Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0082700
Transcript ID	LotjaGi6g1v0082700.3
Related isoforms 2	LotjaGi6g1v0082700.1 LotjaGi6g1v0082700.2
Lotus japonicus genome version	Gifu v1.2
Description	Proteasome subunit alpha type; TAIR: AT2G27020.2 20S proteasome alpha subunit G1; Swiss-Prot: sp\|O24362\|PSA3_SPIOL Proteasome subunit alpha type-3; TrEMBL-Plants: tr\|I3STC4\|I3STC4_LOTJA Proteasome subunit alpha type; Found in the gene: LotjaGi6g1v0082700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:16121050..16133715) extracted from Lotus japonicus Gifu genome v1.2.

ATGAGCAGCATTGGAACTGGTTACGATCTATCGGTCACTACTTTCTCTCCAGATGGACGCGTCTTCCAGATTGAGTACGC CGCTAAAGCCGTCGACAACAGCGGGTAACTTTTCAAATCCTTCGTTTTCTCGAATCTCGTTTTTTGATTCATAGTTTTGA AATAGAAACTGTTTTTGTTAAAATAATGATGGGGTTTCGTTGTTCTTGAGAAATTGTTTGATGGGGTTTTGAAAATTGAT CGGGTTTTGTGTTTTTTTTCTAGGGTTTAGATTTTTTTGTTGTTGCTGATGATCTTAGATTTGAAACATTGTTGCAGGAC TGTGATTGGGATCAAATGCAAAGATGGGATTGTGTTGGTAGGTTATTCTGAGATTTGTCGGCATCATGTTTTTTTTTTTT TTAATTTTTAATTTTAATTTTAATTTTTATGAGTTGGGTTTGGTTTTTTAGGGTGTGGAGAAGCTTATTCCGTCGAAAAT GATGCTACCGGGTTCCAATAGAAGAATACACTCTGTCCATCGCCACTCTGGGATGGTACTTTCTCATTCACATTTTATTA TTTTTGCATATCTTGTTACTTTTTCCCCTATTTTCTGTTTTGCTCTTTGTTTTGACTTTTGTAGTGACCACAAAGAGCTT TGCATAAAAGTGATGAAACTTACTTGCCTTTTTTTTACAAGTCTGACCACTAATTGCTAGTGCTGAAGTGGTGTGAAGAC TGTACATATTGATATTATTAGCTCTAGCACTGCATGATATGTTAGATCCGTAGCATTAATTTGAAGTGGGGTTTTCTTGT TATAATTATTGGGTGTATATACTGATGAGTTTTTTTGTATGTTTTTGTACCTTGGCTTGTCCTATCCAATGTGTTAAGCA TAACGAATCTTAGTTCTTAGATTAACAGTTGACATCACATACTATGCATGGGTGACCAAATTGGGAACATCAATTCAAGG GTGTTTTTTGTGTTCTGTAAATCGGAAGGGCATATTAAATCATTATGTAATGAGATAAATTATAGTTACTGAGAAATTAT TGTGGGCACCTGGTGCAAAACTCTAAAGTAGCCAGCATATTTTAATGGAGTGAAAGTACTGCATTGGCAATACTTTTCTG ATAATTAGTTTTAGTGCATCGTTTCATTTCTCACGTTCTGATCGCTTTCGTGCTTTGAACTCCTTTTGATGTATGCATGA ATCTTCAAATTTTAGGCTGTAGCAGGATTAGCAGCAGATGGCAGGCAAATTGTTGCTAGGGCTAAGGCTGAAGCAAATAA CTATGACAGGTTTGCTCTATTCCCTTGCAACATCTAAATGTTGACTCCCTGCCTCCTCTTTTTTTCAAATCTAAATGTTG ACTTCTTTTATGTTTTATTATATTTAGTCGTTTACTGGTTAAGTACTCTCTCCATCTTTTGGATTGGATGGACAAGGACT GCTGCAATAGAGGATAGAGGGACTACTATAAAGCCTGTAGTGTAAAATAGTGTAACCTTGTCTTCATTTTGAAGTCACGA AAGAGTTTAGTAGCTAGAAATTTTCACTAATTATTAGTTTGGCCGGACTAAGCGTAACTCTATGCATTGACTCAACCATG TTTTTACCTTTGAAGTCTACACTATATCGACACCCACAGTTCAGTTTGTCTGAAAATTCTGAAAAAATATCTAAAACTAT TTTCAATTTTACTGCACTACAACTCGCTAAACAAGAGTCGGTAACATATTTTTCTCCTAATAGATCACTTGTCACCCTGA