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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0212400 |
| Transcript ID | LotjaGi3g1v0212400.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|A0A072UCJ6|A0A072UCJ6_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi3g1v0212400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:31883284..31899825) extracted from Lotus japonicus Gifu genome v1.2.
CTCCATGTAAACAAAAAAAAATTCTCTACTCTATTATTCTCAATAATAATAAAATCCTTTTTGTCTAATTTAATTTGTTG TCATAAGCTATAGAAAAAAATTAAAGCTCGTTAAAAGATTGAGCAACTTTAGGAAAAACATAGTATAACAAACCAGACTA TAGAGCAAGAAGAAGAGGTAATCAAAGATTGATAGGTCCGTGTGTGAACGAATCTCTTCCTTTCCTTTACTTCCTTTTGC CTTAATCGCTAATCGCCCTGTTCCATGTCTTCCTCCACTTGGAAGAATGTGCCGTCCGAGGATCGTGAGCAACTCGAATG GTTAAGGTATTCTTCATTTATGGAAGATTCCTTTTCACAGGAAGATAGACTAAATCCGAATCCGAGGATCCACGATGTGT TCTTGAGTTTCAGAGGGGAAGACACTCGTGCTTCCTTCACTTCACATCTCTATTCCGCTCTTCAAAACGCTGGGATCAAA GTTTTCAGGGACGACGATTCCCTTCCAAGGGGAGATCAAATTTCATACTCACTGCTGAAAGCAATTGAAGAATCTCAGAT TTCAGTTATTGTTTTCTCACCAAATTATGCGGATTCTCGGTGGTGTCTGGATGAGTTGAACAAAATAATGGAATGTCACA GAACCATAGGTCAGGTGGTTCTGCCGGTGTTCTACGGTGTCGATCCCTCTGAAGTGCGACGCCAAACTGGTGAGTTTGGG AAAAAATTTCTCAATCTTATGAACATAATTTCAATGGATGAAGACAATATGTTGCTAAACAATCTGATGCCCCGCTGGAA GCGTTGGAGGGAGGCACTTCGTGAGGCTGGTGGCATTGCAGGGTTTGTTGTCTTAAATTCTAGGTAATTTAACATCCACT TCGGGCTTGTTTGGTTGCAGTTTTAGTTTTTAAAACAATTTTTAGAAACAATTTTCAGAAAAAAGAAAACAAGTTTAATG AGGTGTTTTCCTACCTTTAGAAAACTGATTTATGAAAACTAAAAACAGAAACTGAAAACATTTTTTTAGCTGTTTTAGTT TTTTAGTTTAACAAGCTGAAAATGAGAACAAGCTTTAAAAACTGAAAACTGTTTTGAAAACAAGAAACAAACAGACTCTT CATTACTGAATTGTAAACCTTGTCTGTCAAAGGTTTGACCTGTTATTTAAAAAGGTCAGCCTTACGCTTTTTAAAAGGTT TGAATAAGTAAAAATGTTGGGCTCCGGCTAAGTCTATTTAGCCTAATAGGCCAATATAATTCATAATATTAAAATCCAAT GATATGTAGCAAACTCTGTTAGCCCGCTGGCCTACTAGCCTCTTTAAAAAGGCATTTTCTATTAAAGAGACTTTTGAACA TGTTAGGCCTTAAAAATTGGCCTATGACAGTATCTCAATCAAACTCAAAAATTTGCTTCTGTCTTTTTCATATATGTTTT CTCATGTCTCATTGAGTGTATGTTTGAATCAATATTCTATGTCGAATTGATTTTGATAAAATTGACTATCGTAAAAGTGA GGTTAAAGTGACGCTATGTTGCACTGATATAAATATGTTTCTGGTACCGTGTACAGATACCGGTACAAGATACGTAATTT ACGAGAAAAGTAATTTATGTAAGGTAATGTTATTTCGATAACTTTTATTAAAATTGTTTTTCAATGGATTTTAATATCCA TACATACTTCTGTTTCTAACCCTTTTTTTCTATTGTTAATTACTATATTTTATATACTACATTAACAAATCAGAAATGAA TAGGCTTACAATTTATTTATAAAATTTATGTGAATTTATTCAATTTTAAAAAAATCTATGCATGTTGCATATAGGAATGA AACAAGTATTTTCTCGGGTTCGTTTTTACAGGAATGAAAGTGAGATTATCGAGAATATTGTTGAAAATGTTACTAGTTTG CTTGACAAGACAGACATGTTCATTGCCGATAATCCAGTGGGCGTTGAATCTCGAGTGCAAGATATGATTCAACTGCTAGA CAACCAACAATCAAATGATGTTCTATTACTCGGGGTATGGGGTATGGGAGGAATTGGTAAAACAACCATTGCAAAAGCTA TTTACAATAAAATTGGCCGCAATTTTCAGGGTAGGTGTTTCCTTGCAAATATTAGAGAAGCTGGGGAGCAAGATGCTGGA