Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0061900
Transcript ID	LotjaGi1g1v0061900.1
Related isoforms 2	LotjaGi1g1v0061900.2 LotjaGi1g1v0061900.3
Lotus japonicus genome version	Gifu v1.2
Description	50S ribosomal protein L30; TAIR: AT5G55140.1 ribosomal protein L30 family protein; Swiss-Prot: sp\|C3PL27\|RL30_CORA7 50S ribosomal protein L30; TrEMBL-Plants: tr\|B0BLA7\|B0BLA7_LOTJA CM0545.370.nc protein; Found in the gene: LotjaGi1g1v0061900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:8628522..8642292) extracted from Lotus japonicus Gifu genome v1.2.

ATTTGTGATTGACCAAAAAAAAGAAACCCAAAACGGTGCGTTTTGAAGACTCATTCGTTCTTCTCATCTCTGCAATTCTC ACACTGTTTCTTCCAGAGTCTCAATCTAAATTGTGCTCTTCCGCGCTGCCACTGTGACCCTTCACCGTGTTCTTCCCAAA TTCAGGTGAGTTTCTTCACAATCAAAGGTTCAATTTTCTATGACCACTTCTTCTTCATCCTCTTTTCTCACACATTGTTT TAGGTGATTTGGGAAATGGGAATCAGGGTTTGTAGATGCTGGGGATTGGTTTGGCCAATAAATTTTGAATCTTTCTTCAT TTGGGTGTTTGGAACTTGCAATGATTTTGGTTATTAATCTTAAACTGATCAGTAGTTGTGTGATGACCTAGTTTGAGTTG ATATCAGAATTTGGGGATTTTGTTTACATCTTGCTGATTGTTTTCCCACTTTTTTTGATAGTTGTGTGATGACCTTTCTT CTTTGTTTTAGTATTTGTTTTGTGTGAAGATTATGGGAAGGCCTCTATAATCATTAGCATTGTATATTATTTAGTGGATC ATGTTTGATGAATGAAGTTTCTTGACCTTAAAAATCCTTGATTACCAAATTATTTATCTGTTCGGGTTTTTGCATCATAA GCAAGGTGGTTATGGTTATGGATGCTAATTTTTCATTCACAATTTTATTTTCATATATCTTAGTAACGGTTTAAGCAGTC GCTTCAATGTGAGTTCTGGTATATAAGCTAGTATTTTTTCCAAAATCCAAATGTGTTCCTTAAATTTTTTATTCTGTTTG CATCTAGTAAAAACATGAAGTTAGATGGAGTATATTAATATTGATTCTTTTCCCATCTAAACTGATTGCCTTCAAATTTT AGTTGATACATATAATTGCAAAATATGGCTATCTGGTGAGGGAGTAAAAAACTATACTATCGGATTTATTCTTAATGCTG TTCTGTTTTCAAGTTGAAGGTATGAATGCATTTAAGGCATACAAAGCATGTGTCCCAATTGCTTGGAGCCCAAATCTCTA TATAACTCTGGTGAGGGGCATTCCAGGGACCAGGAGGCTCCACAGACGCACTTTGGAAGCACTACGCCTGGGAAAATGCA ATCGAACTGTCATGCGATGGAACACGCCTACTGTTAGGGGAATGCTCCAACAGGTTCTAATACAAGCTCTACTACACATG TCCCTTTTCTGCTGGAAATTAATGGTCTTTCTGTACAGTAACATTGCAAAACTTGGTAATTTGTGCAGGTCAAGAGGCTA GTTGTCATTGAGACAGAGGAGATGTACAAGGCCCGCAAACAGAAGGAGGAAGCCCACCGAGCTCTGCGTCCTCCATTGGT CATAAATCATCAACCGTCTTCGGCTACTGGTACCTTATAATAGCCTGCTGTTGTCTTAAAGATTATGTCTTCTTGCTACT GAAACTATCAAGGGCTGAAGTTAGCGACTTTGGCCTCAAATGGATAAATTCTTGCTTTGAAGATCATGCTTTAGTTTGAA TTTATAATTTTGTAGTCTTTTCAACTTATATTCGTTAGTCAAATTTAGGCCTTTGTTTATGAAAACAGGCTATTTAGGAG TTTCTTTATTTATATTTAGAGTTGGGGAATTGATGTTCTCCAAATGCTTATTTCTTTTGGAAACAACTTACAATCTAGTT