AATAGTCTACTTTTCTTTGTAGCCTCAGTCCAAACGAAGAAAGTGTCAAATCATTTTAGGTTACAATAAGCCCATATTAA CTGAGTTAAGATTATGATCACTTCTTGAGTGTCTAGAGAAACCAATTACCTTTGGCCTAGCAAAGTTTAAGCTGGTATGA GATGAAAATCAGGATTCTCAATTTTGTGGCATCCTAGCATTCCCAAAACTGATGACTACTTGCTGCACTAGATGCTCACA GGACGCACTAAGTGATAACAATTTATCCATTGTTAGGCTTTTACTGATATAAATCGGATTATTAGTTGTTTTGGGGGGTG AAACAATTTACACCTCCAAATAGCTCATGATTCTCCAACATCTAAATTAATGCTGATGTGTGGCCTGACATTGGAAATTT AAAATGACGATCCTGCTAGAAGCCTTGCATATGCCCTTGTATTTTCAATTGGGTCACTGGTAAAGGATGTGAAAAATTGT TGAATCCTGAAACTGCTGGTTTTGATGAGCATGCTAACATTTTCTGTCTATTTAAAGTTACTAACGTGCAAATTGTAAAT TTGGCATTCTATTTAGTGTCGCATGAAGTATAAGAATCTCTTGATTAAGGTTTTATCAAATGTTTTTGCTCAATTTTTTA GAAGAAAAGATGTTTATTCTGGCATGTATTTCTTTTCAGCACGTACGGTGAACCTATTCCTGTTAAGGAACTTGCTGATC GTGTGGCTAGTTATGTGCACCTCTGTACGTTATATTGGTGGCTCAGGTTAAAGAGACTGACCTCTTGTAGTCATTTGAAG TTGTATTTCTTTATTTTTCATATTAATAACAGTTCTGTAATGTTGGTGCAGACCTTTTGGATGTGGTGTCATCCTAGGAG GTTATGACAGAGATGGACCACAGTTGTACATGGTCGAACCTTCCGGTGTTTCCTATGTAGGTCTTTTTTTTGTTATTTGA AAGCAACTTCTGAACTTCTGATTGTTTTCTGAGCTATTAATATTCTCATTTGGCAGTTCACTATTACTGATTTGTTTGTT TTGGTATGTTATAGAGGTATTTTGGTGCTGCAATTGGGAAGGGCAGACAGGCTGCTAAAACGTAAGTGAATGAATATACA TTAATTATAGTAATGATGTTCTATACTAAAACAATCCTTTCTATGGTCTCTTCTGTGGATGGTATTATCTTCTATTTGCA TCCTAGGCTTTCTCTAAATAATATTTATTTTCAATAAATAATTGTCTGGGCTAATTAACTACTATGAGTTGCTATTACAT GGGATCTCAGTTTGTGAATTTTGACAATTAGCTAATGAAGCTTATGCAAGATAGCTGTCGACGTTCCAAGGAAATGCTCT TTATTGTGTGTAGCTTGCTTGTGGGTAATTGTTGGACCAATTAATAATGTGTGATACTGATGACTGATAAGTGATAACAA TATCTTCTACTTGTTTTTATTATTTGTTATCTACTTCTAATTGCTTAAAGTGAATGAACCAAGGACTCACTATTCTGAAT TAGAATTCACTCCCTGCTCATTTAACCACATTCATGAATGCAAAATTTCTCCCATGCATTCTTTGATGTATTCCTTGTTC CATCTTCATCTGAAAGTTGTGGATTCACAACAAAATTCCAAATGCTTAAACCCAACCTCTGACCTAGTTATTGGGTTGCA TTGAAAGCCTGGTTTCCCTATGTGTAGCATCTGGGAGGAATGGAGTTCCAGTGGCACTGGAAGTATGATCATTGTCTTTA TGAAGTTTCATACTTTCATTATATTGTTGCATTTCAGTTGTTATGCTTGACCTGCATCAGTGTTTTGGAATATCGTGGGT GGTGCTGAATCTTTTTTCTGTCAACAATAAAGGTTGACTGATGTTGCTGCCTGTTAGGCGCTGAAACACAAGAGGTGAAT AATCTCACCAGAGACGTTCCCTAGAGTTAAGCTCTTCACTCAGAGATTCTCTCCGCCCACAATAGCAGGAGTCATTCACT CTAAAAAGTAGTAGTCAATCCCGGATCGCGGCGCGTAGCGGCCGACCCCAAAAGTGGGATAGTGGGATAGCGGATAGCGG GATGACCGCTATTTTGATTTTTCACATATATTATATAATTAATATTAATATATACATAAAATTACTAAAAGTGATAAATA TAACTTCAAATTCATAACATGATGAAATGATAGAGAAGAGAGGACTACTAGAGGAGGAGAATTGGAGAAGTATGTTTGAG AACAGAATAATAAATAAGAAGAAAAATAGAGGAATAGAAGATAAAAAACAGAGCAACTCAGAACAGAACAGAGGCCCAAG GGAAACAGGGGTGGTGGTCGCCGGAGCCTGGACGGTGCTTGTCAGATTGCGCCGTGGCTATTAGAGTAGAGTACACATTA