Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0329900
Transcript ID	LotjaGi3g1v0329900.1
Related isoforms 1	LotjaGi3g1v0329900.2
Lotus japonicus genome version	Gifu v1.2
Description	Mitochondrial intermediate peptidase; TAIR: AT5G51540.1 Zincin-like metalloproteases family protein; Swiss-Prot: sp\|F4KDA5\|MIPEP_ARATH Probable mitochondrial intermediate peptidase, mitochondrial; TrEMBL-Plants: tr\|A0A0R0KE54\|A0A0R0KE54_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0329900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:69734707..69747107) extracted from Lotus japonicus Gifu genome v1.2.

AAAAAAACTAAATAAAAATAAAAAATTTAATCCAATCCAAATGCTATTGACCTAGGGTTGTTTGCCACTTTGCCTCCCAA ATTACTGGCTACTCGGGTCTTATGGGCATCATCAGTAAAATAAAAAACACGATTTAACAATTAACATCACTCTAGCGGAG CCGCGGCGGTTGCTTTGATCGGAAACCACCACCATGCGGAGTGTTTGGAGCAGAGCCGTCAAAGCTCTCCGTCACAGCAA ACGGAACCCACTCCCTCTCCGCCGCACCTTCTCTTCCTCTTCTTCCTCACCCACCGGTCTCTATGGCTTCTCCCATTTGA AGGCTCCCAAAGGCTTCCACTCATTCGTCGATGAAGCCATTCAAAGGCATTTCTCATTCCACACACAAACTAAACCATGT CCATTGTCCATTCCAATCTCAGTTTGTTTTTTTTTTCTTGAACTGAAATCTTTGTTGTCATTGTCAGGTCTGCAGAACTC GTCAGCTACATTTCTTCCAAGCCGCCAGCTTCGGAGATAATGCGAGCCATGGACGAGATTTCCAACACTGTAAGTTACCC TGTAGCTGCACACATTCACTCTTAGCTATCTTGTTGCTAGGAATGCTAACAACACTCTCTTTCTACCACGATCTCATTTA TCCGTTGAAATTCATGTGGGTCTCATTAAATTGGAAGTGAGATCTCATTCAAATTTTAACGAATGAATGAGACTGTTCAA GTGTTCGGAAGAGAGTGTTGCTAGCATTTCTTTTTGTGCCACAATTACTGGACTTTTTTTTTTTTTTTAATGTCTGTCAG GTGTGTTGTGTTGTTGACTCTGCTGAATTATGTAGGCTAACACATCCAAACAGGTTCTTGTTTTGTTAGTTTCTACTTTT AATTTATTCACATTCTGTTTTCTTGTGTGGTGAGTAACTTATATGTTTCTTTGATTTTTTTAATCATGTGATAACTCAGG GAATTTGTTGAGGAGGCTAGCAAGGCATCAATGAAAATTAATGAGTATTTACATGTGAGAATTGAGATGACTGGTGATGT TCACTTTTCTGTTTTTCATTCTTTTTATTTTTAATTTGTGTGAACCTATCAGTTTTAGCTCTTTCCATTTCCACTTTGGT TCTGTGAGATCAATTTAAGACTGTTTGAGTATATAGTATATACACAATAATATGCATGTCTCATATTCTTTTAGCTGTCG CAATTCTGTTATATACTGTTAGTTGTAGTTTGTTATTGTCTGTTAGCTGTAGTTTGCCTCAATCTATAATACACCGAGAC TATAATAGCTGAACTGCATCTAGGGGTGGGAATAGGCTGGGCCTAGGTAGGCTTTGCTTAAATAGGCCTAGCCTATTTAA AAATCTTAAGGCCTGAGCCTGGCCTATGGCCTATCAAAGGCTTTTTTTCGAGCCTGGCCTGAGCCTTCCGAAAGGCTGGC TTGGCCTGGTAGCCTGTTTAAAGGCCCGTTTCACAACAACAGTTTTACGTTTGTTAACAAATTTATCTGTAAAGAAGCTA TCAAACTTATAAGCTAACGGGTTAAATTATACTAAAATAATCTTTCAACGATCAGACTTATAATATTATTAGCTAATAAG TAGTGAAGAAACTAAACGAGATTATGTTGGTTTCTTAGAGTTGGAGAGCCAATTTAAAATCACACTTCATTTTTAAAAAG