TGCATTTATATATCTGTCATTACTTAATAATACATAATAATTGCTTTTAATAATAAAAGAAGGTTCTGCTAGTCACCCAA AGTTAACATCCCCGGGGCATGATATTTGCTTCTTGCACACCAATGTAGGGCCAAATAGAATTAGATTTTTATTTGAAGAC TATACTCTATGCTTCTTCCTTTCCATCAACACCAATTTTGACCTCATTTGCAATCACAAGCTCTTTATCTACATTGTCTT CAGGCTCTATGTTGTGCTGAACTTTGTAATGATGCCTCATTGCCAAGACAATAAAGAGTATAAAATTCAGTACTCCCAGC ACAGCTAGCAGCCAATAGAAGTAATCTAACCTTCCCTTGTTCAGATTGCTCTTGAGCCACTTTTTCTTACTCAATTTGTC CACAATTGACACCAATAAGCTACTGACAAAATACCCCATTGAAATTGCAGTTAGGAAAAGTCCAGTGCTCATAGATTTCA TTCCCTCTGGTGCCTCCCTGATGAAAAATTCTAGCTGTCCAACATAGGCAAATGCTTGCCCGGTACCCACTAGAAAAAGC TGAGGTACCAGCCAAAAAGCACTTATTGTAGTGTGATTTTTGACTGCATTATCCCTTCTTTCTTTCTCAGCAATTGCTGC AACCACCATTGCAACAGTAGCGCAAACAAGTCCAATTCCAATCCTCTGAAGACTTGTGAGCCCGTGTATATTGTGAGTGA ATTTCCGAGCCAATGGCACTGTGAGTTTCTCCTTTAGGGAAGGAGGAGAATGGTAATGATGACAAAAGCTGGTAGTGATC CTGCTGGGACATCTAGAGATCCAACTTTTCTGTTCATGAGTTTAGCTTGCTGAATGATGAAGGTACTCACTTGAGAATAG ACTGTCCAAAAGAAGATACATGTAGACCAAATGGGAAAGAGCATGATAACCATTTTAACCTCCTCAACCTGAGTTACAGT GGAAACCATGCATGTGTTTTCCTTGTTTCCATCCTTTGAACTGTTCTCATCAAGGAATGCAGCTTTATCAAGGAACCTAT CAGACAAAATGTAGTGCAGTGAAAACAATTACGAACTAACATGAAATCATCGAGATTTCGACAATGAAATCACTGTTAGA ACAATAAAACATAATGTTTTATAATTGTGTGCAATAATTGAAGAGTTATATAGTGAGTGTTTGGATACCAGCTGAGTGTA ACGTGAACAGACTTTCATCCCAATCCATAAGGAGAGTTACGTTCACTTTTGGTCTTGAAGGAAGTGCTAACCTCCGTTTG CACTGGTACCAACGGGTATCCAAACATAGTCATAATTGTGCTTACTTAATCCTATTCAATGCATTAAGAGGAATATAGTT TACCTTAACTTCTCTGTATGTCGGATTCTAGCTTCAAAGTAACCATTGAGAAAGGAAGGTTGTGAAGGAATAGGAAGATT CCTCTTCTTCCAAGCCAAGATTAATACCTTCCATATAAGTGTTAAAGGGCTCCCTTGTGGTCTCTTATATCGATACAACG GTTTACCATAGAGTAAAAAAGCAAGTGAAACCAACATTATTCCTGCTGGAATTCCAAATCCCCACCCTCTTCCTATGTTG TCTTGCACATACACCAACACTAGCACAGAAAATAAGGAACCAGTACTGACAAAGAAATAGAACCTATTGAAGAAAAAGAC CATCTTCTTCTCTTCCCGGGGGTCTGTTGTATCAAACTGATCTGATCCAAAACCAGAGACACTGGATTTTACTCCTCCAG CACCCACAGCTATGGTATACAGGGCTACCAATAGTAGAGCCACTTGTTTGCCACCGGCCTCAAGGCATTCATGGTGTTGT CTTTGGACACTACTGCATGGAGGGGACTTCATGCTTGGAATGGTCGTAGCCCCAGTTAACAAACACATTCCCTGGTGTAA AAGTGTTAGTACTTGGTATTTCTAAGTGTAGATGATAAATTTTGCATAGCGTAAGAAGAGGTTAAATAAGTATCATAAAT AGAAAGATCTTATATATTTATTTTCTTAAGACTTTTAATTAAGCGGTGGTGTGTAATTTTTGTTCGTCAACGGTGATAAG ATTAAACCCATGAGAGTGGTCAAACGACACTTACATCAAACAAATGGGAAGATAAATCCCATGTAAGAGCCATGCTACAA TGCTTCAGATATTAAGCACTATTGTACAAGACATGCTCACTCACATCCATAACGAACACACCACACAAAAACAAAAGTAT AACTAGATCCCACACATTCACTAAAAAAATATAAGTAGATCACTCACATAAAAACTTAAACTTACCACTGCTGAAATGGT