CTCTGATTAAGAAGTTAGTTACTGTTAGTAGTATAGTTAATATTTGAGTTAGTTACATTCTGTTACAATGAGCTGTCAAT ACAGCTGTCATGTGAGCTGTCATTACAGCTGTCACATAACTGATTCTGTTAGAGTTGGTAGCTTGCTTAGCAAGCCTTGT ATTCTCTATAAATACTGAGATCACTCATTGTAATCTTTAGCTTTTCAATAATGAAATTCAGTTACATATCTTAGAGAGTT TAACATGGTATCAAGAGCGCTGAACGATCCTTGGGATCTTTCTCTCTGATTTTTCTCGCTTTTTCCTCTTCTTCTTCATC ATCGCCATGGCTGATGACGCTTCTGCACCTGCAACTGCAGCTGCAACTCCAGTTCCGCTTGCGGTTGCTCAACCGCAACT GAGTTCTACTTCTCTAGTTCACAAGCTTATCCTGAAGCTTGATGATTCTAACTTCCTTTCATGGAAGCAGCACGTTGAAG GCATCGTGCGCACGCACAGGTTGCAGAGCTTTCTTGCTCATCCAGAGATTCCACCTCGCTGGCTCAGTGAGGATGATCGC GTGAATGCAGTGGAAAATCCTGCATATCAGATCTGGGAACAACAAGATTCTGCACTGTTTACATGGCTTCTCTCGTCTCT TTCTCCATCAGTGCTTCCAACCGTGGTCAACTGCACTCAGTCTTGGCAGATTTGGGAAGCAGTGCTCGACTTCTTCCAAG CACAATCGCTTGCTCAATCCACGCAACTACGTTCCGAGTTGCGATCGATAACCAAGGGCTCGAAGACTTCATCGGAGTTT CTCAAGAGAATCAAGTCCATTGTGAACGCGCTTGTCTCCATCGGAGATCCAGTTACCTATCGCGAGCACCTTGAGGCTAT TTTCGACGGTCTTCCTGAGGATTACAGTCATCTCTTGACTGTAATCTACAATCGCGATGATCGCTGCTCGATCTCGCATG TTGAATCCATGGTTATCGCGCATGAAGCGCGCCTTGAGCGTTCTCGCACTCGTCAGATGAGTGCAAATCCTCCGTCAGCG CTTCTCGCTCAGGCTGCGCCACCGCCAACGCCTCCAGCACCGCCATCGCCAGCGCCGACACCATCGTCGACTGTCTCTAC ACAGTCGACTGCATCCTCAGAAGTTAACTATGCTTCTAGTGCTGTCAACAACTCTTACGATGATCGTTCTTATGATAATC GTGGTGGATATGATTATTCTCGTTCTCGCGGTGGTTATGGTGGTAGATCTGGTGGTCGTAACTCTCGTGGTGGAAGAAAC GGTAATCGTAGTGGTGTTCAATGCCAGATCTGTTACAAGTATGGACATGATGCTAGCATCTGTTATCATCGTGGTTCATC AGGATCCAGTGGTTCGTTCGGTATGCAATCTTCTGGTTATGGCTTGCCTATGCCTATGCATCCACAAATGCTCCCACACT TTGGATTCTCACCTTTCTATGGTGTTCCACAATTTGGAAATCCTACTCAGTTTGGTAATTCTCAGTTTGGACATCTTCCT GGCATGATGTTAGGCCAGTATCCTCAGAATTCAGGCATGAACATGAGCAACTTTGCTCAGTCCTTTGGTCATTCCCCTTA TGGTGGTGCACAGTGGCATCCTACACCTGCGCAATTTCCTGGTGGCAATCCTAGGCCTGCAAATCCTCCAGCCAGAGCTC CACAGGCTATGCTTACTGGTCCTACTACTTCTCCTGCTGCAGCAAATCTCAGCTCCTGGTTTCCTGACTCTGGAGCAACA CATCATGTTACCAATGATGCATCTGTGATTTCTGATAGTGTCTCTCTCACTGGTACTGATCACATTCTAATGGGGAATGG ACAAGGTTTGCCAATCCACTCTATTGGTTCAGCTTCTTTTCCTTCTCCTTATCACAAAAATACTACACTCACTCTTAGTG ATCTTCTTTTAGTTCCTAATATCACAAAGAATCTAGTCAGTGTTAGTAAATTTGCAAAGGATAATAATGTCTATTTTGAG TTTCAGTCATCCTATTGTGTTGTGAAATCTCAGGAAACTTCTAGAGTTCTACTCAAGGGTACTGTTGGTCCAGATGGTCT ATACATCTTTGAGGGGATGCATACTCCAACTTTTCCTCCAGCCAGTTCTGTTAAAGCTTCCTCAGTTCCAATTCCAGTTG CTGTTTCCTCTGTTAATACTGCTTCTTTACCTATTTCTAATGTACCTAGTCCTACCTCTGATGTAACTACTACTTCTTAT GCCTTGTGGCACAATAGGCTAGGTCATCCTCATCATGAGGCTTTGCATTCTGCTTTAACTGTTTGTAAGATACCAGTACC