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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0756800 |
Transcript ID | LotjaGi1g1v0756800.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Ribosome biogenesis protein BMS1; TAIR: AT1G06720.2 P-loop containing nucleoside triphosphate hydrolases superfamily protein; Swiss-Prot: sp|O94653|BMS1_SCHPO Ribosome biogenesis protein bms1; TrEMBL-Plants: tr|I1LQB2|I1LQB2_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0756800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:133002426..133013344) extracted from Lotus japonicus Gifu genome v1.2.
CAGTTCGGATGGCCGTCAACGATGCTGACCAATCCAACAAGGCTCACAGAACCCGTCGATGATGATGGACTGATTGACAA ACCTCAAAACCCTAGAGCCTTCGCTTTTTCTTCCACCAACAAAGCCAAGCGGTTGAAATCCCGCGCCGTCGAGAAGGAGC AGCGTCGCCTCCACGTTCCTATTACCGACCGCTCTTACGGTGAACCCGCCCCTTATGTCATCGTCGTGCAGGGTCCACCC CAGGTGGGGAAGTCACTGTTGATCAAGTCTTTGGTTAAGCATTACACCAAGCATAATTTGCCTGAAGTTCGCGGTCCAAT TACTATTGTGTCAGGTTTGTGCAGATTCAATTCTCTGTTTACCATGTTGTAACTTGCTGTGTGTGTGGTTTGCTGTGTTG AGTAAATGTTTGATCACATTCATTTGACAGGCAAAGGAGGCTGCAGTTTGTGGAATGCCCTAATGATATCAATGGTATGA CAGATGCAGCTAAGTTTGCTGATCTAGCACTTCTCCTTATAGATGGAGTTATGGTTTTGAAATGGTGAGTTATAATAAGA GGGTCAATATAGGGTTGTCAGTTTTGCACGTGGAGTTTGTTGGTTTCCTTGACGACACTCACAACACTCTAGTCTTCAGC TACCAGTTCGGATGGCCGTCAACGATGCTGACCAATCCAACAAGGCTCACAGAATCCGTCAATCTGGTGCCAAATCCTTC AAGAAGAAGCAGAACAAGAAGAAGAAGCAGGACAATGATGATGGACTGATTGACAAACCTCAAAACCCTAGAGCCTCCGC TTTTTCTTCGCTTTTGCTATTGGAGAGCTCAAAATAGAGTCTCTAAATCACACTTGAATTCTCAACGTTCTCCCCCTGTG AGTTACCATCACATTGTCATGCGATCTCATAGCCTCTTATAGAGCCAGCATACAATATCATATATTATTACATGTCCTTC GGGGACAATGAGTAATTCTTTAATAAAGAATTACAACTTCTTATCATGTTAAATGAAATATTTACTTCTGGAAATATTTC AATCATAATAATACATGCTAAATCATATCCCAACTCAAAGAATAATGTTGGAAATTAGTGATCTTCATGTCATAATAGGC ATAAAATAGGTGATCTTCATATCACAAAATAATCGAGGACTTAGGCATATAAATAACATTTTTTTTTGCTACATCGGAAA ATTAACAACGAAACGAAAAAATTAAGGAAGAGCCAAACGATCCCTCAAGACAAGGATCTCTAAGTCCGACGGCGGGGTAT CTAAGGTAACATGATCTCATTTAAAACATATAAATCATGTTTTTGTTTTTATTTTTCTTTTTGAAATTAGTCAATCATCA CAAAAACTGGGCACCAAATTTCATTAAATGCATCCGTTTTAAACCTAATAAAAACACATTCTTCATTCTTATTAAAAAAA ACAAAAAACTGATTTCATTGAATACTTAAAAAAAATTTAAAAAAACTCCAACGGATGAAATGGTTTTGAAAATAAAAAAT AATTGATATTAAAACGTAATTAATTACAAAGAATCATAATACAAATTTGCAACATATAGTATTTTTTTTTTAACACAAAC