TGCTGATATAGCAATAGTGAGGTATCTGCCTAGTTTGACATCAGCTAGGAAGCCACCAAGAAGGCTAACAAGGTTCATAG TTCCCAAGCAATTGGTAACTATGGTGGCAGAATAAGCTGTTGGGAGGTTTAAAACTCCAACCAAGTAGGTCACTATGTTC ATGGATATGCCCAAAACCATTATTTTTTGAGCCAGCTCAACACCTGCATGAAAAAGTATGGGTTTTGTTAAAGGGGCGTG TAGCATAAATGCTATAGATTTCAATAAGGACTTTTTATATCTTAATTCATTTAGCTTCCACTTGCTACCATATGCCATAT GTATATGGATGTACTTTTGGAACCAAATTAGCCCCTAAGTTCAACCTTGAGAACGTGACAATCATTTCCAAGGATTAATG TCTGGATACAAGTTAAACTCATAGTGAGAGTACTTTTCTTTTTGTCAATCCATAAAGAGAGTTTCATTTTCCTTAGTGCA TTGGAAGGATTGAAATGTGTTTTATGAGTTCACATATCCAAACATGGTCTTAAGAGTCTCTTTGGATAGCCATAGATCCT GTTATCGTGCATTCCAATGTTAAATTAACGAAAAAAAAATGAAAATTGATACGGAAACTTGAAAGCAACCTAATAGCTTC ATTAACTTAAATCACTTTACTTTTGATGCAACTATAAAACATGGCCTAAGAAAAAACCTAAGATGAGCCATGCTGCAGTC AATCCCCCAGTTTTTTATTTGTCAGGCGGGCGACCTAGATAATCCACGGCGGCAGCAGTGTCTTCAGCATATATAAACAA ATGGAGGAGAACTCCATTTACTCCAGGAGTAAGTCTAAAAAATTACTTCAAATCTTAACCATTGGTTTAATCTTAAAATA ATGGCTCTGATTTATAGTTTGTAAACCTATCACGTGACACCTCTCCTCATTTCCTCTCTCCAATTTCCTTGTTTTTCTTC TTCGCCGCTCAACATTTTTCTAGATCTATTCAAGTCTGTAATCATTTCCTTTTCATATGAATTTACAATTGCTTGCTAAT TGCTATTCCAACGTATTGTTTCTTATATTTATATGTAACAAGTAAAAACCTCAAATCCCCAATCCAATTGATGATTAACC ATCTCCACCGCAACCCAACCTCTTACACCGTACCCATGGCAGTGAACGGCGTTCGACACCAATTCATATCAGACCAGCAA CAGAGCAAGGAGATGAATCAGAAAAAAATCACCGTGAGCAGCAAAACATGCCCGAAACAACCAGAGACAGAAACAACTTC ACCAGCGCAGACATGTTACCTTCTGAAAACCCTATGTTAGGTAGGCTCACCAAGGGGACTTGCGAATTGATATGACTTCA TATGGAGGAGGTGTTTGCAAGGTTGGATGAGGGTGAAAAATGAGAAGGGGAGAGAACAAGCAAACAGCGAAGGGATTGCT ATTTAATTAATTTTTTGACAGAGAAACAAACAAGTGATAATCCCGCAGCAACAATGGTGAATCCACCTCTGAATGGGAAG AACTACAACGCTTGGGCGAGATCCATGAAGCGTGCTTTGGTCGTGAAGAACAAGTTTCGATTCGTCAGCGGTGAAATTCC AGTACCAGCAGCAACTGATGCAAACTTTGAGGCTTGGGATCGCTGCAATAGCTTGATCCATTCATGGATTCTTAACTTGG TAACAATCTCTATAGCCAATAGCATAGTTTTCCTTGAAAATGCATGTGATGCTTGGAGAGATTTGCGAGATCGATTTTCT CTAGGGGATCTAGTTAGGATTTCTTAATTGCATAATGAAATCAGTAATTTGAAGCAAAATTCAAAGTCTGTGAGTGAGTA TTATACTGAGTTGAAGATACTCTTGGAGGATTTGGAACATTATCGTCCAATTCCATAATGTAGATGCACTGTCCCTCGTA GATGTGATGCTATTGAGAGTGTGAAGTTGTTCAGAGAACAAGAAAACGCTATCAGATTCCTTTTAGGGTTGAATGATAGT TTTAGAGTGGTGAAATCATAGATTCTAATGAGTCATCCTCTACCTTCATTAGCTAAGGTGGTTTCTCTAGCCACACAACA TGAGAGGCAAACTGAGACAGAAGAGAAAGGAGATTCACTAGCAAAAGTGAATGTTGCAGAAGGAAAGAAACCACCATATG GAAAAGGTCAATTTGGTGGTTCTTCCTACAGAAACACAAGAAAATTTTGTACTCATTGTAAGAAGCCATGACACATTGTT GAGATATGTTATATGCTACATGGATATCCAACTACTTTCAATTCCAGAGGTAGTACAAGTCATGTCAACAATGCATCCAG