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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0646900 |
| Transcript ID | LotjaGi1g1v0646900.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | 3'-5' exonuclease domain-containing family protein; TAIR: AT5G35910.1 Polynucleotidyl transferase, ribonuclease H fold protein with HRDC domain-containing protein; Swiss-Prot: sp|A9LLI7|RP6L2_ARATH Protein RRP6-like 2; TrEMBL-Plants: tr|A0A151TSU8|A0A151TSU8_CAJCA Exosome component 10; Found in the gene: LotjaGi1g1v0646900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:120424292..120436386) extracted from Lotus japonicus Gifu genome v1.2.
CATAACTCAACTTTATTTTGACTAGTTTCATTCAAGTGTCAGTAACTTTGCTACCATCATCATCACCCTCGTCACGTGAC ATAAACGTATGTATATGTCACTCCACTCCCTCCCACATTTCCTCTCACCAAATTCTCAGAAACCAAAACACTGATTAACG AGCGAAAGAGAGTTCCCAATTTCCCCATCAACCACCACCACCAATGTTGCAAAAACCCTAACCCTAACAACCGTTCCACC ACCATGAGCCACGACGGCAGCGTCGATCATCACCTGGCGGAGCTTTCCACCTCCTCACACCGCATTCCCTCCAACGACGA CTTCCACTTCTACTACAAATTCAACGAATTCAAACGCCCGCTTGAAGAAATCGCGATGCGGACGCAGTCGATGCTGACCA GAATCGGCTCCTCCGAGCACATATGGGGCAGAGGCTCTGCGTTTCCCGGCGACATTGACGACGCTTACGAGTGGGTTGTC AACGCCAACGACGACGTTTTGGAGCTTGTTGAGGAGATTCTGGATGAGTTTCGGAGGATTAAGAAGGAGGAGGCGGAGGC TGAGATTTGGGAAAATGGGGTTGGGAGGAAGAAGAAGAGTAAAGGGGCGAGTTGTTTGGAATTGGAGGGTCTTGACCTGG AAAATGGAACTGGGTTGGAGTTGAAGGATAAGGCGTCGAAGGTGTCGTTTCACGAACCGACGATAAGTAAGCCCCAGTAT AGATACAACCTTGAAGTTGATAATGCAAACAAGCCTTTTCAGCATGTTTTGTTGGAGAAGAGTGATGATGGCCAGAGGTT TATTCATCCACTGGTTTGTTCTATGCTCTGAATTTGTTCATACATGCATGCAAATGCCAAATATATTCCAGTAATATTTG CTATTCATGATGTTTTTGAAAAGAATGATGTGGTTTATGTGTTCTGTCTGTATGCTGTTCATCCTTGAATATATTGTCCA ATTTTGCTTCTGTGTTGCACTATACTATAGTCTTTGTAACGTTACCAAATCCGCCCACTCCCCTTGCGAATTGTGAACTG GGATGCACATTCCATTCAAAGTGCATCCAAGTCTCAGTTCAGTTGGGAAAGCATATTGGGACACTCTACTAAGAAATGGT TAAGATAATGGAGAAATAGAAGTATTGAAGGGGAGAATGGAGACTTTTTCTGAGTAAATAATGAATTTGAAAATGTTTTA TTATGCATTGTTCATAAATCATAATATTGTGAATGACTACTTGAAAGGTGCAGTATAAAAACTCTAGGGGGGGGGGGGGG AATACCACATTTATATTCTATTCTATTAAGTACTTTTTTTTCTTGGGGGCGACTGCTCTCCTCTGAAGTGAAGGAGTTGA TAAAGTATGTCATCACAACTGTTGGTTAAAAAATCAACCGTTGAGATTTAAAGCATACTGCATACCATAATTTCTTATAC ATATGCAAGTATAAGATTACAATCTTAACCGTTGATTTCAACTGTTGTGACGGCTTACTTCACTCTCTAAAGTGATTCTC TCACTTTAGAAAAGCTAAATCCATACATACATAATATTGGTTGAACGGAATCCCTGAACATTAGGGATTGAAAAGATCAA