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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0283800 |
| Transcript ID | LotjaGi1g1v0283800.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Splicing factor 3A subunit 3; TAIR: AT5G06160.1 splicing factor-like protein; Swiss-Prot: sp|Q9FG01|ATO_ARATH Splicing factor SF3a60 homolog; TrEMBL-Plants: tr|A0A151TS58|A0A151TS58_CAJCA Splicing factor 3A subunit 3; Found in the gene: LotjaGi1g1v0283800 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:69107016..69122830) extracted from Lotus japonicus Gifu genome v1.2.
ACCTTCCATTTGAGTATCGAGCGCGATATAGAGAGAGAAAGAGAAGTGAAAGCTAGAGAGAGAGAGAGAGAGAGGATGTC GTCGACGTTGCTGGAAGTGACTCGGGCGGCACACGAGGAGGTAGAGCGGTTGGAGCGGCTGATAGTGAAGGATCTTCAGA ATGAACCTACCTCCAACAAAGAGCGTTTGTTTCAGAGCCACCGCGTCAGAACCATGATCGACACCATCACCTCCTCCACT GAAAAACTCGTCAGTTTCCACCTTAGGTTTTTCGTTTTCTTCTTCTTTTTCTTCTTCCATTCCAATCTTAACTACATTGT ATGTTGCAGATTGATATATATGAAGATAAAGACGGTGCGAGGAAGGACGAGATTGCTGCACTTGGAGGCCAAACTGCTAC TGGAATCAATGTTTTCAGTGCCTTCTATGATAGACTCAAGGAGGTGAATTTTTTTATTTTTTATTTTTTATTTTTTTCAA TTTCAACTGTGAGTTTGGAGAATTGGAGTTGTTGTTGTTGTGTGTTTTGAGTTTGGTTTCATGTTTGTGTTTTGGAATTG AGATTTGTGATGCTTAGGGTGTGTTAGGTTACTTGATTTTTGTTACTTGCTGCTTGTTTAGGTGTAATGGATTTGTTGTT TTTTGTGGTATGTGCAGATACGAGAGTATCATAGGAAGCACCCGGTTGCGCGTGTTGTTGATGCTAATGAAGATACTGAT GCACTTCTTAAAGAGGAGCCTCAAATTGAGTTCAGTGGAGAGGTCTACTACTACTCTCTCTCTCTCTCTCTATATATATA TATATATATATATTTATGTGTTTGTGTGTGTGTGTAATCTAGCAATGCTCTTAGAGCATGAACTATAACTGTGGTTTTCT TGCTGTTAAATTTAACTTATCCCAGTATGTGGGATACACTTTCAAAAGTACAAATTTGGAAATTCTTCATCTTTTAAGAA TAGCATCGACAATTCCTTAGGAATTTTGGGTATCCCTCAGATCTGTCCCGTGCATGAATGAACCATTTAGTAGTTTATCT GTGCATCAGAAACTGGTGAAGAGAGTCTGTCTGAGCCTCTGAGCTGCCTTTTCTACTACTAAATGGTTCATTCAGAACAC TTATGATGACACACTTAGTAGTCTATGCAAGTATTTTCAAAACGCAAGATGAAATCTAACATATTCTACACTGTTAGGAG AGATGATGTATCATTTCCCGTACCGATAATTTATCCCCCTGCAGCTTTTTCTAGTAACTGATTCCGTGAAATTTTTTCTT GTAGGAAGCTTATGGTCGATACTTAGACCTGCATGAATTGTATCATCAGTATATAAATTCTAAATTTGGGGAGCCAATCG AGTATTCTGCATACCTTGATGTTTTTTCGGATACAGATAAGATTCCACGTAAAATGAAATTGACCAGGTGAGTTGTGTTC TGTTAAACTAAATTTGTCTATCACTTGACATCTATGTGTACCCTAGTTCTGTATGGAATTTGTATTGGCTTCTAAGATTT TGCTATTCGATTTCTATAGGAAGTACAGGGAATACATGCAGAATCTTTTGGAGTATCTGTTATACTTTTTCCAGCGGACC GAACCCCTACAAGATATTGATCGGATTTTCTCAAAGGTGATTAATGATTATTACTGTTTTGAATGTGAAGTTTTTTTAGC ATAATTTTAAGCCTCACTTTTCTGTAAGGAATTTTTTTTTTCATTTCTCTTTGTTTGGAAAGTTTTGAAGTAGAAATGCA TAGGATCGGCTCTTCAAATGATTTGCTTTAGTTGTTTTTCGTCCAGAAAATTTATTTCAATGAAATCCAATGTTTTGGGC TGTCAAATTGTCTTGTCCATGCTTATAATTCTTGTGATAATTTTTCAATTTTATAATCCTTCTATTACCACACATTTTCC TCTATAGGCATGTAGTAATTGTTTATTTGGATATTTATAAATAAATTTACTCCATTTCTTCTTTCACATTATCCTATTTT