CAAGTGCATTTACAAGAACAACTTCTGTTTGATATCTTGAAGAAAACAACCAAGATACATAGCACTGAATCAGGAAAAAA TATATTAAAGGATAGACTTTGCAGTAAAAGAGTACTTCTTGTACTTGACGATGTGAATAAATTGGACCAACTGAATGCTT TGTGTGGAAGTCGTGAGTGGTTTGGTTCAGGGAGTAGAATAATCATCACAACCAGAGATCAGCATATACTGAGAGGGAGT AGAGTTGACCAAGTTTACATAATGAAAGAAATGGATGAAAGAGAATCGATTGAGCTTTTTAGTTGGAATGCATTCAAGCA AGCGAGCCCTAAGGAAGATTTTGCTGAAATTTCAAGAAACGTAGTTGAGTATTCTGGGGGATTGCCACTAGCTCTTCAAG TCCTTGGGTCCTATTTGTTTGATAGGGTCGTAACAGAATGGAAGAGTGTATTGGAGAAACTCAGAACAATTCCCAATGAC CAAGTACAGAAAAAGTTAAGAATAAGCTATGATGGTTTAAATGATGATAAAGAGAAAGATATATTCCTTGACATAGCTTG TTTCTTAATTGGGATGGACAGAGGTGATGCTATACAAATATTAGATGGCTGCAAACTTTTTGCAGAAATTGGAATAAGTG TCCTTGTTGAGAGAAGTCTTGTAACTGTTGATGATAAGAACAAGCTTGGAATGCATGATTTGCTGCGAGACATGGGAAGA GAAATCATTCGTGAGAAATCACCAAAGGAGCCTGAGGAGCGTAGCAGGTTATGGTTTCATGAGGATGTTATCGAAGTATT ATCAGACCAAACTGTAAGAACTTCATTTTAAAATATCCAATTCTAAAGGAAGCATATAGAAAATATTTCAGTCACTTGTT AACATTCATTTGTTTTCTTGATTAGTCTGGTTATGAATTGTTTGTACTTCCTGGCTCCTAGTAACAAATTCTGGGTTTCA TCACATTAATTTTAGCTATCCTATATCTTTCAGCTATGCATTTTTTTTTTCCACCTTTTTATGCATCTTATTTCACAGGG AACAAAAGCTATTGAAGGACTGTCTTTGAAGTTGCCAGTTAATAATACAAAATGTTTCAGCACTGAAGCATTTGAGAAGA TGAAGAAACTCAGATTGCTTCAACTTGCTGGTGTAAAGCTTGAAGGAGATTTTAAATATCTTTCAAGAAATCTGAGATGG CTGTGTTGGCATGGATTTCCGTTATCTTTCCTACCTAAAAACCTTCGTCAAGAAAATTTAGTTTCCATCATGTTAGAAAA CAGCAATATCAAACATGGATGGAAAGATGGCCAGGTATTGATTGACTTTAGCTTTTCGCATTTCATGAATTCTTTTCACT TTTGATTTATAGATGCAATTTAAATTAAGCATCTGAAATAGTAGTAATATTTAATTACGTGGTACTTTTAGACACAGTAA AGATATGGTTCACGGATGCACCAGAGAATAAAGGCCACCATAGAATTGTCCATATGTTTTATATTAACCTTACATGAAAG TCCTTTTAACTAAAACAGATAGAACATTTTTACAAACTTAATCTTGTGCATGTGCGAAACAGTTTGATTAAAAAAGCTTC AAATTCAAATGTCAAACCTATAAATGATCCCAATGTTTTAAGTTCTCACCAGAATGCTCATACATGACTTTTAAGTTCGC ACCAGATCCCAATGTAGCCTTGGTTGGAAGATATTTTAAAGCAAAAGTACTTCGAAACCAATGGGTATAGGCATTGACAC TCGCTCATGTTTACTTTCCATTCTCTAGTGACATTGCAATTACTTCCATCTATTTTGTAAGCTCTTTCCACATGTTCTTT CTATAACATTTCTGATCTTGCAGAGGATGGAGATGCTGAAAATTCTGAATCTTAGTCATTCTCAGCATTTGACACAGACC CCAGACTTTTCATGTATGCCTAATCTTGAAAAGCTTGTACTTAGAAATTGTCCAAGCCTGTCTGAGGTTTCCCATAGCAT TGGACATCTCAATAAAGTTTTACTGATAAATTTGAAAGACTGTATTAGCCTTCGTAACCTTCCAAGAAGCATCTACAAGT TGAAATCTCTGAAAACCCTCATCCTTTCTGGATGTTTAATGATTGACAAGTTGGAAGAGGACGTGGAACAGATGGAATCT TTGACAACCCTGATTGCAGACAACACTGCTATAACAAGAGTTCCCTATTCATTAGTCAGGTCAAAAAGCATCGGATATAT TTCTTTGTGTGGTCATGAAGGATTCTCTCATGATGTGTTTCCTTCTATCATTTGGTCTTGGATGTCACCAACAAATATCC TCTCATCCTTAGTTCAAACATCTGCAGGCATGTCATCTCTGGTTTCTTTAAATGTATCAAATAGTAGTTCACAGGGATTA TCATCTATTCCCATGGACCTTCCAAAGCTTCAAAGTCTGTGGATAGAGTCTGGCTCAGAACTTCAACTTTCTCAAGATGC AGAAAGAATTTTGGATGCCTTGTATGCCATGAATTCTTCTAAAGAATTGGAACCAACTGCAACTACATCAGAAGTATCAA