Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi3g1v0220500 |
Transcript ID | LotjaGi3g1v0220500.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Peptidylprolyl isomerase; TAIR: AT3G54010.1 FKBP-type peptidyl-prolyl cis-trans isomerase family protein; Swiss-Prot: sp|Q7DMA9|PAS1_ARATH Peptidyl-prolyl cis-trans isomerase PASTICCINO1; TrEMBL-Plants: tr|I1JLY3|I1JLY3_SOYBN Peptidylprolyl isomerase; Found in the gene: LotjaGi3g1v0220500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:33218592..33231678) extracted from Lotus japonicus Gifu genome v1.2.
TTCTTCGATTTTCCCACAGGCGTCTGCGTTCTGAAAAACGATCACTGAAGAACAAGAAGAGTCAACGGCCGGTTCCTCTT CAAATCAGGTGAACAACAAATTTAGTACCTAATTCAGCATTCTAGAAATTTCCCAAATGTTTTGTTTGGTCACCAATTTG CCAACAAACTCAACTATAAACCAAGTAGCACCCACCTGAACAACTCTGAGTAACAACAAATCATTCTAAATTTATAAATG GAAATTGAATCTATTGATTGTAGTTTGTAATTGTGGGCAGGAAGTTCAGTGATTTGGCATATTGTGTGTGGCTATGGCTG CTGTAAATGAAGTTGCTGAGCAGGATTATGCACCCCCAAAGAAGAAGCCACCATCTGAGGATGACAAGAGGTAGATTCTT TTGTTCCTAATTTGGTTATGGTGGTTTATTTTTGGTTGTTGTGGATGGAGATTGTGTTCTAAACTATTGTTCCTGTGTGA AATTAAAGGAAGGAGAAAATTGTGCCTGGGAGTTTGATGAAAGCTTTGATGAGGCCTGGTGGGGGTGATTCTGGACCTTC AGATGGTGACCAGGTTATTTCTGATTTTCCTGACTGGTGTGGATTTGCATTTTTCTATTAGATATGGGCTAGGTGGATAT GTTTTGGTAAGATAGGTTGTAATGCGTTCTATACTGGGCTTATGTTTATTAAGATTATGTCGTGTGTCTCAGGTTATCTA TCATTGTACAATTCGAACATTAGATGGAGTAATCATGGAATCTACCAGATCTGATCATGGAGGTGAGGTGCTTTAACTGC TTGGGTACCTGTTTGGTGTCCTTTGAGTTTTGATTCCCAGGATGAGAGTTGACAGGATTAACCACTTATCGGCAGCCTGC TGTCTACTTCCTAGGGTGTGTTTATGTTATGATTCTAAATATCTAGTTTACTTTAGGAGTTGATCTTGTATTTTGGTTAG GTTATCTTTTAGATTTAGAGTATCTTTTATATTAGGAGGTTATCTTTTTTCTTTGTTAGTTTATCTTTATTTCTTAGGGG TTATGTTTATCATTGTTAGGATTAGTTTATTATAAATAGGAGTCTCTCATTAGGTTAGAGGTAAGTTTTGATTATTGAGT TGTGAAAGGTTTTTACATTTAGAAAGGGGTTTTCCCTTGTGAAAGAAGGATTTCTTTCTCGTGCCTTTTATTTTCCTATT TTTAATATATATCATTTTCTCATTCAGAAAATACCAAAAAAGTGAATTTATTTGGAAAATCCTAAGAGTTTGTTGCTAGG