AACTATAGCTACGGTGGGTTAAAAAGAGATCCGTTATTTTATTTTATTTTTTATTTTTTTATTTTTGACAATTTTGCACC TAAAAACCAACAAAAAGCAGAGTACCATACTACCATGGGTGAAAATGAAACTCTTACACAATCATACTAGCTATCAATAT TAACTTAGCAAAATCTGGTTCATCCAATATATTATTCACAACTTGTGTTCAAAAACTTGATCACTTGCCCATATCACAAT GTCAACCAACGTATCATAAAGTCAAATAATTAGGACATTATTTGATGAGTGAAAAGCTAATGTTAAGGGAGAAAATCAGT TAAAATAAAACTGATTTGTATTGATTCTAAATCAATACATAACGTGATTTAAGGTACTTGATTTTTTTTCTTTAACAACC ATGATCCCATACTTGGTTTTTCCTTTCAAATATGGAGAAAAAAAATAGTCAATCACATCTTCAGATTCATGATATGAATC TTCAGAATTCATCTTCAAGATTCATATGTTAAGTATATTATACCATAATTCTTATGGATCTGTATTTCACTTTGATTTGT ACTATGAATCTTCATGATTCAAAGTTTAGAGTGCATCATATGTTGGAATCACATTCTATGTCTATTTGTGCTTGAATATT CTGGATTCATACATAGAATGTATGATATTATGATTATTCTGGAATCATATGTGATTTTTTTTTTTTGAATCTTCAGGATT CATAGTTTAAAACATATTGTACTACGATTCTTCAAGAACCGCAAGTATATTGTACTACAATTCTTCTGGAATTGTAGTTT ATAATAACAATAATCAACATATATAAGAAAAACATAAAAGAGGAAGACTAACAAATAGAAGAAGAAAAAAAAATTGGACT CCATGGTAGTTTGAGAATGCAAGAGTGAGACAAGTAAATTGTGGAATCGGAGGTGTGTGATGCTTGGTGCATCATCCTCT TATTTATAGCATTAGGGAGACAAAGACATATGAGCTTGGCCCATTGGCCCATGTGGTCATCTATTCACAACAAAAAATAA AATATCTAAAAATTATATTTTAGAATTATAAACTATTGCATGCTTGTGAAAATAAGCGAATGTGTTCTATTTTTAATTTT TATATATGCGACATCGTTAAAGAAGAAATATCGGACAAATAGGTTTCGGGTCGAATCTTTTTGCGTTGTCAAACAAAACA CTGTTCTGAAACTGTAAAACCCTAAACCTTGACGACACTCACAACACTCTAGTCTTCAGCTACCAGTTCGGATGACCGTC AACAGTGGCGGAGTCAGGATTTTTGTGGAGCTTGGGCAAGCTAGGTTAAGCTCATGTCTAACTGTCTACACCTGACATTG ACGCAAATTGCGGTCGCGAGTGCAGTTTTGTGGTTGTGGGCATTGCGGTGTTGCAACGTGAATAATCTGTTACAACGGCA TATGTTTTTGGTCTTTATTTACATAGGTTATGTAATATGAAAAAATGGGCTAACTCTTTTAAACTTTGACGGCCCATAAT CAGAAGTAGTCTCCTTCCCCGTTAGTGGGCCTTGGCTGCCTGGCCTGTTTATTTGAAGATTGATAACTTTGACCAAAAAA AACAAACCCTAAAACTAAATGTCATCTTCTTTATTGAACTAGCGCGCAGATACAGTTTCAATTTTTCGTTTGCTTTTCTG AATCTCTACCTGCATCTTCATCCCTCTTCAGCTACCAGTTCGGATGGCCGTCAACGATGCTGACCAATCCAACAAGGCTC ACAGAATCCGTCAATCTGGTGCCAAATCCTTCAAGAAGAAGCAGAACAAGAAGAAGAAGCAGGACGATGATGATGGACTC ATTGACAAACCTCAAAACCCTAGAGCCTTCGCTTTTTCTTCCACCAACAAAGCCAAGCGCTTGAAATCACGCGCCGTCGA GAAGGAGCAGCGTCGCCTCCACGTTCCTATTACCGACCGCTCTTACGGTGAACCCGCCCCTTATGTCATCGTCGTGCAGG GTCCACCCCAGGTTGGGAAGTCACTGTTGATCAAGTCTTTGGTTAAGCATTACACCAAGCATAATTTGCCTGAAGTTCGC GGTCCAATTACTATTGTGTCAGGTTTGTGCAGATTCATGTTGTAACTTGCTGTGTCTGTGGTTTGCTGTGTTGAGTAAAT GTTTGATTTGACAGGAAAGCAAAGGAGGCTGCAGTTTGTGGAATGCCCTAATGATATCAATGGTATGATAGATGCAGCTA