ATATGAAAACTTCTTCCTTGATGGAATGCAGTTGTCAAGTGCTTGATTCAGGATCAAAAGGTTCCTTGAAATCTCTTTTA TTTCAAATGGGAATGAATTGTCAAGCCACCAGTATTCTGAAAGAGAGCATTTTAGAGGTTTCTATCTCTCCCTCTCTCTT GTGTATAGGTTTGCATTCTAAAATTAAGATATATGAAGTCATATGTGAATTCTTGCATATACATCTAGAACTATTAAAAA AATACATATGTGAACACCCATATTCACTCTTTCCTCTAAGAAAAAAAAATCATTGAATCTGTTTTTTTTGCTTTAGCTAG TACATAGAGCAGTGATATTTTTCACGTGTATTATGTGATTTGAAAAACTGTTACAACCTTCAATGTGTATGCTGATTTTA GTTAGTGGCACAATTCGTTAAAATCACTGTATAATTATCCAAAGGTATTAGGAAACTCACTTTATTTTTTGTTGGAAAGG TTTTTTAAGCTGGACTGGTAGTCTCTGTTTGAAGAATCCAAGCAATAATTTTGACGATTTATTTTTTCTTCGTCGACAAG TTATCATGATTTCATAATTTGTCTGTTAATTAGAAGATCATAATTTTATCGACGAGAAAATGATTAGTTATCTTAGGAGG ATAACTATATTTTTAATTGTTGAATGAATGATAAGGTTGCATTTATTTAGTGTTCAATAAAATCTTCACAGCATATTTTC ATTTTTACAGAATGTGGCTGTTGGAGGGTCTGGTGTAAGCTTGCTCCCCGGAGACAATTATCCAGATTGGTCAACCTTCA ACTCGGAAGGTTGTTCTGTGATTTTTGAAGTCCCTCAAGTGAATGGGCGTAGTTTGAAGACAATGATGTGTGTTGTCCAT TCTTCTACCGCAGATGACATAACATCAGATGGTCTTCAAAATGTGTTGGTGATAAATTGCACAAAGAACACAATTCAGCT CTATAAGAGGAACGCATTAGCCTCCTTTGAAGATGAAGAGTGGCAGAGAGTAGTATCAAATATTGAACCAGGTAACAAAG TAAAGGTGGTGGTTGTTTTTGAGAACGGATTCACTGTGAAGAAGACAACAGTATATCTTGTATATAATGAACCAATTGAG GAGAAAATGGAACCTTGCAGTGCACCATATAAGAATGAAATTGTTTTTGGGGGTGATGAAACTGAATCCGCTGTCGGGAG GAGCTCTGCACAACTGGAGTCAGTGGATGACTTGAAACAAAAACTGAAGAGAAGGAAGTTGCAATAAAAGATGGTGGAAG AATGGCTGGTTAAAACTATTTCTTATGGTGCCTGCAAATCTCATATTGGTGCTTGCTGATTGTGGGGTTTGATCAACAAA CACACCTATCTCTACCCATGGAATTGCATCAGCAAATGGCAGAACAATATCTTCTGCAACAATAATAGGGATGCGACCAT ATACCACAGCTTCAACCAATCTTGGGTTCTAAGGTGCATAGACAAAACACAGCTAATTGCATGTTCTCATGGTATGTGGT TCAATTTTCAGTTCACCTCTGCAAGATTGCAAATCACAGACAGTTTAAGTTTGTTATCAAAGCAGCAAAGCATGCACCCG AACTTCATGCACTCATTTTTCTCTTTGCAGCATTTTCCTGTACATCTCCTCAATAAGAGCACTTGTTTTTCTTCATATAC GAGATTACATTAGCAATTGGTGTAAATATATGTATCAGCACTATAATAGAAGTGGGTTCCTCCACCAGCAAAACCAAATT TTTCACGTTTTACAACCATTTAGATCTGATCTGATTGCCTTCCATCCCTTGAGTCGGCGCAATTGAACGAACATAACGTC CCTCAGCCATTGGGAAGTGACGCCCATAGTATAACTGTCCTCTCCGCAACCAAAGTGTCTTAGAGATTTATTGTCATACT CAACAGGAGCTGAGACTCTACTCCGACAATGAAGGTAGAAGGAGGCACTAAACAATCACCAAAACCAACACAGTTGAGAC CAACCTCTTTCTAGAATGACTTCAACTCCTTAACTGGCACAAGATTGAAAATCAGCATCTGAAAGAGGCATAGCTCAAAT ACCCATCATAACCTTTCCTTGCCACACTCCTGATTCAAAGTTTTCTAACACTCTGTTTTAGGGATTGGCGACTTACCCAT TCAATGGATTTGGCACCGGACGTTCCAAAAATGGGTACTGTACTCTCGGGTCGCATGCTCTTGCAAGGCATCAACCACCA CTCTTATTACTCTATTCCCAGATCTTCAAGCATCACGTTATACAAAACTATAATATTTAAATGAATTTTTTAATTCATCC TGTCATACAACCTATAATGACAAACGAATATGCTGATTCAGCAGCAACCAAGCTAGTATCCGAGACAGTTTGTATCTGAA AACTTGTATACTTAAATTCAGCAAATTATTGGCAGAGTGGAGAGTATTATTATATTATTTGTAAGACAACTGAGTTGGCA ATAAAAAGGTATGGCACCATCTGTGTTGACCTAATCCATCCATGTCTTCATCAAGATCTAATCCCAGTCCAAAGTGGATA