CTGTAGCATTCTTCATTTTAGTAAAGCATTTTCTGGATTAAAGCTAAAATCGCATAAATATTTGTAGTGTTTTACAGTGT AATTATTATGAATAGACATTAGAAAGGATTATATTGTTTTAATCTTTTATATTCTCTTTGTTGAAGGGTAGTGGTGCCTT TATATTGCATCTTAAAGGGTGTGTATCTATTTGTAGTTACATCATTTCCATGTATTTTCATTTATCTCTTTTTATGGGAG GGAGAATCTGATATAAGTATGGCAGGTGACAGCTGAGTTTGAAGAAAATTGGCTTGCTGGAAGGGTTCACGGATGGGAGA AAGATAATCAGGAGAATGGACATGTACCTTCTCAACACGCTGCAATTGATCTAGATTATTACAGTACAGTTGAAGAGCTG ATGGAAGTGGGGCCCGAAAGATTAAAGGAGGTAAAATTGAGGACTCTGTTTATGCATTCTATTAACAATGTGGCTAGTTA GGCTCAAGGGCTCACCCTTTCTTCTTATAAAGTAAATATCTTGAATTTCAATATTCATAAAGTACAGAGGTTAAGTATTG TTTCTTGCCGTTCATTGATTTGTGTAAAACATAGGTTTTTGATAACTGGTTCTTTTTTCTGCCCTGCTTTTGGATGTGAT AGGCACTGGCTGCGTTGGGACTTAAGACTGGTGGCACTGTTCAGCAACGTGCAGAGAGGCTCTTCCTCACAAAGGTGATT TATATATACCTGTACTTTTATTAAAATACAAGATTACACTTTCTATTTTCTGTTTCATGTTATCTTTTTCCATCGAAGGA ATAGAAATGTAGGGATTGTATTTGCCATAGTATAGTACATCAAAAAAGGCCAGTGAGTGTGTTTGGGTGAAGCTTAAAGT ACTTTTATTTTGTCTTGGAAAGTCAATTCCCACATTCCTAGAAGAAAAACATCAAAGCAAATATGTGGTAGAGTTAACGT TCATGATGTTAAAGCAAAAATACTCCAAGGGATATTAAATGACGTCGTGCTTATCATTTCCTTCCAAGTTGATTGTCATA AGTCCAAACATTATTAGTCCAAAAGCTGGGAGTTTCTTGTATTCGAGTCAAAATGAAATACCTACATGTAGAGGTGGGCA CAGTTTGATTATGTTTGGTAAACCAATCCCAACTGATTTGAACTGAAATTTGTTGTCTAAAGAACCAAACCAATTTTATT TTATAACAGCAAAATCTGAACCATCTAAACTGGTTTTTCCAGTTCAGTGAACTTGACTGAACCAAAATATGTAAGATTTC CAGTTTGAGCAAGTTTCAGTCTGAAACCTGATTGAACTAATGTCTTCGAATATGAGAAGTCCAGAAAAATCAAATAACTA TGGAGAGAGAGAGAATATAAAAGGAAGGATGGGAGGAAACTTGTGTGAGAGAAGCAGTATTATTTCTCCTTGATAGAAGG CAGAGTCCCAGAGAAGAGGGGTTTCCTTCAGTCAATGAAATGAAACTTTGTTACAAGCTAATGTATGACTGACTTAAATA TTTATGTTTGGTTATTTTAAGTTAATCAAACTTTATTGTGCTATAGAGTATAAAACTATTCATATGTCCTCACTAACTGT TCAAATTTTTGGTTAATGAACTGGTATGAGTATAAAACTATTCATATGTCCTCACTAACTGTTCAAATTTTTGGTTAATG AACTGGTATCATCAGAGCCTGGTTTAGAGTTCAATCATTGCCACTCCAATTTCCTAATAAAAAGTGGAGTTCAGCACCAG ATAGGTGTACCTGTGCAATGTTCATGCTTCAAGCTCAAAGGGCTCTTGTGAGGGGTGTGTAATAAAATTATTGATGTGTC TGCAAGCTTTTGGGATAGTTGGTTGCCTGTATAACACTTAGCTGAACCACGTGGAAAAATGAAAACCAGTACGGTCATAG GATTCAGTTCCAGAAAAATTGGTTTGTTAGATGCAGTTTTCAGTTCACAGTCCCTTCTGGTTTGGTTCCACATAGCTTCC TGCTCACCCGTACCGACAGGGTCAGGCCCAAGTTGACCGTTTCTAATGCTAGTTTAAGATGTTTTTTAGTTACATTGGCT TCTCATTCAAATCCCTCTAAGTTATAACATATATAAGTACAGTCCTTGGAAAGCTAGCTTATAGATAATTGAGTCTAGGC ATAATCTATAACTTTACACATCCCAGATGGTGATCTATTTAATAAAACACAAAAGTATTTTGTAGATCAAAATTAATATC AAACCCTTCAAGACCAATTTCCTTTTTATTTTGAAGAGGCCTTTAATTTTGATTCTAGTTGCTCTGTTGTCCATGAGCTA TAACAATTTTTCTGTTGTTGTTCTATACAGCATACTCCTCTTGAAAAGTTGGACAAGAAGCATTTTGCTAAGGGAGCACA TGGTGTAGATAAAAATGGGGTTGCTGCAGTTACTCAAGAAGATGGAAATTCAAAAGAAATTGCATCAATGGAGGCCAAAA TGACAAAACTGTGTGATTTGTTAGAAGAGGTTAGCGCATGATGCATAATTTCCTCTAGTTTAGTTCTTTTGATGTTTCAT