TAATAAAGCAAAGTTTTCAGTATGTTCAGCTTGTTGTTTGGCAAAGTCTCACAAATTACCTTCTTCTTCCTCTCATACTG TTTATACTGCACCTCTAGAACTTGTCTTTGCTGATCTATGGGGTCCTGCCTCTACTGTTTCTTCATGTGGATATTCTTAT TTTTTGACTTGTGTAGATGCTTATTCTAGGTTCACTTGGATTTTTCCCCTAAGACAAAAATCTGAAACCTATTCTGTTTT TCTTCAGTTTCAAGCCATGGTTGAATTAAAGTTTAGCTTGAAACTGAAATCTGTCCAAACAGATAATGGTACTGAGTTCA AACCTCTTACCCCTCATTTTACCAAACTTGGCATTGTCCATAGGCTCACTTGCCCCTACACACACCATCAAAATGGTAGT GTTGAAAGGAAGCATAGACATATCATCGAAACTGGTTTATCTTTGCTGGCTTATGCTAACATGCCATCCCAATACTGGGA TCATGCTTTCTTGGCTGCTGTTTTTCTAATTAATAGGCTTCCTACTGTGGTTTTGGGCAATGAGAGTCCTTATTCTAAGT TGTTTAAGACTCTCCCTGATTATAAGATTCTCAAAGTGTTTGGCTGTGCCTGCTACCCTCATTTAAGACCTTACACTCAC AACAAGCTCTCCTTGAGGTCTAAGGAATGTGTGTTTATTGGATATTCTTCCTCTCATCAAGGGTACAAATGCATGGACAG TGATGGCAGAATTTTTATCTCTCGAGATGTGATTTTTGATGAAGTAAAGTTTCCTTATCCTGCCATGTTTACCTCCACTG ACTCTGACCTCCCAGATAGTAGCATTCTTTCAACAATACCTATTGTTCCAGTTCCAGTTGCTGCTCAGCCTACAACCTCC AATTCAGACTCTGATTTGTCTTCAGGACCTGTCTCTCTGGCTCAGGTTTCTGCACAAGAGCAAGTCCAAGCTTCTCCTGC AGCCTCAGGCACAACTTCAGCTCCCTCTTCTCCTGTTGCGCCTTCACCTCCAGTGGGCAATATTCATCCTATGCAGACAA GAGCAAAATCTGGCATAATCATGCCCAGATTGCATCCAACCTTGCTCCTCACTCAGGCAGAACCTACTACAGCCAAGCAA GCACTCAAAGACCCTAAGTGGTTGGCAGCCATGAAGGCTGAGTATAATGCATTACTAGCTAATGATACCTGGACATTGGT TCCTCTACCCAAAGATCGGACACCAATAGGATGCAAATGGGTGTTTAGAGTGAAGGAGAATGCAGATGGTTCTATCAGTA GATATAAAGCAAGGCTTGTAGCCAAAGGTTATCATCAAGTGAAGGGTTTTGATTATTCTGAGACATTTTCCCCTGTGGTC AAACCTGTTACTATTAGGCTCATTCTTTCTCTTGCAATCACTAAACAGTGGCATATTCATCAGCTTGATGTCAATAATGC CTTTCTCAATGGTGCACTTCAGGAGGAGGTGTACATGACACAACCTTCTGGATTTCAGAATGAGGATAAGACTCTTGTTT GCAAGTTGAACAAAGCTCTCTATGGCCTCAAACAGGCCCCTAGAGCTTGGTTTGAAAGGTTAAAGTCAGCTCTTGTGAAG TATGGCTTCAAACCTAGTAGATGTGACCCATCTTTGTTCACTTTCCACAATGCAACTTGCTGCATTTACATCCTAGTCTA TGTAGATGATATCATCATTACAGGCAACTCTTTGCCTCTTGTGCAGAAAGTGGTTGAGAATCTCAATTCTGAGTTCTCTT TGAAGCAGCTAGGACTGCTAGATTATTTCCTTGGTGTTCAGGTGCATCATCTTCAGGACAGGTCATTATTGTTGACCCAG ACAAAGTACATTACTGATCTCCTTGAAAGAGCAGATATGGGAGAAGCAAAGGGCATTTCTACTCCTATGGTTGGTGGTGC CAAATTGAGCAAATATGGAGCAGATTACTTTGCTGATCCTACCCTTTACAGATCCATTGTAGGAGCACTTCAATATGCCA CCTTAACCAGACCTGAGATAAGCTTTGCTGTGAACAAAGTTTGTCAATTTCTAAGTCAGCCATTGGAAGATCATTGGAAG GCTGTTAAGAGAATATTAAGGTATCTTAAGGGTACTCTTCATCATGGGCTGCATCTTAAGCCTTGTTCTCTTCATTCTCC TGTTTCTCTAGTGGCCTTTTGTGATGCTGATTGGGCATCAGATCCTGATGACAGAAGGTCAACATCAGGATCATGTGTTT TCTTTGGCCCTAATCTTGTGTCTTGGAGCTCCAAGAAGCAGACCTTAGTGGCTCGTTCCAGTACTGAAGCAGAATACAGA AGCCTAGCCAATACCTCTGCTGAGCTGCTATGGGTTCAGTCACTTTTGCAGGGGTGCAGTGGCTTTGACCCATAATCCAG