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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0057500 |
Transcript ID | LotjaGi3g1v0057500.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Disease resistance protein (TIR-NBS-LRR class), putative; TAIR: AT5G17680.2 disease resistance protein (TIR-NBS-LRR class); Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|A0A0S3R8N0|A0A0S3R8N0_PHAAN Uncharacterized protein; Found in the gene: LotjaGi3g1v0057500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:5968145..5975816) extracted from Lotus japonicus Gifu genome v1.2.
TACATTAATCAATTCAAATCCCAATATAATGCACTACTTGATCATAATTCTCAATTATCATTATCATATTCATACAGTTT ATAAATCAAAACCACCAACTCCAATCAACCCTCTCCTTCAAGATGCTCGCATACGACGTGTTTCTAAGCTTCAGAGGCGA AACCGGAACACGCTACTCCTTCACAGACCACCTCTACCATACACTGCTCCGCCATGGAATCAACGCATTCAGAGACTCTG AGAATCTCAGAACCGGGGAAGAAATCAGACCTGCACTTCTCGAAGCCATCGAAAACTCAACAATCGCAATGGTGGTGCTG TGTCAGAACTATGCATGTTCTGCATGGTGCCTTGATGAACTGGTGAAGATCATGGAGTGTTATGAGAAGAGAGGGAAACA GGTGGTGGCGGTTTTCTACAAGGTGGAACCATCTGATGTGAGGTATCAGAAAAACGGTTACGCGGCGGCCATGGCTAAAC ATGAAAGGAGATATGGAATGGAGTCGGAGAAGGTGAGAGCATGGAGGTCAGCTTTGTTTAGAGTCTGTGACTTGAGTGGT GAACACTGCAGGGATGATATGTAAGTTCTAAAATGTCTAATTATTATTTACTAGTTATTTTTCCCTATCACTAAATAAAA TTTGTAGTAAAATTTATTTTTTTTTAGTAAAAACGAATGATAAAGATTTTAGATTTTAATATAGAACTGACATTAAAAAA AATCAAGAACTTTAAGTAATTGATTTATGTTCGGAAATATTTATGTTAAACTTAAAATTAATTTTGTGTAAGCATATCAA AATGAGTCTACCAAATTTACTCACCACGAGTTGGAAAAATAGTGAGTTAGGTCAAGCTAGATCACTTCTTGTTGAGTCTA TGAAATCATAACTCGGTTCAACCCATCATGGGCTAATGAGTTAGGTGAGCTTACTCATTTTTATTTTAGAAAAACAATTA GCAAAAAACCATAAAAAGTACTATAATTCAGAAGAAAAATGAGTGGAAAAAATTAAAATTTTAATGCATCACTATGTGCA AAAAGTCATGTCTCATTAATAAAAAAATTGTCTATGAGGCTCTATTACAAAAAAAAAAACGAGTGGGGCTTACAAGCTAG CTCAACTTACCTAAGTTTCAACTCGTTTAACCCATTGAGTTAAGTGAACTGAGCAAAAAAAAAATTCATCTAAATATGAG CCTAACCCAATAAAAAATGGTTGAGCCGACCTGGTTCACAAGTCGGAGCACATTTTGACAGAACTAGTTTTTTGTGTGTT AGTTTGTAGTGTTGGTAAAAACTAAAAAGTATGTTTAAACGTGAAATCATTTAGATGAATATGCAATTTTTAATAAGTAA