ATTGTAAAATTATCCATGGGAAAGTGAACTTGGAATACAACATTGTTATGCTTGCAGCAAGTTCTGATAAAGTAATTGCT AGGCATTATTAATTCTTAGAAAGGAACATGCCTATGTTTTGCTTGCTTTTTTATTCCCATGATGACGGCTGAGTAGTGTT GAGAAATATCCGCCATGGTGCTGCCATGGCCGAATCTCTAGCAAGTCCGCCATGCGCCATTAATATTTGTCAAATATGGC CTGCTTTTGGCTTTCCGCCATAATCCGCCATTAACAATACTCTTGCTTTCCCTTAGGAATGGATGTTGTTTTGAAATCCT CGCAATCATTATTTCCTTCTACCACTTTTGAGTATTATTATCATTAGAACTGAATAAATTTAAAAAATGTTTCTAAGAAT ATTAAATGCTAACTACAGATTTTTGTGAATTTACTCTGGAATAACATTCCTGGTTATATTGTTTGTGGGAAAATCACCAT TAGAAATATAAGTATATCCTTGAAAAAAATACCCCGTAGTGATTACAAAACTACTTGGGTTCATTTTCTTTCAGAGTTTG AGACTTACCAATTTTGTAGTGAACAAACCCTGCTGTAGGAAATGTTGGAAGTAGGAACTTCAGCTTTAGTAATTAGGCTT TAAGTAAAATAGTATTGATGCCAAATTATTGTCTTTGTTTAAGACATAATTGTTGGGTTAGCTAACCTTTTATGTCATTT CAACAGGCAAGGGTACTCCGATTAGACAGGTTTTGGGCAAAAGCAAGATGCTATTGGGCTTGCTAGAAGGAATTCCATCA ATGTTAAAGGGTGAAGTGGCAATGGTAACAGACTATTACTAATTACTTATTTTTGTTGTCAATATGTTGGTGACTAAAGC TCAAGCCACCTTGTCTCATGCTTAGTCCATATTATATCAGTGCTTGTTATTGTATATCATTTTGTTATGATTTTGGACTG AGGACCATAATTTTTTGCATACTGCAATACAGGGAAAATAATAAATTTTTTCGTTCGTAGATTTAACATAACATTGCATT TAATGTGCTGAACTAACAATGAAACTGTTATTTTGTCATCACCTTCATCATCATCTATTACTTCTACCACTAAACAGGAG GAAAATTGACTGCTATCTGATACTTCTACGTTGGTGAAATATTTTTTTTATTATCTTCTGTTAGACACACTCAATTAGTG AGAGTGGGTTAATTAGTGGGGGGTTTAGTGAGCGAGGCATGTTGCCTATAAATAGAGTTTGGGGTGAGAATTGGTATCTT TTGGATCATTCGGGGTTTGGGGCTTAGGGAGAGTGGCTGAGTCTCTCAAGTTACTCAGCAACCATATCCAGTTCCTATCA CCTTCATTTATTTTTTTGTTTATTTTTTTTCCCCAATTCACGTTTTCATAATAAAATGCGACCTTATTTTTATTTCTCCT CTTCGTTTTACAACATTTTATTGGAAATAGTGAGAACACCAATCTTTCTTGTACCAATATTTGAAGTCAGGAAACAAAAT ATAACAATATGACATTTTATTTTATCATTATGTTATGAACCCCAGCGGAGGATCTGTTCATGGGTCTAGATGCAAGAGTA TTCTTCTTGCAACCCAGACTGAATAAAGAAGAAGCGGCTCGTCCTTGACAGAGCATCTTCAAACTTTATGGTTCCTTTAG AAAATACTTGCTTGATTTTATTCAATACTGAAATACCCTATTTATAATAAGGGCTGAGTACAAGAGAAGTAATCTAAATT AACCTATTTCTAATAAAATAAGAAACAACCAAATCTTATCTAATAAAGGAAAACAATATAATCCTAACTAATTAAGATAT