Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0140500
Transcript ID	LotjaGi1g1v0140500.3
Related isoforms 2	LotjaGi1g1v0140500.1 LotjaGi1g1v0140500.2
Lotus japonicus genome version	Gifu v1.2
Description	Chaperone protein DNAj, putative; TAIR: AT1G28210.1 DNAJ heat shock family protein; Swiss-Prot: sp\|Q38813\|DNAJ1_ARATH Chaperone protein dnaJ 1, mitochondrial; TrEMBL-Plants: tr\|K7M7R2\|K7M7R2_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0140500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:23051839..23068667) extracted from Lotus japonicus Gifu genome v1.2.

ACAACGTGCTTAAACCCCCAGACCCGAATATCTACCCTCCAAAAGCACCACCACTGGAAACCTCTATCAACTGATCGGCC ACACATTCCGACGATCTTCTAAGCAGAACCACCACCTCCACCGCTCAAACCTCCATTTTCTTCCAATTTCACAGCTATAC ACCACTCTACCGCCACCGCTGCAACCATTTTCCGCCGATGAGAAGGTTCACGTGGCTAACGCCGGTAAGCAAATCAACGC ACAAATCTCAATACCTTTCAAAATCAAACTGTTCCTCTTTCTCACGCACCGTCCCTCACTTCTTCTTCCAATGCAGTTCC GGCGCCACTTGCTTTCCTCTCTTTCCTCAGAACCTATCGTCGTCGATAAAGGAGATTCGTTGCGCAAATTGTTGACCTCT CGCCAATGGCTGCTTCTCGCACGAGGTACGTTTTTGCGAAGTTCGCTTGTTTTTTCGCAAATTAGTTACCATTTCTATGT TTTTCTGATGGGTTTTGGTTTAAATGTTTGGGGTTCCAGCTTTGGGAAATTGCAGTTTTGTCACGAAAATGGAGGATTCT TTATCGTCGAGAATGCCGTTGAGATTTCGTCATATTTATGCTGCAGGTTTTGATTTTTAGTTGAAAATGAAGTACCTTGT TTGAAATTATAGATGATTTTTGGATGTATTTGAGGTTTTCATTTGGTTTTGGTTGTTGCAGCATATTCTTCTTCGGCTGA ACGAGATTATTATCGGACTCTTGGTGTTTCTGAAAGTGCCAGTCAGGACGAGATAAAAAAGGCATTTCACTCGGTGCGTG ATAAAAAAATTATGTTTTGGTAGAGTAGAATAATGATGAAGTCCAATTGGAATATAAATGATGATTCAGTTTTCATCTTT GAAAACTTATAGGCGGAAAGGTGAATTTTATTCTCATTGGTTGGTACTTGGTTGGAGTGATAGGAATGGAAATTAGATGA TCTATTCTAGTCATAATGATGAAGTCCAATTGGAATATAAATGATGATTCAGTTTTCATCTTTGAAAACTTATAGGCGGA AAGGTGAATTTTATTCTCATTGGTTGGTACTTGGTTGGAGTGATAGGAATGGAAATTAGATGATCTATTCTAGTCATAGT AGTGTTAGTGTTACTAAACTACATGTGAGGCTAGGGGAATCATATAACGTTTTTGTTTAATTTAGCACTATGCTTTTCCT ATAGTTGTAGCTTCATTTTTGCTCATTTACAAGAGGAAAACCTTGCTGCTCATGATAGTCAAATTGTAGCCTCTTTTTTT TTTTTCCCCGTTTTTGTCTCTTTATTTTTACTCTTCTACTAACCAAGCATATATTATTCTTACTTATCCTGTTTGTGCTT TTTAATAAGCTAACCTAGTTCTTGTTGATTTACATTTTTATCCATAATCAGAATTTATCTAGCCACTGGTTGATCAATTC ATCACATTGTTACTTTGAATATTAGAGTTTGAAGTCTCATGCATGCAGAAAGATACAACTCAGGAATTTTTTTGAATGAT TAAGGTGTTAACACAGTGAGAAGGTCAGAGAGAGAGAGAGAGAGTTTCATTTAGATGATAAGATGAGGTGTTGACGTGTT GTCATGTATCTTCTTGTCGTGAACTACCATAGTCACAGCAGCTGATTTGGGATAAGATTAGGTGTTTGAATTTGATGTGA AGCCCATGTATTTTTGGTGTTTCCCTAAGATATGCTGCAAGATTTGGTATATTTGCTTCCTTGATGTTGTGCTTTTTCTT TGATTTATCCTTCATATAAAGTAATTCTTTAATCCTTCAAATTCATAGTAATTATATTCTATTTGTTTTAATAAATTCTT CTTTTATCCGAGAAGTTCTTACTTAAAATCAATAAAATGTAATATTTAAAGGCTTAATAATTTCCCACAATTTTTCAAAG GGGTTATGGCTTATAGAAGTCATAATGTTCTGCAATTTTATCCAATACAGCTGTTTTCAGAGCTTAAATAATACTAAAAT CAGTTTGCCTGACATTTTCGTTTGCAGTCCCAACTCCCAATATATGCTGTCACCACACTCCTTTGACAACAATATTTGAA AACCAAAGGTCTTCGTTTAGCTAATGCTATATTATGACACTTTTGTGCTTTGTACCAGCTCGCTAAAAAGTATCATCCAG ATGCAAATAAGAATAATCCATCTGCGAAGAGGAAATTTCAAGATATAAGAGAAGCATATGAGGTCTGGATAATGTATTTA TGAATATGAAATATTCTTTCCTCACAATATCTGACATCTATAGTCCTCCCTTCTTCTTGCTACATCTGTTATTGTCTAAA TTAATTACCAGAATAACATTTTCACGTGTCTTTTTGCTAATGTAATTTCAGACATTGAGAGACTCTAAAAAGAGGGCAGA GTATGACATGGTAATTCCCCCGTCCCCCCATATGCTATTTAATATTTTTAGTTCAATATCGTAGTTACCTTATGTGGGGT TTGTCTGGAGCTTCAGTTAATCAAAGCTATTCAAACTTTCTGTTATTCATAGTTTTCATTCTTATATAAGATGTTGAATT GACCGACTTTGTTCCAATATTTTCTCCCATGAATCACTTCTTCAACTGAAGATGCGATCTAGAGGTTCAGAAAACATAGA