ATTATATTTCTTGATTTGTTTTTTTTTTGTCTACATAATATATATATTCAATGGGATATTCTTTCACAAAAGCTAGATTT TGTCTATGAGCCCTGTTATAAAATAAATACACTAAATAGAATAGTATTCTGATCCTACAGGTATGAGTCTGAGCTTATTG AGAAGATTGTGAAAGACACCTCTGCTAAGTTACCTCCTGTGCCTTTTCAGACCAAAAATCTAGTAGGACTTGATTCTCGC CTTGAACAAGTGAAATCTCTTATTGATTCTAATGATGATGTTTGCATGTTGGGGATTTATGGAGTTGGTGGAATTGGAAA AACCACATTTGCCATTGATCTGTATAACAAGATCAGACATTGGTTTGAAGCTGCAAGTTTTATAGCCAATGTTAGAGAAA AATCAAATGAAAGCATTAATGGCCTGGAAGTTCTACAAAGGACACTTTTATCTGAGATGGGTGAGGAGACACAAACCATG ATGGGTAGCACATTTAGAGGAAGCTCTGAAATAAAACGCAGGCTTGGCCATAAAAGAGTTCTTTTGGTTCTGGATGATGT TGATACTGTAAAACAATTGGAATCACTGGCTGGAGGATGTGATTGGTTTGGTCCTGGTAGCAGGGTCATTATAACAACAA GAGATGCAGATATTCTGCATAAGCATGATATTGAAATTAGAAAATATAAGATGGAAGAGCTAAATTATCATGAATCTCTT GAACTCTTATGTTGGTATGCCTTTAATATGAGCAAACCTGCACAAAACTATGCAAATGTGTCTTCTCATGCAGTAAGTTA TGCAAAGGGTATTCCATTGGCTTTAAGAGTGATAGGCTCCAATTTGAAGGGTAGGAGTGTAGAGGAATGGGAGATTGAAT TGCAGAAGTATAGGAAGGTTCCAGATGCTGAGATTCAAGGAGTATTGGAAATAAGCTATAATAGCCTCTCTGACTTGGAC AAGAAAATTTTCCTGGACATTGCTTGTTTCTTCAAAGGGGAAAGATGGGATTATGTTAAAAAGATACTAGATGCATGTGA TTTCTACCCAATTATACGAGTCTTTGTTAGTAAATGTCTAATAGCTGTTGATGAAAATGGCTGCTTGGGAATGCATGATC TAATACAGGACATGGGTAGAGAGATTGTTCGGAAGGAATCACCGTCAAACCCTGGTGAAAGAAGCAGATTATGGTCTCAT AAAGAAGTTCTTGAAGTCCTTAAAGAAAACTCAGTGAGTATCTTTACTTTTTGTAACTAATCTTTTGTATGTTTTTTATA CTTGTGAAAATTTATTAGTGTTCCTAGAATTTGAGTTAGTTCTAAATCAACTCAAAAACTAGCTAGAGATAAGGCTTGTT CTACCATTTATAATGACTTATTTAACCATCTTTCTAGAAATTTGATACCTTAAAAAGTGTTAACTCGCTGCATTACCATT AATTTCTACAGGGAAGTTCTAAAATTGAAGGAATAATGCTTCATCCCCCAAACCAAGAAAAAGTTCATGATTGGACTTAT ACTGCCTTCGACAAGATGAAGAACCTCAGAATTCTAATAGTTCGGAATACAATATTTTTATCTGGACCTAGTTATCTGCC GAATAGTTTGCGGCTACTCGATTGGAAGGGGTACCCATCAAAGTCTTTTCCGCCAAACTTTTATCCCCGCAGAATTGTCG ACTTCAAGTTACCTCATAGTTCTCTCATATTGAAAAAGCCATTTCAGGTACAAAAATTTGCTCTACCTCTTTCATATTTA AACATGTGACTAACTAGCATGATTTATAACTTAATTGACTACGCTTTAATCATTTTAATTATATTCTGTTTTGTAGATAT TTGAGGACTTAACATTAATCAATCTCTCCCTGTGTCAATCCATCACTCAAATTCCTAACCTTTCTGGAGCTAAACAGTTA AGGGTGTTGACAGTTGATAAATGCCAAAAACTGGTCAGGTTTGATAAATCCATTGGATTTTTGCCTAACCTTGTGTATTT