Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0718900
Transcript ID	LotjaGi1g1v0718900.3
Related isoforms 2	LotjaGi1g1v0718900.1 LotjaGi1g1v0718900.2
Lotus japonicus genome version	Gifu v1.2
Description	Insulin-degrading enzyme; TAIR: AT2G41790.1 Insulinase (Peptidase family M16) family protein; Swiss-Prot: sp\|O22941\|IDE1_ARATH Insulin-degrading enzyme-like 1, peroxisomal; TrEMBL-Plants: tr\|K7KEW2\|K7KEW2_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0718900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:128885115..128897243) extracted from Lotus japonicus Gifu genome v1.2.

ATGGCGGTGGGAAAGGAAGATTCAGAGATTCTCAAGGCTCGCATCGACAAGCGAGATTACAGAAGGATCGTTCTTCCCAA CTCCCTCCAAGTTCTCCTCATCAGCGATCCCGATACCGATAAGGTTTTTCCCCCTTTCTCCGATTTCCGCTTTCGAATTT CGATTAACACACTCACTCTTTCAATTTTGATTCAATCGCTTACCTATATGCTTCTTTTTCTCTGATTTTGTGAATTTTTT GTTTCTTTGTTGAAGTGTGCTGCTTCCATGAACGTTGGTGTTGGTTCCTTCAGTGATCCTGCTGGTCTCGAAGGCCTCGC GCATTTCCTAGGTGTGTTTTATACTTCACATGATGCATGCTATTGTTCTGTTACTGTAGAATTTTGATAATTTTGGTGTT AATTTGGAGAGGACTCTTTGTTTCAAGATTCATGTGCACTTCAACAATCACTCTGGTACTAGATAACTATGTTATATTAG AGATTAGGGAAAGGGAAGGGGATTTAGGATTTGAGTGAAAGCATAATCATAGTGTAGAATCTGTTATATGAAAAATGTGG ACTTCCAAAAAGGACTTATTAATTGAGGCACTAGCTGATCGCGATGTTCATTTCGGGGACCTAGCCATTCGTGCAGTGCA GTTAGGAACAAAATGAAAAGAATTTAGTTCTTATCTTTGGACATTATTATTTATTTATACCGAATTTATATTTTGTATCT TAAGAAAGATTACTAGGGTGGGGTGCATAATGTTGATCCATTTCAATTTTTTTATTTTTTCGGTTGAAGTCTATTTCAAA GATTTTACTATTGTCATGTGTTTTTATTTTTTTGCGACAGAGCACATGCTGTTTTATGCCAGTGAGAAGTACCCAGTGGA AGATAGCTACTCCAAGTACATTACTGAGGTACTGTAATTTCAGGTGTCCGTCCCCTTTTTAGATGCAATAGGTTTTTCTT ACAATTCTGCATGAAAATTGTCGCTGGAATTTTTAGCACTTTCATCCTATATATTTCTGCCCTTCAATTATATCATCCAT AATTCTATGAAGATATGATGTTGAAGGAGAACATGCATCTTGAACTTAATGATACTTGTGAGTAGGATGTTAGTCACTGT TCAAATTTTTCTAGAAAGCATTGCCTGAAATGGGAGAGAAGATTACAGAATTGCCTAACGAAATCCCCAGCAGCATGACT GAGTATATAGAACTTGTTTTGCAATCTCTAATTTCAGGAAACTAGGAAAACAAGGAACATTCAGAAAATATGCAAATCAA ATCGTAATTGTTAGCAGCATATATACAACCCCTAGTTGGGAGATATTTTCCCTAAATGAGAGATACTTATGAATACTATC TCTCAAGTTGGAGCTTGCATATCATATCATTTGCACTAATTTTTTGTAATAAATAAAGGGGCTTTGAGGACCCCAGAGTT TTTGTATGGATATCTGCTGATTACTAGAATTAAGCAATTAACAAACTCTGGTTTTCGTGAAAAGAACTTTTCAAGTACAA AGCGACAATCAAATTTCATATTCTTGGTCCTCTCATGAAAAGAATAGAATTGTGTTAGTCCGTACCTAGTTGAATCTTTG AAGGCACCCGTTCGGTCACCCCTTTCTGGTTGCGGGTTGTTCGGTTGAATCTATGAGCAAGAGTGACACCTGAGAAATCA GCATAGAAGTAAATTTTAACTGCAATTCAAAATATTAAACACACATAATCAACCGAAAAGAATCAAATTAATATTTTTAC TTTACCCATATAAATTTACAAGGGTCCTCAATATTCAGCCTCCACATTTGCTATATTAATCACATCCTGTTTCTTACCTT TTCAAAATACAAGGCTACCACAAATAAGAAAAAAAAAGTATTTTGAAGTTGACCTCCTATCAATGGGCAAACCAGCCCAA