ATATGGAGATGCTGATACAGAAAGGTTTAAAAATGCTTTTCGATCCCATTTTTCTGATTCATTTCATAATGTATTCTCAG AGGTAATTCTTTTCTCTCGTACATGACTTTTTGGATTCGTTTCATATAGTATTGTCCTGGGAAATCTTATAATATTCTTA ATCTTGACAGATATTTGAGGAAGCAACAACTCAATTCTCGTCAAATATAGAGGTCAGCTTAGCCCTTGCTTCTCTCTTGT TGCTTGAATTAGGTTCCTACTTCCTACATTTCCAAGCTTAACCTTTTGCTTATTACTTTGCTAAAATAGGTGGAGTTGTC TCTTACTTTCTCAGAAGCTGCGACAGGATGCACTAAACATGTATCATTTGATGCGTTCGTTCCCTGTGATTATTGCAGTG AGTAAAGTTAAATATTCTCGGAATTAGGGAAGTCCTAGGGAGAAAATTTTCTACATAGGAATGAAATTACATGCTTTTAT TGTGTTAGGAAATAGTAAAATACTGTCTTGAAGTTTTACAGTTACCAATCTGTGTGTGAAAATAGCAGAAGGCAGGCTGT CTGGTCAACCAGAGTTAGGGTGTGTTTGTGTAAACAGATAAATTAAGCGCTTATGGCCATAAGTGCTTATCGTACAAGAG CTTATTCATAAGCTATTTGAAGAAATTTATTGAATTAAGTTGAAAATATGTTATAAATAAGAATGAGCTCTTTTTCCTAA ACTTTTTGGAAAAGCTTATGAAATTACGCTCAAAACAGCTTATAGGTAGGCCATAAGCTATTTACATAAGCTCTCTCAAA CACTTGCATAAGCGCTTATGCTATAAGATAAGCTCAAATAAGCTCTTCCAAATGGGTTAATGCAATTTTTTGATTAGAAT CACTCATGGAAAATTCTGATAAATGCTTTTTTTTTGACTGCTTGAATGTGTGCTTGTGCAATGAGTGTATTGAATTGAAT TGAGTCTAGAGTGTCAAATTCGGGCTGATCCAACCCATTTGCTCACTACAGGACAAGATATGATTTAGTTGCGGTCTGGT AACTACGTAACCCTGGCCTGCCCTTTGATGGGTTGCAGGTCAAATGGGCCAGCCTATGGGCTCTCTTAAAAAAATTCTGC AATCTACAATATTACATTCTGACTTAAAGAAGAACACACTGCTCAATAAATGTCTAAGCGAAAGGTAAAAAAAGTGCTTA AGAAAATAGTAAGTAAAATAAGTAATAAAAAAACTTTGATGTTTATTATTTTTCATTTAATTTTTTATTAATTTTAGATA TGATTAGATTAAATAAATATTCAGGCCAACTGGCCAGCCTGCACTGGGTTGGTTGATTTTAAGGCTGGGCTGATATTGAC CCAATGCGTGCTTTAACTCAGTTATTCAAGCTGACCCATTGGGTTGGACCATTTTGATTGCCATAGTATTGACATATGGG TAGCTTCTCCACCTTCCCCCTCAGTCTTGCCTATTGTAGAGATTAGTCTTTGATGCAGAAATATTACTAATGAACAAAAT CCTGACTAATATTAATTGCTGACTAAACTGTGTCTACAAAAAGAATTCTATAAGCTGAAAAACTATTGAGGAAATAATCA AAAGTATGTACCACCAGATGTGGAAAATGTTGTCTATTTTGGAATCTGTTTGTAGTGCATTTTACACTGGATGTGTAAGA TGTTCCTCTTGATCTAATAATTATCCCATTTGATGCCAATCAATTTCTTTATATTAATCCAGATGGACAGGGCTATCCAC TAAATGCCACTCCAAAAGTTTGTCCAACATGCAGGGGCTTAGGCCGAGTAAGTGCCTTGAATGATCATTGTTGATTATTA ATGACATAATATTTTTAAGCAAGATTTGAACTGTGCACGAGACAATTTCTTTTTCTTGTATTTGTGTTATCAGGTATTAG TGCACTCTTTCATTCTTTGTTTTGATGATTTTCTACCAGGTTACAATCCCACCATTTACATCAACATGCATTACTTGCAA AGGATCTGGCCGTATCATTAAGGTCTTTCATAAATGTTATATCAATTAACTCTTGTGAGGTTGGTTAATAAGTATTAAAA TTTAATATTTTGTGTATCTATTTTGTGCAGGACCTGTGTAAGTGGTGTGGGGGATCTGGGGCTGTTGAAGGAATGAAAGA GGTCAAAGTTACAATACCAGCAGGTTGGTTTTTATTGCATGTATTGAAGTTGCCTGGAATGTAGCTTGGCTAGAGCTCAT CAATGTATCTGAACATATTGGAATAAACTCGTTTGTTGTTCTTGTTGTAGCTTGTTATTCATGTTGGAATTCTTTATGCC CAGATTATTAGTTTGACCAACTTTTAATCCTTTATGCTCAATTTAAGTTGATATTGAATAGTCTTTGATCTCTATTTGAG TACTGGTATAAACCATAAAATTTTAGAAATATAAAGTTTTATCCATGCTGCAGACCTGTCCTGCCTAGATTTGGTTTATC TTCTGGCAATAATTTTTTTTATATATTCTATCTGGTATCCAAAAAGGTAGATTTTTTCCGTTAGTCTTATAATTTTGAAT GAACTGCTAGGCGTGGACTCAGGAGATACAATCCATGTGCCAGAAGGTGGGAATGCTGCTGGAAGTGGAGGTCGACCTGG AAGTTTGTACATTAAGATAAAGGCAAGTTTTTTTTTTTTTTTTTTATAGAAATTCCCTGTCAAATATTCAGTGTAGACCA CACTACGTTGCCCACCTAGTGGCCTGTGAATCTGTAGCTTCACCCAAACTTGGCATTATTAAGGGGATATTGATACATAA GACCCATACAGGGTTATTTTGGCTGGCTGGGGCCATTGCTTCCCTATATTTCGTAGAAAAGCTATTGAAGAAAATATTTA TCTTTCAAAGTTAAATTTACATGCTAGCTTCCTTTATGTGCACTTTCTCATTTAACTGATCATTTGAAGTTGTAAAGGGC TCTAGAAAATGTAAAACCACGCTCACATGATGCTCAATGCTTGCATATGAAATACACCTCTTATTTGGTTGGAAATGGAA ACTAATTCTGTCTCCTTAACTCTTATGTATTTGATTTATGGAGTACTCTTCAGAATTTCAACTTCACTCATAATACAGTG AATGTCGATTTTGGTCCTTCATAGATACATGCATCATTGGTCCTCTAATTATTGGTGACATTCAATTGGTCCTTCAGTGA CAATTCATGCCAGACATTTTGTCCTTGTAAGAACCAACTTGGTGACACTTATATCAATTTGGAGCATAAATTGACATTAT