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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0456300 |
Transcript ID | LotjaGi1g1v0456300.1 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G17680.1 disease resistance protein (TIR-NBS-LRR class); Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|G7K107|G7K107_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi1g1v0456300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:95966264..95975413) extracted from Lotus japonicus Gifu genome v1.2.
GAATACATGGGGTGCCAAACCCAATAGGTGGGGTGCCAAACCCAAATCCCGCCAGGCCGCAGCATATGAATTTATCTCAT CTCTTCCACAAGCGAAGTTCATCCAATTAGCGAGTTGCTGTGCAGTGAACTTCCATAGGGTTCGCTCGAAGAAACGCTCA CTCAGGTGAGAACTTATACTTCTCTCAATAGTGATAGTGAGGTCGTTTCTTCTATCAAGTGATATTTTCACAGTGAGGGT ACGCACACTCTAACCAATTCAGAATTCAGATCTGTAAAACTTGGGTGAGAGTGAGACCCTTTTCTTCGTCCTTTTTTATT TTTATGCTCCTAAACAACTATAGTATTTTTCTCTAGATATGTTCCAGTCTTCCTCTCCGTCGGACCGGCTGGGCAAGAGA ATTGCAGCTTCCACTGAACTAAACTGTAGATACGATGTGTTTATTAGTTTCAGAGGTTCTGACACCCGCAACACCTTCGT GGATCATCTTTATGGACAGCTCATTAGAAAAGGTATTGTTGTCTTCAAGGATGACAAACTGCTCGAAAAAGGAAAATCCA TTTCACCACAGCTTCTCCAAGGGATTCAAGATTCGCGAGTTTCTATTGTTGTCTTCTCCAAAGATTATCCTTCATCAACA TGGTGTTTGGATGAACTGGCTGCCATCGCTGAATGCCATGAGAAGTCCAAACAAACTGCTTTCCCTGTTTTCTATGATGT TGATCCATCTGAGGTGCGAAAACAGAAAGGAGCTTATGAGAATGCTTTTGCTTTACACGCTGAGGCTGAGCAATCCCAAC AAGGATCAACCAGAGTTGATAGATGGAAGGGAGCTATGACCAGTTTGGCCGGATTAGCTGGTTGGGATGTCAGAAATAAG TAAGTATTAAGGTTATTCTCTTCGTCGCTTTACATTCTTAATAAGAATTTGTGCTGTCAAATTTAGTTTTCCTTCCGTGG GCAGCAAACTATTTTACAAATCAAGGTTGTCTAAGCCAATTGTACATTTTCAACAAAATTTATATCTGTTAATATTTATC ATCCTATTATATATGTCTGTTTGCTTTTTCCTGATTTTTTGACGTTATAACTTAGTGATCTTATTTGCCTCTCTTTTTCA GACCAGAGTATGAAGAGATTGGAAAAATTGTTGAAGGAGTAATAAAAGTGTTGGGTCATAAATTCTCTCTTGGTGCTAAT GACCTCATTGGGATACAACCACGTGTACAAGAATTAGAAAGCCTTTTAAAATTAGGCTCAATAAATGACGAGTTTCGAGT TTTAGGAATTTGGGGGATGGGTGGAATAGGGAAGACAACCCTTGCGTGCGGGTTGTATGACAGAGTCTCATATTTGTTTG AAGCTTGTTGTTTTATTGAGGACGTAAGCAATGTTTACAAAGATGGAGCAATTGCCATACAGAAACAAATTCTTCGTCAA