TCTACATTAGAGTACCCCTCAAATTGACCGTTTCTTTGTTTTCATGTAAACATTCCATGCCTCCAGCATTCTTAGTGCAT TTCAAATTTTGTACCATTGAATTCTTATAGCAAGGTAGCTTGGTTCTTCACAGGATTTGAACAAGGTTCTTCTTGATCTA TTAAGAACTTGCTGTTTGAATCCATCCGAGTGTCCATGTTTCAAGGCTTTTTTATTTTTTATCTTTTCACATTATTTCAA TTGGAGTTTAGAGAGTCAAAATATTTGATTGTTTTCTTACATTTGTTTGGTCATCGTGGCGGTCTTCTTTCTTGACACAG CACGGAGGAAGCACCAATGCTTATACATCTTCTGAGCACACCAATTATTTCTTTGATGTTAACACAGATGGCTTTGAAGA GGCTCTGGATAGGTAGATCCTGCTTTTATGGTTTCTTTTCTTTTTCCCCTTGTGCAAAATAGCATTGTAGAAATCCTGAG TTTGGGGTATGGTTTATCTTCCAGATTTGCTCAGTTCTTCACTAAACCATTGATGTCTGCTGATGCCACCATGAGGGAAA TTAAAGCTGTTGACTCTGGTTAGCTAATCTTTTTTATTTTGTTCGATGTCTCTGGTTTATTTCCCTTGTTTCTTACATTA CATGTATAATTTCCTCTGCTCTGTTTCTTTCAGAAAACCAGCAAAATTTGTTATCTGATGCATGGAGAATGAACCAGGTA TCTGTTATCGCTTTTATGATAGATTTTTGTGGGTTCTGTGTTATAGTTGGTTGTTTTAAAAGAGGATTCAATTTTTTGTT GTTGTTGTTGTGAATAAGATTTTCCAATAAAACATGGAGCAAATGCTCTGTATTTTTTTCAGGATGGAATGTAGTTTTAA TATTCATGACCTTTTATGTATCCAACTATCCATCTAGCCCTTAGACGCTAGACTGGTCTAAAATGCTCTAGATTCATTTT CAAAGCTGTAAATAGCTCATTTTGCGCAATTAACTGCCGGACATGATTATTCAATTCAAGTCTTTGCAAGCACTTGTTTG TTCTGATACTTTAACTGCACTCCATTAATTAAACAGCTCAGCATGTGAGGCAGTCTTTCACTAGTTACAATTTTATTTTG TCAATATTCTTGCTTTAAGGATCCACTTTGTTGAGATTTTCCTTTTTTCTGCTTTTGTTTATCCTCCTCAAGTTTTGGTT TTTTCTTCAATGTGTATTTTGGTGATTTACTGGTTTCGCAAGTTGTTTTTACTGGTATCACAAGTTGTTTTTTAACCCCT TCAGGACAAATATTTATAATCTCTTACTATTTCTTTTCCCTTATGGAACATTACAATTTGAATATAGCTTCAAAAGCATC TCAGTGCTGAAGATCATCCATATCATAAATTTAGCACAGGTCAGTGATTGATTGATTTATTTTTCTTAAAACTCTAAAAT ATGTTAGTGCTCTGAAATATTTTGATTTGGTCAGTAATCTTTTTCCATCATAACATTCCTCTTTGTGGTCTGAAATATGT TTATTAGGTAACTGGGACACCTTGGAAATTCGACCAAAAGCAAAAGGATTAGACACAAGGAATGAGCTAATCAAATTCTA TGACGAAAACTATTCTGCCAATCTAATGCATCTAGTTGTATACTCAAATGGTGAGATATATATTTTTTACAGCATACTGG TTCAACTGATTATTTTTTATTTTAATTTGCCGCAATACAATTACTTGTGCATGGATATTTTCAGAAAGCCTCGATAAAAT TCAAAACCTTGTCGAAGAAAAGTTCCAGGATATTAGAAACACTAACAGAGGTTCTTTTCGAATTTCTGGTCAGCCATGCA ATTCAGAGCATTTGCAGGTTTACATTTTCTACTTGTGATTCAATAGTAAATTCTAACTAACTCCTTCAGCATTAATTCTA ATGTATGTCCCATTTTGGCTTTCTCTTTTAGATTCTCGTCAAGACTGTCCCAATAAAACAAGGTCATAAATTGAGAATTG CTTGGCCAGTAACCCCTGAAATTCGTTATTACGCTGAAGGGCCATGCAAGTATCTTGGTCATCTTATTGGCCATGAAGGA GAGGGGTCTTTATATTACATTTTGAAAAAATTGGGTGGGTACTATACATCCGTTGCACATTTCACTATCAATTTTCCTCG GGTATTTCACTTGAGTTGTTATGTGTATGCACAACTCTATTTGCAGTGTATTATTAAAGTTACCTGAACGGTTAGTGCTT CCAGAAAAATTATTTCTCTTTCGCATCTATTTTCTTCCTGCTTCGAGTCAGCCATTTTGAAGACCCACTATTCTTGAAAT AATGGATTGCAAGTCCTTTCAACTGTCTTCAGTTACCTTCATCATGAATATACATATGGTCCTCTGCAGTCCGAGTCCCT GTTTTTCTCACACTTTCTGCTAGGCATATTGTAGCTTTGATGCATTATGAGTTGTCTCATTTTACCCAAAAAAATAAATT CAATTTGCAGGATGGGCTACGGGCTTGTCTGCAGGTGAATCAGATTGGAGTTTGGAATTTGCTTTTTTTAAAGTTGGGAT