AGTTTGCTGATCTAGCACTTCTCCTTATAGATGGGAGTTATGGTTTTGAAATGGTGAGTTATAATAAGAGGGTCAATATA GGGTTGTCACTTTTGCACGTCTGCTATTCTGTTTTTTGAGGTTTTGATTTGCTTGCAGGAAACATTTGAGTTCCTTAATA TTTTGCAAGTTCACGGGTTCCCCAAAGTCATGGGGGTTCTTACACATCTTGATAAATTCAAGGATGTTAAAAAGTTGAGG AAAACAAAGCAGCGGCTCAAACACCGCTTTTGGACTGAAATATATGATGGTGCTAAGTTGTTTTACTTATCAGGCCTTAT TCATGGAAAGTAAGTAGTTTGATGAATATGTTCTGGGGATTAAATGATTTTTTCTTTTACACCTGCTGTCTAGTAGTGTT TCCTAAGCTTCGTTACAACTTTTACTATATAGTTTATAACATTGCTATTCCTAACCGAACAGGTATGTCAAGCGTGAAGT TCACAATCTTGCTCGATTTATTTCGGTCATGAAGTTTCATCCTTTATCTTGGAGAACTTCCCACCCTTATGTTTTGGCAG ATCGTTTTGAAGATATCACTCCTCCTGAAAAAGTGCATTCAAATAATAAATGTGATAGAAAAATCACACTTTATGGTTAT CTCAGAGGCTGTAATTTGAAAAAGGGCAATAAGGTGTGTTCCACAGCTCTACCATACTATTGTCTCTGAACCAATTAGTT GAAAGATGATGATGATCAAAATATAATCCTAAATCATAATATTTGTTTCTTTGATTCTCATACGAATTTTGCTGAAATTT GATTCAAAATTACTAATTCATGCTTATGTTTTTTTTCTATGTGTTAATCAACTACTAATCAATTTTTTACGCTATTTATG CAATCTATCAATCTCCTGCCCTGAATATTGGAGAGCTTCTTCCTCCTCCTTGAAGGAATTTGAGTATATATTAGATAAAA GGAATTCAGTTATGTGATGGTTTAAGGGTTTTAGTTTGATGCTTGCTAGAATTGTTCTGTTAATTTCCCCCCAATTATTT GTACTTTAATTTGTATTCTGGATATCAGGTGCACATAGCTGGGGTCGGTGATTATAGTTTAGCTGGTGTTACTGCTTTAC CTGATCCATGTCCTCTTCCATCTGCTGCCAAAAAGAAGGGACTGCGTGATAAGGAGAAATTATTCTATGCTCCAATGTCT GGCCTTGGGGATCTCTTGTACGACAAAGATGCTGTATACATAAATATTAATGATCACTTTGTTCAATTCACAAAAGTTGA TGATGAAAACTCTGATATTACGAGAAAAGGTCATTGGATAGTTTTTTTTCATCATGCACTTTATCCTATTTTAGAAAATT TTATTATTATGATCATATGATGGCAGATTTATTTGTCTTTTGTGCAAATTATCCTTGTGAAATTATACTATGACCATATG GTAGCAATTCTTTTCATAGAAAAATTTCAGGTACTGTGCTGTCTTGGAACTTTTATCACTCCTCTATGTCACTCCTTGAT TACCTGTATCGTTACAAATAATATTACCAGTTAAATTTTATGGTTATATCATGCATAACACAATGGGATAAATTGTTTAT TAAAAAGTGTACTTTCATGCATTCGACAGGAAATGAAAGAGATATAGGAGAAGTTTTGGTGAGATCGCTTCAGGAAACCA AGTACCCAATCAATGAAAAGCTGGAGAATAGCATGATCAATCTTTTTGCTCAATCTTCAGAAGCTCTAGCTGAGGCTCAG GGTGCAAACATGGATGTCGAGCAAGATGGCATAATAGAGACTGTGAATTATAACGAGATGGATTCAGATGGTGGTTCAGA ATCATCTGATCAGGATGAAGCTGATGCCATGACAGGTTCAGGATTACCCGACCAAGCTGAAGATGATGCAGCGGGTGACA AATCTACAAACAAAGACCACTTAGAAGAACATATTGAGTTTCACAATGGAAGAAGAAGGAGAAGAGCAATCTTCGGTAAT GATGCTGATCAAAGTGATCTGATGGTAAGCATAAGTTATCGTGTTTGTTGTGTAATGCGTGCAAATCATGTATCCTTTCA TGCTTACAGAAATTAAATTAGCTTGTATTGGGCCCAATGGCCCATTGCCTTTTAAATTCATTCAGGTATTTTTATGCCTA TAGCCGTTTGGATACTGACCACAGAGCACCTATTGGAGCTTCTCTACAAGAAAATGCACCAGATAAACTCCAATAAATGC