ATCCTGTTTGATGCATTCATTGACAGAAGACCAATGTAAGAGATAACTTTGGGTGGCCAAAATGGAAACTTAACAAAGTT GTTTTTGCTTTGTTTTCAATCTTCAATGGCTTTACTCTATGAAGTATTATCTTCGACATGGAAATGTTAAAGGTGAATAG AAAATTACTATTTCACTATGAGTATAAAAGCAGGATAAAAGTGATAAATCAGTGATAAGAATTCATGCGAAGGTTAAATT AACTAATTTAATAAAATGAAAAAAACCCTAACTATGATAACAATTATACTATAAATGAAAACTCTCAATATATAATAATC TTACTGGTATAATATGTTCGTGAGCAGGGCTTATTCTGTTCTATACTTCTATATGTATTGGAACATCATTTCTCCCTGTT GATGTAGGTGGCTGAGGATTCAGTCTTTGTCAGAGATGGTGCAGATATCTATGTGGATTCTAATATTAGCTTTACACAGG TGAGAGCTAAATATATTGTAGTAGTTTCTGATGAGCTAATGGTCTTTTGGCCCTTCTAGTGCTTTTTGATGTTCTATCAT CGGAGTAAAGAGGGGAAAGGCCTGACCATCGCATAAAGGGGGAGCGCACACCTTTTCTTATGCCATTGCTTGTATTTTGT CATAGAGTATTGTTTTAATGGGTCCCATTTTAAGAACACAAACTATAGTTTACTCCTTAACCATCTCGATGTTAACGTAC CTAACTCTTTCAGTTTTAACTTTTTACAGGCTATTCTTGGTGGCAAAGTTGATGTTCCTACTTTATCTGGGAAGATGGAA GTAAAGGTAAGAGAAGCTATGCTTTGTCAGTATAGTTTTTTTTTAATGTTGCAGAAAATTTTATGGGAGTAGAATTGCCC TTTCAAAGTTAGAGTGCACTATGATCGACAAACCTAGGTGGTTACCCCAGTACCTCCTTTAAGACACATGAAGTAGATGG AGGGTGAACAAAATAGACACATCCAAAGTATGAAGATTATGATAGCTAGTAGACATATTAGAAAGATGAGAAAAGGGTGA ATCAAAGCTTAGAAGTTGAGAAGGAAATGGTTAATCAAGTTGATAGCAGTGGAAAAGGTGAGGAGGAACAAAATATTCAA GTAGCCAGGCCATTTGTTGAGTATGTCAATTTTGCTGCCAGCAATGCTATTTTGTTGAGCCATGTATGGAGAAGACCTCT AAGAAATAATTCCTTGATGTTGTAATAATGCTTGAAATTCATTAGATATATATCCTCTCTAGAATCATGTCATGAACCAA CTATCCCAAAAGCTTAAGCTGCTAGGTAAAAACAAATGAATGATTTTATATAATATTTCTAATATCCCTCACGCAAGATC TCATTGGGCTTGAAAGGTTTTATTCTTATTACTACTACTATTATTTTACCTGGAATCACAGGATTTAGACTTGCTCACAA GGAGAGTAATTATGATAAGATGAAAAGAACACTCAACATCCCAGATTTCCCTTTTAATAATGAGTTCATGCATACATATG CCGATGGCATGTAAATTGGTTGCATTTTCTGTATCTCAGCTAAAAATGAAGACGATAAGGGTGACACATTTTAGGGACTA GTATTTTTCAGATTCTTAAATATCCGCTTGCAAGAAGGGGAAAAATTGGAAAAAAATGATATTGGTTTTGTAATGCTTTT TGACTAAATGAGTCCTTTCCGCTGACTGATAAAATTCATTGTGTACGTTCTACTTTAAAATTTCTGTTTTGAATCATTGT GCTCAATGAATATTGTTTGGTGGGGAAAAACTAGCCTGGCCTTTAGGGAGGGACCTTCAACTTGCAAATGGAAATATTTT ATAATATGACTGACTGCTTGTTTTGAACTATTTGATCTAATAATGTGCGATTATGTCCTTCAGATACCTAAGGGTGTTCA ACCAGGACAGCTTCTGGTCTTTAGAGGCAAAGGTTAAGTGAAGTGTTTCCTCTGTCATGAAAGATTTGGACAAGTCTATT CTCCTTTTATTTTATGCGGTTCAGTATATTTACTATAGTTGGTAATGCAGGATTGCCAAAGCATGGGTATCTTATACATC ATGGGGATCAGTATGTGCGTTTCCGTGTTAATTTTCCAACGTAGGTTATTCTTGTGTTAACCCTTTTTTCAGTTTAACTT CATGCACCATAGTGTCTTTTGTGCAAAGCAATAGAATGTATTTCCATATAATGCCTGATCTCAATTTCTTGTGATACTGT TTGATATCATGGCATCAGGAAAATTGAATATTTTATTGTCAGCTCTCCTTTTTCCTGTTAGTTTAGTTATCAGCTATTTA CATAACTAATGAAGAGGGAAAAATGAAATTGAGTAGTTGTTCAAGATTCAAGAAGCACTCTTTTGGCGCATTTAGTGCCG TTGTACTATTTTACTATGTTAATGGTTTAGTCAATGTTTGCAACTATGGGAATGGAAATTGCTGCATAGGTTTTTACAGT TGTCAGACAAAAGATTATTATTACCAAATTTGTCTTCAAGTGATGTTTGTGTGCAATAGGAAATCAGTATTTGTATCAAG TTCTTACCATTTTTCCATCTCTATGCATAAGAACTAGCCTGCTTATTACTAAGTTATGTTTTGCATCAATTCACTTTTGG TCCGCTATTCCTTGTTTTAGTGCAATTAACGAACGACAACGTGCTATACTTGAAGAATTAGCGAAGGAGGAAATAAAGGC AGGAAACAGCTCATCATTTGAAGAAAACTGGTATACCCTTTATGTAACTTGTTATTGTGATATTTTTAGTTGCCTTTACA TTCAAATCAGATTTGACGGTTTAGTAGCTATTTAAATTTGGTAAGGTGTCAGCTCTGAGTTCTGAGTGACACTATTGTAG AATATAGTTAGTTTGAGTGCTTTGAAATCCAACCTATTTGTGTGGAGAAAATGTTATAAAGTGTATTTTCCTAAAACCTG TGGCCTTTTGGTGGTAATAGGGCTAATAGGGGGGGGGGGATAGAGGGACATTGACTTTGTAAACACAATCCAATAATTGC TTAAAAATGCTTCTTTGGGTATGTTTAGTAAGATCAGATACCAAATTTAGTTGGAATCTGATAGACCCTTACGTCAGGAG TGGGCTGCTATTGATGACCCAAGGCCCAAAGTGTGGCGTGTTTATGAAAGAAGGAACAAACAAGGAAGCTTCCAGATTAA