ACTTATAACTTTGACTCGTTATATAAGTCAATTTGCTTAAATATATAAAAATCTCAATAAGTATATAATATCAAGATATT ATAATAAATTTCTAATATATAGACATCATCAAGGGTAAAATATATTTATACTTATCATATTTACAATTTACCAAAAAAAT ACTAATCATATTTACTTAAATAGGCTAGCCTGTAAGGCTTACAAGACTTGTTGAATGGCCTGAGCCTGACCTTTTTAACT AAATAGGCTTTTCAAAAAGCCTAAGCCTTGCCTATTTACCATTTTGGTCTGGCCTGGCCTGGGCCTGTGGTAGGCTAGGC CATAGGCCCCTACGAACGGCCTGGCCTATTCCCACCCCTAACTGCATCACAAGCAGAAGTGGACTAAAATGGCAACCTGA GTTAGTTTCGTGTAGGCTTTATTCGCAACTTGGTAGACTATAATTGGCTACAAGATCTTGCTGAGGAAAAGAAAAGATCT TTGTCTCTTTCTTTGTAGAAGTGAATTGGCTCATGTTGTAAATCTGTCAAAATGTGAAGGAAACAAATCACAAAATATAG TGAAATATGGAAATCACTCCTACAAAATATTTGAAGATACGATGATGATATTATGTGATATTCTCGATATATTCTAAGTT TCTAACTGAATAGAAAGCAAACTCTTGAATTTTTGCAGCCCCACAATTCTGAAGGCAAGGACTATGTTTTCATTGTTATA TGCCCCGTTGATAAAAGTAGAATTCTCGTTGGACAATTGTGAAATATGATATATCTTTCTGGAAAAACAAATGTGATTTA TTACAAAAAGGAAATATGATTTCTAGGGCCTTGGGTTAGAGTATTGGATGGACTCATTGTAGGAATCAAGGTGGATTAAA GACTTATTTAAGTAAGATTTGTATATAAGCAGTGGCATGGTAAACAAAATTATTGCTGGTTTGTTGGTTGGATGTTGAAG TAAGCGAGGCTTACCTGTCTCACCTTAAAGACTGAAGAAGTGCTTTAAATTTAAGATAAGTACATTTAAATTTTAAAACA AGACAGAATATGATGTAGAGTGTTGACTTCACATTTAGGCTCCATTAGATGTCACACAACCAATAATTACAGCTTTTTGA TTAAAACCTACATCCATGATTTGCAAGGAAGAGTTAAGTCAAACTTTATTTACCCCATGAAGATTTGTACTCTGCAATCT AGTCATATAAGTTCCATGTAGACATTAGACTACTACATAATAAAATTGAAGTTATGTACGAGTCTAATCTCTGTACAATT ATTTAGTATTTCTTCTCTTTGATGTACAGTATCTGAACACAAATCATGATCTCTATGATGCGGTGAAGAAAGCTGAGCAA GAATGCCATATGCTTTCTGAGGAAGCTAAAAGAGGAGTTAGAAACTTACGTATTGACTTTGAAAGGGCTGGAATTCATCT TTGCCCTGGTATCCATATTACTTCTAGTGTCATGTTATGTTCGAAAAACGAATGTGGATTTTTTTTTCTTTCAGAAGTTC TTTATATGATGCACATTTGTTTTATACTTTGCAGAGAAATTAGATCGAGTAAACATGCTAAATATTGAAATTTCTCAGAT ATGCAGAGAGTAAGTATTTTTATAACTGAGATTAAAAATAAGTTGACACTGATTTTGCTTGTTGTGATATTTATATTATT TGTTTTTAGTGGACAATAGGTGAAAACCTTTTGTTTTATGAAAATATTTTGGTACGCGTTCATGAGGTGCCCCTGCCGAC ATACCTTTTGTAACTCAAAGATGTTTATTTTGAACTCCATTCTTTTGTAGAGCAATCTATAGACCTCTTCTGGCATCCTA TCTGAGGCTTTTCTAGATCCATGAAAACATGAGTAGACCAATGGAATGCTCCCCGTAATGAAGAATTTGACTTGTTGACA TTATTGTTGTTAGTTGTTATTGGTAGAAGTTGATGAGACTTGTGGAATATTTCAAATTTGTGATTTCAATTGTCAATGCA TCAAAACTTATTCTACCAAAAATAACTATAACATGTCTGACATTTTATTTCAGTGCTCTTGATCTCTTTGCATTTTGTTT GGTTTGGTTAGGTACAATGAAAATATTGTCATGGACCCAGGAACTATAGATATATATCCTTCATCTCGCATCCCCAATAA TTTACGTTATCTTGTTAAGCCTATCTATCGGTCAAAATCTTCAACAGCTAAGGATTTATCAGGGTCCAAGGACACCTTTA