AACTATACCTGATAACTATATAAGGTAAGTCTTTCAAGAATACAAGGAAAGAATCAGATCTAAAATCATAATCAACATTC TGCTCTGCTGAGAAAAGGTGAAGAGTGATAACGAAGGGAAGAGGTAGAGACACGGGAAGATATGGAAGGTTAAGGGAGAT GGGACAATGCACTTGATAATGGGAAGGAAAAACAATTTAAAATGTTCAATAGCAAATTTAGTGTGGGGAAGAGGGCTTTT TGGAGGTCAATCTGATTCCAGTTTTGTTAATCACGAAAAATAGTCTATGTCGTATAGCGGAAGATGCATAATGGTAGAAA TAAGAAAAAAATTATATAACCTTAGCGGGTACAATCTCGCCGATAGTTATTTCCGCTACTCGACAACACTGCCTTATTGG GAAGGGAAAAAATGTTAAACTAACAATAAAGGAGAGTACGTAAAAAAAGAGTAAGAGATAAGTTGTACTATTTCAGTTAT TCATAAATTTTAAAGTATATTATTAATTTAAAATGAACATATTTGCGTGTATTACATAACTTTTTCAATTTTTAAGAAAA TGTATATTAATAGTACATTAAATAGTATTATAAAATATATTACGAACCAAAATAATGTATCAACTATGCATAGCCCCATG TATTATATTTACCAAGAATGTTCTGCATACCCATATCCATATGGCCATACCTGTACCGAAGATTACTACTTACTAGGTAA CGGTTGAAATTATAGGATTTACTCTTTTAGTTTATGAAGAGAGGAATTGGAAGTATTCTAGATATCTGTTGACAATTTGG GTGGCAAGAACTTCGCACCATAACATGATTCTTAATTCTATTGTTATGTTAGTTTATTGTTTAATGATTAATTGATAATA TTTCAGGAGAAACTCTCGGTTTTGGATTTTGTAGACAAAGATCTTGAGAATCTTGTACCAGTAAAGCCTCCCCCACTTGA ATGCACCCCTTTCAAGCTTGTGGAGGATGTCAAAGGGTTGAAGGAGTTGGCTACTAAGCTGTATTCAGTTAATGAATTTG CGGTATAACATGAAAGCTATCTGTTATCTATTGTATTTTACAAAAAAAAACTCTTCCATTAATTCTTATACCACCAGGTT CTAGTTTCTGTGGCCTGATTTGCACTTCCCATTTAGAGCTTGTTTTCCCTTCCATAAACAGGACCATGTTAATACCTAAT TCTTGTATCTGATGTGTGCAATTGCAATAGTTCATACTACAAAATCCAATTTCCTCATCCACTTAACTCTCATTCTTAAG CAATATGAGTCCTGGTGCATTTCTTGGTATTGAGATAGCCGCTTTGGTTATGTTTCTGTTCATATTAAAGAAAACAAATA CAATTAATAGAATCTCAATCCTTTTGCCTATTGCAACAAACCTTTCACTTTGAAACTTCAATGAGATCAAATGTAAATTG GAAGTTAAGCTACGCCCTCATTCCTTATATGTTAATATACAGTAACACTTAATGTTGTATTTGATTATTTACTGTGTGCA TCTTCCCTTTGTTTTTACGGTTATATTCTTCTATATAATGTAGGAAGCTGATGGATTATTTTAAAAATAAGTGTTGCATC CTTTAGCAGTTAATGAAATATATGATATTTTATTTTGTAGTAGACATTGTTCAGGCTGTGCTCAATAAATCAGAGACATC ATTTATGTTAGTTGACTAATTTCATTTGAGAATGTCTACTGATCTTTATTCTATACTGAAAACCTTAAGCTCGGGTATTT CATGTTTATTGGAATGTGTCATACATGAACATATATGTTACTTTCTGATGTTTTGCTTTTTGCAGATGAGTTATTGAAGT CAAGACAGCAATATGCTCAACTTGTATCACAAATATGATTGCTTCATTTTTTCGTTTAAATATGTTATCTTCTGATTATA TTTATAACCTGTGCAGGTTAAATTGTTTTTTGTCTGATTGTTAGGATTTAGTTTTCTTGATATATCATTTTTTGATCTTG TTTTGTACTATGGAGTCCTTTTCTTTTTTTATTTTTCTCTTAATAATGCTTGTTTTCAAAACACTTAATTTTATTATTGG ACCACTGTTCTCCTTTTCCAGAAGTAAGCTCTTTCTTTCACTGTATTCTTTTTGACATTTTTATCTCGGCCTGGAAAATA TTTAGGTGGATTTGGAACATAATCAATATCGGTCTTTCCAAGGATTGACCTGCTTGATGCAAATCTCAACCAGAACTGAA GATTTTATCGTAGATACTCTGAAGCTCCGCAATCATGTTGGGCCGTATCTGAGGGAAGTCTTCAAGGACCCCAAGAAGAA