GTAGTGAGCTGGCAGAGAGAGGCTAGAAAGTTTGTTACAGAGAATCAACGTGTGTGTGTGTGCATAGGAGTGCTTAAAAG GGAATTTCTGTTAGGAATAGAGAGTATGAGAGAATATTGCTTTTGTCAGAAAGAATAGAGAATTATGCTTTCTCTATAGG AGCCTAGCTCTGGAGTAGTAGTGACTACTGTATTCCCCAATTTCCATTAATCAGTTGACTCATTCCATTTCATTTTTCTG CTATTCTCCTTTACTGTTTTATTGGTCTGTATCAAATTGGTCCGACCTGCCGGATCCAAATTCGAGAGGTACCAGTGTTG TTCGGAGAAGAAGGTCACGAAACAGAGACGCATGCCACCAAGGAAAATGGAGGCGAAAGTTGCAGCCCTGGAAAACGAGA TCGCAAATCTGCGCACCACCTTGACCACGATGCAAGAGCGAGCGGAGAGTCACCAAGCACAGCTACTGGAGATGCTGGCT TCGAACCTTTCCAAGCAAACACCAGAGAAAACACCAGAGAAAGGCGACACTGGAAGCATCCTTCAGGATGTGTCAGCCAC CAAATCTGGGAAAGAAGATGGAGGACCTTCATTAGTTTCTGGTTGGACCAAGCTGGAAGGGGGTTTGCTCGATGAGTTCC GCAAATCCGCCAAGAAGGTGGAGCTCCCTCTTTTCAACGGCGAGGATCCTGCTGGGTGGATTGCCCGAGCAGAGGTTTAC TTCCACATTATGGGTACCAGTCCTGAGGTTAAGGTGAATCTGGCCCATTTGTGCATGGAAGGATCAACGATCCATTACTT CAACTCACTGCTGCAATTGGATCCAGGGCTAACCTGGGAGAAGCTCACAAACGAGCTGCTGGAAAGATACGGATCTGCGA GTAAAGGGGATGTGTTCGAGCAGCTATCAGATCTCCAGCAGAGAGGCACAGTTGATGAGTACGTTCTGGAATTTGAACGC CTTTTGTCCCAGACCCCCAATCTCCCTGATGAGCAATTTTTCAGCTACTTCATTCATGGCCTCCGGGAGGACATACGAGC ACGGGTACGGAGCATGCGTACCTTGGTGCCTCTTCCACGCTCTCGGTTGATACCGTTGGCAAGGGCGGTGGAGACGGAGC TCCATGGACCAGGCCACACCTTATCGGGCTCGAAAGGTAATGGGCCTCGCTCGGGTTACGGGTCTGGTTCTTCTACCCGA CCAACCCATTTGTCTACGACTGGATCGGGCCCATCGGGTCAAAAACCCAATCAGGGTTGGGTCATGGTGAAGAACAAAGA TGAAAAGGGAGAAAGACGGGACGACAACACCAACCATCCTCGCACCCCACCACGCGATCGAGGAATCCGCCACTTACCTT ATCAAGAGCTCTTGGATCGGCGACAGAAGGGACTTTGTTTCAAGTGTGGGGGGAAATATCACCCCCTCCATCAATGTCCT GACAAGCAACTCAGGATCATGCTGATTGATGGTACAGAAGAAACGGAAGTGGAATCCGAGCAAGATGCAGAAACAGCGGA GCCCGAGGTGGATGGAGAGTGCAGCATCATGCGGCTTGGAGCTGAACCAATCCAAACTAAGACGATGAAGCTGCGAGGGT CAATTTTTGGTGTTCCTATGGTGATTTTGATTGACAGTGGTGCCACCCACAACTTTGTCTCGAGGCATGTAGTAGAGACA ATGGGCTGGGTCGTTCAGTCGACACCTGTGCTGCGCATTCGATTGGGGGATGGATACAAGGCCATAGCTCGCGGCGAATG CAGGAATTTGGAGGTTGAGATCGACAATTACCATACCTCTGTGGATGCTTTGCTGTTCGATCTTGATGGCATCGACTTGG TGCTAGGAATCGCATGGTTGGCAACCTTAGGAGAGATGAAGGTGCATTGGGGCAAGCAAACCATGAAATTCCAGAATGAG GGCAAGTGGATTTGTCTCCAGGGACAGGATTGTACTCAGGAGAAGGGAGAAGCGCTGCAGAGCTTTTTGGACAATTGCCC GTGGGAAAATGGGGAGTGTTATCATACTTCTACTGAAATCACACAAAACCCAGAAATTCTGCAAAAGGGAGAGTCCCATT TAACCAGTGTGCAAACACAGCAACTGGGTAGTTTACTTTCTGAGTTTGAAGATGTCTTCGCTACTCCAGTGGGATTACCA CCAAAGAGGCAGAAAGAGCACCAGATCACCTTGGCAACAGGATATGGACCGGTTAATGTGAGGCCTTATCGATATTCTCA TCACCACAAAGATGAGATAGAGAAGCAAGTTGCGGAAATGCTTCAATCAGGTATTATCCGACACAGCCAAAGTGCTTTTT CAAGCCCTGTGATCTTGGTGAAGAAAAAAGACGGATCATGGCGGATGTGCGTTGATTACCGTGAACTCAACAAAGCTACC GTTCCTGACAAATACCCAATTCCCGTGATAGAAGAATTGTTGGATGAGCTACATGGTGCACGATTCTTCTCCAAACTTGA CTTGAAGTCCGGTTATCACCAAGTGTTGGTGAAGGAGGAGGATGTTCACAAGACGGCTTTCCGGACTCATGAAGGCCATT ACGAGTATCTCGTCATGCCTTTCGGGCTCATGAACGCTCCTTCCACCTTTCAAGCGCTGATGAACGAGGTATTTCATAGT ATGCTCCGTCGAAGTGTGTTAGTCTTTTTCGATGATATTCTGGTATACAGTGCTGATTGGCAATCACACCTCATTCACCT GACTAAAGTTTTGGAAACCTTGAGGGTTCAACAACTGGTAGCCAATCGTAAAAAGTGCTCTTTTGCCCAACAATCAGTGG AGTATTTAGGCCATGTGGTGTCGTTTGAAGGAGTGGCCATGGACCCAGGGAAGGTTCAGAGCATCACTAATTGGCCTACG CCAAAGAATGTAAAAGGAGTTAGAGGATTCCTGGGAATTACGGGATATTATCGCAAATTTGTCAAGGATTATGGCAAGAT CGCTCGACCTCTCACGGAACTGACCAAAAAGGATGGTTTCAAATGGAATTCTGAGGCTCAAACAGCTTTTGAGATTTTGA AGACAAGAATTACCACTGCTCCTGTTCTGGTGTTGCCAGACTTTGCCCAGCCATTTACCATTGAATGTGATGCATCAGGT CGAGGGCTTGGAGCTATTCTTCTTCAGAATCGCAAACCTGTTGCTTATTACAGTAAAGCTCTAAGTGAACGCAATCTGAT