ACGAGAAAGGATTTCGAATTACAACAGACCCACGAACTCTTGATTCTATGCTACAATTGTCACAGGATGATGAGGTACTC TATATTTAATGATTTGAAAGCTTACCCTGATACGATGACACTTGTTATAAAGATAACTCATACTTGTCATAAGGATAACA CATAATTCTTGTTAAGGAGTGTCCAGTAAATTCAAGTGATCTAGAAAATGAATTGGAATCACATCTATTCTTTTAAGGCA CTTACTATACTAGACCCTAGAGTACTAGTAAGTTTTGCTTGTAGTCTCAAATGAGCCTAAGTTATAAACTTACAGTCTAT TTCCCCAATTTGCACTTGAATTAATTTTATGTGTTTTCCTCTCTGTATTTTAAGATTAGGAAAATGGTATACATACAAGG AAGTTCTGTTCCACGTGCAAATGTTGATGTCTTGGATAAGCTTATTTCTTCGCGACATGAGCTAGCTCAGGTAATATCAT AGGGTGCCGCAACATAAGTATCTATGTTGTCTCTTTTATTTCCACATTACTATTATGTACCCGTGATTTCTTGGTCCCCA TTAGACATTTCTATACAACTATATTTATGCAAATATACTTGAAATGTTAGTATTTCTGACAGAAAAAGAAATTTGTTGAG GAATGAAAGGAGACAAATAAAGAGGATAGTGCATCTCTCACGTATCCACAATGTTTTGGAAACCGAACCAGACGAGGCAC CGCTTCAAGGTTCGATGGTCTAACAATAGTTGATCTGATAGTAATTAAAATATTTTTAATATTATCTACTATAATATGTA ACATATTTACCCAAGATATTAAGAAATTTAGACTAGTTAAATTTTGAACTATTATATGCTGTTTATCTTATATATTTTAT ATAATAAAAAAATACTAGAGGATTAAATTAATATTTTAATTAAAAAAATTGACGAGTTCAATCTGATTTTCATAACTGGT TCAACTGATTCTTGAATTTAACAGTATTTTAGCTAATCGAACCGGCCATTTACCGATTCACGGTCAGACCAATTGGACCA GCCGGTCGGGTCCAGTTTTCAAAACAAAGCAAAACCAGCACGGGGCAAAACTTGAAGCTGGGAGATTGGAATATGTAACT AAGCATGCCAATCTCTTTGCATGTTTGAGATTAAAACTCCTCTAAATATATCATGAGCAAAACATCAAGGGGAGGCTAAA AATTAATCCTATCCCAAATGAAGTTTAGAGTTGAAGAAGTACTCTTAAAATTCCATCATTTCTCTCCAGCAATAAGCACC AAAGAACACAGGATAATGCCACAAAGTTTTAGCCTCTTGGCCCAACCTAAAACCTCAAATTAATAGAAACTGATGGAGTT CCTTAAGACCAATATTCTCTTAAAATCCCTAACAGCTTATTCCAAAGAAAAGTAATGCAGAATAGTGCCAAAATAGACGA GCCCTGGTTTTCAAACAAGAATTGATATAACACCCGTGTTGGGAGAAGCAGTGAGAGGTCTGTGCCTATGTAACATACTA ACATGTCAGAAGTGCTAATTCTGTTAAGAACCGTAGTCCAAACCAGTGGTGGATCTTGAAGAAAATATTTAGGGCCAATA TTTAACTTTGTACAGCACACTCTTTTTATCAACATAAAGAAATTTCCGATTTTTCTTTTTAATTAGTTTCTCAAACTTAA TGCTGTCCTATTTGCTTAAAAAATTAAAATAACTATGTAACTGTCATTAAAATATATGAGGGCCTAAACAATATAAATTT TATATGCTAAAATAAGTTAAATCACGCAAGCCCTGTGTGCTTATAAAAATGTACAAAGCTTAAACAAAATAAAATAGATA TAAATGTCAATATATACTTAAGAGAACGAATCACCGTCTCCCTAACTGAAATCTTTTTAGCAGCATAAACTAGCATACAA AACTTGAATGAAGTAAAGATAAAAGAGTTGGAAACATCTCCTTGAACATTGCAGATTGTATTAACAGGTTTTGATACAGG CACACCCCACTTTGTCTTCCATCCAATTTTCACTCATATTCTCTTCCTATATCTCCCTTCTTTTCCTAACACATCACCAA TAACACTTATTTATCTCTTATATTCTTATCTCTTTCTGGTTGTGAGTGAATTTGGTATCTGAACATAATTTTTATATTTA TTATAACAAGTATATAATATTTTTATATAATGGCAATCCTATGGTGGATCATGTTAAAAATTGATTCACCTGCAATCCTA TGAACCATAATTTTTTATTTGTGGTAGCCAAAGCCTATAATTTTTTCAGCTCTGCCCTTGGTCCAAACAAAGGGGTTGAC