AAAGGTCAGATGTAAAAGATTAATGTTTCTTTAATTCAATAGACTTGCTTCTTTCTGATGACAAGATATATGGTTAATTA GGTCCTGCATGGAGCAAATCGAGACATTGTGTGGCTGCAACGGGACTTTGGCATCTATGTTTGTAATATGTTTGATACTG GCCAGGTTTGTTTGAAAAGCTCAGGATATTCAATATTGAAATTACTTCCATTATTGATTATCATGGGAAAAAATGTATAG TGAGTTATATATCTGTTCTTGTATTGTATCTTATGTAACATAGTTTCTTTGATCAGTTGATACTGGTTCTTCTTGTAGAG GGTGTGCAAGAAATATTTTCCAAAATAGTTTTTGGATTACACCGTACCGTAGTTCCTCAGCATTTTATTTAAGATGGGTG ATTTTGGCTTCCTTAGGGTAATGTGTTATGGAGTGTGTTTGGGTAGCCATTTAAGCTAGCGTATAGTTTTACTGGCTTAT AAACTTGTATTACCATAATAAAGGTATTTGTTGTTAATTTTTTTTTTCATTTTTACCCTTGATACTTAAATAAAATTCCA CTTTTACTGCTAATTTATTGTGGTATGCTAGATGATAGGCTTGTTTTATTATTATTTTGGGGATACCATAATAAAATGTA ATTAAAAGAACCCTAAATATTTATCTTAATTATTGTACTACTTTTACTTTGTGCTACTTTTTAGTATTGATTCATTTTTT AAATTTTTACACTAATTTTTAACAAAAAATATTTGATCAAAAATAAAATAAAATTATAAGAATTCGAAATTAACTAAAAA TCCTAAAACTATTATTATAAAAGAATACACTTTTGTTTGCAAAGCAAAAATACACACACACACACACACATATAAATAAA GATGTTCTTTTAAGTTTTAGTTCAGTGTGCACTTATCAGCTAATTCAAAACCTTATTTTACTGAATACTTTAAATTTGCT AAGCTTGCATACTAGCTATTTTTGTCAAACAGAGCCATGATTATTGTGATTGTTCCTTTCACTTGGTTGTTGGATCTAAT TACTATGAGTTTCTGCATCTAGATTATACAAGTCAAAATGACAGTTTTTTTCTTTATAATATTTTGAGACATTTTTTCAG GATTTTGTATTCCTCATATATTTACGAGATCTAATATTGAGACATTGTTCCTGATATATTTACAAGATCTAATAACCTGG AAAATATTTCAGTTTTCAGCTTTTCATGCATTTATAATATATTCATCTGTCCTGCAAGTCTGCAACATTAAGAAATGGCG AAACAAGCTTTGTTGCTTCTGATTATCCTCGGCATAATCCATGTTTCCTTGATTGCGTGTTAGGAATTCATACCATACTC TTCTCTTTTTATCAAACAGGACTAATATATACTTTGATTGAATTGCTCAGGCTTCTCGAGTGTTAAAATTGGAGAGATAT AGTCTGCAACATCTTTTACAGCACTATTGTGGGGTTACTGCAAACAAAGAGTATGCCGTCTTTACTTTTTGATATTACCC CTTTCTTGTCCTTCCATTGCGTTAACATAAAAGTTTTATCATTTTCTATGGCATGACTGTTCCTTTTATTCTTCACCTAC ATTATGAAAGGTTGACCAGTCAACTCCTTGCAGATACCAGAATGCAGATTGGAGAGTGCGCCCTCTTCCTGATGTTATGC TTAGGTGAAACTGTGTTTTGAACTTGTTTGATCAGTTCTTTCTTCCTGTGGTTGTTTTCCATTTTTGCTTGTCTTCTAGT CTATCCATATTGTTCGCTTTTGGATGTGCATCTTTGCATTGAAAAGTAAACACTAGCTGTAGCAATCCAGGTTTCTGAGG ATGGGTTTGATCAAAACCATTTTCCTCACTTCCTTGTACTAAGGTGGGACTTATCTACAGTTTACTTGAAGACCAAGATT TATGTATTTTAAGCAGAATTTTTCTTGATCATACATGCTTAAGTTCCATAATGAAGCTTCTACTTTATAGTTCGAATCCC TACCACTCTAGGATTAGCAGAGGATGAGTTTCATCAGTTCGATATTCCTTGTACTAAGCTGGTACTTATCTACAATTTAC TTAAGGCTAGGAATCTACCATATATTTTAAGCAGTTTTTTTTTTTGACGTTATAAGCTGAATTGTCATTCAGGCTTAAGT TTCATAATGAAGCTTTTTTTTAGTTACAACCCCTGCCACTCTAGGACCACTCTAGGATTCAGTGAGCTAGTAACTTAGAC