AAATTCTGATTCCACTGATGATCCAGATGATGATGATGTTTACTCACAAAGAGGAGTTGAAGAACCTTTTACTGCAGATC AGTATAAAAGAATCACAGACATGATTCAGCATGTGACCACAACTTCAAAGAAAGGATCAGAGAATGGTAGTGCTTCTGTA AATCATGTAGTGAAGGCGATTGCTTGTGAAAGAGATGCTACAAGACATGGTAATCCCATTGCTCTATCTTGTTTTCAACA TTATGATAGTAGAGATTGGATTATAGACTCAGGTGCAAGTGATCATATATGCTTTGATAAAATGTCTTTTAACACACTCA CTGAAGTGAAACCAATTAATGTTAAATTGCCTAATGGTACTATCATCAAAACATGCTATGCTGGAACTGTTAGAATCACA CAAACCATTCTCTTGACACATGTTCTTTTTGTGCCTGAATTCACATACAACTTAGTCTCAATACATAAGTTAGCAAAGCA CCATGATGTTGATGTGATTTTTGGTAAATTTCACTGTTTTGTTCAGTACGTGCAAGCCAAGAGGAGGATTGGTTTGGGTA GTTTGCAGCCTGATGAACTCTATCACCTAGTAGTTAGTAGTTCTTCTAGTACTTGTTTTTCAATTCAACATAGTTCTATT TCTGAAATAAATGACTTTTATATCATTCCACTTGGTGCTTTATGGCACTTCAGGTTAGGACACTTATCCCATGATAGATT ACTTGCTTTACACACTGTAAATAACTCTATTGATGTTAGTAAGTCCATTGTCTGTGATGTTTGTCACTTGGCCAAACAAA AGAGAAAAATGTTCATTGTTAGTTTTAGCAAAGCACAAAAATGCTTTGACCTGGTTCATATGGATATTTGGGGTCCTCTT GCTCAAGCTTCTGTTCATAATCACAAGTATCTCCTCACTGTTCCGGATGATTATAGCCGTTTTGTTTGGGTTGTATTACT CAACAACAAGGGTGAGGTTCAGCAACAAGTGAAGAATTTCATCACATTGGTTAAGACTCAGGTTGGACAGACAGTTAAAG CTATCAGAAGTGACAATGGACCAGAATTTCTTCTTCATGCATTCTATTCTGCTCAGGGCATTGTTCATCAAAGATCTTGT GTGAGTACCCCTCAGCAGAATGGGAGGGTTGAGAGGAAGCATCAACATATTCTCAATATTGCAAGAGCTTTATTGTTTCA ATCTAAACTACCTTATGAATAGGATACCTAGTAAGCTTTTGAAGAATAAGTCACCATATATATCAAGAAGCAGTGGATCT GGAAATGATGAAAGTTTTTGGATCACTTTGCTTTGCTAACACTCTGGCAAATAACAGATCCAAATTAGATCCAAGGGCTA GGAAATGCATTTTCTTGGGATACAAGCAAGGAATGAAATGTTATGTCTTGATGGATCTTATATCATAAGAAATCTTTATC TCAAGAGATGTTATTTTCCTTGAGCATGTGTTACCTTACAAAGGTTCCAACTCACCTGCTTGGAATTGTCTTGATCTACA AATACATGCAGAAGGTGAGAAACTGAATGTTGCTCCTGAAATTCAATCAGCTGAAGGAGATGAGAGAGTGATGACTCCGA GTGCTTCTATTGAAGATATAACACAGAATGACATAACCTCAAGTGCTTCCAATGAAAATGCTATTCATGGCACTCAAGTA GTAGATGAAATTCCTCAACCTGGCTCAATCACAATTGAAGCAGAAGTTGAAATCAGAAGATCCACAAGACCACTCAAAAG GCCTGCACACTTGGCAAATTTTCAATATAGTGCTCTACCTACTAGCAGCAGTACTGCACACAGTATTGTTCATCATTATT CTGATGAAAAGCTATTTGCTGCACACAAAACTTATGCTCTCAACATTTCTCAGGATCAGGAGCCTTCTACTTTTGCAGAA GCAAACATAGAATTACACTGGCAAGAAGCTATGCAGACAAAAATTAGAGCACTTGAGAGAAACTGTACTTGGAAATTGGT AGATTTACCTAAAGGAGTAAAGCCAATAGGAAGCAAATGTGTTTACATAATTAAAAGAAATGCAGATGGGACTCTTGCTA GGTATAAAACAATGTTAGTAGCAAAGGGCTATAATCAGGTGGAAGGTTTGGATTACTTTGACACTTTTTCACCAGTGGAA AAGCTAACCACAATAAGAGTGATTTTGGCCTTGGCAGCTTCTCAGAATTAGCATCTTCATCAACTTGATGTGGATAATGC