ACTTTGGACGAAACAAATCTAGAGACATATGGTCCTTCTGAAATATCTGGAATTGTGAGAAAAAGGCTACACAATGTAAA GCTCCTTATAGTTCTTGACAATGTGGATCAATTTGAACAACTAGAGAAATTGTGTATAGATCCCAAGTTGCTTTGTGCAG GAAGTAGAATGATCATAACCACAAGAGATGAGCATATTCTTAGAACTTATGGAGCTGATAAGGTTTATGAAGTTCAACAA TTGGATGCCGATGATGCTTGTAAACTTCTGTGTAGAAAGGCCTTCCAAAGAGATGGTCCATGGAACATTTTTGAAAAGTT GATTCCTGAGGTACTAAACTATGCTCAAGGTCTTCCATTAGCAATTAGAGTAATGGGTTCTTTTTTGTATACTCGAGATC CTTCACAGTGGAGAGCTACCTTGGATGGATTGCATAATAATCCAGACAGAGGAATTGTGGAAGTGCTTCAGAAAAGTTAT GACGGACTGCAGCCAAGAGTGCAAGAAATATTTTTGCATGTTGCATGTTTCTTTAAACGGGAGAGGGAGGATTATGTGAA GCGAATTCTTGATGCTTGTGGATTATACCCTGATATTGGAATTCCACTTCTTATTGAAAAGTCGTTTATATCCATTAGAA ACCAGGAAATTCATATGCATGACATGTTGCAAGAATTGGGTAAGCAAATTGCTCGGGGAAAACATCTTGATGAGCCAGAA TGCTGGAGTAGATTATGGCTTTACAGTGATTTCCATCGAGTGATGATGTCAGAAACGGTAATGTCTTTACAAATAGATTA TATGGTTTCCATGATTGAATAAAAAAATATTTTCACTTCAATAATTTCTTTATTTCCTTTCATAATCTGCTTATTCTCAA AATTTCAGGGAGCAACAGGAGTTAAAGCCATAGTTTTAGATCAAAAGGAAGATGCCTTCAAATTCAATAAGTTGAGAGCT GAAGATTTATCAAAAATGACGTGCCTAAAACTGCTCATAATATCTCATAAGAATTTTTCAGGAAGGCCTGTATCCCTTTC TAACTTGCTACGTTATTTTTCATGGAATGGTTACCCTTTCACTTCTTTGCCACCAACTTTTCATCCCTGTGACCTTGTCG AATTAAACATGCCCGATAGTAGCCTCGAACAACTATGGGAAGGCATCGTGGTAATCATAGTGTTCCTTTATTTTGTTTTT ATATATAAACTGTTGAGAAATTAAAGTTGTAAGAGCTCTTCAAAAAAAAGTTGTAAGAGAAAAAGAATGATGTACCGACG GTGTAAAGTTTTTTTACACCTTCAACTAATCAGATTTTAAGGATGTGAATTTTTTTTTTTTAATTTCATTAATTGACGTG ACACATTCTTAAAATCTGATTGGTTGATGGTGTATAAAAACTTTACAGCGTCAGTGCATAAAAATTAAACTTTATAAAAA AAAATTCCAAATTTGAAAGTTCTTTAAGAGTTATAAATGTGCATAAGCGATGAATTTTTTTATTTGATTCAAAATAAATC GTGTCATCAATAACCTTATGAGTTATGAAGAGGTAGCACTGTTTATGTAGATGCAAAAAAGCAATTTAGTTTTCATTATG TGGTGCTATGAGTTTTTTCCTAATTAATTTAAATTTGTAGATTTTTTTTCAAAAATAACTTTATGTTTGAAAAAATTAAA AGAAGGCCGTTATATACTGCATTCCTTTCAATTATTTTTATTATGCTTCCAATTATCAAAAATAATTTGCATATAGAATC TAAAGGAAAATAATTTTTCTTTAGATTCAATTTCTATTAGCTTTCATTCTAATTATTTTTTTAGTTATTATATGGTCACT AACTTACATGCAAAAGAAATTCTGTTTATGTAACTTATGCTCTAGTCAATGTTATTCAATGATGTATATGATTAAGTGTG