GAAATCCGCCTATGAGAAGGAATTGATGGCCATCGTTTTGGCGGTTCAGCACTGGCGCCCCTATCTTCTTGGGAGGCATT TCACAGTTTGCACGGATCAAAGGAGCCTCCGACAGTTGCTACACCAACGAATCACGACGGTGGATCAACAGAATTGGGCC GCGAAGCTGCTTGGATATCGTTTCGATATCGTGTACAAACCTGGTATCACAAACAGGGGAGCAGATGCGCTTTCCAGAAT TTATGATGAAGGAGAACACCAAGCTTTATCCTCTTTTCCTACTTGGACAGAGGGTACTACTTTGATTCAGGAGGTCCACC AAGATGATAAACTAGTCAAGATCATCACGGACTTGAAAGCGGAACCAACCAGCAGACCGGGTTTTGCATATACTCAGGGG GTGCTCTACTACCAGGGTCGATTGGTAATCTCCTCTGCATCTCAGTTGATTCCCAAATTGCTTCTGGAATTTCATGCGGC ACCGCAAGCGGGCCACTCTGGTTTCTATCGCACTTACCGGAGGATCGCTGCAAACTTGTATTGGATTGGGATGAAGAATT CCATCCAAGAATTCGTGCGTGGTTGTGATGTTTGTCAGCGCCAAAAGTATTTGGCAACATCCCCTGGAGGTCTGCTCCAA CCTCTTCCTATTCCCGAACGCATATGGGACGATGTTTCTATGGATTTCATCAATGGATTGCCCAAGGTCAGGGGAGTGGA CACTGTGTTTGTGGTTGTGGATAGGCTATCAAAGTATGCGCATTTTATTCCTCTTAAACATCCTTACACCGCGCGAATGG TAGCTGAGGCATTTGCAAAAGAGATAGTGAGACTTCATGGCATTCCGCGTTCGATTGTCAGCGATCGTGATCCAGTTTTC GTCAGTAATTTCTGGAAGGAATTGTTTAAACTCCAGGGCACTCAGTTAGCCATGAGTACTGCCTATCACCCAGAATCAGA TGGGCAAACAGAGGTTATTAATCGTTGCCTAGAAACATATCTGAGGTGTTTTATCTGAATTTGCTTTAAAACAATTGGGT CAGTTAGACTATTTTCTTGGTGTTCAAGTCCATCACTTGCAAGATAGGTCTCTCCTACTTACTCAGACCAAATACATTGG TGATCTTCTTGAAAGAGCAGACATGGCTGAAGCTAAAGGCATCTCTACACCTATGGTCAGTGGTGCCAAACTAAGCAAGC ATGGAGCAGATTATTTTGCAGATCCTACACTCTATAGGTCCATAGTTGGGGCCTTGCAATATGCCACTCTTACCAGACCT GAAATAAGCTTTTCAGTCAACAAAGTGTGTCAATTTCTCAGTCAGCCCTTGGAGGAACATTGGAAGGCAGTTAAGAGGAT ATTGAGGTATCTAAAGGGTACCATTCATCATGGCTTGCATATCAAGCCTTGTTCTCTGCATTCTCCAGTAGCTCTAGTGG CATACTGTGATGCTGATTGGGGATCTGATGTTGATGACAGGAGATCCACCTCAGGGTCATGTGTTTTCTTTGGTCCTAAT CTTGTCTCTTGGACCTCTAAGAAGCAAACTTTGGTAGCCAGGTCTAGTACTGAAGCAGAATATAGGAGTCTTGCTAATAC CTCAGCTGAGTTGCTATGGATTCAATCATTGTTACAAGAGCTGCATGTTCCCTTCACAGTTCCCAGAATTTTCTGCGATA ATATGGGAGCTGTTGCATTAACTCATAATCCAGTATTGCATACCCGCACCAAACATATGGAACTTGACATTTTCTTTGTT AGAGAGAAGGTGCTGAATAAGTCTTTGTTTGTTCATCATGTTCCTTCCATTGATCAGCTTGCTGACCTCTTCACCAAAGC ACTTTCTCCTACTCGTTTTGAAGACCTTAGAAGCAAACTTAATGTGACTGAGAAACTAGTTTCTCACCCACCTTCAGTTT GAGGGGGTGTATTAGGATATATGTAGTCACATGCTGACATGGCATTGCTGACATGTCAATCTGTAACAGAATTAGTTATT AGGTGTAACAGAATCAGTTACACAGTAACTGATTCTCTCTCTCTCTCTCTCTCTCTCTCTTAGTAACAGCTTGCTACGCA AGCTTCTCTGATTCTATAAATAGCTAAATGCTATTCATTGTAACTCAACTTTTCAGAAATACAATTCAGTTTACAATTCA GTTAGAATTTCAACAGACTCAATGGTTGTCGTGGGCTGAATATTGGTATAACACAACCTATCACGCCTCTACTGGGATTA CTCCGTTTACAGCAGTTTATGGCAGGGAACCTCCAACTATGATCAGATTCACAGTGGGTGAAACTAAGGTAGAAGCTGTG GCCCAGGACTTGAAAGATCGAGATGAAGCCCTTCGTCAGCTAAAAAATCATTTGACTCGTGCCCAGGGGAGGATGAAATC CCAGGCAGACAAGAAAAGAAAAGACAAGAGCATTGCCATAGGTGAATGGGTTTTTGTCAAGCTGCGTCCCCACCGTCAGC ATTCAGTGGCTCAAAGAATCAATGCCAAGCTTGCTGCCCGGTATTTTGGCCCTTTTGAGGTCCTTGAACGAATTGGAGCA GTAGCTTACAAGCTACGTCTGCCTATAACATCCCGCATCCACCCGGTTTTTCATGTTTCCTTACTAAAGAAGGCAGTAGG AGATTACCATGTGGAGCAGGAATTACCTACTGGAATTGGTGGGGAGTTTGTGGCTGTTGTGGAACCAGAGAAGGTTTTGG CTGTACGCACCATTTTACAGCAAGCTGAAGCCGTGAACCAATATTTGATTCAGTGGAAGGGAAAGTCTGCAGAAGAGGCC ACTTGGGAAGATGAACAAACTCTGATTAACCAATTTCCCGCCTTCAACCTTGAGGACAAGGTTGTTTCTCAAGATGGTGG GATTGATAGACCCTTACGTCAGGAGTGGGCTGCTATTGATGACCCAAGGCCCAAAGTGTGGCGTGTTTATGAAAGAAGGA ACAAACAAGGAAGCTTCCAGATTAAGTAGTGAGCTGGCAGAGAGAGGCTAGAAAGTTTGTTACAGAGAATCAACGTGTGT GTGTGTGTGCATAGGAGTGCTTAAAAGGGAATTTCTGTTAGGAATAGAGAGTATGAGAGAATATTGCTTTTGTCAGAAAG AATAGAGAATTATGCTTTCTCTATAGGAGCCTAGCTCTGGAGTAGTAGTGACTACTGTATTCCCCAATTTCCATTAATCA GTTGACTCATTCCATTTCATTTTTCTGCTATTCTCCTTTACTGTTTTATTGGTCTGTATCAGAATCTTCATTGGCGTGCT