AAGTGCTTCAGGGTGCACTGAGCTCAAAAGTTTTGTGCCAAGAATGTATTTGCCCTCTCTCGAAGTTCTTTCATTTAGCT TCTGCAAGAAACTTGCACACTTCCCACAAGTAATGCAAAAGATGGATAAGCCATTAAAGATTCACATGGTAAATACTGCC ATTAAGGAGTTTCCAAATTCTATTGGCAACCTTATTGGGCTAGAGTATATAGACATTTCAGCTTGCAAATGGCTCAAATA TCTATCAAGTAGCTTCTTCTTTCTTCCTAAACTTGCCACATTAAAAGTTGATGAGTGCTCTCAACTTGGAGAATCATTTA AAAGGTTCACAAGACACTCAGTAGCAAATGGCTGTCCAAATTTAATGATGCTTCATTTAAGCAAGGCTAATCTATCATAT GAAGATCTTATTGCCATTCTTGGAAATTTTCCAAAACTGGAAGACTTGAATGTATCGCACAATGAATTTGTCACCCTCCC TCAATGCATCAATGGATCTTTGCATTTGAAACGTCTTGATGTGAGTTTCTGTAGGAATCTTATTGATATGCCAGAACTTC CTACTAGTATTCAGAAAGTAGATGCAAGACACTGTGGATCCTTAAGTTTAGAGGCATCAAGCATGCTATGGTCTAAGGTT TTACTACTTTCTCCTTTTTTTTATAACACATTCTCCATTATTAAAACAATGCAATATACATCAATCTGTAATAACATGCT GATGCAAACACACTAATATCTTTTAGTGTCACAGGTTTCCGCAGGGACCCGAAGAATACAAATTGTGATGCCAATGCTGA AAAGGGACATTCCAGAATGGTTTGACTGCATTTCCACTCAAGAGTCTCCGCTTTTATGGGCTCGCAAGAAGTTTCCCATT GCTGCTTTAGCATTAGTTTTCCAGGAAGTAAAAGAGAGGGACACATTTTCTGAATTTGAAGATGCTATAAGAATGTCAAC TGGGTTCATGGGCTGGCACACTGTTAGCCTTCACTTGTTTATCGACGGCCAAGAAATATGTGGCAGAGATTACCACCATT TCACTGTTGGGGAAGATCACGTGTTATTATGTGATCTACGAGTTTTGTTTAGTGATGAAGAGTGGCAGGGTCTTGATGCA AGTATTGGAGATGATTGGAAGGTCATTCAAGTTCAATATCATTCAGACATGGTTCTGAGTAAATGGGGAGTTTATGCATA CAAGCAAGAAACAAACATGGATGATATCCAATTCAGGCTTCCCAATCCCAACTCCATTAGGGATCACATGCAGTCATCCC TTTTGGTTCCAAATGTATCTGAAGAGAAAAGAATGAGATATATGCTGGAAAGTTTTAATCCAAGAGACATGTTTAACCAG TATTTGCCTCTATTAGAATCAGAAGGAAGTCCAGGGATTTCTGTAAAAATATATTTGAGATCCTTGAGGGAAGTTAAGGC AGAAATCAGAGAGAAAACTTCAGCATCTGCCTATGGAGCAAGTTTAAAACAAGAACATGAAGAATCTGTCGATGATGTGG TACAGATTTTAGAGATGATGAAGGAGAATATACCAAAACATGTTGCTGATTCATACCCTCAAGATTTGCAAGTTGCAGGA GGATTTGCCGAAAGAATATTGAGGGCACGGATAGAAATAATGAAGGAAAACGGGTTTGAATTTGGTATGCCTATCATTCT AGAGTATACTGATACCGGAGGAGATACATTGCGACGCATTTGGGGAGTCTTGGAGACAAAAGTAGGAGATCCATTTTTCA AAGCAGTGTTGAGGAGGCAAAATCAACTTTTGTGGGAATCTTGGTCCAGCAATGAAGATTCAAGCTCTGGATCTTCCTTG GAAAACCTTCGGGTAACCATTGTTGTATTGAAATGTCATTGTCCAGCTTCAGAGGAAACTTCAAGCTCTGGCTATGAGGA