ATTCTAAATTGAGGCATAGACAAAGACTTCATGTGTAGAAACTTCTATCTACATGTATAATTTTTCTAACCTTTCTACAG ACAATTGCTCGAACCAAAGACAATATTGTGAAGAAGCAAGCCCTAACATATGAGGAAATTGAAGCAGAACGTGAGGAGGT GAGTTAAAGCAATTACTATGATATTAGTTTTTCAAATTACAGTTTCAATAATTTTAAAAGAGTACATTTAAATAATATCT TTTGCTTGGATGCAATCAATTTAGTATATTAAATGCACATTTCTTGTTTGCTTTGAACATCTGGGGGGATGGCTTTTAGG ACTGAAGTTTAAGAGCAGGCAATGATTTATATCTTCATATGAATTATCTACCGTCTCTAGATTCCAAATGATGTCCAAGA TGGCTTTGGTCCACTCCATTGCATAAGTAAAGTTTAAATTACAACTTGGCCATCTATGCAAAAAGAGCAGAAAACATTTT TTTCTATGATTTCATCTCAATGTTTTATCTTGAACTTCGTATAGCCATATGTACCTTGAGCTGGTCAGGTATGGCTATTA GTAATTTAGAATATCATGAATTATCTTAGAATTTGTTTCCATATTTATTTATATTTTATGATTTATTTCCTTAGATAATT AGGATTAGGAGTCTAATATATTATTTACAAGGATTGAATATGTTTTTTGTCCCTGCACTATAGGAGATTATTGGTTTTGG TCCCTCATAATTTTTTTGTATTACTTTCGCCCCCCTTTTTTGGCAATAAACATTAGTCCTTGACACCACTTAAGTGATGC AGTGGGGGTGCTTACCTGCTCACGTGTACGACTCTTATGATGTGGATTTAGTGACTATTCTCAAAAAAAGGAAAAAATTA AAGCTTGCATGGAAATTTTCCAGTGAATTACCAAAATTGACATCCCTCTCCTACCTTTCCATCCACTGCAAACACCTTCA TCGTCCCTTTCTCTCCAGAAGCACTCTCTGTCTCTCTCATTTCAATGTGAGGAATTTTCCGGGTCCACACAAAACCCAAA CATGAATTGGGCGAAACCAAAGGGAACAAGCCGAACCCACAAAAATTCACTACAAAGCTCATTACTTGAGCTTAAATATC ACCATCTTTTCACTGTCCCTGAGGATTATTCATCTAGAAATGTAATTTCATTTTTGACCTACCAATGAGGAAATAACTTC CTCACTTCATGGAATTTTGTGTGCACCACTGGCTTGTGTATGAATGTTTTCCTTCTCTGTTTCTGAGTGGATTATGCTGT TATATATTACATCATCGAGGTATTGTTAAGGAGAAGAAGAATGATGCCATGAAAATGATAGGGAAAAGTTATTATATAAG GGAAGAAATTACCTTATGGCGCTCAGTGAACCATCCCATTAAAACACATTGGCTTGAGAGGAGAAAAATGTATAATCTAC TGTTAAGATGCATTAAACTTGAATTCTAGCTGAATGTACTGAGTGAGTATTTGTTAGTTTTTCCCCTCATTCCTCCCTTT GTGTCTTTCAAAATGATCTGGAAAATTAAATCTTTCTGTATTTTCATCATTTAAGTTTCATAGACCATACTAATGAGAAA TATAAGTTTCATTCTTTTGCCTGCCCTCATTACACTTCCTGTTGTTTTGGCCATTAATTTTTATTCCTTCATTGGTTACA AATATTTCTTGTCTAACTGTACCTTATATTAAATAACTTTTGGCAGGAAGAAACACAAGAGGACTCTGAAAGCGAAGATG AGGAGCAACAGATTTATAATCCCCTAAAATTGCCAATGGGGTGGGACGGGAAGCCTATACCTTATTGGCTATATAAGCTA CATGGTCTTGGTCAGGTAGTATTCAATTTCCATTAAAATCTTTGAACTGAAATCAACATATTTTCTCATTAGTCATGTCA AGCAGTCTGCATATTTGTTTTTTATTCTTGAGTCTTGGCAGTCACCTCAAATAGCTTGTGGCCTATAATATTTATCCCTT TTCTAGAGTAGCAGGGATCAGTTGAAAATAGAAGCTTTTAAAAGATAGAATTGTGATCATCTAATTTTTCTTGTTGGCAG TATTGCATTAGATAACTCCATTCGTCGAATTAAAATGGAAGTTAGGAACTTCGTTACAAGTCTGGCTCTCAATATTTGAT CATTAAATAATGTAATATGCATTTCAGGAATTTAAGTGCGAGATATGTGGGAACTACAGTTATTGGGGGCGTCGGGCTTT TGAGCGACATTTTAAAGAATGGCGCCACCAGCATGGGATGCGGTGCCTTGGTATACCAAATACCAAGAACTTCAATGAAA TCACGTCAATCGAGGTATGCATTTTTGTTTGTCTCATTCCCTTGCTGATAGTGAGTCTGTAGCATATCTCACTAGTATTA CAAATTATTTCCATCTTCTTTGGGTCCTTGCCTAGTTGCCTTGTTATTTAATGTTATACTTGCATGTTATTTCCATCTCT GCCCTATGCTATAACTAATTAAAATGTAACGTACATTAAAACGTCAGGGTCTAACTTGATCATTCAGCATTAAACTTCTC