TGTGTTTTTTTTTATAGGCAATAAGAATTATATTGAATAAAAGTAAAAGGGGTACTTCAACCCAATACAAGTAGAAAGAT GAAGAGATATAGAGACAAGCTAAAAAAAAATATGTACAAAAACAAAGACCCAACCAATGCCGAAACAAACCCACCTAGCT AATACCTCCTTGAAAATAGACTTTACAAAACATGCCTAATTAAAACCTTACTAGGATAAAACCCCCTTGAGAAAACTGTT GTATGATTAAGTGTGTGTTTTTTTTTTTTTTTTTTCATATTCTTTTACATAATGAACCATATTTATACTGATTTTCATTG AATTGTAATATGTCAATAACTATTTCTATCTTCACAGTTTCTACCCCATTTGAAAAGGATGGATCTAAGCAACTCCAAAA ATCTCAAGATGACTCCAAATTTTGAAGAAACCGAAAAACTTGAGCGGCTAGATTTGACTGGATGCATAAATTTGTTGCAG GTCCATCCATCAATTGGACTTCTTGACAAACTTGTGTTCTTGAGTCTTCTAAACTGTTGCAGTCTGGTTAGCTTCGAATT CGGCAGTAATGGATCAAAATTAGGTTCTCTGAGAGTTCTACATCTCTCTGGTTGCATAAAACTTGAAAAGAGTCCAAATC TCACAGGAGCAGAGAGTCTTGAGTACCTTGATATGGATCGCTGTACAAGGCTATCTACGGTTCATGAATCTATTGGATAT CGTAAAAAGCTGAGATTCTTAAGTTTGCGAGACTGCACTAATCTTGTTGGATTACCTGACAGCATTGATTTTATGTCATC TCTTATGACTCTAGATTTATGCGGCTGCTCGGAATTTATGAATCTGCCCTTGCAATCAACTATCAATTCTTCAGCTATGG AATCTTTGGTTTCTCTGGACTTAAGCTTTTGCAGTATTCTTGAAGTACCTAATGCTATTGGAAGATTATGGTGTTTAGAA AGACTAAATCTACAAGGAAACAACTTTGTTGAACTGCCTTCTACAATTAGTAGGCTTCGTAGGCTAGCATATTTGAACCT GTCTCATTGCATAAAGCTTGGAGATTTGCCTCTGCTCCCATCAGAATGTGCTCCATTAGGGGGAAGATATTATGAAACAA CATCTGAATCTCGTGATCATAGGTCCGGATTATATATTTTCAACTGTCCCATTGTGGGGAAAAAGTTAAATAATGAGTTG CTACATGGCACTCCATCAAACCAAGAAGAACCATCAGTTTGGTGGCTGACTCTATTACGATGGATATCGAGACTATATAC AGTGCGTATCTGCATACTTTCCCTCTATGACTTTATCTTCAAATTCTTAGTCAATCATATTTTCTTTTGCTTATTAGTAT GTGTGTTTATTACGCTGATATGACATATCTTGTGCCACATGGAGACTTTACAATTAGAACATGTGTGAACTGGTTGCATT GCCATGAGCTTAAATATTTTCCTAATCTCGTCTTGGACAGTGCTTCATTTGATAAAAACTTATTTTGAAATGGTATCTTG ATCAGTTAATCGGAATGATACGAACTAATGTATCAGTTAAGGTGTGCACTTTGATGCCTTCCCTTCCACACACACACTCT TGAACTTCTGCAGTGCATACTGCATTATAAATGTAAGACACATGTCATGTATGGTAATTGTTTTTGAAGAATAGAAATGG AAAAAAGAGAGTAACAGTCACATTATGAGTGTGGGTGTATTGAGTCTTTAGTACTAGGTGATTATTGAAAATATAAGTGT TTTTTTTTGCTTGCTAGGAACCTCGTAACTTCCGATGTGGGTTTGACATTGTTTCTCCTTGGCATTGGGAAGATGGTGAT TATCAAAGAAAGAGTATTATTCCACGATGTTTTGATCATCGCGTTGAGGGGGGTTCAATAATAAGGACAAAGCTCTCTGA