TTCTACACACCCGCACTAAACACATGGAGCTTGACATCTTTGTGAGGGAAAAAGTTCTCAACAAGTCTCTTTTTGTGCAT CACATTCCTTCAGTTGATCAACTGGCAGATCTCTTTACAAAGGCTCTTTCACCTCTTCGTTTTGAAACTCTTCGTGACAA ACTCAATGTGATTGAGAAATCCATTTCTCACCCACCTTGAGTTTGAGGGGGCCTATTAGAGTAGAGTACACATTACTCTG ATTAAGAAGTTAGTTACTGTTAGTAGTATAGTTAATATTTGAGTTAGTTACATTCTGTTAGAATGAGCTGTCAATACAGC TGTCATGTGAGCTGTCATTACAGCTGTCACATAACTGATTCTGTTAGAGTTGGTAGCTTGCTTAGCAAGCCTTGTATTCT CTATAAATACTGAGATCACTCATTGTAATCTTTAGCTTTTCAATAATGAAATTCAGTTACATATCTTAGAGAGTTTAACA GTGGCCATGGGTTCTGGACTTCTGGTCGAAGGTGGGTGAGCAGCCTGAGGTGAAGGAAATCGCACTGGAGATCGCAGAAG AAGAAGAGTGAAACGCGTAGAAGAAGAAGAGTGAAACGCGCGTTTCACTTATGAAGAGGGAAATCCCAAAAGTACCCTCA AATTTTAACCTAATTTTATAATTTTAAGGGCAATTTGGGGTTTTTACTTGGATCCGACCCATCTTAACCTGGAGCACTGC GATGGAACGCGATTTGACCCGCGATCCCACCCGCGACGGCCACGATTTGGTCGCGAATAGCGCCGCAACTCCGTTCCGCG ACGCGATCAGATCTGAATCGCGGGGAACCGCTGCGACGCGATGGCGCGATAGCGCCGCTATTCCGCGCGATTGATAACTA TGCTAAAAACTACCCAGATGCCCCCATGCCCCAACTACATGATATACTTGCATAATATATCCGATTCACACATCTCACAC CCAGTGGGCCCTACCCACATAACCAACTCCCCACTTTCTGCGCCTGATTTGAAGACTCATGTCACCCACTTCGGGCCTTC TCTTGTAAACCTTTCATATCTTGGGCCCCATATTACTGTTAATGAATTGCTTAAAGACTTCGGTCCCTGACATCATCCCT GTCTTCCACTACTACCTTATTCTCAAGCCTGAATGTGAGGAAACTGGCCTTAATAAGAAGAGCATCCTTCCATGTAGCTT CATCTGCAGATTGATTTTTCCACTGCACTAATCATTGTTTGATAGAAGTACTACACCAAAGATGAATTGAATACCATATT TCTGACACAAAAATACACACTACACAGCCGTACACTTGCTGACACAGATACTGATGTCTCCTACAAAGAGTTCTCTGTCT GCAGTATTGAATAACTACAACCCATACATAAGTACATACTCTACTATGACATATATACACCTAATTAATAACTATAGTAG TTATTTTCTATTTTTATAATGATAACTGTCATCAAGCAGTTCTGTCACTAATTATTTTCTAATTGTACCTGCCATCAGCC AGTTATCCCTGCTGTTGGGCTTGCCTGGTTTGTAGAGCCTCTGGGATCCCATCACTTCCTCCGCCTAAAAGAGTAACCTT CTCCCAAAGGCTTCAAGTAGTAAATTGGCTCTTTTAGATTAGCTACTCTTGGTTATACTTGCCCATAATCATTTTTAATT CTAGGCAAAAGCCTCTATCAAGTTGAAGTCCAATCTTTCTATCCTTTCCTCTATGTACGTCAACCTTTCACCCAGACTAG ATAAAACTTTGTTCTCAACTCTGCCTAACATTCCTGCAAGTTTGTCCTCCAATAGATCCATTATGTCAAACATCCAAGTC ATGGTTGATTGATGAATTTGCTGGCCTCTGGACTCTCCTCTGTTCGATCAAGCAGGCTGGACCAAAATGATAGAAAACCA AAGATAAACGAATTTATTCTACTACTGACATGAAACGTGCCACACTATATAGAAAAGCACTTGCTGTCCCAGAGACCAAA GTCTCCTTCAGAGAGTACTCTCTGTTCAAATACAGTATAACATCCCATACATAATTACACACCCTACTATTGCATATACT CCTAATAAATTACCGTCATCAGCTATTTTATAATCATAACTGCCATTAAGCAGTTGTGCGCGGTTGTGCCACTAATTATT TCGTAATTTTAACTGCCATCAAGCGATTACCCTGACTTTTGGCTTGGCTGGTTTGTAAACCCACGGATCATCCACTGTGA TCCCATCATTGTTTCGCTGGTTTTTCTATTGGATGGTGATTCATGAGGCTAAGGTTGCTGCTAGAACATGAAGAATAGAG