TTGTATATACCGTATTTATATATTTGTTAAAAGTTTGAAATGTGACCTTTCAAGAATTTAAGTGCAAAATTATATTTGAT TGCATGGTTTGATTTATTACTGATGTAGGTTGCAATACCTGTATCAGAATTTGTCCACTATTGTTTTCCTCTTACCCTGC AAGGAAAAAAAACTAATAGTCTGCTTGTAATCGTAGATACTGCCAATACATAGAATTTTGTTATTGTTCCTATCATGTAC TTGATTATAGTTGCAAGTGCCAGTTAACTTTGTTTTATGTACTTGTCCTTGTTCAAAACACCTGAAACAACATTAAAAAG ATTCATTGTGAGAAATGCTCAGGCAATGTTGAAACTGAGCACGTGAGTGTATAATATATTCGGTTTTAAAAACGAATTTA GCAAAAACACATTATCAAACCAGAATGAATTCACTTCTCGACAATCTTGGAATACTTGTGCTATTTTCTCTCTGGGACTC TGCAGTCCTTCTCAATCATTGTCCAACAAAAAAAAACTACTGTTTTTTTGTTACCTGTGACATTTAGGTATCTAACATTC TACCATGCTCTTTTGTAGGAAGCAAAAGATCTTTGGAAGAAGATACAACAAAGACAAGGAACGAACAAGTGGCGCCCCGA TCTTGAGGAAGAGTACGAGGACAAAGAAGGCAACATTTATAATAAGAAGACATACACTGATTTGCAGCGCCAGGGACTTA TATGAGAAAGAGAAACTTCAGAGATTTCTTTTCAATTCTTCTATTTAAAAAGAAAATTAACAATCCTGTCCTCACCTCTT CTATGAAGTGGAAGCAGTTTGTTTTCTGCAGAGTTAATAGGAGAATGGTTGTATCTTAACAAAGTAATGTGCACTAGAAG GCAGAAGAGTGGACAGACAAAGCAATATTCTGTGACTTGTGTTGCAGTTTTCTGAGAAATTGTGTACTTGTATCAATTCA CACTCTAGGTTGCATAGTATCAATTCTAGGTTTTTTGGTGTCAACTAATGTCTTTATTTCAGTAGAGATCTGTGGATTAT ACCTTGCATGAACGTTGGACGGTGCTAACCAACTCTCAACCTTTCTCAAAAAAGTTCTTGAGCTAAAAAAAAAAATGAAT AAACGCAAAAATAAATGCTTATCATAGATTTCGTTTTAAGGCGTGCTAAATGAATAAACGATGTCTATTGAATACACTTT TTTTATATCTTGGCCCTTGAGAAGATGGGCAAATAAGCTCTTATATGTTCATGTTTGGATTCGTTAATTGGAATGTAAGT GAAAATAAAATGGACTCTGCAGTATATGCACCTATGATATAAAACCTAATTACACAACCTGTATTGTCTCGTAAATAACA AAATAAAATAATGAGTTAAGCGACCAGTTAACATACAACTGAGAATCCGTAAAAAAAAAACATACAACTGAGAAGAAATA ATTTTAAAATAAAAGTCCAATCAATATCTTTAATCTTGTATTTTAAACGTAAAAACCATGCAACCTTAATATGATTAAAA GGACTTGAATGAGATTGTTATACATGAGTTCTAGGAATCTCAGGGCGAGTAATATCAGACTTCTCAGAGTTACTTTTCCT TTTACAAATGAACATAATATACTCTAGCTTCTCCCAGAATCAATTATTCCTCAAACGTCAAAACCTACAGAAAATTCATA GACACTTAAATGATTGAGACAAAGGTCAGAATCAAACAAACCCTGGCTCACCCACCCTTGTCCCCAACATGTTTCCATCA AGATTCAACCACTGAGGCCTTTTGGTGGTTATGCCAGGCTACAACCTCTTGATAGGCCAAGCTTCCCCCAAAAATATCCA AGGCACTGCCAACAGTAACATCAACACGTCCCATTCCTGCTGTTTTTATCCTTTCTAAATCAGCCAATACAGTCACACCA CCCGCATAAGTCACAGGAATCTGACAAGAAGCAAAATACATCAATAATATGCACACTTCACATGCTTTCCAATCAGAAAC GCAATGGAAATCTTATATAAGCCATAATTTTTTTAGAGCCATAATCCTTCAAATACTGAGAACATTATTTTGTTATATTT ACCACTCTTAAAAATACTCATAAACATCATTTCAGCAAACAGAACATATATACATTCAAAAGGCATACCTCCAAGATAAA CACGACATACTAACACTTGTATAAGATACCCGGGCATGAATTCTCTCCAGTGACATGACCACTAGAGATCTAGCCATCTA TTTTTTTTCCCCATTTTTCTAACATATTTCAGATGGTTGGGATCTCTCTCCAGTGATATGATCACCGGAGAGAATCCAAA CCCATAAGATCCCCCCTCCCCCACAAAAAAAAATCCTTATGAAGTTATGGTAATTTGAAAACTTTGTTGCATAGAAGTCA ACAGGTTAAAATAAAATTATGCGTGGTTACTAACCGGCGAATGTTTTCCAAGCAAAGCCACAAGCTCTTCATCAATTCCC AACCTACAGGGAGCAATCACTTAACATCAGATATATTTCCAAGCATGCATATGGAGTTTTTTTTTTCTTTTTCCATTTTG TCATATAAATTGTGGCAATCTTGAACAGTCGCATGAATTGGTAATTATATTCTTTAATTAAGATTTTGAAATAATCACCA