TGTGATGTCTTTTTGAGTTAATGTGTTAATAACTCTGCTATCTTTTGCTTCACGTCTCTATGCCGCTCTCACAGAGGCTG GAGTTAATGTTTTCAGGGACGATGATGATGAGCTCAGAAGTGGAGATCATATAACCCCCTCAGCGCTTCATGCGATCGGA GTGTCCAGAATTTCCATCATCGTTTTCTCAATAAATTATGGTGCCTCTGAATGGTGTATGCAAGAGTTGGAAAGAATAAT GGAGTGTCGCAGAACTATATATCAGAATGTTTTCCTTGTATTCTATAAAGTAGATCGCTCGGATGTATCTAGGCAGGAAG GTAAGTTTGGAGAAGCTTTTGATGATTTTGTTCAAAGAATCACGGTGGGGGAAGACAAATTGAAGACTTGGAGGCGAGCT ATTAGAAAAGCTAGCAAACTTCCAGAATTTATCTCGGTAGATTCAAGGTAATAAACTCATGTCTTCAGTGCTTGTTTACT ACTTTCTCCGATCCAAAACTATTCCAAAATTATTGTTATTTTAGCTTGTGTGTTTTTTTTTTTAAATTATTATCGTTTTA TAAATCAAAACATTTTATCTCATTTTCTTTCATTTATGCCACTAGGCTATAAAGAAAAAATGGTGGAAATACAATCTGGA AATAAATAAGATATATTTTTCACGGGACAATGATTCATTTGCAGGAGTAATTTAGGAAGAGAAAATGTTATATGCATGTC ATGTGACAAACTTTGTTAAAATTTAACAGAAGGTTAAATTTGCACATTTTAAAAAGGTTAAGGATATAAATACACCTTTT GAAAGGTTAGGGGTTAAATTGCACCTAAACTTTAGGGTAATAATTGGCCTTTTTTCCATTTAGATATAGATATATGGTTA TGTATTGGACTTTAAAACTGAATTTTTTTTAACAGCCCCTCCGAAAGCATGGAAATCAAGAGAGTGGTTAACCGTATTAT GGTAGATCTGCGAAACTACAAAAACGGGCACCTTGCTGAGCATCAAGTGGGGGTAGAATCACGTGTGCAAGATGTGATTG GACTACTGAACAGCTGTCAATCAGAACATCCTCAACTACTAGGGATATGGGGAATGGCAGGAATAGGTAAAACATCCATT GCTGAAGCCGTTTATAATCAAATTGGTGGTGGTTTTGAGGCTAAGAGCTTCCTCCGAAATGTCAGGGAAGTTGCCAAACG ACATAATGGCTTAGTTTCTTTACAACAACAGCTTCTTTTTCAAATCTTCAAAACTAAAGAAACAAAGATAGGTACAACTG AATCAGGAGAAAAGTTATTGCGGGAAAGACTTCAAGAGAGAAAAATACTTGTTATACTTGACGATGTGAATGATTCTGAG CAACTAAAGGCTTTGTGTGGAAGTGGTGAATGGTTTGGCTCAGGCAGCATAATAATCATCACCACACGAGATAGGCGTCC ACTCACGATGCTTGGAGTTGATCATGTGTATAGAGTGCCAGAACTAGACCAAAGGGAGTCTCTTGAGTATTTTAGTTGGC GTGTATTCCTGCAAGCAAGTCCTTTTGAAGATTTTGCTGAAATTTCTACAAAAATAGTTGCTTATTCTGGGGGATTGCTG CTTGCTCTTGTAGGCCTAGGGACCTTAATGTTTGGAAGGTACAGAGAATTCTGGCAGAGTTGCTTACAGAATATCAAAAG AAGTCTCATTCCCGAAGTAAAACAAATTCTAGAAAAAAAGTTTTGATGATTTACAAGATATGGAGAAAATATTATTCCTT GATATAGCATGCTTCTATTTCGGGATGGACCTAAATGATGTAATATCGAAGTATACATCGCCAACAGAATTTGCAATACG TGTTCTTCAAGACAAAAGCCTTGTAACTCTTGATGAGAACAACAAGCTTGGAATACACGTTCTGCTGCAACAAATGGGAA GAGAAATCCAAAGGGAGGAGTCGAAGCAAGTAGCTGATCAGGTGCGTAGCAAGGTGGACATGCATTGAGAAGTGATCTTT GACACTCTTCTTTCAAAACTATCTCAATTGAAATTCATGTCCACTAATTTGGAAGTTAGACCCATATTTTGAGTAGATCA CATGAATTTTAATCTTAAAGTGTTGGAAAAACAGTGTTATAATGAGTGTTGGAATTTGTTTCTTAATTGAAAATGAGTAA CAAATTGCAGCTTTAAAACCTCATATATCATGTGAATCGCATACAAATTTTAGCTAAAGCCATATATATCTAAGTGCTGT TTGATTTTTACATTTCAATTTCAGGCAAAGATCTATGATGTGTTCTTGAGTTTCAGAGGGGAAGACAGCCGTGCAAAATT CATTTCACATCTCTACGCCTCTCTTCAAAATGCAGGGATTAATGTTTTCAGAGATGATGATGAGATTCAGCGAGGAGATA CAATCTCCGTCTCACTGCTGGGAGCTATCAGAAGTTCTAGAATTTCTATCGTTGTTTTTTCAAAATATTATGCTAATTCT AAATGGTGTATGCTAGAGTTGGAGAACATTATGGAAATTCGCAGAACCATGGGTATGGTGGTTGTGCCAGTGTTCTATGA AGTAGATCCCTCAGATGTACGCCATCAGAGAGGTGATTTTGGAAAAGCTTTTGAAGATCTTATAGCAAAAACCTCGGTGG