TATTGATGTTGGCTGGGACGGCTGTCTCTTTTGTGTAGCATTTCAGGTGAATAATCACTCTACAATTTTTGCTTCTTCAC ATCGGTCGAATTCCTCACGACTACCACATCCTTTTTATCTTTCCTTTGAAAGTGAACACACGGAAGAGCGCTTTGATATG CCTCTTGATTTAGATCTGGATAAAAGTGATGGTTCAAAATATCTTTGGATAATCTATATCTCTCGGCAGCACTGCCATTT TGTGGCAACGGGAGCTCAAATCACATTTAAAGTGCGCCATGGTTTGATTGTGGAGGAATGGGGATTACGCATGCTGACTA AGGAACACATGGAGGCTTCAGGAATGATACAAAGTACAGATCTTTCTTCACTTATCATTGATTATGTGGAAGAAAGCAAC AGAAGCTTTGTGCCCAAAATCCAACTTCCTTACAATTGGCTAATTTCTGGTGAAGAGGAAGTCAAGATTCATAACACCAA GGGAAAAGAAATTGAACTCTCTAATCTTGGCCTTTGACTGGCAAATAATATTTGACGTATACAATATCTTCTCGGGGACC CGTGTTTGGAAAATGAGTTTAAAAGAGGTAATGTATCTACCCAAAGGAATCAAAATGCTTTTGTACAAAAACCCCTGTTT GGATATCTAATATTCTAAAAGAAATTTAGATTTTAGCCGTCTTTAAATCCACTGTTTTATTAAACTTAAAGCAGAGGAAT TGAAATACCATCTATTATGAGAGAATTTATAAAATTCATCTCATCTCAAGCATGTCCAACAATTAAGAAGCCAACTGGTC CTTCAATTTCTAGGTTTTTGAATCTTTTTTCTTAATCATGCTATATGTTCGCATGCCATTGATCATCCATTTTTAACTCT GGTGTCTGGCTTTGCGGAATTTAAAATCTTGTTATGGGGTTTTATGATAAGCATGCGGTTTCCTTACCATTTTTTCATTT TTTAGTATGGGGATTTGATCAAGGCTTGCTTTTGATTTGGATTCATGATGTTTATCGATCCTCAGAGGACATTCATGACT GTTTAGCCAAGTCCATGAACCCATTTGTCTTGAATATAGATCATATTCAATAAATAAAAAAATAATAGTGAGGTGAACTA TAGAGAAATGGAGTCAGAGCCAGAGAATAGGCAGAGCATTAGCGAAGAGACAATAGATTTATTACTATTATTTTCATTTT TATCTCTTTTCTTTTCCATTTAGGTCTCACATTTATTCTCTGTATTTCATTATGATATTCAGTACTTTGTTGTGGTTATA TGTGTTTTGCTAGTGTTTCAGTAGTTAATTTATCTGTTAATGCATTCTCCATTAGTGGCAGAAATGGATCCTGTTGAATG CAGTGGAAAAGGTCTTGAACCTTAAGCTTAGCTATCTTCTCGTGCAAACTCTGATCTAAATGCAGATGACGATGTTGAAA GTTGTCCCCTCAGATGTTGATGTAAGTATATTATAGTCAAGGTGTAATGCCTCCCCTCTCTCACTTTGGGGTTTTGAGTT GCATTTGTGTAAACTATTTTTACGTTGTTTTTCATTCTTAGTATTATTGCTTATGATTCATTGATGGAGCGCACTACCCC TTTTCTTTTTTGTTAAATGTTTCCATGCCTTTGTTTTGTCCTTCATCTTCATCCTTTCTCCTTGCTCTTTTTTTTTTTAC TTTGAAGTCGTACATCTAATTCCTTAACTCCGATAAAAGAGCTAGTGTTGATTGGACATGCTTTGTCAGTGCACAGAAAG TATGGCGGATTCACCGTGGACTACGGTGTTGAGGACGTTACCATCAGTGTCAACCCTCCGATGACGAATTTCACCATTGA CACTCTCGTGTCGGTTTTTTTTTTGGCTTAGATCTACTATTTCCTTCCCTAATGTAGAAGTTGATGATTCTCGAATAGCA