AATAATTCCTAACTAATAAAGATATAAAATAAAATGGAAATATCCTAAATTAACCTAATGTATCAAATATGCCCTAAAAT CAGCAACCGTATCACATTAGTGAAAACAAGAAATGGAAACAAAAAGAATTATCTTAAACCAAATAGGTCCTTAGTTTTTT TTTCATTGCTTTATTTTTCGACCACTTCTGTCTATGGCTCTTCTTATGTATTTGATGGATCATCTTTGAATTTATTTCTT AAGCATATTAATAATGAGTGGTCAACACTCATGTGCGAATAATGAAAGTCAGATACTTATATATGGTGGGATCTGCCACT GTTTTCTTTTGAGGTACTAGTTAGATACTAATATATGAGGACAATTTTAAGCTGTTTTCTTCTTCATGTCCCCTCTCTAT TCTTCTCTTTCTATTAAGTGGGTATCTTATCCTTTGTTTTGTGATTTTAAATCTTTTCAATTTGTTTTTATTTTCACTGC AAAAGAAATTTCTGACTATACTGAATTATTTTTCTATTTGCTTGATTGTATTATTTATTGATTGATTTATTCATGCAGTT CAAGATGAAGCCTCAGTTGCATTATGGTGAGGATGATTGTCCTATTTCTGCTCCTGATGGTTTTCCTAAGGAGGATGAAC TTCATTTTGAAATTGAGCTGATAGAATTTTTCAAAGCCAAGGCAAGGATGTGAGCTTTGAGTTCTGTTTTTATTCTTTTT GTTTATGTTCTCTATCTTTCTTATCCTGACGAATTTTGGTTTTCAATCTACTCTTGGCACTTATAGCTTCACATTATTGA TTGTGGTTCTTTTAACTGATTAAAAAGATATCCTTCTCATGGACCAAAAAATAACCTTTAGATTTGGTTATCTTTTTCAA CACTTTTTTTTTTTGAAACTATCTTTTTCAACACTATTTTGTTTTGATTATTAGTGTTTGTTCATCTTATTTTAATCTTC ATTAATATTGTTGCTGTGTTCCCCAGTTCTGCTGTGCTGGTTTTCTAGATTTATATGAATATTTTTCTCTTTGAGCTAGC TATTACTTGTGCCTGACCTCTGTGATCTAACACTCATTTCTTGCTTTTGTGTGTATTTGCAGGTTGTTACTGATGATTTG GGAGTTGTGAAAAAGGTATAAATGTCCAAAATGTATTGCTGCATATTTAGTAAATTAATTTTGCACAAGTTCTTATCATT TTGGATGGCTCTACTGGGAAATATGAATGTCAAACCAAAAGATGAAACAGAGTTGTATTTTGTTTGATACTGTTTGATCC TCCATCACCTCACGATATGACCAAAGTAGTACTTATAAAGGCTTGTGCAATCCTTACCTCCTGAGCTAGCTTTTGCGGTT GAGTTAGGGCCAACCCAAATTCAAGATGGTATCAATGTCTATCCCATAACTGATATTTGATGACCCCCAACTCAACCTAG CCCTGCAGTATTCCCCGTTGCAGAACCTGGGACCGCGATCCGCCCCCCTCAAAAAAAACAACCATACTGTCCTGTCACTC TAGATATGACCAAAGTAGTGCTTGTGCAGGCTTGAACAATCCTCGCCTCATGAGGTATTGAGTTACACCCAGCCCAAATT TAGAAGAGAATTATTCAATACATCTCAAACATGGAAAATTAGAAATGGCTCCCTTTTATGGAGTGCCTATGCTTCATATT GTGATTTTTAAGTTGCAGTTACATAAATTTCTGGCCAATTTGGTTGTAATTGGGGTTAAGAATTAAGATATGATTGCAGA TGCCTCCTCAACAATATTGCCTCTGCACTCATGGTTGTGACCACAATTGCTTCTTCATGGAGGAATCTTTGAGTGCATAT