TTTCTTACATGGAAACTTGGATGAAGATGTGTATATGAGCATACCAGCAGGGGTGACTTCAGAAAAGCCAAATCAAGCTT GTAAATTGTTGAAGTCTCTTTATGGACTTAAGCAGGCTAGCAGAAATTGGTATGAAAAATTGTCAACTCATCTAGAAGCT CTTGGCTTTACACAAACTGCATCAAATCATTCTCTTTTTGTTAAATTCCAAGACTCCTTTTTCACAGGCTTGCTGGTATA TGTGGATGATGTGATACTGTTTGGTAACACAATGACTGAATTTCAGTCAGTCAAGGACTCTCTTGATCAGACTTTTGGAA TCAAGGATCTAGGGCTGTTGGAGTATTTTCTTGGTCTTGAAGTTGCTCATTCTTCCTCAGGAATTTCTCTTTGTCAGAGA AAGTATTGTCTTGATTTACTTCAAGAAACAGGAATCTTAGGAAGTAAGCCAGTTGCTACTCCACTTGATCCCTCTATCAG ATTGTCTCAAGAATAAGGAAAGCCATATGAGGATCCAACTGCTTATAGAAGACTAGTGGGAAGGCTTTTGTATCTCACTA CTACTAGGCCTGATATTTCACATGCCACACAACAGCTTAGCCAGTACATGAGTAATCCTATGGATGGACATTTCAAAGCT GCACATAGGGTTCTTAGTTACTTGAAAGCTTCACCTGGGTTAGGATTGTTGTTTCCTAGGACTTCTTCCATCAATATACA AGACTATTCAGATGCTGATTGGGCAGGATGCTCAGATACAAGGAGATCCATCTCAGACTATTGTTTTTATATTGGAAGAT CCTTAGTTTCTTGGAAGGCAAAGAAACAAACTACCGTGTCTTGATCTTCCAGTAAAACAAAGTACAGGGCATTGGCTTAT GCTACTTGTGAGCTTCAATGGTTGTTATATCTTTTGAAGGATCTTAAAGTCAATTGCACTGCAACACCAGTTTTGTTATG TGATAACCAAAGTGATCTTCACATTGCAGCTAATCCTGTTTTTCATGAAAGAAGCAAGCATTTAGATATTGATTGTCATG TGGTTCAGGAAAAGCTTCAAGCTGGAATTCTCAAGTTGCTACCTATTCCTACAGCACTACAAGTTGCAGATGTTTTTACC AAGGCACTCCAGCCACGAGTCTTTCAAGGGTTTACAGCTAAACTGGCCATGATAGATATCTTTTGACCTCCAGCTTGTGG GAGGGTGCGAAAATACTACAGTGTTCAAGGACTAGTATGTAATAAAAGCAAGAGTTCAATGACTCATTTGTAATAGTTAG TAGTTAGTTAGTGTCAGTTGTTTCCGGCTGTCAGTTTGTTAGGATGGTTATAACTACTGTTAGTTAAGAGTTTACCATAT AAATAGTGTTTAGCATAAACACTTTGTAATCTGAATATTCATTTTCTACAAGATTATAAAATTTCTTCTTCTTCTTCTTC CTTGAGCTTCCTCTGTAAGCTAGGTTAGAATTTATGTTAATATATGTTTTTATATAACCTTAAACTTGGTTTTATAGTTT ATACTTTTTTAGCTGCTACAGTAGCCTTAGGCACTGCAAATTTTCTATGGTCGTCCTTGAATGATATTTGAATTATCCCG AGTGATAGCAGCTATTTTTTTACTTAATTATTCATACTCTTAAAGCCATCAATACCAAATTTAAAATGCTAGAGGCCCAG ACTATATTCTATCTACAAAGCTAGTGAATCAAATTATGTGAGCCAATTTTTTAGCTAAAAAGGAAATGATATGATAGATT CATAGGATTTCTGAAATGTCAATATCAATTTCTCCCCTTATTTTTGGGCACATTCTCTCATAAATACTTTCATGTACCAA ATTCACTCAGACATGAAAACTCAAGGAATTGATCACAATATTTTATTTTATTTGCATGACTACATGAAATAGATCTCTTA ATATATTAGAGAGATATATAAGAATAAATTTGTCACACAGAGAAGTTACAAACAACTGCAATAATGTACCAAACAGACCC ATATTGAACTAATTCATTCATCTGCGGTTTGTACGGGCTCTGTTGTTTGTCCTTTTCACCCTTATACCAAGCATACCTTC AACAAGTGTCACAAGCCATTGAGGTTTCGCAGTCAAGAATAAATTATATCCCAAGAGCATCCCAAACACAGCCCCACACG CATATCCCACGGCCACAGATTTCCAACCAAATCCAGATTCTTCATCATCTTGAAATGTTGAATGTGGTGGCTGTTCTTCA TCCTTATTGCATGATTTTGACAAAGGGAATCCACATAGCATTGGGTTTCCTCCATATGAAGCATTTCCATATGTGTTAAA