CCATTAAAATGCATATCAGTAGGCAAAGTAGGGCTGACCTGATGGTGACCCATGACTTTCTTCAATTGTGAAACATGAAA AAAGGGAAGCTAGAATAGCGTTATGTTATGTTGCAATATTTTTGTTCCTGTAGATATTATTAGATAATGTACTTTTTTCT TAAGTACTTGCTTCCTCGTGAGGTAGATTGGATGGAGGATAAACCAATAGTTAGAGGTAGATGGAGACCAAAGAAAACTA AAGCTCAAACAACTAAGAACTTAGCTTTAAATAGTTATATGATTTATGATTGGATATGATGGTGGTGTTTAAATTTGATC CATGCGGTCGACTGACCCCATTTGGTGAATAGTGGCTTTTATTGTTGTTGCTGTAATGATTTGTTTTCTGCTGGGTTTCC TTAGTTGCCTAGATGAAGCTTTTCATATTATAACCTTAAAAATATTTCAAGAAGTTTAATCCTGTCATGTGGTTCAAATG TGATTTTGACATATCAAACTTTTGTCCAATATGATACTGAATTCTGTTGTTAATTTCTTGGCAGAGAGATTGAAAAGTTA AAGCTTGCTGATATGACTTGCCGACAAGGAGTTATTGAAGTAGCTAAGATGTAAGTAGCATGCTTTTTGGCTATTATACG TTGTAGTCACTTTGCTATTATATGCTTAATTTGTGGCTTTCCCATTTTGAATTTGGAGGCATTGCTGTCGCTTTTATGCA GTGCCTGTTACAAAATTTATTTGTCATCAATGTTAACAATGATGGCTGCTTTTTTTAAACCATCTAAGTATGGGTAATAT AGGGTGAAAAAGCCCCTCACTAATTTTCTTTGGAACTTTCTACATCAATTCAAGGTAAAATTATACTAAGGTATTAGGTA TATGAGAAGGCATAGGAACTTCAAGGTTTTGTTGTGTGCTGTCTGTCCATACTAGGATTTCATAATTGTGAAGTAAGTCG GGATGATTTTTCATCCAACAAAAATAAAATCACAAGTTTTTTTGTGACAGCTAGCTGGTATGGTTGTATGGATAATTTAT CTTCAACAGTTACTTTAGTACTGTACCAAAGGGCATTGGGCATAGAGATTGAGTTTCATTTTGTATTACAATTTGAGCTG ATTTATACAAGAAATTCCCTTTTTTCTTTGCAATTTTAATAAGTATTTTATTTGTATTGGGTCTTTTTATTTCAAAAAGG GGAAATCTTTTCCAAGGCATGCCACTCCTTATCTAAGTTAGTTGATCAATGGTAACTGTTACTTCGACATATTTATTTTT TGCATTTGTTTTTATTGAGCAGTATCTATGGAGTTCATGATGAGGCCAAGGATAAAGACTTCGAACTAGAAATGAGCTGG GTGTGCGATGAATCTAAGCGTCAACATGAAAAGGTGGGCGTGCTTTCAATTACTTTTATATGACGAGTTTTCTCTCAGTT TCTCTATGATAACGATGACTGTGTGA

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0082700.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGCAGCATTGGAACTGGTTACGATCTATCGGTCACTACTTTCTCTCCAGATGGACGCGTCTTCCAGATTGAGTACGC CGCTAAAGCCGTCGACAACAGCGGGACTGTGATTGGGATCAAATGCAAAGATGGGATTGTGTTGGGTGTGGAGAAGCTTA TTCCGTCGAAAATGATGCTACCGGGTTCCAATAGAAGAATACACTCTGTCCATCGCCACTCTGGGATGGCTGTAGCAGGA TTAGCAGCAGATGGCAGGCAAATTGTTGCTAGGGCTAAGGCTGAAGCAAATAACTATGACAGCACGTACGGTGAACCTAT TCCTGTTAAGGAACTTGCTGATCGTGTGGCTAGTTATGTGCACCTCTGTACGTTATATTGGTGGCTCAGACCTTTTGGAT GTGGTGTCATCCTAGGAGGTTATGACAGAGATGGACCACAGTTGTACATGGTCGAACCTTCCGGTGTTTCCTATAGGTAT TTTGGTGCTGCAATTGGGAAGGGCAGACAGGCTGCTAAAACAGAGATTGAAAAGTTAAAGCTTGCTGATATGACTTGCCG ACAAGGAGTTATTGAAGTAGCTAAGATTATCTATGGAGTTCATGATGAGGCCAAGGATAAAGACTTCGAACTAGAAATGA GCTGGGTGTGCGATGAATCTAAGCGTCAACATGAAAAGGTGGGCGTGCTTTCAATTACTTTTATATGA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0082700.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSSIGTGYDLSVTTFSPDGRVFQIEYAAKAVDNSGTVIGIKCKDGIVLGVEKLIPSKMMLPGSNRRIHSVHRHSGMAVAG LAADGRQIVARAKAEANNYDSTYGEPIPVKELADRVASYVHLCTLYWWLRPFGCGVILGGYDRDGPQLYMVEPSGVSYRY FGAAIGKGRQAAKTEIEKLKLADMTCRQGVIEVAKIIYGVHDEAKDKDFELEMSWVCDESKRQHEKVGVLSITFI