GAACATACAATCTTGAACAGTCCCATGTTTACTTAACTGTTGATTTAACAAGACAAAGTGATGTAAACAAATACCAAATC CACAAAAAAATCTACTAAAATGATCTTTGCAAACATGTTTATTTCATTAACTCAATAATAAATACCAAAATAATTAGTGG AGGTCTGATTTTGAAACAATTTCTTTAAGCATGACATCCATACTGGAAAAATGCTTTCTCATCATCAATTAAACTACTTT GATGCATACAGAATCACAGTCTGAGTTCAAATTTGTTAGTCAATAGTCCAATAAAACTATTAAAAATGTACTTGATTGCA CTGGAGAAAAAAATACAAATCTATTGTTGGATTGAAGAGAAGTTCAAAAACACATTTAATCCCTCTTGCCCTCAAATTGA TTGTGATATATTTACCCTATAAAAGTTTGGGCCGTTAAGGTATTAGAAAAAGTGAGATCAATAATAAACAAGGATAAATT TGGAAAATGGAAAGACTTATAGAAGAATAGATTGTACAGAACACTAATGTATTCTATTAGCAATGCAAGTATGCAACCAA GAAACACACCAAACAAGCTACATAAAGCAACGTTTTCCATTAATTTATGGAGCAGACAGTCAATTTTTCTATCCAAAAAA AAATTTCTCCCACTCATAACTAATTTAGTAACTTAGAGTTTAGTCTAAACATGTAGTTATTATAAAAGATCTTATACTTA CTTCTTCCCTTCAACATCAACACCATGAACCAGAAACTCATCAGCAAAGCTGGCAAGAAATTCCATAACTTCAGCATCAA GTGACACATCACTGAACTTCTGCCATCTATCAGTGACAATTGCATATTTACCATCCTGAGCACTGGAAACTATAAGTGCT TAAAAGAAAAAGTCCAACTAAAAGCATGCAAGGGTTGGTAATAATATCATAAAATTGTTACGAAGTTTAACACAACATCA AGTTTTCAATACATGAAACTATTTCTAATTACTGAATACTGATTGCTTCCCTCCCTCAGGTTGCATGAGATTGCTCTTGA GCATTTGAATACTTTCAAGCAATTATTTGTGTCATATCCGTTCCTAAAACTTTTCCAGAAAAAAATTACTTTCAAATATA ATATAAGTGAATGACCATTTCTACCTTTTTCCTGCAACTGAGATCCAACACAAGCCTCTCTTTTCCAACAATTCGAACAA GATCTTTTAGCCTTCCAAGATCCATTTGTCCATTGTTGAATACATACTGCAAAGATGGAATAAAAGATATCTAATGTCTT AAAATAATTATCCATTAACAAATGGCACATCTGATAGGAACAAAGTCATTCCTATCAGAAAAAGTATGTATTGATAAGAG CAATAATGCTCCCAAACTTAACGGCCCAAACTTTTATGGTTTGGGCCGTTAAGGTATTAGAAAATGTAGTTACAGAAAGA TAAGAGCAATAATGCTCCCAGTCAGGGATGATCTTCCTTGGCCCAACTAACCAAAAAACTATTTCCTCAATGAACACCCC CCCCCCCCAATTACATTTCTGTATATATACCCTTTTAATTCCCGCTCTTCTATTTTTCTCTTTCTATAACAAACTCAACT AAGTGGTGTGGACTTTGGACCTACGAGTACTCAGTATCTTCTCTTTCTTGGGCTGATTTGGGTTTGCATTCCCGTCAACA TCACTGGTGTTTTTCTAACATGATCAGTTTGGTTGAGTTATAAAAATCAAGAATAGAGATAAGAAGAACAAAGCCTTTTC CCATCACGCCATAATTCTCTATCATGTATAAAGTATAAAGATAACTCATTTATCTCTAAACCCCTTTTAATCATTTGACC CGCAGTTATAGGTACTATTTCCAACATGAATGTGTTTAGACTTTAGATCCATTGAGAGAATGGCTATCCATCAAATTATT AGGATCAGCTGTGACATGGTGAGTTGCACCAGAAACGGGAAACCAAGTATGTGTAGTAGAACTGCCATATCAAAATTTGT AAAATAAGCTTGAGCTGATGAAGGCCTGGGATCAGGAACAGCATATCCCAAATTCTGAAGTGAATATACTGAATTCGTCA ATTCGGTATAGAGGATGAAGGTATGGTAGTATGTCCACCATAAGATTGAGGCATTGAAGATCAGTGAGGATAAGAAGCCT TAGGAATTTGTGACCGGTGCATCCATTTTTGGAAGCACAAGCAGTAGGGCTGATCCAGTATGGCGATAGAAGCAGATGCT TGCATCATGACTAAAACGATAACAAATCTGGCATTGTAATGAAAATCATCCTCCAAACCTTCCACCACGACCACGTGACC GGCCAAATAGCCAGATTAACCACCTCAAGATGAAATTTCAGAATAACTACCTTGTTGAGGATGTGGTGAATCGAGAATGA AGAATTGGAATTCGAAAACTGAATCTGAGTAGGAACTTGTTGCCCAGATGAGTGCTGAGTAATATTCACAGACAAAGATT CTGTGACACATTCCTTCTTTGAAGAATCAAGAACAGCTGCACAGGCAAGAAGCTGAGCCTCAAGTTCACTCATGGATTTG