ATACAGATCCCTAATTGGTACTGTTGTTTGGTGCATGAAACTCGCATGTTCTTTGGGTAAAGATTATGCTTTTGATGGCA TTCATTGTACTTGTGAAGGCATTCCTCTTGTTCTTCATTCTCGGCAGTTCCTGAACACTTCCAATTCAATTTGAGGACAA ATTAGAAGGTATAACTCGTTTTGTTGCATTGATTCTAAAATTTTGCTCTAGCTCCAAAAAAATCCCATCCATCATTGGCT TTGTTTATAATGTTTATGCAGATTTATTATGAGTGGACAGAGAAATGGTACCATTTGTACCTAACCTAACTCGGGAACAA TGATGCAGCCCTCGGTGTAAGTGGGTACCGAGTATTCTTTTTTGCCAGAATCTTATGTGGGGTGTCTTCTGTTGTAAATA GAAATAAAGTCAAGGCGTTGGCATCGTGTTATGGCGTATTTGTATGTTTGCTTCTGATTATAAGTGTTTGTTTCCCAGAT TTAAATCATGGTTCAACAAAATTAATGAAGCTCATGCTTACTTATTTGTGATCCTTTTAGCCTTTTAACTTTTAAGTGAT CAGGGTCTTCAACGTGCCTGAACCTTCTTTTTTTATTATTTGTTGATGTTTTAGTGAATTCATGGAGTATTCTCAATTTA GTGTTCTTCCTGGTCTTTGTATGAGTACTGTCCATGTAATGCTCCAATGGTTGTCAATTCATCATGCCGGGAATTATTTG GCACTATTGCATCTGGCTTTTGGCAACTGTTCTATCCTCTGCTTTGTCTCTTTATGGTACGAAGCATTTTTCTTCTATAT GTATAATATTAAGGGTGTTCTGTGATTATAATTTTACAATGGATAAGAAGCAACATCAATCTGCATGTCTATGTGCAATT TCTGTCCAGTTAATGTCCTGTGTACAAAATGTGTTTGTCCAGGAATGGTTTGTTGTAGAATATCTTCAGTGACTAAGATA AACTCTTAACAGCGAAAAGTGAAGTTAACACCAAGTCTGCTCAACTTTTTGCACTCAACCTTCTCAGATGCGTGGCTAAT TGCACCTTCCCACATCGGATTGCTCCTGGTGTCAGCTCAAAAACATAAACAATCCTGGAATCAAGCGCATCTGGAATCAG TATGCTACAAATGCCACCCATAATCGTAGAATTGATGTTGCAGGAGAAATTATAGTTCCATGGTTATACTCTGTATGGCA GGTACATGATCCCCCGTATGGCAGGAGGATGGTTACCACTGATGATGGTAATTCTTGTGGGAATTGGATTCAAAAAAAAA TTCACACTCATTGAGTTCTAGTTAGTTATTAACAGATGGATATGATGTTTGGATTGACAAGCTCGAGCAAAGTTTGAGTC AGATGATTCATAAAACAATTGACAACAAGAGCTAAGTTTTTACTTTTTAAAGCAGGGAAGCATAAATTGTTGTCATGCTC ACTAGATTCTGCACATTAAAAGGCTAAAGGCAATTAAGCAGAACTTGTCTTCATTGTAAAAGTGCTTCTTATGCTAGTTT TCCATATTTGGGGCTTATGCTGGTGTTTACGATGATATTTGGTAAACAAACATTCTCCAATCTCAATTGGAAAAAGTTTA AGTTAAGGGGTCCTTTTGGGAAAACGTCTTGCCAAAGTGCTGTGTGCACAAGGTGTTTTTCGACAAACACTGATAAACGG TTAACTTACAAGTGAAATAAAGAACTTAAGAAAGCTGGAAACTTGATTTCATAAACAAAATACAAAGTACAGGAAATGCA AATTGAAAGTAAAGTGAAGTTACATCAAACAAGAAATCGACAAGAAATTGAGCAGAAACTTGAACAAAACAGCGAGCTTG AAAGCATTAAATGCAGGAATGGTAAATGGTTGGTTCTGCAACATACTCCTTCATGATCACGTTAGGCTCTTGAAGTCTCT TTGATGCGGACATGTGAGTTTTTTAGTGAG