ATCCTTGGAGGAAGGATACTACTGTCCTGAACTAGAAGAGTTAATGAGGAAGATAGAGCAAGACGCAATGAGCTTGAATA AATCTTACGGGAAAATGAAGGCATCTATTGTTCGAACAGATGAATCAATTTCAGAAAAGTATCTAGTGGAATCATTAGTG ATCAGAAGGCTAGTGGCATTGAAAAGATTAACAATGTTTGGGGCTATGATCAAGTTCAAGAAAACACCTTATGGAATGAT TAGGGTAGATGACGATCCTTTTGTCACTCTGAAGATGTGTATCTGGGGTTCAGCATTTGTTCTTATGGTCCTAATCATGT TGTTATTTTATCTTATGGTACGTGTGGGGATTTTTCTTTATAGGATACCAATAATAAGACAGTTTTTTGCGTGTGGTTGG TGGCTTGTCATGCAAATTCTTGTGGCTTGTAAATACTTATACTGGAGAATTGGTCAGATTATGAAAAGAAAGGAGAAGGA ATTGTAGCAAATAGCAACAGAAGGTTTGTAACTTTGTGCATAAAAGTTATGTTGGTAGAAGGTTTATATCTTTAGTCCAT AGCGGTCTGCATGTCTATAATAGTTGCATGGGGGGAGGATTTCTGCTGAAACATATTCAGGTTTGATCTTGATCTTTTCA CATCATTGTATGTTCTCTTGCGACTCATTCTCATTTTCAGTTTTCCTGATCTCAATTATTTGTCCTTTCCTGAGAAATTT TTTATCCTATTAAAAGTTAATGTTGATTGTGGTTTCTTTTTGCTTACTTGCAATCCCCATTTCCTGAATGAAACTGCACA ATTTGGATCATGTATAGGGATGGCTGAGGTGATTATTCATGATGATGGATGAGGAGGGTACAGAGTAGAAATAGAAGTGG AAGAAATCACCTTGGAATATTGTACAAGTGAGCAAAGTTCAGTGCAAAGTTTCTATTGTGTGTTATGTTCAATCGAATTA TGATTTATAAAGATACTATTGATAGAATCAGAGTAAGTTCATTTGTTATAGTGAGTAGTAGCATTAAGCTAAACAAGTGA TTTTAATGTTTGGTGATTTTGTTAGTCTGTCATACTGATAAAGTCCTAGTGAAGTTGTGTTGATTTTTAGATACATGCTA TATTGTGCATAGAAATGAAAGAATCTGAATTGTCAAGAAGGGGTTCTCTTTCATTTTTTATCAAGAATATTCCCCAAAGT AGTATTATAAATAATATTCCCCATAATATGATTTTTTATCGAGTTCAACGGTGTAGTGTGATTCGTATAGTCAATCCCAC TTAATGGGATAAGGTTTTTCTTGTTGTTTGGTTCTCTTTCATTTTGCTACTATATGGACCATTCTATACCTATACTATAT GTACTTGATGGTATTATAGATTGGTGAAGTTGGAGCTGGACACAACCAGAATAACTTAGTGCTTAATCAAGGGTTTATCC ATTTCAGTTTTTCATGTCATGTTATCATCAAAATTAAGTGTGTGTATAGATGAGCACTGTCAGAATTGATTATGATAAAA GTAATTTATCTTTGGATGTATTTGTGAGAAAAGTAATTTTCGTAAGATAAAGTAGTGCAATCCAGTTATTAAATTCCATA AAAAATGACTATGTACAGAAGCTAGGATTTGTAGCTTAATTCCATAATTCATTTTAGAACTAGAATCATTTGTGTAAGAA AACACCCGAACACCCAAACTTGATTCTATACTATTCCTAAACTTTGCAAATGTGGAACAAATTGTTACAGTTATGTTTGG TAAGATAAGCTTGTTGAAAGAGGAAAATCTACATTTTGATTCATACGGGGAAAATATGGTCACACTATTACCAGTTTGGC CAAATTCTACGAAATAAGAATCATGTTTGATCCAAGCTTGAGAGATGAAAGCTTATCTTAATAAGGGTTGATTTAGAGTC