AGATCAGGTCCATGGTTTTTAGCAGCAATTACTGGATTAAACTCAGTAGGAAGCGATTCAGTAGAATCTTGAACAAATCG CATTGTGGAATTCAATCTCCAATAGAAGCTAAGGAATCTGAAATTGCTTGAATGTGAAGAAGTTCAGAAACAAGCGGCCC CTTTGGTAATTGGGCACAACTCAGATATAACTTGATGAGATCGAGTCATAGATTAGAATTAGATATGGAAAAACTCATGA ACTGCATCCCATACCTGCCAGGAGGGACGACATGTAAGCACTCTAGGTAGATTCATAAATGGTGGGGAGGAGTCATGTGC ACAACGAGTCACGTTCCTCCCAATCTGCGTAGCTCGGATTTACAGCATCTAGGTTCCAATCAGCTTCATTAAGATAGCGC AGAGGAATAGTTAGATAGACAACAAAGTGGTGAAGCTTGTGCCCGCGAAGAATTCGTTCAACCTCATGCTGCCATCGGAG AAAGTTCATCTCACCGAGTTTAATGGAGAACAAATGAGAAAATGCTGAAGAATTCACCGGTACAGTCGATTTCACCTGTG ATGGAGAAGACATTTCCGGCGATGTTTCGGTAGGAGAGCTCAGGGAAGCAATGGAAGAGCTCAAAATAAGCTCATGATAC CATGTTAGAAACAAAGAGAATGGAGAAGATAAGAATATTTTTGAGTGAGGATGATTTCATTGACTGATAAGAGTACAAGT GAATACTCTATATAGTCTTTACAACTAAAAAGAATCTGAAAACAGAATTCTAACTATGATTACAACAGTCTAACTATAGT TGCAAGTTGCAACAAAAAGTTAACTATAGTTAAGATAGTAAACTAACTATGAACTAATTACAATATATGCCAGGCTATAT ATCTCAGTAAATAGATTTTCTTGATCTCCCTCCACCTCTAACTAACTATCCTCTATCTCCCCCTTCTTCTCGTTATTACA GGTGTTTCTACAAGTCTTCCTCACATGCCCAACCGAAGCCGAGACTTCTCCATCCTTTCTACAATAGGAGCTACCCAAAC TTTCTATTTAATAACTGTATTCCTAAAACTATCTTATCTTGTATAGCCACTCATCCAACGTAACATTCTCATCTCAGCAA CATTAACAAAAATAAAGATAGGAGACCCCCCTGAAAATTGATTTTCTTTTCTTTCAGCACTTAAAAAATATATGGTTCAT TTTTTTGTTTACATTTTCACAGTAAAGATTTAAAACAAAATATATATATATATATATATATATATATATATAAATGAATG ACTAACTATATAAGCCCTGTGCATATATCGAAAGTGTCAAATTGAGTTTAAGTTGGAAGCCCTATCTAGTATCTACACAT CTAGTGAGGCATGTTTTTTCAATGGATAAACTTTAACGAGAACGAAATGTCAAAAACAACCCAAAGCAGGAAACACTAGA CATAACTTACAGATGTGACAATGACATGGCTTGCTCCTTCCTCAATGTAACTCAAACAATTGTCAGAATTTATTCCCCCT CCGACTTGCAGACCGCCTAAAGTTTACCAGTCCTCCACAGTAAGTTCAGCAGAGGAAAAAACTGTAAGTTTTAAAGATAT CATCAACCATAGAAAACAAAGGGACTGCAAAATAACTCAAAGGAAATTCTCCCATGCTATGATTAATGTTTTGATAAATA TAAGCACAAAATCAAGGCGAACATCTATTTATGTTACAACAAGGAGGAGTGGATTTCCACTGTTTCTTCACTGTTGGCAG CATGTTCTGGATCTATTTAACATTTGTTTGGGTAATGACAAAGATTTTCAGCATTCGTGTGAACAAAAGTATATGCTCAT GTTCTGCATTATATTTGATTTAACTATTAATTTATCATGAATTGTATGCCAAAAGTTGGCATTATAATATTAGAAAGAAA AAACTCACATATAAACTATAACACCTATCTGTAGTGTTTTTTTAATTCATTTTGTACAAGTAATTTTTATTGGTTAATTG TTTAAAGTTTATATTCTTACCTTCAATTTAATTTTCAGATTGATGGTATAATATATTATGCTTCTCTTGTGCAATAGAGC AATATCAGTAAAAAAATTCCATGCCACAAAAAACCTTAGATGCATTTCCATTCATTGCACAGATAGGATATTAGTTTAAC GCTAACTTGCTAACGGGCATAAAAATCCCAGGTCAACAAAAAAGGCCCAATCAGACAGAAAGTCACACCAAAGAAAACAT GTAATCTAATTATCCATGTCTTATGCCCCCTTCATCCCTTTTGGAGTTTAAATTCTATAAATGGTCACTCTAGAGTGACA AGCAACAAAAGGGTGCCATGTCATTACAAATTTGTGGTAACTAAATTTCTTACTTTAAGCAAAACGCTTTCAATTGTTGC CAAGATAGGTATTAGAAATATAATATGAAACACATGACATAAACCAACCATCTCAAAAGCTTAAGCTGTTAGGTGAAGAA GACACAATAGGCGACACCACATATTAACCGATAGAGCAAAACTTCTCAGACAGTATGTGAATCAAGATCAATCCATTTTA