TCTTTGGTCTGCATATAAATATGCTTATAGGATCAAGTTCAAACTACATTAGTAACATTACTACACTGAATTGTAGGCAA GCTTCAAACTTATATTGGATTTACTGATTCAATATTTTGAATTCAATTGTTTTACTTTTGTTTTATGTGATATGTATGTC TGCATTGACAATTTTCTGGTGGAATGCTCATAATTTCTTGACTGACTTCATTGATAGGATTCATCAGGAAATGAGGATGG TTCTGCCAGTGATGATGGGGCATCTTCTGATTCAGAATCCTTAAACGAAGAGGAGGAAGATGGTAAAATTGTGCAGTTTT CTCCTTTGATTATTAAGATTCATGCATAGATATTAAAATTATTCATCATAACATTCTCTTTTCTCACTTATTCCTGCCAT CTTAGTTGCAACAAATAATTGACTTGTTACTGGAGACTTACTATATTGATGATTCCTTTCTTTATTTTCCTCATAGATGT CATGGGAAATGTTTCAAAGTGGAAAGAGTCTTTGGCTGAAAGAACACTCTCACAGAAAACTCCTAGTTTGATGCAACTGG TCTATGGGGAATCTACTGTTAATTTAATATCTATAAACAAAGAGAATGATAGTAGCGAAGATGAGGAAAGTGATGGTGAC TTTTTTGAGCCTATAGAAGAAGTGAAAAAGGTTGGTCCTTTACTAGCTTGCATGATTTGTAGCTGTACCTAATTTTTTGT GTAACTATTGCTTTTCAATGGCCCCTTCCCTGTTAATGGCAATTAGATATGCAATACATTAAATTTACATGTTTGAAGAC TGAGGATTTGTTGGCCTTCAGAATATCTGCGTATTTTCTTCATAAACTAAGTGTTTGCTTTTGTCTTTTAAACTGCACAG AAAAATGTGAGAGATGGATTGAATGATGGAAACGTCAACACTGAGGATTATTCCAAGTGCGCACAATTTATGGATAAGAG ATGGGATAAGAAAGATAATGAGGAGATTCGCAACCGTTTTGTGACTGGAAATTTGGCAAAAGCAGCACTCAGAAATGGAC TACCAAAGGCTACTACTGAAGAGGAAAATGATGATGTCTATGGGGACTTTGAAGATTTAGAAACAGGAGAAAAAATTGAG AATAATCAAACAGATGATGCGACACACAATGGAGATGATTTGGAAGCAGAGACGCGGAGGCTTAAGAAACTTGCTCTTCG TGCAAAATTCGATTCTCGATATCCTTTTTCTCTCTCTTCATGTACCTAATTAACATGAATGGGTAGTTTATACTTTCTGA TTCCTGCACCCCCAATTTTTTTTTTCTCAAAATCACGGGGCATGGCACATTCTCTGGTTGATTGCCTTAAGTGTCTGAGT ATGCTAGAGTCATGACTGTTATCAAAAGGCTGAACCCCCCCCCCTAAAAAAAATCAGGAAGGACAAGAAAGTGGTAAGGA ATTTATTCTCAATCTATGGAGATGATCTGTGATGTCTTTTCATGCTAAATTGTTTTATTTAAACTTTCTTTGGGTTAAGA ACCTTCGAAGTTTGAAGTTTTCTAATTAGGGCCTAGGCTAACTCAGTGGTGGATGGACTACAAGGGTGATATGTTTTTTT GTAATTATGTCACAGCCATTGACATGATAGCAATGTGGAATGTGAACCTTTTGTTTTCTGTGTGACTTGACTAATCAAAT TGCAAACAAGTTGTTAGTTGCATTACTTCAGTATGTTAGTTACCTTAATTTTGATCCACATTTGATGATGACCCTGGGAC ACCAGAGGAAGATGGTGGTAATGAAAATGAAGCCAAGTTTCGTCGAGGTCAGCCTAATGAAACCAGCTACTTTGACAAGG TACAACTTGTTGCTTGCATTTAGTGTAAACTACCGTTTTATAGAATGGCTACTAATTCGTGTGTTTTGCCAGTTGAAGGA GGAGATAGAACTCCAGAAACAAATGAATATTGCTGAACTCAACGATCTTGATGAGGCTACCAGATTGGAGATAGAGGGTT TCCGAACAGGGACATACGTAAGATTGGAGGTCCATGACGTTCCTTGCGAGATGGTTGAATACTTTGATCCCTACCATCCA ATATTGATTGGAGGAGTCGGTTTAGGGGAGGAAAATGTTGGATACATGCAGGTCAGTAGTAGGCTTTTCTAAAGCATAGC TCCTCCTCATAGAGTTTGTGGTAACAATTGTTAGAAAATTTTAGTCAAGAAAATTATTGATATATGCCAAAGATGTCTAT