TGCTTGCTTTGTTTAGTTTTGGTGTTAGCATCTATTTTCTTGAGTGAGTGACGTCTGATCTGATTGTAATGAAGATCCAA AATGGATAACAGGCTTTACCAGCAGCTATCTACTGGTTGAACTTACAGGTGGCAGCAAGTTCTTGAATACATGACGGGCT CAAAGTTTTTGCTGGAGCTATCTGTGCTGACATTATTCCTTCTCTTCATTAACAAAATGTTGAACTGATATTGCTCAAAG TTCAAACACAATAGCGGTGGACTTGCCGAAGACAAATATACATCTGATTGCTGTATTCTTCTCCCTTTCAGAGTATGTAC AGTAGAAGGTAAAGCTCTGAATTATAACACATTCATTTAACCTATCTTGTAGTTTCTAGCTTTTCTTTTTCTCTCTCTTT CCTCTGGAGCATACATGTGCCAAGGAAGATCAGAAACATTAGTTCTAGATGTTACTTGATCCTTGGGACTTGGGTACTTA TCTCAGGATAGCTCCATGAAGAAGCATATGTCAATTTCATATGCTCATTGCTATGCTAGTAAGTTTGAGATTGATCAATG TTGCTTGCTTGCACTAGTGATAGGTTTTTGTAGAATTTTTCATTTTTTTTTTAAATTTCAAAACATCCACTGACATTTTT TTAGAAGAGTCGCCCAGTCATCCTTGTTGCTTTGCTTTGGGCTCATCCCGTGCTTGGTATACTGAGGTTAAAGAGAAAGA CTATTGGACAACTAGTTAGCCAAGAAATGCAAGTTGCATGATTAGCAGAATTGAATATTCATTTTGGGGCCATTAATTGA TAGACTGTAGGACAATATTATCGCAATAATTTGGAAAGATATATAACTTTGCTTATCTCCCGTTGTGGCAGGTTATAGAT ATAGTGAAGCAAGCATCATTTCAGATTTTATTGAATACGGGAATAAATGAACAACGGACTACGGAAATCAAGGTTATTGC TGAATGTAGCTATTACTTGGCGTCTGGTCCCTTTTCAGGTTATCAAACTATCGGTGAATATGATTGATTGCACTGAAACG ATGGTAAAAATTAATTTTGTGAGCAGAGTTTAACCCATTTTTGCGGTCATCATTGATTTCAAATTGTAGATGGAAACTTA CCTTATTGAATGAAGATATATGAAAATTTTATATTATATACACGTCATATTTCAAGTAGTAGGGATTTGGACTTGTTGAA GTGTGCTCAATGTATAAACTTATTTATTT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0140500.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGAAGGTTCACGTGGCTAACGCCGTTCCGGCGCCACTTGCTTTCCTCTCTTTCCTCAGAACCTATCGTCGTCGATAA AGGAGATTCGTTGCGCAAATTGTTGACCTCTCGCCAATGGCTGCTTCTCGCACGAGCTTTGGGAAATTGCAGTTTTGTCA CGAAAATGGAGGATTCTTTATCGTCGAGAATGCCGTTGAGATTTCGTCATATTTATGCTGCAGCATATTCTTCTTCGGCT GAACGAGATTATTATCGGACTCTTGGTGTTTCTGAAAGTGCCAGTCAGGACGAGATAAAAAAGGCATTTCACTCGCTCGC TAAAAAGTATCATCCAGATGCAAATAAGAATAATCCATCTGCGAAGAGGAAATTTCAAGATATAAGAGAAGCATATGAGA CATTGAGAGACTCTAAAAAGAGGGCAGAGTATGACATGATGCGATCTAGAGGTTCAGAAAACATAGAATATGGAGATGCT GATACAGAAAGGTTTAAAAATGCTTTTCGATCCCATTTTTCTGATTCATTTCATAATGTATTCTCAGAGATATTTGAGGA AGCAACAACTCAATTCTCGTCAAATATAGAGGTGGAGTTGTCTCTTACTTTCTCAGAAGCTGCGACAGGATGCACTAAAC ATGTATCATTTGATGCGTTCGTTCCCTGTGATTATTGCAATGGACAGGGCTATCCACTAAATGCCACTCCAAAAGTTTGT CCAACATGCAGGGGCTTAGGCCGAGTTACAATCCCACCATTTACATCAACATGCATTACTTGCAAAGGATCTGGCCGTAT CATTAAGGACCTGTGTAAGTGGTGTGGGGGATCTGGGGCTGTTGAAGGAATGAAAGAGGTCAAAGTTACAATACCAGCAG GCGTGGACTCAGGAGATACAATCCATGTGCCAGAAGGTGGGAATGCTGCTGGAAGTGGAGGTCGACCTGGAAGTTTGTAC ATTAAGATAAAGGTGGCTGAGGATTCAGTCTTTGTCAGAGATGGTGCAGATATCTATGTGGATTCTAATATTAGCTTTAC ACAGGCTATTCTTGGTGGCAAAGTTGATGTTCCTACTTTATCTGGGAAGATGGAAGTAAAGATACCTAAGGGTGTTCAAC CAGGACAGCTTCTGGTCTTTAGAGGCAAAGGATTGCCAAAGCATGGGTATCTTATACATCATGGGGATCAGTATGTGCGT TTCCGTGTTAATTTTCCAACTGCAATTAACGAACGACAACGTGCTATACTTGAAGAATTAGCGAAGGAGGAAATAAAGGC AGGAAACAGCTCATCATTTGAAGAAAACTGGCTTTACCAGCAGCTATCTACTGGTTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0140500.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MRRFTWLTPFRRHLLSSLSSEPIVVDKGDSLRKLLTSRQWLLLARALGNCSFVTKMEDSLSSRMPLRFRHIYAAAYSSSA ERDYYRTLGVSESASQDEIKKAFHSLAKKYHPDANKNNPSAKRKFQDIREAYETLRDSKKRAEYDMMRSRGSENIEYGDA DTERFKNAFRSHFSDSFHNVFSEIFEEATTQFSSNIEVELSLTFSEAATGCTKHVSFDAFVPCDYCNGQGYPLNATPKVC PTCRGLGRVTIPPFTSTCITCKGSGRIIKDLCKWCGGSGAVEGMKEVKVTIPAGVDSGDTIHVPEGGNAAGSGGRPGSLY IKIKVAEDSVFVRDGADIYVDSNISFTQAILGGKVDVPTLSGKMEVKIPKGVQPGQLLVFRGKGLPKHGYLIHHGDQYVR FRVNFPTAINERQRAILEELAKEEIKAGNSSSFEENWLYQQLSTG