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	PTHR11599:SF134 View details on PTHR11599:SF134 Search for proteins/transripts with this domain View external data on PTHR11599:SF134	1	227	227	2.3E-147	IPR035150 Show description in modal box View details on IPR035150 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11599 View details on PTHR11599 Search for proteins/transripts with this domain View external data on PTHR11599	1	227	227	2.3E-147	–
Gene3D	G3DSA:3.60.20.10 View details on G3DSA:3.60.20.10 Search for proteins/transripts with this domain View external data on G3DSA:3.60.20.10	1	232	232	1.7E-82	IPR029055 Show description in modal box View details on IPR029055 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd03751 View details on cd03751 Search for proteins/transripts with this domain View external data on cd03751	5	216	212	5.39101E-151	–
SUPERFAMILY	SSF56235 View details on SSF56235 Search for proteins/transripts with this domain View external data on SSF56235	6	223	218	1.3E-72	IPR029055 Show description in modal box View details on IPR029055 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF10584 View details on PF10584 Search for proteins/transripts with this domain View external data on PF10584	8	30	23	1.3E-13	IPR000426 Show description in modal box View details on IPR000426 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00948 View details on SM00948 Search for proteins/transripts with this domain View external data on SM00948	8	30	23	5.5E-10	IPR000426 Show description in modal box View details on IPR000426 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00388 View details on PS00388 Search for proteins/transripts with this domain View external data on PS00388	8	30	23	-	IPR000426 Show description in modal box View details on IPR000426 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51475 View details on PS51475 Search for proteins/transripts with this domain View external data on PS51475	23	235	213	73.881	IPR023332 Show description in modal box View details on IPR023332 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00227 View details on PF00227 