CTTAGGTTGGACTTGATTTTCCAGTTGGGTTTCCACCAAAAAAAGTCTATCTCTATTTGGTGAACGGTTAAGGATCTAAA AATAGGATTTTACGGGAAAATACCCTTGAGGAGTCCAGAGTGCACACTCTTTTATTAAATTATAGGAAATATGAACAAAA CTACAAAACAGAAGAGACGATGCCTCACTAACCTAATTTGTAATTTCTATCTTATGAATTGCGAATGAGTTTGGCAGCCA AGATTCTGTCTGATAAAAAACTGGATAGTATGTCATCTATGTTGACTTAGGTCGGTACTTTTCATAAGTGTATGCCTACA AAGCTTATTATTTCTTCTATTTTTTACGTCATAAGTCATTAATTTTACCATCTGATTATTTGATCCAGATATTGGGATGC AAATCTTATGCTGAATTTGCTGTTAAACCTAACATGGCTTCATCACCAAAAGTTGTGATGTCTTTTTTAGAAGAGATGAG CAAGATTGTCCGGGCTAAGTCTAAAGAGGTACAAAAGTAGATTCCCGTTAGACATACTTTCTAGGGAAAAATGTGCTATA ACCATATTGACTTGTTTATTAAACAAGAATTTTCTTTTTTCCCTTGCATCTTAGGAGCTGAAATTACTTACAAAATTCAA GAGAGAGAAATACGGTCAAAGTGATGAAGATATAAGGCCATGGAATGAAGCCTATTACACGACAATGTTGAAGTCCTCTG TATATAAATTGGATTCTTCGGTAAATATAACATTCATGAGTATTTTGTTTGTCATTGATGCATACCTATCTGTTTTTCAC AGTAATGCAAAAATCATGCATGCAGGTTGTAGCGTCATATTTTTCTTTGTCAAATTGTATTGAGGGGTTGAAGGTGTTGG TGCAATCATTGTTTGGTGCAACCTTTCATAGCATCCCTCTGGCACCTGGTGAATCATGGGATCCTCAAGTGCTTAAACTG TGTCTTCATCATCCTGAAGAGGTATTTAGTGTAGAAATTGTCTCTTGAAATGAATTTGGATATATTGGATAGATCTCTAT AAAGTTATGATATTAACTTTTAAGACAATGGTGTTTCTCTAGTTTAACTTTTGTATGAGACATATCTATGATTATGAATT CAAAATTGATATTCAGTTCAAAATTTAGTAAATTCTATGTAAAGGACTTGTGAAGAAAAAGTCAAATAACATTTGGGTTG GTCCATTATCGCACTTTCTTCTGGTGGTTTGGAAGAATGTCATCGCTCTCCTCCCAAAATGCCATTTTGCTTATATTAAA ATGTAAATGAGTATTGGCCATTTCATGATGAGGTTATCTTATACTGATTACGGCATCAACTATGATACTAAGGTTGGTAA ATTATCTAATCTGTGGCTAAACACACAATACTCTATTTATATATTTTATTTAAGCCCTTGCAAATAACTAGAGTTTAATG ACTAATTGGGATGAAAAATAATGTATCTATTTATAAAAGGCATAGAGTTTAGGCGACTTTATATATTATTTATGCATTTT TGTTATCCTCATTTATATTTTTTATTATTGTTCTCTGATTTTATGTTTTTAGGCCTTACTTCATTGATGTGTTCTGCGGC CAAAGATCTGATCACTAACATTTAGGGTGTGTTTGGGTTTACAACTTAATTAAATGCCTATTCATAAGTTAATTTGAGAA ACTTATTGCTTAGAATAGGTTATAGATAAAGCATAAACTCTTATTCATAAGCTAATCTGAACAACTTATGGAAATAAGCT CAAAATAGCTTATAAGTAGGTCATAAACTATTTACATAAGGTAGCATTTATACTATAGGATAAGCTCAAATAAGCTTTCT CAAACAAGGCCTTAATTAACATTGTTAGGTTGTCAGTGATGATTGATGTCCATTATGTTTTATTTTATTAATCGTTAAGA CTCAAACTTATTGCAGGGTGATTTAGGATATCTCTACCTCGATTTGTACTCAAGAAAGGGAAAGTATCCTGGCTGTGCTC ATTTTGCAATTAAAGGTGGTCGCAGGATTTCTCAAACAGAATACCAACTTCCAGTATGTGAAATTTTCTCCATTTTAGAA TATATGAAAAATCATGTGTAGAGTAATTTATGGAAGAAAATTATCATTTAGGAGCACTTTGATGGTAGAGTATGCTTTAA TAATTGTTGATAAAAAATAGTAATAAATTGTTTAGGTTTTCATTGACCTATGTATTATTGTTCGAGAATTGAGTTTTTCC