TGATCTTACTGATGCTGGTCATGGTTAGATTTCTCTTCCTCTCTTATTTCTCATTTTTTGCACATCTCCCCTTTCAAAAT GTGAACTATGTTAAGTTATAAGCATGAAGCATGATCATGACAAGAACCATGGAAGACATTACATAACTCTTACTGTTTTT CAATTATTTTTTAATTAAATTCAAGCTCTGTAATGTATTTGCTTATTGTTTCTATGAATTCATTGTTACTTTTGGCTTGG ACTTGTAGATCACATGCAAGATATCATTGGGTTGTTGTTCAAATACATAGAGCTTCTACAACAGTCTGGTGTTTGCAAAT GGATATTTGAAGAGGTATGGATATTAGTTTCGTAATATGGTTATTATTTTTGTTAGAGCCCTAACAAATCTTTATTAATT AATCGATTTGTGCTTAAATTTAATGTTGAGCGTGTGTACAATTTTTTCTGTATGCATAATTTTAAGGAGTCTCCATCCCA TCATCTTTTCAAGTAATCCATCTTGACTTTTTTAATAATTTTTTCACAAATAAACTAATAAAGCATGAAAACTGCCAATA AGCAAAAAATCAAAGACTGGCAAAAAATGAAAAAAGGGGTGAGTGATGTCAAGTTTTTGATGCTTGGTGAATAATTTAGT TTGCCCTATGCACTAAGCCCACGAAAACATGAGACTATTAGTTGTGTCTAGAGAAGTCACCACTGGAATGGCTGTTGGTT GGAGAAGTTACTGCTGGTATAATTCAGGATGGCAAAAAGGAAGAGATGACAAAAGCCCTTCCGACTTTCTTTCTCTCAAT GCTATGCTAGCATTGGAAAAGAGTCATGTTAGATGACAACATACTAGAAGTAAACACCATGAAGAATACAAAGCAACGAC CCAAATATGTCAAGCCTGATGGGGGAGAAAGAACTTTGACGTAATAGAAGACCAACAAACACAGAAAAACTGCAAACGAA GGAGTCCAAACAAAAGAATCCTACATTTAAAAAAAATCAGAAAAACTGCAAATGAAGGAATGCAAACAAGAGAATTCTAC ATTTTATGAAACTTGGGAATGGAATAGTGAGAAGACAAGTCATGGAGGATGATACAAGTTGAAAACCATGTTGACAGTAG GGAATTAAGTATTTAGGAAAATAGAGAACTGTTCTGAGTAACAGAATATATTATTATTCTACGTTGTGCAATTATGTTCT GCAAAACAGAGAGCATTATCTATTTGTGGCAGTACTAAATTAGGAAACAAATCCTGAAACATAGCAAATTATGGAAACCA TTCTAAGATATCATCTAAGATATTCTTAAGATATAATAATGATTTATGGGATATTTTCTACATTTTTTTTATAATTTTAA TTCCTCAATATTTTTTTTCAAACCATGTAGTTTATTTTTCTCTTGTATCAATAAATTTAAAATCTCTTTTTCAAATTAAA GGTTCTTAAATAATCACTTGCTAATAATGATTGTAAGATTGTTAAAGAATTTGTTATGAAGTATTAAAAGTGGCTTGTAT TTGGTTTGGCTTTGATATGGTGCCACTGTTTAGTTGGTACTACTTGAAATTGCTATCTTCGATGATAGTAGTGAATTCCA TCTATGTTTCACATGTGGTACTAAGCTCATAGTTTGCTTTAGGTCAAACTGTTGAACACTTAACATTAAGTTTGGTATCG GTTTCTCTTCTCTCTCTGCACATCTGGTTTCATCAGATTCTAATGCAATTTCCTGTGTTATGAAGCTTTCAGCGGTTTGT GAGACTAAGTTTCACTATCAGGACAAAATTCCTCCTAGTGATTATGTCGTCAATGTTGCATCAAATATGCAGGTACTCTA TCCTTTTCTTATGATAAATGACTCCTCAATAGATTTTATGTTATTTACATGAAATTCCCTTGATGGTATTCATATTATTA ATGGATCTTTTTAGTTTTACAGTTTTATCCTGCAAAAGATTGGTTGACAGGATCATCCTTGCCTTCTAAGTTCTGCCCAA GTGTCATCCAATTGATACTAGATCAGCTTTCTTCAAACAATGTTCGGTTAGTGTACTAACAAAGCTATGAGTTTATTTAT ATGAAGAACGTGAAGGATCAACCCTCTAAAAAGCTTAAGTGGTTATCTCACCTAAAGGGGGAGAAATCAATTGATTAAAG TTTTAGGTGGAGGTTCATTAGTGGTTTTATGTGTAGCAAAATTTGTCATATAATATTGCTTCTTTATTTGGTTTGCAAGA CTCTAATTAGATCTTGTGTACTGGCCTGCAACTTTTCATTTGATTGAAGCATTTCATGTAATACAAGTCTAACTTATTTT TTTCTCCCTGTCAGAGGATTATGTTAGCATTTTATGTGAATTTTCCATATCCACTCAAATGTTGGAGAGATAAGTAAATA TGTATTTATTTGGTAAAAAAATATGAAAATTTAATAGTCAATAACTAATGGATGTGGATTCAGGCAGGTGCTTTGCCATA ACCTTTTCTATTTTTAAAGAAATCTAAAAAAAACGGTGTTTAAGCTTGATCCTGCTAGCGAAGATTGTGTTCTAGGGAGC