Search for proteins/transripts with this domain View external data on PF00227	32	216	185	4.1E-52	IPR001353 Show description in modal box View details on IPR001353 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:0004175 View details of GO:0004175 AmiGO InterPro QuickGO	Molecular function	Endopeptidase activity	Catalysis of the hydrolysis of internal, alpha-peptide bonds in a polypeptide chain.	Subterm of View details of GO:0070011
GO:0004298 View details of GO:0004298 AmiGO InterPro QuickGO	Molecular function	Threonine-type endopeptidase activity	Catalysis of the hydrolysis of internal peptide bonds in a polypeptide chain by a mechanism in which the hydroxyl group of a threonine residue at the active center acts as a nucleophile.	Subterm of View details of GO:0004175 View details of GO:0070003
GO:0005839 View details of GO:0005839 AmiGO InterPro QuickGO	Cellular component	Proteasome core complex	A multisubunit barrel shaped endoprotease complex, which is the core of the proteasome complex.	Subterm of View details of GO:0032991 View details of GO:0044424 Part of View details of GO:0000502
GO:0006511 View details of GO:0006511 AmiGO InterPro QuickGO	Biological process	Ubiquitin-dependent protein catabolic process	The chemical reactions and pathways resulting in the breakdown of a protein or peptide by hydrolysis of its peptide bonds, initiated by the covalent attachment of a ubiquitin group, or multiple ubiquitin groups, to the protein.	Subterm of View details of GO:0019941
GO:0019773 View details of GO:0019773 AmiGO InterPro QuickGO	Cellular component	Proteasome core complex, alpha-subunit complex	The proteasome core subcomplex that constitutes the two outer rings of the proteasome core complex. An example of this component is found in Mus musculus.	Subterm of View details of GO:0032991 View details of GO:0044424 Part of View details of GO:0005839
GO:0051603 View details of GO:0051603 AmiGO InterPro QuickGO	Biological process	Proteolysis involved in cellular protein catabolic process	The hydrolysis of a peptide bond or bonds within a protein as part of the chemical reactions and pathways resulting in the breakdown of a protein by individual cells.	Subterm of View details of GO:0006508 Part of View details of GO:0044257

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0082700.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0082700.3