CDS sequence (LotjaGi1g1v0456300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTCCAGTCTTCCTCTCCGTCGGACCGGCTGGGCAAGAGAATTGCAGCTTCCACTGAACTAAACTGTAGATACGATGT GTTTATTAGTTTCAGAGGTTCTGACACCCGCAACACCTTCGTGGATCATCTTTATGGACAGCTCATTAGAAAAGGTATTG TTGTCTTCAAGGATGACAAACTGCTCGAAAAAGGAAAATCCATTTCACCACAGCTTCTCCAAGGGATTCAAGATTCGCGA GTTTCTATTGTTGTCTTCTCCAAAGATTATCCTTCATCAACATGGTGTTTGGATGAACTGGCTGCCATCGCTGAATGCCA TGAGAAGTCCAAACAAACTGCTTTCCCTGTTTTCTATGATGTTGATCCATCTGAGGTGCGAAAACAGAAAGGAGCTTATG AGAATGCTTTTGCTTTACACGCTGAGGCTGAGCAATCCCAACAAGGATCAACCAGAGTTGATAGATGGAAGGGAGCTATG ACCAGTTTGGCCGGATTAGCTGGTTGGGATGTCAGAAATAAACCAGAGTATGAAGAGATTGGAAAAATTGTTGAAGGAGT AATAAAAGTGTTGGGTCATAAATTCTCTCTTGGTGCTAATGACCTCATTGGGATACAACCACGTGTACAAGAATTAGAAA GCCTTTTAAAATTAGGCTCAATAAATGACGAGTTTCGAGTTTTAGGAATTTGGGGGATGGGTGGAATAGGGAAGACAACC CTTGCGTGCGGGTTGTATGACAGAGTCTCATATTTGTTTGAAGCTTGTTGTTTTATTGAGGACGTAAGCAATGTTTACAA AGATGGAGCAATTGCCATACAGAAACAAATTCTTCGTCAAACTTTGGACGAAACAAATCTAGAGACATATGGTCCTTCTG AAATATCTGGAATTGTGAGAAAAAGGCTACACAATGTAAAGCTCCTTATAGTTCTTGACAATGTGGATCAATTTGAACAA CTAGAGAAATTGTGTATAGATCCCAAGTTGCTTTGTGCAGGAAGTAGAATGATCATAACCACAAGAGATGAGCATATTCT TAGAACTTATGGAGCTGATAAGGTTTATGAAGTTCAACAATTGGATGCCGATGATGCTTGTAAACTTCTGTGTAGAAAGG CCTTCCAAAGAGATGGTCCATGGAACATTTTTGAAAAGTTGATTCCTGAGGTACTAAACTATGCTCAAGGTCTTCCATTA GCAATTAGAGTAATGGGTTCTTTTTTGTATACTCGAGATCCTTCACAGTGGAGAGCTACCTTGGATGGATTGCATAATAA TCCAGACAGAGGAATTGTGGAAGTGCTTCAGAAAAGTTATGACGGACTGCAGCCAAGAGTGCAAGAAATATTTTTGCATG TTGCATGTTTCTTTAAACGGGAGAGGGAGGATTATGTGAAGCGAATTCTTGATGCTTGTGGATTATACCCTGATATTGGA ATTCCACTTCTTATTGAAAAGTCGTTTATATCCATTAGAAACCAGGAAATTCATATGCATGACATGTTGCAAGAATTGGG TAAGCAAATTGCTCGGGGAAAACATCTTGATGAGCCAGAATGCTGGAGTAGATTATGGCTTTACAGTGATTTCCATCGAG TGATGATGTCAGAAACGGGAGCAACAGGAGTTAAAGCCATAGTTTTAGATCAAAAGGAAGATGCCTTCAAATTCAATAAG TTGAGAGCTGAAGATTTATCAAAAATGACGTGCCTAAAACTGCTCATAATATCTCATAAGAATTTTTCAGGAAGGCCTGT ATCCCTTTCTAACTTGCTACGTTATTTTTCATGGAATGGTTACCCTTTCACTTCTTTGCCACCAACTTTTCATCCCTGTG