ATGATTGAGTTTGGTTTTGATAGAGGTTATTGAAAAAAAAATGGTCTCAGTAAACATGCATGGAACTGAAAAGTGAAGAG TAGATAGCATTATTGGCTATCGTTGTGGCAGACTGAGCATATCATATGCATCGTGTCGCTCTTGTTGCACTTAAGGTGCT TGTAGAGAAATTTATCCTGTATTTGGAGCTTAAGAAACCTATCAGCTAAATCCTGGAGTTTAAATTACTGCTTGTTGATT CATGTTTAAGTTACTTGCAGAAAGTTAGCTTTTTTTTGGGGGGGAGGGGGTTGTCTCTTATTATTATTTGGACTTTTGTA TTGTCGGCTGTAACTTGTCAATTTGTCATGATTGCAGTTAAGCTAACCCATTCTCTGTTATGCAGAATCTTTTGGGAGTC AAAAAATTTTGAAGGGCATACTGATAAGGTGGAGCCTTGGTATGGAACTGTATATTCCATTGAAAAGATTACTGCCTCTT CTATTGAGGTCTGTGATTTTATGAACAGTTATGCTTGATTTTTGGACTGGATGTTTACTTTAAGTTGTTTCCCATTTGGA GTTTGTTTTGTCTAGACGTTATATAGTGAAACTGTCATGAAACAATGGAACTTGATAGTCATATATATACTTGTATTTGC AGGGATGGGTGCTTTCCGCTCCTGATGAAAATATGCATCTTCCAGCTCCTAACAAATTCATTCCGACTGACTTGTCACTT AAATTTGCACAAGAGAAAGTAAGACATAATTTTCACTTTCCTAGTATCTATGATTGTCAGCATGAGTGTCCTGATAAATT TATATTTTGAAACAGGTAAAAATTCCTGTTTTGTTAAGCAGGTCAACTTATTCAACATTATGGTACAAGCCAGATACATT GTTTTCCACTCCCAAGGCTTATGTAAAGATTGATTTTAATTGTCCATATGCTGGGAGCTCTCCTGAGGCTGAAGTTCTCA CACACATTTTCACACAGTTATTGATGGATTACTTGAATGAATATGGTAGGTCGCTAATTTTAAGCAATATTGTTTTATTT TAAATCATTTCGACATTAATGTGTCTTTTCACTTGCTAAATGTATATTAATGAAGTGTTTACTGTATTTCATTTTTCAGC TTATTATGCTCAGGTTGCTGGTTTATATTATAGCATAAATCAAACGGATGGTGGTTTCCAGGTATTGGGTTAATATGATT TAGTTCGAGATTGCAATTTCCACATTAGATCAGTAACTGTCAGTCTGTACTGTAAGCAACGATATGTTTAGTCTATTTCA AATATAAAGAGAAAGATGGTCTACAGTGATATCGAAGTGCAAATAATATAAATATACTTATGTATAAATCTTTATTTTTT ATGATCGATTGAGACACTAAACATCATTTAAAATGCATAATTGGGACACTGAAAGAAAAATAAGATCGTTAAATTGACTA TGAAATCAAGGAGGGACAATGTTCACATAAAATCTATAAGGACTCTTTCCCTCACTATTATGAACTTGGAGCTTATCTAT CTATAAACTCTTTACTGTTTCTTAAACTTTCGAGTAAGTGCTATCTCTTTAGCTGTGTTATTTAATAAAATTTGTTCATG TGTATAAATGGAAGTAAGAAACAGAGGAACCCACTCTGTCTTTGAATGAGGGTATTATTTCCATTCTCATCATTAAAATG CTATTTTATTTTTCAGGTGACTCTCTTTGGTTATAATCACAAATTAAGGATCCTACTTGAAACTATACTTGAAAAGATTT CAACATTCAGCGTGAAAGCTGACAGGTTCTCTGTTATCAAGGTACTATGGAAGTTCTTCTCCCCTTGCTCTTTCAGGATT GAGTTAATGCTTATATTACATACCATGGGGCATTGGTGATTTTTGGTAGTTTCTTCTCTTCTTTACTTGTCTTTTTCCAT CAAACATTGACAATTACTTTCTTCCTTTAGAAAAGTTTAAATCTATTATCCATCATATAGGAATTGCCATTACATGCCAT GTGGCAATTCATGGTTGTAATTAATCATCTATTTGTTTTGTTCATCTTCTATCTTTGCGTCAATTTCATATTTGTCGGTG AGGTCTCTGATGGCCCATGCTAGTTGCTGGTGCCTCTTATTGGTCATGAACTTCCACTTGTGTTTTGGGCTTCAATTTTG TTGCTTCTGGCAGGCTCTTCAGAGTGCTTTGCTTTAGGGAAGGCTGATGGCATTTATTAGTGAGAAATGTTACCAGAACT CTTTGGTGTTATTTATTTTAAGAAACATAAATAATTTTGAACTACTGAATTTATTTTCTTCAGAAATGAGCTTTTATAGT TGAGACTCAACATTTTATTTAAAAGTTTACTATTCTAATCAACAATATTAATTTTTATTTTGGGTAAAATTGTTTTGATA TTAAAAAATGAATAATTTTCGCTGTACTTCAACAATTTAATCTATATTTTTTCAATATTCCTTTTTATGGATCAGAACAC ACCATTGTGTTCTACTGTCTGAATTATTCAAAGAGGCATAGGTCTGATGGTTATCTACTGCCTACAAAACTACAAGACTG