TTGAGCATCATTACTGGAGGTGTCATTCATTTGAGGTTCGGCTTCTGAAAAGTCGTGATTAGAAGTGTTATACTTATGAG ATTCATTTTCTAGAAAGTTACTCTATATATTTTCCTTATAGCTACTTGGGGTTTGCTAACAATGAAGGCATCATGGTAAA GTAAAGACATTTACATGAAAGGAAATTAGTTGTAAGTAGAGTATTCTTGGTAGCTTGGTGACTCTTTAGGGGTTTCTAGT GATCTAGGATTCTCATTGAATGAGAGTATCTATTTGACATTGTGATTACTTGGATATCAAGTTTGGTATTTGTTAGTGAT AGTAGGGTTTCACTGTTATAAGTTGCTATGTTTTGGAACTGAGATTACTAATTAGTTGTATTACTTGTATCCACAGCTTA CAATGGATTATTTACAGTTTACCTGCAGTTTGAGCAAAATTAGCTTGTCAGTGTCACAAGCATTGTGAGTCTGTTTGATT CTGCTTAAAAAAAAGTGATTTTAGAGTTTAATAAAAAAAAGGCTTAAATGCACTTTTGGACCCCCAAGTTTATATTTTTT GCGATTGTTGACCCTGATCTTATTTTTCTACGAATGGAGACCCTAATCTTTCAAAATGTTGCACCGTTTACCCTTCCGTC CAAATCCGTCAAAAACTTGACGGAACCCACTTACCTGGCCTTCCGACGGAAAGGTAAACGGTGCAACGTTTTGAAAGATT AAGGTCTCAATTCAAACTAAAAATAAGATCAGGGTCAACAATCGCAAAAAAATGTAAACTTGTGGGTCCAAAAGTGCATT TAAGTCATTTTTTTTAAATCCCCCTTTTATCATGTGGAAGGCCATATCAGCGTGTTCCGTCAAGTTTTTGACGGATTTGG ACGGAAGGGTAAACGGTGCAGCGTTTTGAAAGAATAGGGTTCCCATTCGTAGAAAAAAAAATAAGGGTTGACAATCGCAA ATAGTTAAAACATGAGGGTCCAAAAGTGCATTTAAGCCTAAACAAAATGATTTTATTTTAATTGGTGTTTTGAAACAGCA GAAATTAACTTTTGTTTGCTAACAATTATGAAAATTTCTTTTCACTTCAAAAAGTTACTAGAACTAATTGATTATTCCAA AAGCTACTACAAATAGCTTAAAGAAATAATCAGATTTTTTTTAATTCTGCTTTTTATCAAAAGCGTATACAAACAGTACA GAAATACGTAAGTGATTAATTTTTTGAAAATAAGTGATTGTTTCACAAAATAAGCAGAGACAAACGGGCCCTTTTTATTG TTCTTCCTTCTCCCTCATCTTCTTCCCGAAGAAAATAAATAGAAAGGAAAATGAAGTAAGTGTTGAGCTTGAATTTGATT TATTACTCACTTCTGATTATAAAGTCTTGGGTTTCAACTTTCATGTGATAAAGACTTGCTTACTGTGCCAGCGATTTTAA TTACTACAATCTAATAAACTGTTTTTCTTATGATAGATATGGAAGAGAAGATACACACTATCTGCTTTATATATATGATT TAATGAGGATTGAGCTATATGCATTGCCTAAGGATTCTGAAAGTTCTGATAATCCTCTGTTGGAGGTAAGTTGAGATCAA ACTAGCTAAATGAGCTAGTGCTGTATCAGTCATTTACTCAGGTCACCTGATGCTCCTTTGTTCCCTTAGACTGTTTTGTC CCACCTGTTTTAACTTCTAAGCATACTGCAATTAGACCTTGGTTGATCAAGCCTGTTTCACATTTCCTTGCTAATTTGTG TTTGATTTATGAATATTTAATCAAATATAAGAACAGTATAAGTGCATAACTGAATTACTGGTTTAATGAATATTTTTTTA GCCTTTTTCAACTAGATTTCCTATTACTGACAGGTATACAAGCGCAGTTATGATATCAGCATGCAGCTATATGAGAAAGA GCTTTTGACAGAAGACTCGTACCTTCGTATAAAAGGGTTTGTTGTCACCTTATTATTGTCAATCAATCATTACTTCAGGA CTCTGTATAAGTAGCAAGTTTCCCAAACTACATTTTTTAAAAACTTTTCTGCCTCTTCTGTGCAGAGTTGTTTGTGTTTT GAAGTTTCTCCTTTGCATTTAATACCACAAATAATCAATTAGCATTTTATATACAGGTTGCTAGGGGCTGGTTTTAATGC TCAGCAGCTTGCCATTGTTTCAGTAAGTTAATTCATGTCTCATTTCTATCACCTCTCTTTGATTGCTTAAGCTAGGAATG AAAGTGTGTCAGATTTTTTCTGTTGAACAATATTTCTGCTGTGCATATGGGTAGTCCTCAGAGATAAGTTTTGGTATTAG