TCCTTATAATATCTTGTGAAAGAAATCTTTATAAACCTTCGTATTTCACATCACCACAGAGTGCATGATTTGAAGCTTAA GTATTCATATGGAATCTTTGAGAAACTTGTAATTGTTTCATAACTTGTTTGTAAAGTTTAGGAAAATTTATGTCACTTTT ATATGTTTTTATTTTTGTTATTTTTTCATTTGTATATCTTGGATTCGATAACTCAACTGGATCTGTAAAGACATCCCCTT TAGTGGAAAGTTTTATTACATTATGATTCGTCAGTTAATTCTCATGAGTACAGGTAGTATGTGAAGGGCAGGGTTGGGAA TCTCCAAGAGAACCTTATGAAGTGAAAGCCTGGTATAAAAAATCCTTATTAACTTATTTCTTGTCAGGCTGTAAACTGGT CTTGATGGAAGTCTCTGATGATATTTTGTTTGGATATTCTAGGATTTCAGCAAAGACAGTTTCTGGGAAATTGATCATGT CACATACAGAAGGAGAACCATACTTCTTTACATTTGGAAAATCAGAGGTAGTTAAATAACTTCAGACCAATTTTTCCTTG GAATAACTTGCACTGATAATTAGTTTGTCTTTCCTAGTATGCCAAATATTTCAGCCATGATCTGATATGGTTGTGCCCAT AGTTTTATTTCCTGATGCCAGTAAGCCTTGAAGCTTCTCTATAATAAATTAAAATGATAAGAGCATGTATTATTTCGTAG GAATTGTTGTTTGTTATTGATATCGATTTCTGCTCTTTGCATTTGGTGATTACCCTGCTAATACTCCCAGGTACCTAAAG GTCTTGAAATGGGGATTGGAACGATGGTCCGGGAAGAAAAGGCTGTTATATATGTTACCAGTCAGTATTTAACTGAATCT CCTTTGATGCCTTTAGTAGAAGATTATGATGAAGTCCAATTTGAAGTGGAGCTTGTTCACTTTATTCAAGTGAGCTTGAT CTTCCTCACTAGAAATCATCATTTATTAATGAACTTTTTTGTTCTTGTGTCACATATACATTGTAGTATGATGAAGAATG GATTTTTCTCAGCATTCTCGTTTCATTATCTGCTTTACTAATGTTCCCTAGGCATTCTTAGATTCATCTTTCTTTCCTCC ATTTATAACTGATTTCTGACCTATATGTTACATGGTTGTGTTTGCATTCTTTTAACCTGTCATATGAGTTTGTATAATAG GAACTATAAGGTCATGTTGGGCTAGATGAAAAATCCAATATGTTGAAAAATATTTTTAAAAGCTAGGGTATGGATATGCT ATGACAGGTTATATAAAATAAAGCTATCATTTTATTATTTAGATAAATCTACGATGGATTTGGAAAAAAGAAAAGACTTA TTTCATCTCACACTCCCCAAACTGGAGGAGAAGAAAAATGAGGAATTGAGTGTAAAGGAATCCATTCCATTCAATCATAT TTTAAAAAAATCCATGAAAACAATAAAAAACCATATTATCCTTCCGACTCCCCTCCATTTCATCCCTATCCATCCTCCAT AGTTCCAAAATATTGTCAAGGTCTGCAAACCTCTCTGCCCAAAGGCTCCAAAATTCGATGAATGATGTCCTTTCCCCTAT GTTACCTTCTTTTTTGTCATCACTTCAAACTGTTTCAGCTTCATTCCTACCATCCTTGCCATGGAGGCAAGCTTGCTACA ACCCAAATCCCGCTTCCGCCCCTTGTGTTTCCCATGTGGTTTAGTGTAGGAAGACCTAACATGTTCCAAGCATGCACTCA TGTCATGCTGTGACTTAATTAGTAGCTCTACCAGATATGCTTTTAGTATGGGTGTAGCAGCCATATTGGAGTACCACTCA