ATGCCTCTTGAGTCTTGATAGCCTACAGGCTACAAGTCTTGTCATAAATGAAGCCTAAAAGTCTGACTGGTCTTTGTGTT GCCTTTTTAACTCTAAAATCTTTCCTATGTCATCTAACATCAAGCCTATACGATATGCGACACATTAAGTCCAATATAGA TTCATTCGCCTGGCTTTTGTCACAAATCAATTATTTAAAAATTTGTTGCCTATTATTTGTCAAAATTTTATATTTTGTAC AATTTAATAAAGATATTGGGTACTCAGTGGACAACTTTGGTATTTAAGATGTCATTTTATTTTTTAAATATTTATTTATA ATTTCTAATTGGATCCTTGCTGTTAGAATACTTTTATGAAATTTTTACAGTCTATTGAAATCAAGGACCTAATTAATTAT TATTTTTAGATTAGGACTCAGTTTGTAATTTGGTTCCTATAGTTTTCAATTGTTTTACTTTTGTTTCTGAACCAAACATG CTGTTAGGGCATTCTAACAGTGATGATTGAATCATAAAGACTCAGCTACAAACTTTTAAAATATAAAAATCTACCTAAAC ATCCCAATGGGTATAAGGACCTTTAGATTTAAAATTAAATCAATCTACTGAAAAGTAATAGTATATTTAAAAAAACGGGG GAGAACTTCACATTCGTACAATTGAAACCAGCCTATAATCCATTAAATTCATGGTGGCATATCCTAGTTTAGATCATACT GAAAAATATGCTGCTTTTCAAAAAAAAAAATACAAAGAAAATATGCTAACAAAAGAATGAGAACTCATTCAATTTTAAGT TTATAAATTATCCATGGCAGAATTTTTAAATTAAAGATGTTTATATTTAATTTAGTCAATTTATTTATTTATTTATTAAT ATACCATTTTATCAGGAAATGGTAACCAAGGAATACCAGAATTTCAAGTACCGACAACCCTATCAGCAGGCCATGTACTA TTTCTCTTTGATACTACAAGATCAGACCTGGCCTTTGACAGAACAGCTGGAAGTGCTGCCTATTCTTCAAGTTGATGATC TTACTAAATTTGTGACAGGGCTGCTCTCTAGAACCTTTATAGAGTGTTATATAGCAGGTTCTTAGTCCCCTCTCTCTGTA TCTCTCTCTCTGGTTGGTGAACTTTTATCTCAAATAAAATTTTCTGTACAGGAAACATTGAAAGTCATGAAGCAGAGTCA ATGGTTAGGCACATAGAAGATGTTCTCTTTAAGTGTTCAAAACCTCTATGCCGACCTTTATTACCTTCCCAACATTTGAC AAATCGGGTTGTTAAGCTTGAAAGTGGCATAAATTATTTTTACCCTTCAGAATGTCTTAATCCTGATGAAGAAAATTCTG CTCTTGTACACTATATACAGGTAAACTTGCTTGTTTTTAGTAGTTTTTTTTTTTTTAATTTGTACTAAGATACATTTGGC TGCTCAGAATGGACTACATTTATCTGTCTAAATATAAAATCGGACTGTACAAACTGTAAGTCTAAATATATAATTGTGTA GGGGAGAAACTAGTAGATTACATCATGCCTGTTTAATGTAAATTCTTTTTGATATTTACAAAAGTTCCAAATGGATACCT AAACAGCTAAACTGTCCAAAAATTCGGCATAACTTTGGTGGAACCTAGTCCTTAAACAGCTAAACTGTTATAGAACAGTG TACTGCTTTAATTTGGTTCCTTAATCTTGTAATGAAAATGGATTATGGTTAGAAATTATCATAGCAGAAACCCTAATTGA TATTAATTAGTGGACAACAAAGTGTCATCCCATTACACCCAATGTCTCTCTATTTCGGGATATATCCCCGATTCTTTTTT GTCATTCTTCTGCTTTCTCCATTTCATAAGTTACACATACTTAGTTTGTTTGGCAATTCCAATTGGAAGTCGACTATCCT TCCTACTGAGTATTGAAACTCCATTACATGAATGTTCATTCTTTTGCGTACAGTAGGCCACCATCCGCAGTTTTTCTGCT TATATATTTAGACTTGTATTTTCTTACCTTTTGGCCTTGTCATTTGGTTGATGAATGTATTACCATTCTATTTTTGAAGC CACCGTTTGCTTGTAACTCTCCCAAGAATTTTGTAGGTTGGTCCAGATGATTTTAAGCTGAATGTCAAACTTCAGCTTTT TGCCCTTGTTGCTAAGCAACCAACCTTTCATCAGCTTCGATCAGTTGAGCAGCTGGGGTACATTACTGTGCTCATGCAGA GGTATGTTGATATCTAGCACCCTGTCCATATTTAGCACTAAAGAACTATACTTGTTTTTAACTTCGGTTTTGAACATTTG TAGGAATGATTGTGGTATACGTGGACTTCAGTTTATTATCCAATCTACAGTGAAGGTATTTGCCTATGTGTAACTAATCT AAAGTAATTAATAATCTCCGACCTTGTTGCTAAATCCTGGTACTTCACTTACTTCACAGGCTCCTGGAAACATTGAGCAG AGAGTCGAGGCATTTCTCAAGGTGTTTGAAACCAAGCTTTATGAGATGA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0718900.