ATTCTCTTTTTAGATTTCTACTTGTATATGCTAAAATTCAAAACCAACAAAATCACCTATATCACATTTCACATTGCATC AAACTCTACGACTAAACTAGCAGTAAACATCATCAACCACAATGGCATGAAGAAAGTCCCAGCAAGAATACCTGGATAAG CATGCAATGCTTCAAAGGCAGCAGCTTTGCTCAAAGGGTCAGCACCGAGCATGATCACGTGACCGCCGGTGAGCCCATCC TGTTTGTAAAGAGTGGCATACTCAGCTGCTGATTTATCAGACTCAAAATTGGTCACTGGTTCTGACCCACCATCCCCTTT CAAATCTTCAAGGGTTGACCCAACAATTTGTTTCACCTTCCCCTGCCACAAGCACACGAACCTCAGGTAAAAATGTCATT CCCCAAAATCACAATTACATAAAAATGTCACCGTTTTCCCATAAAAATCTTCACTACAAAGGTTGATTTTGACAGAAGAA AAGGTGGCATACCTTGTGGATATCGATGCAGGGGCAGAATCGAACAGCGCATTGAATGGAAGATCTCCTCGCTAAGGAGG AGGAGGAGGAGGAGGAGGAGCGAGGGTTGAGTGTAGCGGAACGAAGCTTGTTAGGGTGGAAGATCGGAAAGTTGAGGGAA GAAGGTGCAGAAGCTAGATTGCGCATTGTCCTCTGTGTTTGAAACAACACCACACTGCGACACAACAGGTTTAAGGTTTC CGAAGGTTAATGTTAATTCTCCGAGGTTATTTTTTAGGTCTTTTTTTATTTATTTAATATTTGACGGATCTTCTCATCAA TTCGAAAAACTTCAATTGTGGACTTTTTTTTAGCTTGCCGCCGTTTAGCTTAGAGTTGTCATTTGCCACTAGATTTACAC TTTCTTTGTAAATGGAAGGCTTCTTTGATTCTTCGCTTAAATAAATTCTCCCCCC
CDS sequence (LotjaGi1g1v0283800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCGTCGACGTTGCTGGAAGTGACTCGGGCGGCACACGAGGAGGTAGAGCGGTTGGAGCGGCTGATAGTGAAGGATCT TCAGAATGAACCTACCTCCAACAAAGAGCGTTTGTTTCAGAGCCACCGCGTCAGAACCATGATCGACACCATCACCTCCT CCACTGAAAAACTCATTGATATATATGAAGATAAAGACGGTGCGAGGAAGGACGAGATTGCTGCACTTGGAGGCCAAACT GCTACTGGAATCAATGTTTTCAGTGCCTTCTATGATAGACTCAAGGAGATACGAGAGTATCATAGGAAGCACCCGGTTGC GCGTGTTGTTGATGCTAATGAAGATACTGATGCACTTCTTAAAGAGGAGCCTCAAATTGAGTTCAGTGGAGAGGAAGCTT ATGGTCGATACTTAGACCTGCATGAATTGTATCATCAGTATATAAATTCTAAATTTGGGGAGCCAATCGAGTATTCTGCA TACCTTGATGTTTTTTCGGATACAGATAAGATTCCACGTAAAATGAAATTGACCAGGAAGTACAGGGAATACATGCAGAA TCTTTTGGAGTATCTGTTATACTTTTTCCAGCGGACCGAACCCCTACAAGATATTGATCGGATTTTCTCAAAGGTGACAG CTGAGTTTGAAGAAAATTGGCTTGCTGGAAGGGTTCACGGATGGGAGAAAGATAATCAGGAGAATGGACATGTACCTTCT CAACACGCTGCAATTGATCTAGATTATTACAGTACAGTTGAAGAGCTGATGGAAGTGGGGCCCGAAAGATTAAAGGAGGC ACTGGCTGCGTTGGGACTTAAGACTGGTGGCACTGTTCAGCAACGTGCAGAGAGGCTCTTCCTCACAAAGCATACTCCTC TTGAAAAGTTGGACAAGAAGCATTTTGCTAAGGGAGCACATGGTGTAGATAAAAATGGGGTTGCTGCAGTTACTCAAGAA GATGGAAATTCAAAAGAAATTGCATCAATGGAGGCCAAAATGACAAAACTGTGTGATTTGTTAGAAGAGACAATTGCTCG AACCAAAGACAATATTGTGAAGAAGCAAGCCCTAACATATGAGGAAATTGAAGCAGAACGTGAGGAGGAAGAAACACAAG AGGACTCTGAAAGCGAAGATGAGGAGCAACAGATTTATAATCCCCTAAAATTGCCAATGGGGTGGGACGGGAAGCCTATA CCTTATTGGCTATATAAGCTACATGGTCTTGGTCAGGAATTTAAGTGCGAGATATGTGGGAACTACAGTTATTGGGGGCG TCGGGCTTTTGAGCGACATTTTAAAGAATGGCGCCACCAGCATGGGATGCGGTGCCTTGGTATACCAAATACCAAGAACT TCAATGAAATCACGTCAATCGAGGAAGCAAAAGATCTTTGGAAGAAGATACAACAAAGACAAGGAACGAACAAGTGGCGC CCCGATCTTGAGGAAGAGTACGAGGACAAAGAAGGCAACATTTATAATAAGAAGACATACACTGATTTGCAGCGCCAGGG ACTTATATGA