TTGAGAGAATAATATGGAAGTAGTTTTAAATCTCATGAAGCAAAGCAAAGCATTACACAGATTTCTCTGGCCAAAATTAT CTTGATCAGGCTACTTGATCTTTGGCCAATAGCTGAAATTGTGTCATAACTTGTAAGCTTCATTTTTTGTGGAGGTGAGA TTCAAGACATGATTTGACTCTGCTTAACTTTTCAGTATTGTCCTGCAGAGATGCATTCCTTCTACGATCATTCATGCATG CAATGGAGGTGTATTTTTTCCCAAAAATGATTCGTGTACACCATTAACGGGTAGACAGAATGATATAGGAAGAGAAGAGA TTTAAGTGATGTGATAGGAAGAAAGAGATGGAAAGCAAAAATGTTTTATTGAGGAGTTGTTACTCTTTTGGTGTACATGA ATAAGGACTATTCAACTAAAGTTTACCTTATTTTAAGGGATTAAAATCCTCTCTCTATTAACATATTTCTAC
CDS sequence (LotjaGi3g1v0057500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTCGCATACGACGTGTTTCTAAGCTTCAGAGGCGAAACCGGAACACGCTACTCCTTCACAGACCACCTCTACCATAC ACTGCTCCGCCATGGAATCAACGCATTCAGAGACTCTGAGAATCTCAGAACCGGGGAAGAAATCAGACCTGCACTTCTCG AAGCCATCGAAAACTCAACAATCGCAATGGTGGTGCTGTGTCAGAACTATGCATGTTCTGCATGGTGCCTTGATGAACTG GTGAAGATCATGGAGTGTTATGAGAAGAGAGGGAAACAGGTGGTGGCGGTTTTCTACAAGGTGGAACCATCTGATGTGAG GTATCAGAAAAACGGTTACGCGGCGGCCATGGCTAAACATGAAAGGAGATATGGAATGGAGTCGGAGAAGGTGAGAGCAT GGAGGTCAGCTTTGTTTAGAGTCTGTGACTTGAGTGGTGAACACTGCAGGGATGATATGTATGAGTCTGAGCTTATTGAG AAGATTGTGAAAGACACCTCTGCTAAGTTACCTCCTGTGCCTTTTCAGACCAAAAATCTAGTAGGACTTGATTCTCGCCT TGAACAAGTGAAATCTCTTATTGATTCTAATGATGATGTTTGCATGTTGGGGATTTATGGAGTTGGTGGAATTGGAAAAA CCACATTTGCCATTGATCTGTATAACAAGATCAGACATTGGTTTGAAGCTGCAAGTTTTATAGCCAATGTTAGAGAAAAA TCAAATGAAAGCATTAATGGCCTGGAAGTTCTACAAAGGACACTTTTATCTGAGATGGGTGAGGAGACACAAACCATGAT GGGTAGCACATTTAGAGGAAGCTCTGAAATAAAACGCAGGCTTGGCCATAAAAGAGTTCTTTTGGTTCTGGATGATGTTG ATACTGTAAAACAATTGGAATCACTGGCTGGAGGATGTGATTGGTTTGGTCCTGGTAGCAGGGTCATTATAACAACAAGA GATGCAGATATTCTGCATAAGCATGATATTGAAATTAGAAAATATAAGATGGAAGAGCTAAATTATCATGAATCTCTTGA ACTCTTATGTTGGTATGCCTTTAATATGAGCAAACCTGCACAAAACTATGCAAATGTGTCTTCTCATGCAGTAAGTTATG CAAAGGGTATTCCATTGGCTTTAAGAGTGATAGGCTCCAATTTGAAGGGTAGGAGTGTAGAGGAATGGGAGATTGAATTG CAGAAGTATAGGAAGGTTCCAGATGCTGAGATTCAAGGAGTATTGGAAATAAGCTATAATAGCCTCTCTGACTTGGACAA GAAAATTTTCCTGGACATTGCTTGTTTCTTCAAAGGGGAAAGATGGGATTATGTTAAAAAGATACTAGATGCATGTGATT TCTACCCAATTATACGAGTCTTTGTTAGTAAATGTCTAATAGCTGTTGATGAAAATGGCTGCTTGGGAATGCATGATCTA