ATTTTGAATTGTTTTGAATTGGTGCACAAGTATTGGTATTATATTGGTACGCCCAACATTTTATATGTTTCCCTGCTCAG CTCTATATTACTTAAAGTACCTGCTACATCCCAGCCAAAATTTACATTGGGGCCGTCATTTTTGTCATTGCTCAATATTG TTACCTTCGCATCAAAATCTTCTATGACACTACGTCATTTTTCATTACTCTGCTATTATCTCTATTACTCAATCGTCACT AGAACTCTTGCTGAATTTATTAGTTTTTATCATGATACACAGTTTTGGTTGGACACTCAGAAACTAGCCTTCCAGGCATG ATGATGCAAATTATCTTAGAAACAGAATCCTTTGTAGCATTAAATATTAGAAAAACTAGTCATACTGTCAGTACTTTAGT AAAAAGGAATGTCCAACTTGTAAGCTGATAAAATAATGGCATGCTTTGCTTCCACTTTGGATTTCTGTACTTAACATCTT TTAATGTTTCATACTCTATGTAATTACTGGCAGGGCCTTTGTGAATGGCGCGACACTGTTGCTCGTGCAGATGATGAGAG TACTGGGTATATATTGCCAAACAAAATTATTCTTGAAATTGGTAAATGAAATGCAGACTTCTGTATTATCTTTTGTATTA AAGGTAGCAGTTTTAATGGCAGATGTCAACTTAATTTGCGTTTACCATTTAAAAGCTAAGCAGATGCCTGTCATTACAAG CAATCTAAGGCGATTGGTAGGAAAGTCAAGGCTCCCATATGCTGAGCGCAATCTTGATATAATTGTCAACATTGTCAGAC ATTCTATGCAAAATGCTACTGCCTTTGAAGAAGCTGCGCAACGTTTAAAAGAAGAACATGCAGCGAATGTAAGTAATGTG TTTAACAGTTGTCACTTACTAGATTTTTTTTAGGCATATTCGATTGGTACTTTTGGGGGACTTGCATTGTTTTGAATTAC TCTAAACAATCTATGTGATTTTATCCTTGGTGCTTACTCTAAATTATTGAGTGATCTTGATTAACTGTGCTAATGTGATT TACCACGTCTAGATGTGAGCTGCAGTTTATTTTGTTCAGTATGCAACTAGGACTGAGGTGGAAATTGCAAATATTTGACC ATTATCCTTAATGCTCATATCTTTATGAGACTGATCAAATCAATGAATGCTGAGTTTTGTTATAATTTTAAAATGGTTGA ATTTAAAATTTAGTCCTCAAGAGTCAAGACCTCTAACTGTAAGCTTTGTTTTGTGTCCAGCATAATGAAAATCTTACGGA GAGCTTTTTGGGGAAAAAATTTCCTTTAAGTTGAGCAAATCTAAAACTCAAACTATGATTAGCTGGTTTTAAAATATTCT AAAATTGTCTACTCCTAATTGATTGATTAGGAATTAATCTGTTGATGTCTAACCAGCTCTTTCGTAGGTAGATATTTTAT GATTTTTATTCGCTTTTAATTTCTGGTTTTCGTTTAATGATAAATAGTATACAATTATAATATAGGTGGCAAAAGCAGCA GCAGCAGCAGCAGCAGAAGCAGCTGTTAAGGATGGAACTGAAGCTCCTGGATCTCATACGCCAAACTTGGAGGTTGAATG TGCAGAAAAAGGATGCAGTGGAAATGAAAATGCCATCAGTGTTGATATCTCAGAGATGTCTCTGATTTCTTCTGACTTGG AAGAATATTTTGAGGATGAAGATCTACAGGGACAAGAATTAATTAAATCTGATTTTCTCACTTCAGAGCTCCCATGCAGT AGTCTCACTGTTCTAAAGAAGAATGGGAAGGATGCAAATGTTGGTGCACCCTCTACAGCAAAGGTTGTAAAATTAAAAAA ATTCACTTCTTTCAATGCTATTCCAACATGGCCAAAACAAAAAGAAAATTAAAAAGAAAAGAAAAGACGATATTTCAATG CTTTGGCCTTGAAGTGAGAAGTATCAATCTAATCGTAGGTAATTTGTTGATAGGGTAATGGAGCAAATGGTCAGGTGCTA AAAAAGCCTATGGGTGCTTTTGATGCAACACTAATGGGAAATTCAGCTTCAGAAAGGAAGCTTGATAAAAAGGTGAGCCT TTGTTATTAATATTTCCAAGGATGTCTGTTACATTCGAGATGTAAACTGATTGCTTTTCCTTTTGGGTCTCATTCATTTT TAGCATGTTTTGTAACCGCTTATTTTCGAGGGTTATTATTTTTACAAAAGCTCTCATGGAAAGCTACTAAAAGTCAATTT