CAATTTTTTCATATTTCAAAAGCTAAATTAAGTGCTCAGGTATCGGGTTTACCTGATTGACTCTTCATCTTCAAGACTTG TTTTTTAATTTTATTTTCTATTTTTGTTTTACTTTTCACTTATTTTTTCTTCATCTAATTAAATGTTTATAGATTTTTTG TGAGAATTATGAATAATTCATGATATTAATACATCAATGCTTTATCAATCACTTTGAACATGAAATGTAGATTCTGCTGA GATTAGGGACTTAAATTTGTATGTACTGTGATTGCTGTCTTGATAGACATATTCAGAGACCTGGGATTTATTCATTGTAT TACTATTTGTGGTGACTGAAACATGTGCTTCTGTTATTTTGTTTCTTTTCTCTGACTAAGACATTGAGCGAGTAAAATTT CATTCTGGTAATTAATCAACAGGTCAGGGACATGCTTGGAGATGGACGCCTAATAAAACGCCGGATTCGTGATGGAAAAG GTGTGGATTTAGAATCTAGAGTTATATACTGGTAACAATCTTAAAATGAGCTCCGATTGAGTTATATAATGGTAACAGTT GTAAAAGGAGAGGAATAGAAAAGAAAGTTGTGGAAAATGCTTGGCTCATGCTTGAATTATACTCTAGATGTTGTTATTAT ATTTCGAGTTCTGTAGTTAACATATTTTTGGTTTTCAAATTTTAGTTATTTTTCTTTTGTGTTAGTACGTAGGAGACTGA GCTCAATCTTTTATTCTTATGCATGCATTAACATATTTTAAGTTTCAGTTCATTATTTCTGTTCAACGTCTTGTTATGAT TTTGTATTTTGCTTGTAAAAAATAGGTGAGTTTCCAATGGATTGCCCCCTCCATGACAGTCTACTTCGCCTTCATTACAA GGGTACTGTTCTCAATGAAGAAAAAAGTGTATTCTATGATACAAGAGTTGATAATGATGGTCAACCATTGGAGTTCTGTT CTGGAGAAGGGCTCGTGAGTTTACAATTTAAGCATAAATAAAATCAAGCTCTGTTATTTTCCCCCCTTTTCGTCTTTATC ATTTATTTTGTTGAAGGTTTTGCAGTCTGTAAATTCCTTAGGTTGTTATTGTTTGTTTAGAATGTCTTCCACGTATGTTC ATGCCATTCATGCAAATACATGATTGTGGCTCTGGAATCTCATTTTCTTTCTGTTTTAGGTACCAGAGGGATTTGAGATG TCTGTTCGTCTGATGCTTCCTGGAGAGACAGCTCTTGTCACATGTCCACCTGACTATGCTTATGATAAGTTTCCAAGGTT GCTGATGAGCTTACTTCTTTTACTGCCTAACCAATAATTTAGGTTTCTTGAATCATTTCAGTGCAGGCATTCATCAATTG AATATGTTTTCTATCCTTGCATCTATTGTCGTTCTGATCTATTCGTATGCTTCATGATATCATTGGTGTGCTTTCTCCTT TTTTGACCAGACCTTCAAATGTCCCTGAGGGTGCTCATATTCAATGGGAAATTGAGCTTCTAGGTTTTGAAATGCCCAAG GTACTTCAGAAATTCATTATTTAAATTCAAGGCATTTACTTTAGTAATTGCATTTTTACATGTATTAATTATGCGACCAG GACTGTTCGTGATAGCAAATGTTAGTAGTGAAATACCAACAATAGCAAAAATAAGTTTGGCAGAGTGCTGATCAAGTTAT GTTTGCATTTATGGTTGAGTTAGTTTCCTTAAATATTCTCTAATGAGAGATTTCAAGTTTAGATGAAGTACACTTGCTCT ATGATTGTGATCCGTGGGTGAACTATGATAATTATATGAAACAGCTCATGATAAATCATTCATGTGGAGTTGAATATTTC