ATACAGGACATGGGTAGAGAGATTGTTCGGAAGGAATCACCGTCAAACCCTGGTGAAAGAAGCAGATTATGGTCTCATAA AGAAGTTCTTGAAGTCCTTAAAGAAAACTCAGGAAGTTCTAAAATTGAAGGAATAATGCTTCATCCCCCAAACCAAGAAA AAGTTCATGATTGGACTTATACTGCCTTCGACAAGATGAAGAACCTCAGAATTCTAATAGTTCGGAATACAATATTTTTA TCTGGACCTAGTTATCTGCCGAATAGTTTGCGGCTACTCGATTGGAAGGGGTACCCATCAAAGTCTTTTCCGCCAAACTT TTATCCCCGCAGAATTGTCGACTTCAAGTTACCTCATAGTTCTCTCATATTGAAAAAGCCATTTCAGATATTTGAGGACT TAACATTAATCAATCTCTCCCTGTGTCAATCCATCACTCAAATTCCTAACCTTTCTGGAGCTAAACAGTTAAGGGTGTTG ACAGTTGATAAATGCCAAAAACTGGTCAGGTTTGATAAATCCATTGGATTTTTGCCTAACCTTGTGTATTTAAGTGCTTC AGGGTGCACTGAGCTCAAAAGTTTTGTGCCAAGAATGTATTTGCCCTCTCTCGAAGTTCTTTCATTTAGCTTCTGCAAGA AACTTGCACACTTCCCACAAGTAATGCAAAAGATGGATAAGCCATTAAAGATTCACATGGTAAATACTGCCATTAAGGAG TTTCCAAATTCTATTGGCAACCTTATTGGGCTAGAGTATATAGACATTTCAGCTTGCAAATGGCTCAAATATCTATCAAG TAGCTTCTTCTTTCTTCCTAAACTTGCCACATTAAAAGTTGATGAGTGCTCTCAACTTGGAGAATCATTTAAAAGGTTCA CAAGACACTCAGTAGCAAATGGCTGTCCAAATTTAATGATGCTTCATTTAAGCAAGGCTAATCTATCATATGAAGATCTT ATTGCCATTCTTGGAAATTTTCCAAAACTGGAAGACTTGAATGTATCGCACAATGAATTTGTCACCCTCCCTCAATGCAT CAATGGATCTTTGCATTTGAAACGTCTTGATGTGAGTTTCTGTAGGAATCTTATTGATATGCCAGAACTTCCTACTAGTA TTCAGAAAGTAGATGCAAGACACTGTGGATCCTTAAGTTTAGAGGCATCAAGCATGCTATGGTCTAAGGTTTCCGCAGGG ACCCGAAGAATACAAATTGTGATGCCAATGCTGAAAAGGGACATTCCAGAATGGTTTGACTGCATTTCCACTCAAGAGTC TCCGCTTTTATGGGCTCGCAAGAAGTTTCCCATTGCTGCTTTAGCATTAGTTTTCCAGGAAGTAAAAGAGAGGGACACAT TTTCTGAATTTGAAGATGCTATAAGAATGTCAACTGGGTTCATGGGCTGGCACACTGTTAGCCTTCACTTGTTTATCGAC GGCCAAGAAATATGTGGCAGAGATTACCACCATTTCACTGTTGGGGAAGATCACGTGTTATTATGTGATCTACGAGTTTT GTTTAGTGATGAAGAGTGGCAGGGTCTTGATGCAAGTATTGGAGATGATTGGAAGGTCATTCAAGTTCAATATCATTCAG ACATGGTTCTGAGTAAATGGGGAGTTTATGCATACAAGCAAGAAACAAACATGGATGATATCCAATTCAGGCTTCCCAAT CCCAACTCCATTAGGGATCACATGCAGTCATCCCTTTTGGTTCCAAATGTATCTGAAGAGAAAAGAATGAGATATATGCT GGAAAGTTTTAATCCAAGAGACATGTTTAACCAGTATTTGCCTCTATTAGAATCAGAAGGAAGTCCAGGGATTTCTGTAA AAATATATTTGAGATCCTTGAGGGAAGTTAAGGCAGAAATCAGAGAGAAAACTTCAGCATCTGCCTATGGAGCAAGTTTA