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGGTGGGAAAGGAAGATTCAGAGATTCTCAAGGCTCGCATCGACAAGCGAGATTACAGAAGGATCGTTCTTCCCAA CTCCCTCCAAGTTCTCCTCATCAGCGATCCCGATACCGATAAGTGTGCTGCTTCCATGAACGTTGGTGTTGGTTCCTTCA GTGATCCTGCTGGTCTCGAAGGCCTCGCGCATTTCCTAGAGCACATGCTGTTTTATGCCAGTGAGAAGTACCCAGTGGAA GATAGCTACTCCAAGTACATTACTGAGCACGGAGGAAGCACCAATGCTTATACATCTTCTGAGCACACCAATTATTTCTT TGATGTTAACACAGATGGCTTTGAAGAGGCTCTGGATAGATTTGCTCAGTTCTTCACTAAACCATTGATGTCTGCTGATG CCACCATGAGGGAAATTAAAGCTGTTGACTCTGAAAACCAGCAAAATTTGTTATCTGATGCATGGAGAATGAACCAGCTT CAAAAGCATCTCAGTGCTGAAGATCATCCATATCATAAATTTAGCACAGGTAACTGGGACACCTTGGAAATTCGACCAAA AGCAAAAGGATTAGACACAAGGAATGAGCTAATCAAATTCTATGACGAAAACTATTCTGCCAATCTAATGCATCTAGTTG TATACTCAAATGAAAGCCTCGATAAAATTCAAAACCTTGTCGAAGAAAAGTTCCAGGATATTAGAAACACTAACAGAGGT TCTTTTCGAATTTCTGGTCAGCCATGCAATTCAGAGCATTTGCAGATTCTCGTCAAGACTGTCCCAATAAAACAAGGTCA TAAATTGAGAATTGCTTGGCCAGTAACCCCTGAAATTCGTTATTACGCTGAAGGGCCATGCAAGTATCTTGGTCATCTTA TTGGCCATGAAGGAGAGGGGTCTTTATATTACATTTTGAAAAAATTGGGATGGGCTACGGGCTTGTCTGCAGGTGAATCA GATTGGAGTTTGGAATTTGCTTTTTTTAAAGTTGGGATTGATCTTACTGATGCTGGTCATGATCACATGCAAGATATCAT TGGGTTGTTGTTCAAATACATAGAGCTTCTACAACAGTCTGGTGTTTGCAAATGGATATTTGAAGAGCTTTCAGCGGTTT GTGAGACTAAGTTTCACTATCAGGACAAAATTCCTCCTAGTGATTATGTCGTCAATGTTGCATCAAATATGCAGTTTTAT CCTGCAAAAGATTGGTTGACAGGATCATCCTTGCCTTCTAAGTTCTGCCCAAGTGTCATCCAATTGATACTAGATCAGCT TTCTTCAAACAATGTTCGAATCTTTTGGGAGTCAAAAAATTTTGAAGGGCATACTGATAAGGTGGAGCCTTGGTATGGAA CTGTATATTCCATTGAAAAGATTACTGCCTCTTCTATTGAGGGATGGGTGCTTTCCGCTCCTGATGAAAATATGCATCTT CCAGCTCCTAACAAATTCATTCCGACTGACTTGTCACTTAAATTTGCACAAGAGAAAGTAAAAATTCCTGTTTTGTTAAG CAGGTCAACTTATTCAACATTATGGTACAAGCCAGATACATTGTTTTCCACTCCCAAGGCTTATGTAAAGATTGATTTTA ATTGTCCATATGCTGGGAGCTCTCCTGAGGCTGAAGTTCTCACACACATTTTCACACAGTTATTGATGGATTACTTGAAT GAATATGCTTATTATGCTCAGGTTGCTGGTTTATATTATAGCATAAATCAAACGGATGGTGGTTTCCAGGTGACTCTCTT TGGTTATAATCACAAATTAAGGATCCTACTTGAAACTATACTTGAAAAGATTTCAACATTCAGCGTGAAAGCTGACAGGT TCTCTGTTATCAAGGAAATGGTAACCAAGGAATACCAGAATTTCAAGTACCGACAACCCTATCAGCAGGCCATGTACTAT TTCTCTTTGATACTACAAGATCAGACCTGGCCTTTGACAGAACAGCTGGAAGTGCTGCCTATTCTTCAAGTTGATGATCT TACTAAATTTGTGACAGGGCTGCTCTCTAGAACCTTTATAGAGTGTTATATAGCAGGAAACATTGAAAGTCATGAAGCAG AGTCAATGGTTAGGCACATAGAAGATGTTCTCTTTAAGTGTTCAAAACCTCTATGCCGACCTTTATTACCTTCCCAACAT TTGACAAATCGGGTTGTTAAGCTTGAAAGTGGCATAAATTATTTTTACCCTTCAGAATGTCTTAATCCTGATGAAGAAAA TTCTGCTCTTGTACACTATATACAGGTTGGTCCAGATGATTTTAAGCTGAATGTCAAACTTCAGCTTTTTGCCCTTGTTG CTAAGCAACCAACCTTTCATCAGCTTCGATCAGTTGAGCAGCTGGGGTACATTACTGTGCTCATGCAGAGGAATGATTGT GGTATACGTGGACTTCAGTTTATTATCCAATCTACAGTGAAGGTATTTGCCTATGTGCTCCTGGAAACATTGAGCAGAGA