TTGTCCACCAGTAGGTATGATTCCCTCAAGATGGTTTTGTGAAAGGTTCAAGGTAGAGAGAAAATTCAAATTTGTCAAAG CCAAAGGAATGTCACCAGTCAACTGGTTCCATGAGAGGTCCAACCATTCCAAACTTGTCAAATTACTCAATCGATGTGGA ATGGCACCATTGATTCCATTGTGTGAAAGGTTAAGTCCTATAAGAGACTTTAATTGTCCAATGACTTTTGGAATGCCACC TTCAAACATGTTGTTTGACAAATCAATAGTTGTGAAAGCAGTTAATATCCTCTTGAGCTCCATTTCTTGACCTTTCATTA TGACCACCACTGTATCATTGTAGTACCTTCTGTCGTCCATGTATAGGGAACGGTTTGGATTATTACTCACACTCATCATA CCTTGAAAGTTCATGAAGCATGATGTTGGCAAGGAGCCACTAAAATTGTTATTGGCGACATCAAGAATTCTCAACTTGGG AAATGGATGCTTGGTGTTGGAACAAGTGATGATACCACGAAGTTTGTTTGACCGTAAACGAAGTACTTGTAACTCTTGCA GAGTTTCTAGCCAACTAGGAAATGAATCTTCTATGTTGTTGTCTCCAAGGTCCAAAACTTCGAGTTTTATGCACTGGGCC AAGGCATGTGGTAATGGTCCCTCCAATCGGTTGCCATTCAACTTTATTGTCTCAAATGCATTTCCCTCGGAAAATTTTAC AGGCATGCTTCCATGAAGGTTGTTCATTTGTAAATCCAACACTACTAGATCACGAAATGTCCCCAAACACTGTGGAATCG TGCCAGTCAAGTTGTTGTTTGCCAAACTGAGCATGTTGAGGGAGTTTGCATTGCATAGGCATTGTGGAATCGTGCCGGTC AATTTGTTGTGAGCCAAGCTGAGCACACTGGCGGAGCTTGCATTGCAAATCGCTGAATCAATATATCCAGTGAAGTGGTT ATTGGAGACAAGAAAGTTATAAATGCTCTTTGGAGGAATTGGAAGGTCACCTTGCAGCTGGTTGAAACTGAGATCAATAT TTTCAATGTCCTTCCATGAGTGTAAGAGCTTCTCATGAAACAATTTGGGAATTTTTCCATGAATTTTGTTATTAGAAAGA TCTAATTGTTTCAAATTTTGAAGCGGTGCTAAGAATTTAGGGAAATTGCTCTCAATATTACATGAAGATAGATATAAGTA TTGAAGGTTGGGTAATTCATAGTCAACACTGCTATCAAAACTAATTGAGAGAAAATTAATATTAGAAAGATTGAGGTAAA TTAGACTTTTAAGCTTTGAAAATCGGTGGAAGTCCACAGAAACACTCAAGTCATTTGATGACAAGTCTAATTCAGTAAGA TTTTTAAATTCAAATATTGAATTCGGAAGCTGACCTTGCAGTTTGTTGTTAGAGAGAAACAAATATTTCAAAGCATAAGT TGAGAATTCACTAATTGGCCCTGTGAGATGATTGTGATGAAGATCCAAATTTGACAGGAAAGGTAAAGAATAACACCAAT GAGGAATTGTTCCAGATAACATATTATTTGACCAAATCTAGATATTCTAGTTTTGGAAGTCCAACCATTTTACTTGGAAT CGGGCCACTTAGGTTGTTCATTGAAAGAACTAGATTTTCTAATTTGAGAAGCTGACCGAGTTGTTCAGGGAGCTGACCGT GAAAGTGGTTTTCCCCGAGGCTCAAACTTGTTAGTCGAGTGAGGTTCCACAAAGATAGAGGAATCACTCCATTGAATTTG CTGCGGTACAGATCAAGTATTTCAAGAGATTTTAAATGGCCTATGGAATCTGGAATTTCTCCAGAGAATGATGTGCTAGA GAGATCCAAGTACCTTAGAGGAGTGCTCCAGTTGGACTTTGGAAGCTGACCTATGAGCTCTAGATTCCCTGTTAAATCAA GTTCTTCAAGATTGGGTAAACAAAAGATGTCACTTGGAAAATTCCCCTGTAATCCAGTGAATGGTATATGAAGAGAGAAC AAGGAGGATGACAAATTCATGAAAGAGTTTACCTTGATGGAAGACATGTCTATGCCATCAAGATGGAGCTCCCTTAAATT AGTTGCATTAAGAATGAGTTTCTTCCACGTGGATGGATAAAGTCTTGTTTCGAAGCCGCTGAGAACAAGAGATTCAAGTT TGGACAAGTGCGAGATTGTGGAAGGGATATCACCGGTGATTCCAGAGTATGATAAATTCAGATGGGTGAGTCTGAAGAGA