AAACAAGAACATGAAGAATCTGTCGATGATGTGGTACAGATTTTAGAGATGATGAAGGAGAATATACCAAAACATGTTGC TGATTCATACCCTCAAGATTTGCAAGTTGCAGGAGGATTTGCCGAAAGAATATTGAGGGCACGGATAGAAATAATGAAGG AAAACGGGTTTGAATTTGGTATGCCTATCATTCTAGAGTATACTGATACCGGAGGAGATACATTGCGACGCATTTGGGGA GTCTTGGAGACAAAAGTAGGAGATCCATTTTTCAAAGCAGTGTTGAGGAGGCAAAATCAACTTTTGTGGGAATCTTGGTC CAGCAATGAAGATTCAAGCTCTGGATCTTCCTTGGAAAACCTTCGGGTAACCATTGTTGTATTGAAATGTCATTGTCCAG CTTCAGAGGAAACTTCAAGCTCTGGCTATGAGGAATCCTTGGAGGAAGGATACTACTGTCCTGAACTAGAAGAGTTAATG AGGAAGATAGAGCAAGACGCAATGAGCTTGAATAAATCTTACGGGAAAATGAAGGCATCTATTGTTCGAACAGATGAATC AATTTCAGAAAAGTATCTAGTGGAATCATTAGTGATCAGAAGGCTAGTGGCATTGAAAAGATTAACAATGTTTGGGGCTA TGATCAAGTTCAAGAAAACACCTTATGGAATGATTAGGGTAGATGACGATCCTTTTGTCACTCTGAAGATGTGTATCTGG GGTTCAGCATTTGTTCTTATGGTCCTAATCATGTTGTTATTTTATCTTATGGTACGTGTGGGGATTTTTCTTTATAGGAT ACCAATAATAAGACAGTTTTTTGCGTGTGGTTGGTGGCTTGTCATGCAAATTCTTGTGGCTTGTAAATACTTATACTGGA GAATTGGTCAGATTATGAAAAGAAAGGAGAAGGAATTGTAG
Protein sequence (LotjaGi3g1v0057500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLAYDVFLSFRGETGTRYSFTDHLYHTLLRHGINAFRDSENLRTGEEIRPALLEAIENSTIAMVVLCQNYACSAWCLDEL VKIMECYEKRGKQVVAVFYKVEPSDVRYQKNGYAAAMAKHERRYGMESEKVRAWRSALFRVCDLSGEHCRDDMYESELIE KIVKDTSAKLPPVPFQTKNLVGLDSRLEQVKSLIDSNDDVCMLGIYGVGGIGKTTFAIDLYNKIRHWFEAASFIANVREK SNESINGLEVLQRTLLSEMGEETQTMMGSTFRGSSEIKRRLGHKRVLLVLDDVDTVKQLESLAGGCDWFGPGSRVIITTR DADILHKHDIEIRKYKMEELNYHESLELLCWYAFNMSKPAQNYANVSSHAVSYAKGIPLALRVIGSNLKGRSVEEWEIEL QKYRKVPDAEIQGVLEISYNSLSDLDKKIFLDIACFFKGERWDYVKKILDACDFYPIIRVFVSKCLIAVDENGCLGMHDL IQDMGREIVRKESPSNPGERSRLWSHKEVLEVLKENSGSSKIEGIMLHPPNQEKVHDWTYTAFDKMKNLRILIVRNTIFL SGPSYLPNSLRLLDWKGYPSKSFPPNFYPRRIVDFKLPHSSLILKKPFQIFEDLTLINLSLCQSITQIPNLSGAKQLRVL TVDKCQKLVRFDKSIGFLPNLVYLSASGCTELKSFVPRMYLPSLEVLSFSFCKKLAHFPQVMQKMDKPLKIHMVNTAIKE FPNSIGNLIGLEYIDISACKWLKYLSSSFFFLPKLATLKVDECSQLGESFKRFTRHSVANGCPNLMMLHLSKANLSYEDL IAILGNFPKLEDLNVSHNEFVTLPQCINGSLHLKRLDVSFCRNLIDMPELPTSIQKVDARHCGSLSLEASSMLWSKVSAG TRRIQIVMPMLKRDIPEWFDCISTQESPLLWARKKFPIAALALVFQEVKERDTFSEFEDAIRMSTGFMGWHTVSLHLFID