ATAAATTCATGGTGAAGAATTGGAGGACAGCACTCCTTGAAGTTGGTGGCATGGCAGGTCTTGTCATCATAAATTCCAGG TAAATTAATTTGAATTTAATATCTATAAACTTAGATTAATATCTATTTAAGTTTCCAAGTGTTACCATAAAATATATTTA CATAAATCTGGTCTCTGACTTATACACCTGAACCTAGAGTGGTCGTTAACAAAAAAAACCCCTCTTTTTTAGTCCCTGAA AAAATTTGCTTGATTTAAAATGGTCTCAGTGACGTCATAATGCTTACTTGACATTTTTATTTATTAATTACCGACCCACG TAGCGTCCACGCAGTATTTTTCATGAAATTTAGTCATTTTCTCCTTAATTTAAAGTGTTCCTCAATGTTCTCGTGAGTGT TCTTCATCTTCATCCTAATTAAACACCCTCAAACTGAGAAACTTAATATCACCTTCTTCTTCAACCCTACAATACTTTCA ATGTCTCTTTCTCTCTTCTTCCTCAGTGGACTCAGTTTCTAGAAAGGCTACACGTGCTTAGCCACAATCCCCAATCTCTT GACCAGAATTTATCCCAAATGAGTTACCTATTATGGTTAAATGTGATATTCTATAACCAGGAAACTGATTGTGATTATAT TAACTCCAAAGAAATATACATCAAAGAAAACATCTTCTCCTGTTGCACGGAAATTAACACATACATAACCAGGAAAAAGT CATACTTTTAATCAAAATATTTTATATTCATATTATATTTTTTATATATGCTACAAATTATGTATGTTTTCCGTGCGCAA CTTAAATATTCTGGGTTGTCACTACCGTGAATAATATGTTAACATTTGACGAGGATAAATGCAGAGCTATCAGTTTTTCA TAATTAAGTCTCCTCTTCTTTTGATATCACTACCACCACGGATTGTAAAATGGTAATATAATCGTTTATGCACTTATTCT AGGGTTCATATTTTACAGGAACGAAAGTGAGGATATCATGAAAGTAGTTGAAGATGTTACTGATTTACTAGGCAAGACAG ACATTATCGTTGCTGAGCACCCAGTGGGGGTGGAAGCTCGCGTTCAAAATGTGATTCAAATATTAAAAAGCCAGCAATCC AAAGATCCTCTATTCCTTGGGATATGGGGGATGGGGGGGCTGGGTAAAACAACTATTGCCAAAGCCGTGTATAATCGAAT TCGTCGTGAATTTGAGACTAAGAGCTTCCTCCTAAATGTCAGAGAAGTTTGCGAACAAAATAATGGCATAGTTTCTTTGC AACAGAAGCTTCTTTCTGATATCTACAAAACAACGAAGATAAAGATAGATACAGTTGAAATGGGAAAAGAAGAACTGAAG AGAAGACTCAGTCAAAAGACAATATTTCTTGTGCTTGACGATGTGAATGATAAAGAACAATTGGATGCATTGTGTGGAAG TCGTGAATGGTTTGGTTACGGAAGTAGAATAATCACAACTAGAGATGAAAATATAGTTAAAAAGGAGTTTGGAGTTGAAA TTGTGTATAGAATAAAAGAAATGGACAACAAGGAGTCTCTTGAGCTTTTTAGTTGGCATGCATTTAAGAAACCAAGTCCC GAGGAAGGTTTTGCTGATCTTTCAAGCGATGTAGTTAAATACTGTGGGGGGTTGCCACTAGCTCTTCAAGTAATTGGGTC CTTTTTGTTGACTAGGAGGAGGGTAACAGTGTGGAAGAGTGTACTGGAGAAACTCAAAATGATTCCCAATAAAAAAGTTA TGGAGAAGCTTAGAATAAGTTTTGACGGTTTAAGTGATGATGTTAAAGAAATATTCCTTGACATAGCGTTCTTCTTTATT GGAATGGAACAAGATGATTTTATTGAGATATTAAATGACTGCGGTCATTTTGCAGAAATTGGAATAAGTGTCCTCGTACA ACAATGCCTTATAACTATTGATAGGAAGAACAGGATCAGAATGCATGATTTGCTACTAGACATGGGAAAAGAAATCGTCC GCGAGAATTCAGCTGAAGAGGGCAAGGAGCCTAGTAGATTATGTCGCTACAAGGATGTGGATTTTCTATTATCCAAAGAT ACTGTAAGTCCTTTATGCATATATTGTTTTTGTTTCTAAATTATCTAAAGTCAGTGGATGCTAAATGACCTTTAATGACC CAGTTATTTCTTGTCCTATTTTCTTAGTAATTGTGAATATTATCTTGGTTATGAATCCTCTTGTGCTACTTGGTTCCCAA TAACAGATTATGGGCATCAAATCTCTTACTTGTATTCAGTTACTCTAGTAGATTTTGAAATGCCATTTACCTAAGCTCTA TGTCTCATTTTTTTTCTGTTGATTTTGTTTTACAGAGAACAGTGGATGTTCAGGGACTGACTTTGAAGTTCCCAATAACA GATTATGGGCATCAAATCTCTTACTTGTATTCAGTTACTCTAGTAGATTTTGAAATGCCATTTACCTAAGCTCTATGTCT CATTTTTTTTCTGTTGATTTTGTTTTACAGAGAACAGTGGATGTTCAGGGACTGACTTTGAAGTCTCCAGAAAAGGATAC