GTCGAGGCATTTCTCAAGGTGTTTGAAACCAAGCTTTATGAGATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0718900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAVGKEDSEILKARIDKRDYRRIVLPNSLQVLLISDPDTDKCAASMNVGVGSFSDPAGLEGLAHFLEHMLFYASEKYPVE DSYSKYITEHGGSTNAYTSSEHTNYFFDVNTDGFEEALDRFAQFFTKPLMSADATMREIKAVDSENQQNLLSDAWRMNQL QKHLSAEDHPYHKFSTGNWDTLEIRPKAKGLDTRNELIKFYDENYSANLMHLVVYSNESLDKIQNLVEEKFQDIRNTNRG SFRISGQPCNSEHLQILVKTVPIKQGHKLRIAWPVTPEIRYYAEGPCKYLGHLIGHEGEGSLYYILKKLGWATGLSAGES DWSLEFAFFKVGIDLTDAGHDHMQDIIGLLFKYIELLQQSGVCKWIFEELSAVCETKFHYQDKIPPSDYVVNVASNMQFY PAKDWLTGSSLPSKFCPSVIQLILDQLSSNNVRIFWESKNFEGHTDKVEPWYGTVYSIEKITASSIEGWVLSAPDENMHL PAPNKFIPTDLSLKFAQEKVKIPVLLSRSTYSTLWYKPDTLFSTPKAYVKIDFNCPYAGSSPEAEVLTHIFTQLLMDYLN EYAYYAQVAGLYYSINQTDGGFQVTLFGYNHKLRILLETILEKISTFSVKADRFSVIKEMVTKEYQNFKYRQPYQQAMYY FSLILQDQTWPLTEQLEVLPILQVDDLTKFVTGLLSRTFIECYIAGNIESHEAESMVRHIEDVLFKCSKPLCRPLLPSQH LTNRVVKLESGINYFYPSECLNPDEENSALVHYIQVGPDDFKLNVKLQLFALVAKQPTFHQLRSVEQLGYITVLMQRNDC GIRGLQFIIQSTVKVFAYVLLETLSRESRHFSRCLKPSFMR

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
Gene3D	G3DSA:3.30.830.10 View details on G3DSA:3.30.830.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.830.10	1	239	239	2.4E-93	–
SUPERFAMILY	SSF63411 View details on SSF63411 Search for proteins/transripts with this domain View external data on SSF63411	6	238	233	1.61E-60	IPR011249 Show description in modal box View details on IPR011249 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR43690 View details on PTHR43690 Search for proteins/transripts with this domain View external data on PTHR43690	6	815	810	0.0	–
PANTHER	PTHR43690:SF23 View details on PTHR43690:SF23 Search for proteins/transripts with this domain View external data on PTHR43690:SF23	6	815	810	0.0	–
Pfam	PF00675 View details on PF00675 Search for proteins/transripts with this domain View external data on PF00675	31	166	136	3.7E-40	IPR011765 Show description in modal box View details on IPR011765 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00143 View details on PS00143 Search for proteins/transripts with this domain View external data on PS00143	51	74	24	-	IPR001431 Show description in modal box View details on IPR001431 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF05193 View details on PF05193 Search for proteins/transripts with this domain View external data on PF05193	193	369	177	2.8E-21	IPR007863 Show description in modal box View details on IPR007863 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.830.10 View details on G3DSA:3.30.830.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.830.10	243	470	228	1.6E-81	–