AAAGATCAAAAATCCATTTTTAAGCAAACATCAATACTCATATCCACACTTTATCAATTAAATTGCTCTATTTAGTACAG AGGAGGTACACTGTTTATTTATTCGAGTGTTGCTTGATTCCTGTAATTTTGCAGATTGTAGCTCTTGTTTGTAATTTTTC GGGTTCACGGAATCCATCAGCTGTAAGGCTTAATTTCGGGGAAGTGGAAACTCTATTTCATGAGTTTGGGCATGCTCTTC ATTCACTGCTTTCAAGAACGGTATTCTCTTCAACTTTTAATGAGAAAATTGTAGCTTTAGAAAAAGATGACAATGTCATA TGAAGGGGTGGAATCAAAGATGAACATTCAAGGAATTTGGGTTGGTGATGCGAAGTATGCAAATGTACAAAAAAAAAAAT TAGTTTCCAAGTTAACTACTTTTGCTTTTCAAATGTCTCTCAAAACTACTTCCACTGATTGAAAACCACTTTGATAAATA TGCGTTTGTTATTAATATTATATTTTGAAAGTGGTTATTTGTTTCATTTTTCAGTAAGGTGTTGTTAGACTCCAAAGAAC ATGAAACACTTACCCTAGTAATAGTATGTTAGTTATAGTTGAAACCCTCAATTGTTTGAATTTTCTTGAGAGAATTACTC TCTGCTCCCATTGACTTATATTTAAAGGTTACAAAATGAAATCTCTCCATTTTTAGGATTTCCAAAACTTTAGAGATTAG TCACTTGTTTTCATCAAATATTTCTCATTCTAGGTGAGATATATATTAATAATATAAAGGGAATATCAGATTGTGTAAAT AGCATACATAAATTTATAATTTGTGTAAATATAAAAAGATATCTAATATCTTGATTACATCTTAAAATAATTTAAGGTAA TTTAGATTATTCTTTAGGTTTAGTTTCTTTATTTCTTTATTTATATTGATTTATCCTTATTTAATTAGGACTAGAAGTCT TACTTAGTTTCCCATTCAATTAGAATTACGAGTCTACCATTACTATAAATAAGGGTAAGTGCTTTGTCTTTTGTAAGACC AAACCCTCAATTTTATTCTTGTTCATTTTTCAACTTCCTCTCCCTGAAATATTAAACCCTATAATTTCATCAACAATACA GTATATTACAGCTTCCTAGTTAGTAATGATGTTGCTATTTCTTTCTCACTTCAAGAGTTAGTGTATTGAAGCATAACCGA GAGCATATGGCCAAAATAATCTTTAAGGGTAGAACAATTCTTAACCTGCTTGCTTTTTTGGTAGAGTTAAACCCAAATTC TAGGAGTTACTGTTGTCTTATTTATAATTTGATGGTTTCTTGTTCATTGTAGGACTACCAACATTTTTCAGGCACCAGAG TGGTTCTTGATTTTGCAGAAATACCATCCAACCTCTTTGAGTAAGTAAAAATTGTTGTTGCTGAGATTATGAGTAGAATG TTGCAAGAAGTTTCTTCTTTAGGTATTTACCTTAGGTCAAGGTGGCAAATAAAATATAAAAGATGTGGTTGAATAAAGGT GTGATACTGCCTAATTTTCTATAACAGATGTAAGCTGGTTTCTTTTTACAGAATTTACCTAATATAAACCTGTTATTTGC TTTGCCTGTCAGTTTTTATCTTAAAACTCGGATTTATTCCTTGACCTCTAACTTCATTCTCAATTTTGTCCCTGATATTC CAATTTTCTTAGTCTAGTCCCTGACATTTATTAACTCGCTTCAAGTTGGTCCTTATGTCTGTATTTCATTATCCACCAAA TGGAAACAATGAAGTCTCACCATTAAGGTCATGTCACACTATTTATGCATTGCTGAGCACAACACTTGGGTAGTGCTGAC GTTTTTTACTGAAAAATGCTTAGTAAAACTTGCAATTTGGTCCCTGAATATAGAATTGACTACAATTTGGTCCCTTCCTT AACACATTTATTAAAATCATATATGGTTGTTAATGGCTCATTTACAATTGAGGCGTGTCAAAATCTCATTCACAATTATG TAATTATAGAAGAATGATCAAGATTCAAGACAAAGTGTATCATAATTTGTTTCAAGGGAACCTATTGGTATTTTATATGA TAACCAAAGTGAACTTTTGAGTTTTGACATTTAAAATGATAAATAATGCTACAACAAAACAAATACATTATCATTTAATG GTTTAAATGAGGAAATAATCGTTGTTGAATACTTAAAGGAACTCTTATGTGCTAATGTTGTGGTATTGTTCTACTAGGTT GTGAATTGTGATTGACTTTGTTCTATTTTTGGTGCACAGATACTATGCATGGGATTATCGAGTTTTGAAAACATTTGCTA