AACTTATAAGTTGGAAGCCAAAGCATTTGAGAAGATGGATAAACTTCGATTGCTTCAACTTTCTGGTGTACAACTAGATG GAGATTATAAATATCTCTCAAGAGATCTTAGATGGCTTTGCTGGCATAGATTTCCTTTAAAATATACACCACCAGACTTT CACCAAAAAAGTTTAGTTGCCATTGACTTCAAATATTCCAATCTGGAACAAGTTTGGAAGAAGTCCCAGGTACGAGTTAA AAGTAATATTTTAAATATTTTAAATTTGGAAATTTGATATAAGCTGGTAGGAAAGTTTGGTCTAGCTAGGAGCCAAAGAG AAATGAATAATACATATAGGCGTGACTAAAAAAGTAAAATGAATAATACATATATTTCCGGGACATTTTAAACCACCAGA CGTCTTTGTATGATTTTTTTCTTCTTTTTCATCTATTTTTCCTATGCTGCTTTTCTAACAAGTGGTTTCAAATTCTTTCC AACAGATGCTGAAGAAGCTAAAATTTCTGAATCTTAGTCATTCTTTTAACTTGAGACAAACTCCAGACTTACCAAACCTT GAAAAGTTAGTACTGAAAGGTTGTACTAGTTTGTCTTTGATTTCTCATACTACTGGAAATCTCAATAAACTGCTTCTGAT AAATTTGCAGAACTGTACAAGCCTTCATTCACTTCCAAAAAGTCGTTAAAAACTCTCATTTTGTCTGGATGTTCAAAAAT TGACAAGTTGGAAGAGGATATAGAACAAATGGTATCTTTAACCACCTTGGTTGCAGATAACACTGGTATAACAAGAGTTC CTTTTGCTGTAGTGAGATCAAAAAGCATTGGATTTATTTCTTTGTGCGGCTATGAAGGATTCTCACGTGATGTATTTCCA TCAATAATACAATACAGTCTTGGATGTCTCCAACTAATAATATTCTATCCCAAGTTCGAGCATCTGCTGCAGGGATGTCC CTTAACCTCTTGGATGAAGAAAAAAGTAGATCCTATGGTCTATTACATGCTCTAAAAGATCTTTCCAATCTTCAGCGCCT TTGGGTGAAGTGCGACTCAGAAGTTCAACTGAATCAAAGTGTAGAAAGAATTTTGGATTCACTAAAAGCCACAAATTGTG CAGAATTAGAAAGAACACCAAGCACATCTCATGTCCCAAACAATAGTTCTTCTGTAATTGATTGTCACAGCCAAGTTCGC ATTTCAGGGTCAAAAAATTCCTCGACTTCTCTTTTGATACAAATGGGAATGAAGTGTCGTGTCTCCAATATTCTCAAAGA AATCATTTTACAGGTTCTCTCTCTCTCCCCTCTTTACACACATGCTACCATTGCCTTATAATGTCCTATTTACAAATGAG TTTGTGTTATGCATTACAATTTTAAATAATTTTATAGATCTTTACTCACTCGTTCATTTAAATAAGTTATAGAATCATTT TTATTAATGTTCGCTGTGCAGAAAAATTACCCCATTGGGTCGGGTTTACTTCCAAGTGACAACTATCCTGATTGGTTAAC ATTCAATAGTGGATGTTCTTCTGTAACTTTTGAAGTCCCTCAAGTGGATGGGCGTAACTTGAAGGCAATCATGTGCATTG TCTATTCTTCTTCCTTAGACAACATCACATCAGAAGGCCTGAAAAATTTGTTGTTGATAAATTGCACAAAGAACACCATT CAGCTCTATAAGAAAGATGCTTTAGATTCCTTCCATGAAGAGAAGTGGCTGAAAGTAGTTTCAAATATAGAACCTGGTAA TGAAGTGAAGGTGGTTGTTGTTTTTGAGAATGGATTCACTGTGAAGAAGACAGTTGTTTATCTCATATATGATGAACCAA TTGACAAAAAGGCAGAGCACTACCATGAGCCAGATAAGAATGCTGCTATTTCCGGTGGTGATGAAAATGTAAGTAGTAAT AATAGTCTAAACTTATGCACATTCTATATGAATGTTGTTTTTCATTATTTTTATGCAAGCAACTCAGTTACCTCATAAAT TTGGTAATAGATGTAGGACACAATGAACTGGTTCAACTGCTAGAATGGATTAGAATGAGCACCTTTGAACTTCAATTTTA TTTCTTCTAACTGTATTGTTTCATTCACGAGGTTTTGTTTCTCTCTGTTTATGGTATTAGAGATTTGTTAGGCTCTTTTC CATACTTCCTGCCTGTGTGCGGGCCGTTCTGACTTCAAAGCCTTTCTGGTTGATCGGTCTAGCTGTTATCTTGATTTGGT CTCGCTACTTCTCTAACCAGCGAAGGAGACATAAACCCATTTTAAGGTACTACAAACCCATCTTTTTTTGGTTTCGCAAA ACATTTGCATGTTAAGAATCATTTTTTGCTTATGAAATCCATTTAACCTTTCCTAATAAGCTATCTATCATAAGTCAAAG GTTATCATCCATTTAATTTGCGGTGTATATTTTTTATTTTGGGTTTATATTAGTTCCCTCTAAACCATAACTTTGAATTT AGATCTTGATGACTCATTTCCCTTTGGAATTCATGATTGTATGCTACTATGCAGAGTGAAGCTTTGTATCAATAATGATT