 | 6.1E-7 | ||
ProSiteProfiles | 200 | 242 | 43 | 12.48 | ||
Pfam | 201 | 233 | 33 | 0.0014 | ||
PRINTS | 220 | 234 | 15 | 1.3E-7 | ||
SMART | 237 | 276 | 40 | 5.4E-10 | ||
Pfam | 241 | 276 | 36 | 7.5E-7 | ||
ProSiteProfiles | 244 | 285 | 42 | 13.917 | ||
SMART | 279 | 323 | 45 | 0.012 | ||
Pfam | 287 | 323 | 37 | 0.0051 | ||
ProSitePatterns | 310 | 324 | 15 | - | ||
SMART | 329 | 369 | 41 | 0.02 | ||
ProSiteProfiles | 337 | 368 | 32 | 11.043 | ||
Pfam | 339 | 368 | 30 | 0.004 |
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 | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Biological process | Signal transduction | The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell. |
Expression pattern of LotjaGi1g1v0570800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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