GACACTATTCAACAGGTGAAGAAATCCCTCAGAAGTTGGTTGAGTCGATGCAGGGTGCTAGAGATATGTTTTCTGCAACT AGTCTGCAACGTCAGGTGTTTCTTTATTCACAAGATGATGTCTTGAGTCATCACATTCCCGTTCTTTTTGTTTATGAAAA AATTATTAAATTGTTATTGTGTTTTCTTTTAGATCTTCTATTCTCTAGTTGATCAGACACTATTTGGAGAGCAACCATTC CCTCATGGTGATATTAGTTCTGTTGTTAGAGAACTGAAAAGAGAACATACCGATTGGGAACATGTGGAAGGCACACACTG GGAGACTCGATTTAGTCATCTCCTTAATTATGGTGCAGGTAGGTCTGAAATTTCTTGTAGTCTCCCAAACCGCATCAATG ATGTTGATATTACCTAAGCGTCAATAAACTCTTGTTTATGTTAACAACACAAACTCAATAGACATGCTAACTTTAGGAGA TAGTTGATTTTTCTTCTGTGTTGTGCTTCAACTAGGATGGATATAAAATATGGATCGCGCTACTTCGTTTTAAATTCTCA GGTTTAATACTGAGAATGCCTGAGGCTTTGACTTTGTGCTTTGAATAAATATGGTAGTAATATTGATTATCCTATCAATG CTACCAAAACATATTAGAAGTTCTGTTTAGTTAGTTTGTCACTTAGATGATTAGTTAGTTGTGAGTGGTTATTAGTTTCT GCTGTATAAATAACAATCACATTGTATCTTTTCACCATTTTTTTCAATCATAATCATGGATATTTCCCGGGCTACACTCT CTTGAGAGCTCTATGTTTCTTGATGTACATGAACCATATTTGGCTAATAACACATGTTCACTTGCAGGCTGAATTAATAA TTCGTTTCCCCCCTTTTGTGCAGGGTATTATAGCTATTTGTATGCAAAATGTTTTGCTGCAACCATATGGAAGAAGTTAT GTCAAGAGGACCCGTTGTCACCATCTGCAGGATTCGCTTTAAGATCAAATTTCTTACAACATGGAGGAGCCAAAGAACCA ACGGTTTTGTTATATGATCTAGTAGGAGATGGGATATATAGGCATTATGATGGAGGGATAATCCCTGATATATCGAGTCT TTGTGATGAAATGAAACTGTGATGAATATCTGCAGCAGGTCCATTTGTGAAACTGTTGCATATGAAACAATTTTTTGCAT AAATATAGCTCAATAACATTTTAAAAGAATATAAAATAAAACGTAAATAAAGAATACTTTTGTAACCAAAAAAGAGAGAG AATACTTTACCCTAATTCAGGCTTAGCCACATTATGTCAACGGCATTTTTATTCAAAGCGAAAGTATTTCTTAGGTGTTG ATTGCTCCTCCTTTTTACAAAATAAAAGTACCAAAAAAGGACTTAAGGATAAATGTGTTTTACGGAAAATATTTATGTAG GACTTCTACTGCATTATTTTTTTTATTTTAACTGTTCCTAACACAATATAAATCAATGTTGTGAGGGTTAAATATGTTTT AGTTGCTGATTTATAGGGTGAATCTAAATTGGTCCCTAAAAGAAATTCATTTGGTTCTGCAATTTTTTTCTATTTGAAAT A

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0329900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCGAGCCATGGACGAGATTTCCAACACTGTGTGTTGTGTTGTTGACTCTGCTGAATTATGTAGGCTAACACATCCAAA CAGGGAATTTGTTGAGGAGGCTAGCAAGGCATCAATGAAAATTAATGAGTATTTACATTATCTGAACACAAATCATGATC TCTATGATGCGGTGAAGAAAGCTGAGCAAGAATGCCATATGCTTTCTGAGGAAGCTAAAAGAGGAGTTAGAAACTTACGT ATTGACTTTGAAAGGGCTGGAATTCATCTTTGCCCTGAGAAATTAGATCGAGTAAACATGCTAAATATTGAAATTTCTCA GATATGCAGAGAGTACAATGAAAATATTGTCATGGACCCAGGAACTATAGATATATATCCTTCATCTCGCATCCCCAATA ATTTACGTTATCTTGTTAAGCCTATCTATCGGTCAAAATCTTCAACAGCTAAGGATTTATCAGGGTCCAAGGACACCTTT AACGAGAAAGGATTTCGAATTACAACAGACCCACGAACTCTTGATTCTATGCTACAATTGTCACAGGATGATGAGATTAG