Protein sequence (LotjaGi1g1v0283800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSSTLLEVTRAAHEEVERLERLIVKDLQNEPTSNKERLFQSHRVRTMIDTITSSTEKLIDIYEDKDGARKDEIAALGGQT ATGINVFSAFYDRLKEIREYHRKHPVARVVDANEDTDALLKEEPQIEFSGEEAYGRYLDLHELYHQYINSKFGEPIEYSA YLDVFSDTDKIPRKMKLTRKYREYMQNLLEYLLYFFQRTEPLQDIDRIFSKVTAEFEENWLAGRVHGWEKDNQENGHVPS QHAAIDLDYYSTVEELMEVGPERLKEALAALGLKTGGTVQQRAERLFLTKHTPLEKLDKKHFAKGAHGVDKNGVAAVTQE DGNSKEIASMEAKMTKLCDLLEETIARTKDNIVKKQALTYEEIEAEREEEETQEDSESEDEEQQIYNPLKLPMGWDGKPI PYWLYKLHGLGQEFKCEICGNYSYWGRRAFERHFKEWRHQHGMRCLGIPNTKNFNEITSIEEAKDLWKKIQQRQGTNKWR PDLEEEYEDKEGNIYNKKTYTDLQRQGLI
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 | 509 | 509 | 1.0E-221 | ||
| PANTHER | 1 | 509 | 509 | 1.0E-221 | – | |
| Pfam | 81 | 105 | 25 | 2.1E-11 | ||
| Pfam | 127 | 206 | 80 | 4.9E-25 | ||
| Pfam | 245 | 304 | 60 | 1.0E-26 | – | |
| Pfam | 330 | 508 | 179 | 9.1E-78 | ||
| Coils | 353 | 380 | 28 | - | – | |
| MobiDBLite | 363 | 382 | 20 | - | – | |
| MobiDBLite | 363 | 383 | 21 | - | – | |
| ProSiteProfiles | 414 | 445 | 32 | 9.358 |
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 |
|---|---|---|---|---|
| Biological process | MRNA splicing, via spliceosome | The joining together of exons from one or more primary transcripts of messenger RNA (mRNA) and the excision of intron sequences, via a spliceosomal mechanism, so that mRNA consisting only of the joined exons is produced. | ||
| Molecular function | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
| Molecular function | RNA binding | Interacting selectively and non-covalently with an RNA molecule or a portion thereof. | ||
| Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
| Cellular component | Spliceosomal complex | Any of a series of ribonucleoprotein complexes that contain snRNA(s) and small nuclear ribonucleoproteins (snRNPs), and are formed sequentially during the spliceosomal splicing of one or more substrate RNAs, and which also contain the RNA substrate(s) from the initial target RNAs of splicing, the splicing intermediate RNA(s), to the final RNA products. During cis-splicing, the initial target RNA is a single, contiguous RNA transcript, whether mRNA, snoRNA, etc., and the released products are a spliced RNA and an excised intron, generally as a lariat structure. During trans-splicing, there are two initial substrate RNAs, the spliced leader RNA and a pre-mRNA. | ||
| Molecular function | Zinc ion binding | Interacting selectively and non-covalently with zinc (Zn) ions. |
Expression pattern of LotjaGi1g1v0283800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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