ACCTTGTCGAATTAAACATGCCCGATAGTAGCCTCGAACAACTATGGGAAGGCATCGTGTTTCTACCCCATTTGAAAAGG ATGGATCTAAGCAACTCCAAAAATCTCAAGATGACTCCAAATTTTGAAGAAACCGAAAAACTTGAGCGGCTAGATTTGAC TGGATGCATAAATTTGTTGCAGGTCCATCCATCAATTGGACTTCTTGACAAACTTGTGTTCTTGAGTCTTCTAAACTGTT GCAGTCTGGTTAGCTTCGAATTCGGCAGTAATGGATCAAAATTAGGTTCTCTGAGAGTTCTACATCTCTCTGGTTGCATA AAACTTGAAAAGAGTCCAAATCTCACAGGAGCAGAGAGTCTTGAGTACCTTGATATGGATCGCTGTACAAGGCTATCTAC GGTTCATGAATCTATTGGATATCGTAAAAAGCTGAGATTCTTAAGTTTGCGAGACTGCACTAATCTTGTTGGATTACCTG ACAGCATTGATTTTATGTCATCTCTTATGACTCTAGATTTATGCGGCTGCTCGGAATTTATGAATCTGCCCTTGCAATCA ACTATCAATTCTTCAGCTATGGAATCTTTGGTTTCTCTGGACTTAAGCTTTTGCAGTATTCTTGAAGTACCTAATGCTAT TGGAAGATTATGGTGTTTAGAAAGACTAAATCTACAAGGAAACAACTTTGTTGAACTGCCTTCTACAATTAGTAGGCTTC GTAGGCTAGCATATTTGAACCTGTCTCATTGCATAAAGCTTGGAGATTTGCCTCTGCTCCCATCAGAATGTGCTCCATTA GGGGGAAGATATTATGAAACAACATCTGAATCTCGTGATCATAGGTCCGGATTATATATTTTCAACTGTCCCATTGTGGG GAAAAAGTTAAATAATGAGTTGCTACATGGCACTCCATCAAACCAAGAAGAACCATCAGTTTGGTGGCTGACTCTATTAC GATGGATATCGAGACTATATACAGAACCTCGTAACTTCCGATGTGGGTTTGACATTGTTTCTCCTTGGCATTGGGAAGAT GGTGATTATCAAAGAAAGAGTATTATTCCACGATGTTTTGATCATCGCGTTGAGGGGGGTTCAATAATAAGGACAAAGCT CTCTGATATTGATGTTGGCTGGGACGGCTGTCTCTTTTGTGTAGCATTTCAGGTGAATAATCACTCTACAATTTTTGCTT CTTCACATCGGTCGAATTCCTCACGACTACCACATCCTTTTTATCTTTCCTTTGAAAGTGAACACACGGAAGAGCGCTTT GATATGCCTCTTGATTTAGATCTGGATAAAAGTGATGGTTCAAAATATCTTTGGATAATCTATATCTCTCGGCAGCACTG CCATTTTGTGGCAACGGGAGCTCAAATCACATTTAAAGTGCGCCATGGTTTGATTGTGGAGGAATGGGGATTACGCATGC TGACTAAGGAACACATGGAGGCTTCAGGAATGATACAAAGTACAGATCTTTCTTCACTTATCATTGATTATGTGGAAGAA AGCAACAGAAGCTTTGTGCCCAAAATCCAACTTCCTTACAATTGGCTAATTTCTGGTGAAGAGGAAGTCAAGATTCATAA CACCAAGGGAAAAGAAATTGAACTCTCTAATCTTGGCCTTTGA
Protein sequence (LotjaGi1g1v0456300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MFQSSSPSDRLGKRIAASTELNCRYDVFISFRGSDTRNTFVDHLYGQLIRKGIVVFKDDKLLEKGKSISPQLLQGIQDSR VSIVVFSKDYPSSTWCLDELAAIAECHEKSKQTAFPVFYDVDPSEVRKQKGAYENAFALHAEAEQSQQGSTRVDRWKGAM TSLAGLAGWDVRNKPEYEEIGKIVEGVIKVLGHKFSLGANDLIGIQPRVQELESLLKLGSINDEFRVLGIWGMGGIGKTT