TGATTTCTAATATTTGAGATGCTTCGTGTTGCTTTATTGGGTGTGAAGAGGTGGGATGAAGAAAATGAATCAATCTTTCT ATGAAAGATGGGTTGATGCATACCAACAGGGCATTTATTCCAAGTACTTCAAATTTCTAAAAGTCATTGGACAAGTTTGC AAAACAAGACGCATGAACTGATTGAACACAATGGTGTTTAAAGCCTTTCTGGTTCGGTCTGGCTGGTATCTTGATTGGGT CTTGCTGCTGAAATGGAATTGTAACCCCATTTCAAGGTACGAACCCATCACTTTTTCTTCCACGTGTCATTTATACATTC AGAGCAAATTTTTGATATCTGTGATATACTATTAGAGTTTTGATACATACACACCTCGTTTTCTCTCCTCATATCATTTC ACTTACTTCTCTTCATATCTCTCTTATTTTTCTATCACATCATTCTTTTTTCTTTCTTTTAACTGTTTCCATATTTTTAA GCTCTCCTAAGAAGCTATCAATCATCAATAACAGGCTATCGTCCATTAATTTATCTTGAACATTCTTTTTTTTGGGCTTA TAGTAGGTCCCTCTGTCTGAACCATAACTCTGTAACTAGAGCCTCATTACTCACTTTCTGTTGGAATTCATGATTGCATG CTATTATGCCTAGTAAAGCTTTTATCAATAATGATTTAATGCAAATATTTGAGGTACTTCCTGCTACTTTATTGTTATGT ATGAAGGTAAATGTCCACTGACAGCGCTCAAGAATCCAATAATCAAGTAGTAAGTGCTTAAACTCCCTCAGGTGATGTCC ACCTGGATGTGAAGAAGTGGGATGAAGAAAAAGAATCAACCATTCCATTATGGATTGGTTGATGCCACCATCAGGGCATT TATTCTGAGTATTTCAAATTTCTGAAAGTCTTTGGACGAGATTGAAAAGCAAGATGAGCAGAAACTGATTGATGACAATT AATGGCAACAAGAAAGGGAGGAAAAGGCTAAACAGCGAGGAATTGTCTTCCGATCCAAATTAGTCCAAGATTCAATGTCT TCCTTAGACCTTTGTGTCATTTTAGTTGTTAGCTGTGTTTTACATTTCGTTTTCTTTCAAGTCCACTTATGTTATAGGAA AAGGCTATCGTCCATTGTCAATAGGAAATTCTCAAGAAGAAATGAAATAGTTTCCTTTGACTTGAGATTATCATAGTAAT TAACAAGTTATTTATTATACTTTAATTTGGGACATGTAATGTCCTAGGACGTTACTTGAATGAATATTGGGTCTGATTAA ATGCTTGTAGAATTAATGATTAATCAAGATGGAATCCATCAACTTTTGGTTATGAGTTTGAGCTCTAGAAAAGAATTGTA TAAAGTATTAAAATTAAAGAAGAAAGGAGTTTCTTAAGTTATTGTGGCAACTTATTAAAGTTTGTCAATTATACCATACT TTAGAGTTGGTCAGAGCTGTAATGTTTGAAGGACATATTTCAATTAATCTTCTAAATGGTTC
CDS sequence (LotjaGi3g1v0212400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGAAAATATTATTCCTTGATATAGCATGCTTCTATTTCGGGATGGACCTAAATGATGTAATATCGAAGTATACATC GCCAACAGAATTTGCAATACGTGTTCTTCAAGACAAAAGCCTTGTAACTCTTGATGAGAACAACAAGCTTGGAATACACG TTCTGCTGCAACAAATGGGAAGAGAAATCCAAAGGGAGGAGTCGAAGCAAGTAGCTGATCAGGCAAAGATCTATGATGTG TTCTTGAGTTTCAGAGGGGAAGACAGCCGTGCAAAATTCATTTCACATCTCTACGCCTCTCTTCAAAATGCAGGGATTAA TGTTTTCAGAGATGATGATGAGATTCAGCGAGGAGATACAATCTCCGTCTCACTGCTGGGAGCTATCAGAAGTTCTAGAA TTTCTATCGTTGTTTTTTCAAAATATTATGCTAATTCTAAATGGTGTATGCTAGAGTTGGAGAACATTATGGAAATTCGC AGAACCATGGGTATGGTGGTTGTGCCAGTGTTCTATGAAGTAGATCCCTCAGATGTACGCCATCAGAGAGGTGATTTTGG AAAAGCTTTTGAAGATCTTATAGCAAAAACCTCGGTGGATAAATTCATGGTGAAGAATTGGAGGACAGCACTCCTTGAAG TTGGTGGCATGGCAGGTCTTGTCATCATAAATTCCAGGAACGAAAGTGAGGATATCATGAAAGTAGTTGAAGATGTTACT GATTTACTAGGCAAGACAGACATTATCGTTGCTGAGCACCCAGTGGGGGTGGAAGCTCGCGTTCAAAATGTGATTCAAAT ATTAAAAAGCCAGCAATCCAAAGATCCTCTATTCCTTGGGATATGGGGGATGGGGGGGCTGGGTAAAACAACTATTGCCA AAGCCGTGTATAATCGAATTCGTCGTGAATTTGAGACTAAGAGCTTCCTCCTAAATGTCAGAGAAGTTTGCGAACAAAAT