TGACCCAAAATAAGCTAATTTGAAGTTTGAACACGCTTCACCTTTTGGTTGGACCATAGCGCATATTAGTTTGGTGTTCT GAATTATCTATTATGACATGCATGGAACTAGCTTCTGAATTTATATGTTTGAACCACTATTTCTTTGTCTACTTATTTCA AAACTGGGATTGGTTCTTCAGGGCAAGAAAATCAAGCTAGAACAGATTAGATCATCAGCCAATCTTCCTTCCGGTTCATT TTTGGGCAACAGTGATAAGTCCACCTCCACCCGGAATGGGACTGTAACCGTAGACTCCGATTCAGACTTGGAGGATATGA TGCAGAATAACCTATAAAGCTCCGATGATCATCACTCGGGTAAAATTTTGGTATGTCCACTTCAGTAAATGTGGATGAAG ATGTGCTAATGTCGGTGTCAGAACCGCCATTAAGCTTTTGAAAATGCTGAGTCATACAGTCACAATAACAAAACTAGACA GAACAAGACAACTGAAGAGCACGACTTATTGCAGCTGTCATGTGATTTTGAAGTGTCAAGGAAGGAACCAATGTTAGCGT TGGAGAAGATACAGAAAATGCATCTTCCCAGGTTGATGGTCTTCCTAAGCCACATGACTCATTTGCAAGAAGAAAAGTTC ATCTGTAAAGCGTGAGGGACAGAGAACTGCCTTCACTGAAAAATTGCAGCATGGTAGCAGGATATGTCAGGCATTTCCAG CTTGTGGAAAATGATGTGCAACTATCCGGTAAAAATGAAAATAGATTAGATTTTGTGCTTTGTAAAATATTGTTAGAACA CCTGATGTAGCCTTTATTAGTGTCTTTGAATCCAAGTTAAGTGAAATGAAGATCTTCTATGCTCCTTTTCTGCTCAAATC TTTTGATTGAAATTTTGCCTGAGCAGGATTTTTTCCTGATCACCTGACATCCAACTTATGGGTTGGAATAAACTCTAGAA ATTACCTTTAAATGGAGAAAAAGTAACAAGAGCCTTACTTTGTAGAATAATATTGATATGAGACTTTAGTTTTGAGATGC GCTAAGTGCAGAGTATAAGCAAAGTTATGGGCTATGTGCAAAGTCGTTATCTTGTCTTGAGGTTGCAAAATGCGTTAACT TTTCAAAAAAAAAAACAAATCAATCACAATGGTGAGTTGGAATTTATCCAAGATAGATTATGCGGTTGCTTTATACTGGA TAGGATTCAAATCCAATAAGAAATTTTACACTCAATGAAAAAGTAAAGTATAGTAGATTTTTAATGTTTAAATTTACAGC AATTTTTTTATGAAAATCATTTTTATTTTTCAATTAGAGAATGGCATTAACTTAATTTTAACATGTTTATACAAATATTC AAATCGAACCTCAAA
CDS sequence (LotjaGi1g1v0646900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAGCCACGACGGCAGCGTCGATCATCACCTGGCGGAGCTTTCCACCTCCTCACACCGCATTCCCTCCAACGACGACTT CCACTTCTACTACAAATTCAACGAATTCAAACGCCCGCTTGAAGAAATCGCGATGCGGACGCAGTCGATGCTGACCAGAA TCGGCTCCTCCGAGCACATATGGGGCAGAGGCTCTGCGTTTCCCGGCGACATTGACGACGCTTACGAGTGGGTTGTCAAC GCCAACGACGACGTTTTGGAGCTTGTTGAGGAGATTCTGGATGAGTTTCGGAGGATTAAGAAGGAGGAGGCGGAGGCTGA GATTTGGGAAAATGGGGTTGGGAGGAAGAAGAAGAGTAAAGGGGCGAGTTGTTTGGAATTGGAGGGTCTTGACCTGGAAA ATGGAACTGGGTTGGAGTTGAAGGATAAGGCGTCGAAGGTGTCGTTTCACGAACCGACGATAAGTAAGCCCCAGTATAGA TACAACCTTGAAGTTGATAATGCAAACAAGCCTTTTCAGCATGTTTTGTTGGAGAAGAGTGATGATGGCCAGAGGTTTAT TCATCCACTGGAGAAACTCTCGGTTTTGGATTTTGTAGACAAAGATCTTGAGAATCTTGTACCAGTAAAGCCTCCCCCAC TTGAATGCACCCCTTTCAAGCTTGTGGAGGATGTCAAAGGGTTGAAGGAGTTGGCTACTAAGCTGTATTCAGTTAATGAA TTTGCGGTGGATTTGGAACATAATCAATATCGGTCTTTCCAAGGATTGACCTGCTTGATGCAAATCTCAACCAGAACTGA