GATTAAGGACACTATCATAAGGGAAATTTGTGTTGATCCAGTCAGTGGTTGGGTTTTCTAATTGGTCATTTGTTTAGTGA TACAATTTCAAGTCTAAAAGATATGTCACTATATTTGGTAGTAGATGATCAAAATGAATATCCTGTAATTAGGTTTGGAA TAGAGCTTGATGGTTTGGGTAGGGGTTCCTTTTGTTGTTCCAGGAAAATAATAACTTGTCTTTATTTTATGGATGTTGGC ATGGGCCATCTGTATGGAAGGTAAGGAACATAATGAGTTGTTTGTATAGAAGATGAAAAGTTGGTTTCTAGAACATGTAA TGAATTGTTAATAATATTATTAAGTTTAATGAGTTGATGAAACTTTCTTATGTTTCCCCTTTCTTTTAAATTCATCTGTT CCCCCCCCTCCCCCCCCCCCCCCCCCTCTTTCCTCTTTCTGCTTTTCCAATCTTTTTTTCGCTTTCTCTTACCTTCCAGG CCAGGTTAAAGCGACACAGGTGGCATAAGAAAGTCCTGAAGACTAGAGACCCAATTATTGTTTCTGCTGGATGGAGGCGT TACCAGACAACTCCTGTTTATGCTATTGAGGATCACAATGGAAGGCACCGTATGCTGAAATACACTCCAGAACACATGCA TTGCCTAGCTATGTTTTATGGTCCTCTTGCTCCTCCCAACACCGGAATAGTCGCTGTTCAGAATTTATCAAACAATCAGG TCGGGTTGTTTCTCTTGTTGAATAGATTTTGTTAAAGTCCTCTCAAAATGTGCACTCTATTTTTGTACCTTTATTCTTTT TTTTTCCCCCTCTAGTATTTGTGTTTAGTGTCTGAAATGTTGTATTTGATTTATCAGGCAACATTTAGGATTACTGCAAC TGCAGTTGTACTTGAGTTTAATCATGCAGCAAGGATAGTGAAAAAAATAAAATTGGTCGGTTACCCATGCAAGATATTCA AGAAGACAGCTCTAATCAAGGAAATGTTTACTTCGGATCTTGAAATAGCTCGGTTTGAAGGTGCGGCCATTCGAACAGTC AGTGGGATAAGGGGGCAGGTCAAGAAGGTATCTGAGTTGTCACTTGAAGACAATCACATTACTGATTATTTGTCCCATTA GTTAACTAAAAGACAACTAATGTTTCAGTTGGATAGTTAAATTTTGTAATCTATTTTGTGCTGAGTTATTTTTAATTTGG CAGGCTGCAAAAGAAGAGATAGGTAACCAACCAAAAAGGAAGGGTGGGATAACCAAAGAAGGAATTGCTAGGTGCACCTT TGAGGACAAAATTTTGATGAGTGACATTGTTTTCCTGCGTGCATGGACTCAAGTTGAAGTTCCTCAGTTCTATAATCCAT TGACAACGGCATTGCAGCCTCGTGACCAGACCTGGAAAGGAATGAGAACTGTTGCAGAATTGAGAAGAGACCACGATCTT CCTGTGCCTGTAAACAAAGATTCTCTTTACAAGGTATGTTCCAATTTGATACCCGTAGGTCCCCCCCCCCACCCCCTCTT GGCGCTTTAGATATTTTTCTCCTCCCATATGGTTGTGTCTGTACTTATTTTCCTTTTTCTTTGTCCTTGGCAGAAAATTG AAAGAAAACCTAGAAAGTTCAATCCATTGGTGGTTCCTAGGAGTCTACAGGAAAGACTTCCTTTCGCATCCAAACCCAAG GAGACACCCAAGCGAAACCAGCCATTACTTGAACAGAGAAGGCAAAAGGGTGTTGTCATGGAACCTCGCGAGCGAAAAGT TCTTGCTCTTGTTCAGCACATCCAGTTAATAAATCATGACAAGGTAAGCATGTCGTCTAATTGATTTTTGCTGGCCTTTT CTTATTTGAAATTTCTATCCGAGATTTCTTAGCTGATAGTGAAAAGAATTAGGGGACCATATTCCATTGCAAATAAGTAT TTCAGCCACTTTATGGATGTTTTTTTTTTATATTCAAAGTTGAGGATGACTGGCAACACAGTAAATTTGGCACAGTATTT TACTCAATTATGACTGGGAACACATTTTTATGATGCTCTCAATTATTATTATTTTTCTCATTTTAAAGTTCTATCTGGCA TGCCTTTTGACATTGTTTTTCCTACGAGCTTGTAGATGAAAAAGCGAAAACTTAAGGAAAACGAAAAGAGGAAAGCACAT GAAGCAGAAAAAGCAAAAGAAGAGCAGTTATCGAAAAAGCGCCGTAGAGAGGAAAGACGAGAGAAGTACCGAACACAAGA