LACGLYDRVSYLFEACCFIEDVSNVYKDGAIAIQKQILRQTLDETNLETYGPSEISGIVRKRLHNVKLLIVLDNVDQFEQ LEKLCIDPKLLCAGSRMIITTRDEHILRTYGADKVYEVQQLDADDACKLLCRKAFQRDGPWNIFEKLIPEVLNYAQGLPL AIRVMGSFLYTRDPSQWRATLDGLHNNPDRGIVEVLQKSYDGLQPRVQEIFLHVACFFKREREDYVKRILDACGLYPDIG IPLLIEKSFISIRNQEIHMHDMLQELGKQIARGKHLDEPECWSRLWLYSDFHRVMMSETGATGVKAIVLDQKEDAFKFNK LRAEDLSKMTCLKLLIISHKNFSGRPVSLSNLLRYFSWNGYPFTSLPPTFHPCDLVELNMPDSSLEQLWEGIVFLPHLKR MDLSNSKNLKMTPNFEETEKLERLDLTGCINLLQVHPSIGLLDKLVFLSLLNCCSLVSFEFGSNGSKLGSLRVLHLSGCI KLEKSPNLTGAESLEYLDMDRCTRLSTVHESIGYRKKLRFLSLRDCTNLVGLPDSIDFMSSLMTLDLCGCSEFMNLPLQS TINSSAMESLVSLDLSFCSILEVPNAIGRLWCLERLNLQGNNFVELPSTISRLRRLAYLNLSHCIKLGDLPLLPSECAPL GGRYYETTSESRDHRSGLYIFNCPIVGKKLNNELLHGTPSNQEEPSVWWLTLLRWISRLYTEPRNFRCGFDIVSPWHWED GDYQRKSIIPRCFDHRVEGGSIIRTKLSDIDVGWDGCLFCVAFQVNNHSTIFASSHRSNSSRLPHPFYLSFESEHTEERF DMPLDLDLDKSDGSKYLWIIYISRQHCHFVATGAQITFKVRHGLIVEEWGLRMLTKEHMEASGMIQSTDLSSLIIDYVEE SNRSFVPKIQLPYNWLISGEEEVKIHNTKGKEIELSNLGL
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 | 18 | 1150 | 1133 | 0.0 | – | |
PANTHER | 18 | 1150 | 1133 | 0.0 | – | |
Gene3D | 20 | 192 | 173 | 3.8E-63 | ||
SUPERFAMILY | 20 | 169 | 150 | 1.12E-37 | ||
ProSiteProfiles | 23 | 166 | 144 | 29.211 | ||
SMART | 24 | 166 | 143 | 1.4E-43 | ||
Pfam | 25 | 176 | 152 | 1.3E-40 | ||
Gene3D | 193 | 358 | 166 | 1.4E-28 | – | |
SUPERFAMILY | 199 | 453 | 255 | 2.48E-55 | ||
Pfam | 222 | 442 | 221 | 4.6E-26 | ||
PRINTS | 227 | 242 | 16 | 2.5E-22 | – | |
PRINTS | 302 | 316 | 15 | 2.5E-22 | – | |
PRINTS | 395 | 409 | 15 | 2.5E-22 | – | |
SUPERFAMILY | 499 | 872 | 374 | 2.64E-40 | – | |
Gene3D | 539 | 703 | 165 | 8.0E-11 | ||
Pfam | 614 | 632 | 19 | 2.1E-7 | ||
Gene3D | 704 | 801 | 98 | 4.8E-18 | ||
Gene3D | 802 | 882 | 81 | 1.5E-15 | ||
PRINTS | 805 | 821 | 17 | 2.5E-22 | – |
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 LotjaGi1g1v0456300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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