AGATTTTATCGTAGATACTCTGAAGCTCCGCAATCATGTTGGGCCGTATCTGAGGGAAGTCTTCAAGGACCCCAAGAAGA AAAAGGTCCTGCATGGAGCAAATCGAGACATTGTGTGGCTGCAACGGGACTTTGGCATCTATGTTTGTAATATGTTTGAT ACTGGCCAGGCTTCTCGAGTGTTAAAATTGGAGAGATATAGTCTGCAACATCTTTTACAGCACTATTGTGGGGTTACTGC AAACAAAGAATACCAGAATGCAGATTGGAGAGTGCGCCCTCTTCCTGATGTTATGCTTAGATATGGAAGAGAAGATACAC ACTATCTGCTTTATATATATGATTTAATGAGGATTGAGCTATATGCATTGCCTAAGGATTCTGAAAGTTCTGATAATCCT CTGTTGGAGGTATACAAGCGCAGTTATGATATCAGCATGCAGCTATATGAGAAAGAGCTTTTGACAGAAGACTCGTACCT TCGTATAAAAGGGTTGCTAGGGGCTGGTTTTAATGCTCAGCAGCTTGCCATTGTTTCAGGCCTTTGTGAATGGCGCGACA CTGTTGCTCGTGCAGATGATGAGAGTACTGGGTATATATTGCCAAACAAAATTATTCTTGAAATTGCTAAGCAGATGCCT GTCATTACAAGCAATCTAAGGCGATTGGTAGGAAAGTCAAGGCTCCCATATGCTGAGCGCAATCTTGATATAATTGTCAA CATTGTCAGACATTCTATGCAAAATGCTACTGCCTTTGAAGAAGCTGCGCAACGTTTAAAAGAAGAACATGCAGCGAATG TGGCAAAAGCAGCAGCAGCAGCAGCAGCAGAAGCAGCTGTTAAGGATGGAACTGAAGCTCCTGGATCTCATACGCCAAAC TTGGAGGTTGAATGTGCAGAAAAAGGATGCAGTGGAAATGAAAATGCCATCAGTGTTGATATCTCAGAGATGTCTCTGAT TTCTTCTGACTTGGAAGAATATTTTGAGGATGAAGATCTACAGGGACAAGAATTAATTAAATCTGATTTTCTCACTTCAG AGCTCCCATGCAGTAGTCTCACTGTTCTAAAGAAGAATGGGAAGGATGCAAATGTTGGTGCACCCTCTACAGCAAAGGGT AATGGAGCAAATGGTCAGGTGCTAAAAAAGCCTATGGGTGCTTTTGATGCAACACTAATGGGAAATTCAGCTTCAGAAAG GAAGCTTGATAAAAAGGGCAAGAAAATCAAGCTAGAACAGATTAGATCATCAGCCAATCTTCCTTCCGGTTCATTTTTGG GCAACAGTGATAAGTCCACCTCCACCCGGAATGGGACTGTAACCGTAGACTCCGATTCAGACTTGGAGGATATGATGCAG AATAACCTATAA
Protein sequence (LotjaGi1g1v0646900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSHDGSVDHHLAELSTSSHRIPSNDDFHFYYKFNEFKRPLEEIAMRTQSMLTRIGSSEHIWGRGSAFPGDIDDAYEWVVN ANDDVLELVEEILDEFRRIKKEEAEAEIWENGVGRKKKSKGASCLELEGLDLENGTGLELKDKASKVSFHEPTISKPQYR YNLEVDNANKPFQHVLLEKSDDGQRFIHPLEKLSVLDFVDKDLENLVPVKPPPLECTPFKLVEDVKGLKELATKLYSVNE FAVDLEHNQYRSFQGLTCLMQISTRTEDFIVDTLKLRNHVGPYLREVFKDPKKKKVLHGANRDIVWLQRDFGIYVCNMFD TGQASRVLKLERYSLQHLLQHYCGVTANKEYQNADWRVRPLPDVMLRYGREDTHYLLYIYDLMRIELYALPKDSESSDNP LLEVYKRSYDISMQLYEKELLTEDSYLRIKGLLGAGFNAQQLAIVSGLCEWRDTVARADDESTGYILPNKIILEIAKQMP VITSNLRRLVGKSRLPYAERNLDIIVNIVRHSMQNATAFEEAAQRLKEEHAANVAKAAAAAAAEAAVKDGTEAPGSHTPN LEVECAEKGCSGNENAISVDISEMSLISSDLEEYFEDEDLQGQELIKSDFLTSELPCSSLTVLKKNGKDANVGAPSTAKG NGANGQVLKKPMGAFDATLMGNSASERKLDKKGKKIKLEQIRSSANLPSGSFLGNSDKSTSTRNGTVTVDSDSDLEDMMQ NNL
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 |
|---|---|---|---|---|---|---|