TCACCAATTCCAGAATACAATGGAGACCCAGAAAAATAATTAAAACCAAGGTTGAGTTGTTGAAGGTGCCTCAGCTGGAA TATGGTGCTATTGGAATGGAACTCACCTTGAAGATGATCGCAACTAAGGTCGAGACCAATCACATGGCCCGATATTGCAT CACATGTGACCCCATCCCACTTGCAACAATCTGTTCCGTTTCTCCAAGACTCTACCTTAGAAGGAAAAGAGGAACAAAAA TACCAACCATCAGAATTATGAGCTGAAGTGTTGACAACAAATGAGTTTTTGAATTGAAGCAAAGCAGAGTTGTCATGATA GTTGCACAGTGAGTAAGTGTATGAAGGAAAATGAAGAAGAAGCAACAAGAACAAGTGGAAGATAAAATATGGTAAAGGAA ACCACCCCATGTGAAAAATAGAAGAAGCTATATGGAGAATTTCACGGTTTAGGAAACTAGAGAATTAATCTTGTATGGAA CCTATTCATGAAACGTCCATTTATATTTATATATAGACTAAAAGTTCTAAGCATAAAGTCATGCAAGAAAATACATAAAA CCTGCTTGATACGGCAATTGTATAATTTCCAACCATGTATAAGACTTCTATGGCATCCTCTTTAACTTTTAATCAACCGT ATCCAACACTT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0061900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAATGCATTTAAGGCATACAAAGCATGTGTCCCAATTGCTTGGAGCCCAAATCTCTATATAACTCTGGTGAGGGGCAT TCCAGGGACCAGGAGGCTCCACAGACGCACTTTGGAAGCACTACGCCTGGGAAAATGCAATCGAACTGTCATGCGATGGA ACACGCCTACTGTTAGGGGAATGCTCCAACAGGTCAAGAGGCTAGTTGTCATTGAGACAGAGGAGATGTACAAGGCCCGC AAACAGAAGGAGGAAGCCCACCGAGCTCTGCGTCCTCCATTGGTCATAAATCATCAACCGTCTTCGGCTACTGGTACCTT ATAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0061900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MNAFKAYKACVPIAWSPNLYITLVRGIPGTRRLHRRTLEALRLGKCNRTVMRWNTPTVRGMLQQVKRLVVIETEEMYKAR KQKEEAHRALRPPLVINHQPSSATGTL

Download Protein Sequence

Domain prediction

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	PTHR15892 View details on PTHR15892 Search for proteins/transripts with this domain View external data on PTHR15892	1	99	99	1.5E-47	IPR005996 Show description in modal box View details on IPR005996 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_01371_B View details on MF_01371_B Search for proteins/transripts with this domain View external data on MF_01371_B	16	73	58	14.346	IPR005996 Show description in modal box View details on IPR005996 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.1390.20 View details on G3DSA:3.30.1390.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.1390.20	17	73	57	9.5E-18	IPR036919 Show description in modal box View details on IPR036919 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55129 View details on SSF55129 Search for proteins/transripts with this domain View external data on SSF55129	18	72	55	1.09E-15	IPR036919 Show description in modal