CAAGTCGAGTAAGAAAATGCGGAGATCAGAGGCTTGAGTATCCAAAATTGATTTCATTTGAACTTCTTCACGCAGTTTGA GCATCATGGACATTGTTCTTGATTGCGGGCATAATGCTAAGGAAATTACTAAGATGTCTGTCCACTAGGCTTTCAGCTAC TTATAGCTCAATGTTATTATTGATGTATAATGGTTGTCATGCTCAGTGAGTATTATAATTATAATATAATTATTAGAGTA TGTAATACGGGAGTTTTAGGATTTTTTCCTCAATTTTGAGCCTCTTAGCGAGTGGTTGAGGTCCCTTCTACTTTGATGGT GTAAAAAATATTCATTTATTTCCAGAGAAATTATTTTCT
CDS sequence (LotjaGi1g1v0756800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTGACCAATCCAACAAGGCTCACAGAACCCGTCGATGATGATGGACTGATTGACAAACCTCAAAACCCTAGAGCCTT CGCTTTTTCTTCCACCAACAAAGCCAAGCGGTTGAAATCCCGCGCCGTCGAGAAGGAGCAGCGTCGCCTCCACGTTCCTA TTACCGACCGCTCTTACGGTGAACCCGCCCCTTATGTCATCGTCGTGCAGGGTCCACCCCAGGTGGGGAAGTCACTGTTG ATCAAGTCTTTGGTTAAGCATTACACCAAGCATAATTTGCCTGAAGTTCGCGGTCCAATTACTATTGTGTCAGGAAAGCA AAGGAGGCTGCAGTTTGTGGAATGCCCTAATGATATCAATGGTATGATAGATGCAGCTAAGTTTGCTGATCTAGCACTTC TCCTTATAGATGGGAGTTATGGTTTTGAAATGGAAACATTTGAGTTCCTTAATATTTTGCAAGTTCACGGGTTCCCCAAA GTCATGGGGGTTCTTACACATCTTGATAAATTCAAGGATGTTAAAAAGTTGAGGAAAACAAAGCAGCGGCTCAAACACCG CTTTTGGACTGAAATATATGATGGTGCTAAGTTGTTTTACTTATCAGGCCTTATTCATGGAAAGTATGTCAAGCGTGAAG TTCACAATCTTGCTCGATTTATTTCGGTCATGAAGTTTCATCCTTTATCTTGGAGAACTTCCCACCCTTATGTTTTGGCA GATCGTTTTGAAGATATCACTCCTCCTGAAAAAGTGCATTCAAATAATAAATGTGATAGAAAAATCACACTTTATGGTTA TCTCAGAGGCTGTAATTTGAAAAAGGGCAATAAGGTGCACATAGCTGGGGTCGGTGATTATAGTTTAGCTGGTGTTACTG CTTTACCTGATCCATGTCCTCTTCCATCTGCTGCCAAAAAGAAGGGACTGCGTGATAAGGAGAAATTATTCTATGCTCCA ATGTCTGGCCTTGGGGATCTCTTGTACGACAAAGATGCTGTATACATAAATATTAATGATCACTTTGTTCAATTCACAAA AGTTGATGATGAAAACTCTGATATTACGAGAAAAGGAAATGAAAGAGATATAGGAGAAGTTTTGGTGAGATCGCTTCAGG AAACCAAGTACCCAATCAATGAAAAGCTGGAGAATAGCATGATCAATCTTTTTGCTCAATCTTCAGAAGCTCTAGCTGAG GCTCAGGGTGCAAACATGGATGTCGAGCAAGATGGCATAATAGAGACTGTGAATTATAACGAGATGGATTCAGATGGTGG TTCAGAATCATCTGATCAGGATGAAGCTGATGCCATGACAGGTTCAGGATTACCCGACCAAGCTGAAGATGATGCAGCGG GTGACAAATCTACAAACAAAGACCACTTAGAAGAACATATTGAGTTTCACAATGGAAGAAGAAGGAGAAGAGCAATCTTC GGTAATGATGCTGATCAAAGTGATCTGATGGATTCATCAGGAAATGAGGATGGTTCTGCCAGTGATGATGGGGCATCTTC TGATTCAGAATCCTTAAACGAAGAGGAGGAAGATGATGTCATGGGAAATGTTTCAAAGTGGAAAGAGTCTTTGGCTGAAA GAACACTCTCACAGAAAACTCCTAGTTTGATGCAACTGGTCTATGGGGAATCTACTGTTAATTTAATATCTATAAACAAA GAGAATGATAGTAGCGAAGATGAGGAAAGTGATGGTGACTTTTTTGAGCCTATAGAAGAAGTGAAAAAGAAAAATGTGAG AGATGGATTGAATGATGGAAACGTCAACACTGAGGATTATTCCAAGTGCGCACAATTTATGGATAAGAGATGGGATAAGA