GAAAATGGTATACATACAAGGAAGTTCTGTTCCACGTGCAAATGTTGATGTCTTGGATAAGCTTATTTCTTCGCGACATG AGCTAGCTCAGATATTGGGATGCAAATCTTATGCTGAATTTGCTGTTAAACCTAACATGGCTTCATCACCAAAAGTTGTG ATGTCTTTTTTAGAAGAGATGAGCAAGATTGTCCGGGCTAAGTCTAAAGAGGAGCTGAAATTACTTACAAAATTCAAGAG AGAGAAATACGGTCAAAGTGATGAAGATATAAGGCCATGGAATGAAGCCTATTACACGACAATGTTGAAGTCCTCTGTAT ATAAATTGGATTCTTCGGTTGTAGCGTCATATTTTTCTTTGTCAAATTGTATTGAGGGGTTGAAGGTGTTGGTGCAATCA TTGTTTGGTGCAACCTTTCATAGCATCCCTCTGGCACCTGGTGAATCATGGGATCCTCAAGTGCTTAAACTGTGTCTTCA TCATCCTGAAGAGGGTGATTTAGGATATCTCTACCTCGATTTGTACTCAAGAAAGGGAAAGTATCCTGGCTGTGCTCATT TTGCAATTAAAGGTGGTCGCAGGATTTCTCAAACAGAATACCAACTTCCAATTGTAGCTCTTGTTTGTAATTTTTCGGGT TCACGGAATCCATCAGCTGTAAGGCTTAATTTCGGGGAAGTGGAAACTCTATTTCATGAGTTTGGGCATGCTCTTCATTC ACTGCTTTCAAGAACGGACTACCAACATTTTTCAGGCACCAGAGTGGTTCTTGATTTTGCAGAAATACCATCCAACCTCT TTGAATACTATGCATGGGATTATCGAGTTTTGAAAACATTTGCTAGACACTATTCAACAGGTGAAGAAATCCCTCAGAAG TTGGTTGAGTCGATGCAGGGTGCTAGAGATATGTTTTCTGCAACTAGTCTGCAACGTCAGATCTTCTATTCTCTAGTTGA TCAGACACTATTTGGAGAGCAACCATTCCCTCATGGTGATATTAGTTCTGTTGTTAGAGAACTGAAAAGAGAACATACCG ATTGGGAACATGTGGAAGGCACACACTGGGAGACTCGATTTAGTCATCTCCTTAATTATGGTGCAGGGTATTATAGCTAT TTGTATGCAAAATGTTTTGCTGCAACCATATGGAAGAAGTTATGTCAAGAGGACCCGTTGTCACCATCTGCAGGATTCGC TTTAAGATCAAATTTCTTACAACATGGAGGAGCCAAAGAACCAACGGTTTTGTTATATGATCTAGTAGGAGATGGGATAT ATAGGCATTATGATGGAGGGATAATCCCTGATATATCGAGTCTTTGTGATGAAATGAAACTGTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0329900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MRAMDEISNTVCCVVDSAELCRLTHPNREFVEEASKASMKINEYLHYLNTNHDLYDAVKKAEQECHMLSEEAKRGVRNLR IDFERAGIHLCPEKLDRVNMLNIEISQICREYNENIVMDPGTIDIYPSSRIPNNLRYLVKPIYRSKSSTAKDLSGSKDTF NEKGFRITTDPRTLDSMLQLSQDDEIRKMVYIQGSSVPRANVDVLDKLISSRHELAQILGCKSYAEFAVKPNMASSPKVV MSFLEEMSKIVRAKSKEELKLLTKFKREKYGQSDEDIRPWNEAYYTTMLKSSVYKLDSSVVASYFSLSNCIEGLKVLVQS LFGATFHSIPLAPGESWDPQVLKLCLHHPEEGDLGYLYLDLYSRKGKYPGCAHFAIKGGRRISQTEYQLPIVALVCNFSG SRNPSAVRLNFGEVETLFHEFGHALHSLLSRTDYQHFSGTRVVLDFAEIPSNLFEYYAWDYRVLKTFARHYSTGEEIPQK LVESMQGARDMFSATSLQRQIFYSLVDQTLFGEQPFPHGDISSVVRELKREHTDWEHVEGTHWETRFSHLLNYGAGYYSY LYAKCFAATIWKKLCQEDPLSPSAGFALRSNFLQHGGAKEPTVLLYDLVGDGIYRHYDGGIIPDISSLCDEMKL

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:1.10.1370.40 View details on G3DSA:1.10.1370.40 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1370.40	1	610	610	3.9E-150	–