AATGGCATAGTTTCTTTGCAACAGAAGCTTCTTTCTGATATCTACAAAACAACGAAGATAAAGATAGATACAGTTGAAAT GGGAAAAGAAGAACTGAAGAGAAGACTCAGTCAAAAGACAATATTTCTTGTGCTTGACGATGTGAATGATAAAGAACAAT TGGATGCATTGTGTGGAAGTCGTGAATGGTTTGGTTACGGAAGTAGAATAATCACAACTAGAGATGAAAATATAGTTAAA AAGGAGTTTGGAGTTGAAATTGTGTATAGAATAAAAGAAATGGACAACAAGGAGTCTCTTGAGCTTTTTAGTTGGCATGC ATTTAAGAAACCAAGTCCCGAGGAAGGTTTTGCTGATCTTTCAAGCGATGTAGTTAAATACTGTGGGGGGTTGCCACTAG CTCTTCAAGTAATTGGGTCCTTTTTGTTGACTAGGAGGAGGGTAACAGTGTGGAAGAGTGTACTGGAGAAACTCAAAATG ATTCCCAATAAAAAAGTTATGGAGAAGCTTAGAATAAGTTTTGACGGTTTAAGTGATGATGTTAAAGAAATATTCCTTGA CATAGCGTTCTTCTTTATTGGAATGGAACAAGATGATTTTATTGAGATATTAAATGACTGCGGTCATTTTGCAGAAATTG GAATAAGTGTCCTCGTACAACAATGCCTTATAACTATTGATAGGAAGAACAGGATCAGAATGCATGATTTGCTACTAGAC ATGGGAAAAGAAATCGTCCGCGAGAATTCAGCTGAAGAGGGCAAGGAGCCTAGTAGATTATGTCGCTACAAGGATGTGGA TTTTCTATTATCCAAAGATACTAGAACAGTGGATGTTCAGGGACTGACTTTGAAGTTCCCAATAACAGATTATGGGCATC AAATCTCTTACTTGTATTCAGTTACTCTAGTAGATTTTGAAATGCCATTTACCTAA
Protein sequence (LotjaGi3g1v0212400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEKILFLDIACFYFGMDLNDVISKYTSPTEFAIRVLQDKSLVTLDENNKLGIHVLLQQMGREIQREESKQVADQAKIYDV FLSFRGEDSRAKFISHLYASLQNAGINVFRDDDEIQRGDTISVSLLGAIRSSRISIVVFSKYYANSKWCMLELENIMEIR RTMGMVVVPVFYEVDPSDVRHQRGDFGKAFEDLIAKTSVDKFMVKNWRTALLEVGGMAGLVIINSRNESEDIMKVVEDVT DLLGKTDIIVAEHPVGVEARVQNVIQILKSQQSKDPLFLGIWGMGGLGKTTIAKAVYNRIRREFETKSFLLNVREVCEQN NGIVSLQQKLLSDIYKTTKIKIDTVEMGKEELKRRLSQKTIFLVLDDVNDKEQLDALCGSREWFGYGSRIITTRDENIVK KEFGVEIVYRIKEMDNKESLELFSWHAFKKPSPEEGFADLSSDVVKYCGGLPLALQVIGSFLLTRRRVTVWKSVLEKLKM IPNKKVMEKLRISFDGLSDDVKEIFLDIAFFFIGMEQDDFIEILNDCGHFAEIGISVLVQQCLITIDRKNRIRMHDLLLD MGKEIVRENSAEEGKEPSRLCRYKDVDFLLSKDTRTVDVQGLTLKFPITDYGHQISYLYSVTLVDFEMPFT
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 | 1 | 69 | 69 | 5.6E-224 | – | |
| PANTHER | 1 | 69 | 69 | 5.6E-224 | – | |
| Gene3D | 71 | 242 | 172 | 5.5E-61 | ||
| SUPERFAMILY | 72 | 219 | 148 | 3.27E-40 | ||
| PANTHER | 72 | 610 | 539 | 5.6E-224 | – | |
| PANTHER | 72 | 610 | 539 | 5.6E-224 | – | |
| ProSiteProfiles | 76 | 217 | 142 | 29.482 | ||
| SMART | 77 | 217 | 141 | 2.0E-42 | ||
| Pfam | 78 | 240 | 163 | 2.6E-42 | ||
| Gene3D | 243 | 405 | 163 | 1.4E-30 | – | |
| SUPERFAMILY | 248 | 508 | 261 | 1.25E-61 | ||
| Pfam | 258 | 482 | 225 | 2.9E-36 | ||
| PRINTS | 278 | 293 | 16 | 2.1E-18 | – | |
| PRINTS | 355 | 369 | 15 | 2.1E-18 | – | |
| Gene3D | 413 | 498 | 86 | 3.8E-7 | – | |
| PRINTS | 448 | 462 | 15 | 2.1E-18 | – | |
| SUPERFAMILY | 485 | 586 | 102 | 1.09E-11 |
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 LotjaGi3g1v0212400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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