box View details on IPR036919 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01308 View details on TIGR01308 Search for proteins/transripts with this domain View external data on TIGR01308	19	72	54	5.2E-18	IPR005996 Show description in modal box View details on IPR005996 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01658 View details on cd01658 Search for proteins/transripts with this domain View external data on cd01658	19	72	54	2.11677E-16	IPR005996 Show description in modal box View details on IPR005996 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00327 View details on PF00327 Search for proteins/transripts with this domain View external data on PF00327	20	69	50	2.1E-16	IPR016082 Show description in modal box View details on IPR016082 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	82	107	26	-	–

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0003735 View details of GO:0003735 AmiGO InterPro QuickGO	Molecular function	Structural constituent of ribosome	The action of a molecule that contributes to the structural integrity of the ribosome.	Subterm of View details of GO:0005198
GO:0006412 View details of GO:0006412 AmiGO InterPro QuickGO	Biological process	Translation	The cellular metabolic process in which a protein is formed, using the sequence of a mature mRNA or circRNA molecule to specify the sequence of amino acids in a polypeptide chain. Translation is mediated by the ribosome, and begins with the formation of a ternary complex between aminoacylated initiator methionine tRNA, GTP, and initiation factor 2, which subsequently associates with the small subunit of the ribosome and an mRNA or circRNA. Translation ends with the release of a polypeptide chain from the ribosome.	Subterm of View details of GO:0034645 View details of GO:0043043 View details of GO:0044267 Part of View details of GO:0010467
GO:0015934 View details of GO:0015934 AmiGO InterPro QuickGO	Cellular component	Large ribosomal subunit	The larger of the two subunits of a ribosome. Two sites on the ribosomal large subunit are involved in translation, namely the aminoacyl site (A site) and peptidyl site (P site).	Subterm of View details of GO:0044391

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0061900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0061900.1