GQEICGRDYHHFTVGEDHVLLCDLRVLFSDEEWQGLDASIGDDWKVIQVQYHSDMVLSKWGVYAYKQETNMDDIQFRLPN PNSIRDHMQSSLLVPNVSEEKRMRYMLESFNPRDMFNQYLPLLESEGSPGISVKIYLRSLREVKAEIREKTSASAYGASL KQEHEESVDDVVQILEMMKENIPKHVADSYPQDLQVAGGFAERILRARIEIMKENGFEFGMPIILEYTDTGGDTLRRIWG VLETKVGDPFFKAVLRRQNQLLWESWSSNEDSSSGSSLENLRVTIVVLKCHCPASEETSSSGYEESLEEGYYCPELEELM RKIEQDAMSLNKSYGKMKASIVRTDESISEKYLVESLVIRRLVALKRLTMFGAMIKFKKTPYGMIRVDDDPFVTLKMCIW GSAFVLMVLIMLLFYLMVRVGIFLYRIPIIRQFFACGWWLVMQILVACKYLYWRIGQIMKRKEKEL
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 | 1317 | 1317 | - | – | |
Gene3D | 2 | 169 | 168 | 2.0E-58 | ||
ProSiteProfiles | 2 | 144 | 143 | 26.803 | ||
Pfam | 3 | 176 | 174 | 1.5E-35 | ||
SMART | 3 | 144 | 142 | 7.8E-38 | ||
SUPERFAMILY | 3 | 146 | 144 | 8.76E-34 | ||
PANTHER | 3 | 1173 | 1171 | 0.0 | – | |
PANTHER | 3 | 1173 | 1171 | 0.0 | – | |
Gene3D | 170 | 336 | 167 | 4.5E-31 | – | |
SUPERFAMILY | 172 | 433 | 262 | 4.23E-59 | ||
CDD | 181 | 325 | 145 | 0.00353931 | – | |
Pfam | 186 | 402 | 217 | 1.1E-26 | ||
PRINTS | 202 | 217 | 16 | 1.1E-21 | – | |
PRINTS | 280 | 294 | 15 | 1.1E-21 | – | |
PRINTS | 374 | 388 | 15 | 1.1E-21 | – | |
SUPERFAMILY | 410 | 514 | 105 | 5.98E-15 | ||
SUPERFAMILY | 529 | 868 | 340 | 2.38E-38 | – | |
Gene3D | 534 | 711 | 178 | 1.5E-17 | ||
PRINTS | 679 | 695 | 17 | 1.1E-21 | – | |
Gene3D | 712 | 875 | 164 | 2.3E-24 | ||
Coils | 1121 | 1141 | 21 | - | – | |
Phobius | 1318 | 1337 | 20 | - | – | |
Phobius | 1338 | 1357 | 20 | - | – | |
Phobius | 1358 | 1377 | 20 | - | – | |
TMHMM | 1360 | 1382 | 23 | - | – | |
Phobius | 1378 | 1388 | 11 | - | – | |
Phobius | 1389 | 1412 | 24 | - | – | |
TMHMM | 1394 | 1416 | 23 | - | – | |
Phobius | 1413 | 1426 | 14 | - | – |
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. | ||
Molecular function | ADP binding | Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate. |
Expression pattern of LotjaGi3g1v0057500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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