| Pfam | 15 | 97 | 83 | 6.4E-9 | ||
| PANTHER | 94 | 702 | 609 | 8.2E-258 | – | |
| PANTHER | 94 | 702 | 609 | 8.2E-258 | – | |
| Gene3D | 153 | 423 | 271 | 1.5E-101 | – | |
| SUPERFAMILY | 154 | 409 | 256 | 9.62E-67 | ||
| CDD | 215 | 407 | 193 | 1.96912E-110 | – | |
| SMART | 219 | 388 | 170 | 2.5E-43 | ||
| Pfam | 221 | 386 | 166 | 1.2E-42 | ||
| SUPERFAMILY | 423 | 514 | 92 | 3.92E-18 | ||
| Gene3D | 424 | 521 | 98 | 1.4E-22 | – | |
| ProSiteProfiles | 438 | 519 | 82 | 16.666 | ||
| SMART | 438 | 518 | 81 | 1.7E-8 | ||
| Pfam | 441 | 494 | 54 | 3.7E-10 | ||
| Coils | 509 | 529 | 21 | - | – | |
| MobiDBLite | 686 | 723 | 38 | - | – |
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 | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
| Cellular component | Nuclear exosome (RNase complex) | A ribonuclease complex that has 3-prime to 5-prime processive and distributive hydrolytic exoribonuclease activity and endoribonuclease activity, producing 5-prime-phosphomonoesters. Participates in a multitude of cellular RNA processing and degradation events preventing nuclear export and/or translation of aberrant RNAs. Restricted to processing linear and circular single-stranded RNAs (ssRNA) only. RNAs with complex secondary structures may have to be unwound or pre-processed by co-factors prior to entering the complex, esp if the 3-prime end is structured. | ||
| Molecular function | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
| Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
| Biological process | Nucleobase-containing compound metabolic process | Any cellular metabolic process involving nucleobases, nucleosides, nucleotides and nucleic acids. | ||
| Biological process | RNA processing | Any process involved in the conversion of one or more primary RNA transcripts into one or more mature RNA molecules. | ||
| Molecular function | 3'-5' exonuclease activity | Catalysis of the hydrolysis of ester linkages within nucleic acids by removing nucleotide residues from the 3' end. | ||
| Biological process | Cellular metabolic process | The chemical reactions and pathways by which individual cells transform chemical substances. |
Expression pattern of LotjaGi1g1v0646900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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