AAGATAATGAGGAGATTCGCAACCGTTTTGTGACTGGAAATTTGGCAAAAGCAGCACTCAGAAATGGACTACCAAAGGCT ACTACTGAAGAGGAAAATGATGATGTCTATGGGGACTTTGAAGATTTAGAAACAGGAGAAAAAATTGAGAATAATCAAAC AGATGATGCGACACACAATGGAGATGATTTGGAAGCAGAGACGCGGAGGCTTAAGAAACTTGCTCTTCGTGCAAAATTCG ATTCTCGATTTGATGATGACCCTGGGACACCAGAGGAAGATGGTGGTAATGAAAATGAAGCCAAGTTTCGTCGAGGTCAG CCTAATGAAACCAGCTACTTTGACAAGTTGAAGGAGGAGATAGAACTCCAGAAACAAATGAATATTGCTGAACTCAACGA TCTTGATGAGGCTACCAGATTGGAGATAGAGGGTTTCCGAACAGGGACATACGTAAGATTGGAGGTCCATGACGTTCCTT GCGAGATGGTTGAATACTTTGATCCCTACCATCCAATATTGATTGGAGGAGTCGGTTTAGGGGAGGAAAATGTTGGATAC ATGCAGGCCAGGTTAAAGCGACACAGGTGGCATAAGAAAGTCCTGAAGACTAGAGACCCAATTATTGTTTCTGCTGGATG GAGGCGTTACCAGACAACTCCTGTTTATGCTATTGAGGATCACAATGGAAGGCACCGTATGCTGAAATACACTCCAGAAC ACATGCATTGCCTAGCTATGTTTTATGGTCCTCTTGCTCCTCCCAACACCGGAATAGTCGCTGTTCAGAATTTATCAAAC AATCAGGCAACATTTAGGATTACTGCAACTGCAGTTGTACTTGAGTTTAATCATGCAGCAAGGATAGTGAAAAAAATAAA ATTGGTCGGTTACCCATGCAAGATATTCAAGAAGACAGCTCTAATCAAGGAAATGTTTACTTCGGATCTTGAAATAGCTC GGTTTGAAGGTGCGGCCATTCGAACAGTCAGTGGGATAAGGGGGCAGGTCAAGAAGGCTGCAAAAGAAGAGATAGGTAAC CAACCAAAAAGGAAGGGTGGGATAACCAAAGAAGGAATTGCTAGGTGCACCTTTGAGGACAAAATTTTGATGAGTGACAT TGTTTTCCTGCGTGCATGGACTCAAGTTGAAGTTCCTCAGTTCTATAATCCATTGACAACGGCATTGCAGCCTCGTGACC AGACCTGGAAAGGAATGAGAACTGTTGCAGAATTGAGAAGAGACCACGATCTTCCTGTGCCTGTAAACAAAGATTCTCTT TACAAGAAAATTGAAAGAAAACCTAGAAAGTTCAATCCATTGGTGGTTCCTAGGAGTCTACAGGAAAGACTTCCTTTCGC ATCCAAACCCAAGGAGACACCCAAGCGAAACCAGCCATTACTTGAACAGAGAAGGCAAAAGGGTGTTGTCATGGAACCTC GCGAGCGAAAAGTTCTTGCTCTTGTTCAGCACATCCAGTTAATAAATCATGACAAGATGAAAAAGCGAAAACTTAAGGAA AACGAAAAGAGGAAAGCACATGAAGCAGAAAAAGCAAAAGAAGAGCAGTTATCGAAAAAGCGCCGTAGAGAGGAAAGACG AGAGAAGTACCGAACACAAGACAAGTCGAGTAAGAAAATGCGGAGATCAGAGGCTTGA
Protein sequence (LotjaGi1g1v0756800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLTNPTRLTEPVDDDGLIDKPQNPRAFAFSSTNKAKRLKSRAVEKEQRRLHVPITDRSYGEPAPYVIVVQGPPQVGKSLL IKSLVKHYTKHNLPEVRGPITIVSGKQRRLQFVECPNDINGMIDAAKFADLALLLIDGSYGFEMETFEFLNILQVHGFPK VMGVLTHLDKFKDVKKLRKTKQRLKHRFWTEIYDGAKLFYLSGLIHGKYVKREVHNLARFISVMKFHPLSWRTSHPYVLA DRFEDITPPEKVHSNNKCDRKITLYGYLRGCNLKKGNKVHIAGVGDYSLAGVTALPDPCPLPSAAKKKGLRDKEKLFYAP MSGLGDLLYDKDAVYININDHFVQFTKVDDENSDITRKGNERDIGEVLVRSLQETKYPINEKLENSMINLFAQSSEALAE AQGANMDVEQDGIIETVNYNEMDSDGGSESSDQDEADAMTGSGLPDQAEDDAAGDKSTNKDHLEEHIEFHNGRRRRRAIF