SUPERFAMILY	SSF55486 View details on SSF55486 Search for proteins/transripts with this domain View external data on SSF55486	2	610	609	1.01E-131	–
PANTHER	PTHR11804 View details on PTHR11804 Search for proteins/transripts with this domain View external data on PTHR11804	2	633	632	2.6E-241	–
CDD	cd06457 View details on cd06457 Search for proteins/transripts with this domain View external data on cd06457	2	611	610	0.0	–
PANTHER	PTHR11804:SF5 View details on PTHR11804:SF5 Search for proteins/transripts with this domain View external data on PTHR11804:SF5	2	633	632	2.6E-241	IPR033851 Show description in modal box View details on IPR033851 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	51	71	21	-	–
Gene3D	G3DSA:1.10.1370.10 View details on G3DSA:1.10.1370.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1370.10	86	556	471	3.9E-150	IPR024077 Show description in modal box View details on IPR024077 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01432 View details on PF01432 Search for proteins/transripts with this domain View external data on PF01432	178	610	433	5.2E-112	IPR001567 Show description in modal box View details on IPR001567 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: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:0005759 View details of GO:0005759 AmiGO InterPro QuickGO	Cellular component	Mitochondrial matrix	The gel-like material, with considerable fine structure, that lies in the matrix space, or lumen, of a mitochondrion. It contains the enzymes of the tricarboxylic acid cycle and, in some organisms, the enzymes concerned with fatty acid oxidation.	Subterm of View details of GO:0044429 View details of GO:0070013
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:0006627 View details of GO:0006627 AmiGO InterPro QuickGO	Biological process	Protein processing involved in protein targeting to mitochondrion	The cleavage of peptide bonds in proteins, usually near the N terminus, contributing to the process of import into the mitochondrion. Several different peptidases mediate cleavage of proteins destined for different mitochondrial compartments.	Subterm of View details of GO:0034982 Part of View details of GO:0006626

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0329900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0329900.1