SUPERFAMILY	SSF63411 View details on SSF63411 Search for proteins/transripts with this domain View external data on SSF63411	245	483	239	3.45E-79	IPR011249 Show description in modal box View details on IPR011249 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16187 View details on PF16187 Search for proteins/transripts with this domain View external data on PF16187	378	657	280	2.0E-93	IPR032632 Show description in modal box View details on IPR032632 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF63411 View details on SSF63411 Search for proteins/transripts with this domain View external data on SSF63411	484	706	223	1.29E-56	IPR011249 Show description in modal box View details on IPR011249 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.830.10 View details on G3DSA:3.30.830.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.830.10	484	722	239	1.6E-104	–
Gene3D	G3DSA:3.30.830.10 View details on G3DSA:3.30.830.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.830.10	632	819	188	1.6E-104	–
Pfam	PF05193 View details on PF05193 Search for proteins/transripts with this domain View external data on PF05193	662	812	151	2.0E-6	IPR007863 Show description in modal box View details on IPR007863 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF63411 View details on SSF63411 Search for proteins/transripts with this domain View external data on SSF63411	728	820	93	5.49E-10	IPR011249 Show description in modal box View details on IPR011249 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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0003674
GO:0004222 View details of GO:0004222 AmiGO InterPro QuickGO	Molecular function	Metalloendopeptidase activity	Catalysis of the hydrolysis of internal, alpha-peptide bonds in a polypeptide chain by a mechanism in which water acts as a nucleophile, one or two metal ions hold the water molecule in place, and charged amino acid side chains are ligands for the metal ions.	Subterm of View details of GO:0004175 View details of GO:0008237
GO:0006508 View details of GO:0006508 AmiGO InterPro QuickGO	Biological process	Proteolysis	The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.	Subterm of View details of GO:0019538
GO:0046872 View details of GO:0046872 AmiGO InterPro QuickGO	Molecular function	Metal ion binding	Interacting selectively and non-covalently with any metal ion.	Subterm of View details of GO:0043169

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0718900.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0718900.3