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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	PTHR43096:SF36 View details on PTHR43096:SF36 Search for proteins/transripts with this domain View external data on PTHR43096:SF36	10	439	430	8.0E-212	–
PANTHER	PTHR43096 View details on PTHR43096 Search for proteins/transripts with this domain View external data on PTHR43096	10	439	430	8.0E-212	–
SUPERFAMILY	SSF46565 View details on SSF46565 Search for proteins/transripts with this domain View external data on SSF46565	79	174	96	3.4E-27	IPR036869 Show description in modal box View details on IPR036869 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.287.110 View details on G3DSA:1.10.287.110 Search for proteins/transripts with this domain View external data on G3DSA:1.10.287.110	79	193	115	1.4E-29	IPR036869 Show description in modal box View details on IPR036869 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_01152 View details on MF_01152 Search for proteins/transripts with this domain View external data on MF_01152	80	437	358	32.022	IPR012724 Show description in modal box View details on IPR012724 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00271 View details on SM00271 Search for proteins/transripts with this domain View external data on SM00271	82	140	59	2.3E-26	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50076 View details on PS50076 Search for proteins/transripts with this domain View external data on PS50076	83	148	66	21.301	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd06257 View details on cd06257 Search for proteins/transripts with this domain View external data on cd06257	83	137	55	1.1133E-23	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00226 View details on PF00226 Search for proteins/transripts with this domain View external data on PF00226	83	145	63	2.0E-24	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00625 View details on PR00625 Search for proteins/transripts with this domain View external data on PR00625	85	103	19	2.8E-20	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00625 View details on PR00625 Search for proteins/transripts with this domain View external data on PR00625	103	118	16	2.8E-20	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00625 View details on PR00625 Search for proteins/transripts with this domain View external data on PR00625	120	140	21	2.8E-20	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00636 View details on PS00636 Search for proteins/transripts with this domain View external data on PS00636	125	144	20	-	IPR018253 Show description in modal box View details on IPR018253 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00625 View details on PR00625 Search for proteins/transripts with this domain View external data on PR00625	140	159	20	2.8E-20	IPR001623 Show description in modal box View details on IPR001623 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd10747 View details on cd10747 Search for proteins/transripts with this domain View external data on cd10747	194	407	214	1.34827E-55	–
Gene3D	G3DSA:2.60.260.20 View details on G3DSA:2.60.260.20 Search for proteins/transripts with this domain View external data on G3DSA:2.60.260.20	194	321	128	3.9E-26	–