GNDADQSDLMDSSGNEDGSASDDGASSDSESLNEEEEDDVMGNVSKWKESLAERTLSQKTPSLMQLVYGESTVNLISINK ENDSSEDEESDGDFFEPIEEVKKKNVRDGLNDGNVNTEDYSKCAQFMDKRWDKKDNEEIRNRFVTGNLAKAALRNGLPKA TTEEENDDVYGDFEDLETGEKIENNQTDDATHNGDDLEAETRRLKKLALRAKFDSRFDDDPGTPEEDGGNENEAKFRRGQ PNETSYFDKLKEEIELQKQMNIAELNDLDEATRLEIEGFRTGTYVRLEVHDVPCEMVEYFDPYHPILIGGVGLGEENVGY MQARLKRHRWHKKVLKTRDPIIVSAGWRRYQTTPVYAIEDHNGRHRMLKYTPEHMHCLAMFYGPLAPPNTGIVAVQNLSN NQATFRITATAVVLEFNHAARIVKKIKLVGYPCKIFKKTALIKEMFTSDLEIARFEGAAIRTVSGIRGQVKKAAKEEIGN QPKRKGGITKEGIARCTFEDKILMSDIVFLRAWTQVEVPQFYNPLTTALQPRDQTWKGMRTVAELRRDHDLPVPVNKDSL YKKIERKPRKFNPLVVPRSLQERLPFASKPKETPKRNQPLLEQRRQKGVVMEPRERKVLALVQHIQLINHDKMKKRKLKE NEKRKAHEAEKAKEEQLSKKRRREERREKYRTQDKSSKKMRRSEA
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 |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 24 | 24 | - | – | |
PANTHER | 20 | 1159 | 1140 | 0.0 | ||
PANTHER | 20 | 1159 | 1140 | 0.0 | – | |
CDD | 26 | 255 | 230 | 5.37778E-150 | ||
ProSiteProfiles | 63 | 233 | 171 | 10.077 | ||
SUPERFAMILY | 63 | 200 | 138 | 5.21E-14 | ||
Gene3D | 65 | 227 | 163 | 2.2E-16 | – | |
Pfam | 213 | 298 | 86 | 4.1E-32 | ||
SMART | 213 | 299 | 87 | 3.4E-47 | ||
MobiDBLite | 420 | 459 | 40 | - | – | |
MobiDBLite | 482 | 523 | 42 | - | – | |
MobiDBLite | 486 | 507 | 22 | - | – | |
MobiDBLite | 559 | 580 | 22 | - | – | |
SMART | 668 | 996 | 329 | 1.5E-142 | ||
Pfam | 676 | 997 | 322 | 1.1E-86 | ||
MobiDBLite | 695 | 723 | 29 | - | – | |
MobiDBLite | 1062 | 1089 | 28 | - | – | |
MobiDBLite | 1075 | 1089 | 15 | - | – | |
Coils | 1110 | 1147 | 38 | - | – | |
MobiDBLite | 1112 | 1165 | 54 | - | – | |
MobiDBLite | 1122 | 1165 | 44 | - | – |
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 | GTP binding | Interacting selectively and non-covalently with GTP, guanosine triphosphate. | ||
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. | ||
Biological process | Ribosome biogenesis | A cellular process that results in the biosynthesis of constituent macromolecules, assembly, and arrangement of constituent parts of ribosome subunits; includes transport to the sites of protein synthesis. |
Expression pattern of LotjaGi1g1v0756800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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