SUPERFAMILY	SSF49493 View details on SSF49493 Search for proteins/transripts with this domain View external data on SSF49493	195	326	132	7.33E-14	IPR008971 Show description in modal box View details on IPR008971 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01556 View details on PF01556 Search for proteins/transripts with this domain View external data on PF01556	196	406	211	7.9E-39	IPR002939 Show description in modal box View details on IPR002939 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51188 View details on PS51188 Search for proteins/transripts with this domain View external data on PS51188	210	284	75	18.767	IPR001305 Show description in modal box View details on IPR001305 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF57938 View details on SSF57938 Search for proteins/transripts with this domain View external data on SSF57938	210	281	72	6.02E-15	IPR036410 Show description in modal box View details on IPR036410 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00684 View details on PF00684 Search for proteins/transripts with this domain View external data on PF00684	223	279	57	3.1E-9	IPR001305 Show description in modal box View details on IPR001305 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd10719 View details on cd10719 Search for proteins/transripts with this domain View external data on cd10719	223	279	57	3.31102E-17	IPR001305 Show description in modal box View details on IPR001305 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.10.230.10 View details on G3DSA:2.10.230.10 Search for proteins/transripts with this domain View external data on G3DSA:2.10.230.10	223	279	57	3.9E-26	–
Gene3D	G3DSA:2.60.260.20 View details on G3DSA:2.60.260.20 Search for proteins/transripts with this domain View external data on G3DSA:2.60.260.20	326	436	111	8.4E-30	–
SUPERFAMILY	SSF49493 View details on SSF49493 Search for proteins/transripts with this domain View external data on SSF49493	330	417	88	1.03E-22	IPR008971 Show description in modal box View details on IPR008971 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006457 View details of GO:0006457 AmiGO InterPro QuickGO	Biological process	Protein folding	The process of assisting in the covalent and noncovalent assembly of single chain polypeptides or multisubunit complexes into the correct tertiary structure.	Subterm of View details of GO:0009987
GO:0009408 View details of GO:0009408 AmiGO InterPro QuickGO	Biological process	Response to heat	Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a heat stimulus, a temperature stimulus above the optimal temperature for that organism.	Subterm of View details of GO:0006950 View details of GO:0009266
GO:0031072 View details of GO:0031072 AmiGO InterPro QuickGO	Molecular function	Heat shock protein binding	Interacting selectively and non-covalently with a heat shock protein, any protein synthesized or activated in response to heat shock.	Subterm of View details of GO:0005515
GO:0051082 View details of GO:0051082 AmiGO InterPro QuickGO	Molecular function	Unfolded protein binding	Interacting selectively and non-covalently with an unfolded protein.	Subterm of View details of GO:0005515

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0140500.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0140500.3