CTTCTTCAAACAATACATAATTAGCTTATGGTGGCACTGATGCACTGGGAATTCTTGTGCATCAGTCCACAAAATCTATG ACCATCAATTTAATATTATAAGAAACAGATGGATTGGATTATTTACATGTTACCTTAGACTACATGGTGAAATTTGGATG CAAAGGATCGTCACATTTTGTATGCTAGTAATAACGTAACAAAAAAAGTGCAGTTGGTTGGAAATGGAGTACTCTAAAAT TATTTTATTACTGTAGAACTCCTATGTGAAATTTAACGAGAGTTTACCAAATAAAAGTGACGTATTTAGGAAAGGAAGCG CGCCCTCCATGGTTGAAATCTTCCAATATCATGTCAGATAGCTCCATAAAGGAGCTGTATTGAGAAAAAACCCATTGTTA TCGTTGAAGTTGTCAGAAAAGTCATAATGGAAAACCTCCCGCTTGAAAGGGTCTTTTAATCACAAAGTTTCTTGCTAGAG CTCATTTTCTGGGTGCTGCAAAGAGCAATAATCAGTGAACTTCTGCAACATTTCATACACATAGGCTTCCATCTTCTTCC TCCATCAAGCCAAGCCAAGCCAGCACCCTAACCCTCCTCCATCTCAACCCTCGCACCGTGAACCCAGGTTCATCTGCTTC ATCTTCTCTAGGTCTGCTCAGGAACTTGGTGGTGGTGTAGAGTCACCGTTATGCTACAGCTCTGTTGCAGTATCACTTTG TAAAATTATGTAACCAAATACAGCCGGTGAGATTCTTTTTGGATCCAATTGCAAGGTATGAGACTTGAGTCCCATATTAG AAGTATGGGATTCTGGTGTGAGATTCCTAAGGCCTTTGGGCTCTCCAACTACAATGGCTAGCATTTGTGGTCTGGTTCTC CTAAAGGTTCTTATTAAATTCCTCGTGTATTGATGCGCGGAAACTCATTTTGTGCACCTTAAGTGCTATCTTTGCTCACA CCATTTTATAACCCTTAACCCCTCTTGGTTTCTCTTTGACATGTTGTGGACGATATACTTATTACTATGCCTAATGCATT ATGGACTTTATTCCTTATACAGGATTGGACTGGATTGGACTTTGATAGTATAATGAATGATGCTGAAAATATCAGAAATA CGGTATGCAATGAACCTGCTAAATTTTCTATCTGTTTGATCCTCAGTTTGCTACTACTACTGGAGTCTAGATTTTATTTT TGATAAGCCACTATTGGTGTCTAGATGGTACAAGACCTGATTGCCAAACATGCATGTCCACGTGATTTATGTGTTTTGAG CACAGTATGAGACAAGGAACTGATTGGCTAATCCTTTTGAAAAGAATCTTTAAATTGTGTACAAAATGCATATTCACTTG AATGGAAAGATATCACATATCTGATCAAAGCCATGAAAGAGTTCTGTTAAGATTAGTATTTTAGCTATAGATAGTGATTG ATTCTTTCCTGTGTAAAGTGTCCTCAATTTCTTTTAAATCTTGCCCTCTTGTATAGGTTACAGATTTCTGGGTTCTTTGT GATTTATTTGGTTAATACTCATTATTTGGACCTTCCCTCTTATACAACATGATCGGTTTTGGTTTTGGTTTTGAATAAGA TGGATGTCTTATGCTGTTATTGTTTTCAGGGTAACAGATTATTCAAAGAAGGAAAATATGAACTTGCAAAGGCAAAGTAT GAAAAGGTATTCATCTCTCTTTCTTTCCTGTTTTGGTTGTCATCTTTTTGTGCAAAAACTAATTTTGCATTGATGTCATA ATTTTTAGATGCAGCAGCTGTGGGTGCTAATTATTACATGCTGAAATAAAAAATATCAGTCATTGAATTGTACTTAGCTA GATGGAGGTGTAATGGCACACACCTTGGTGTTATAAGGCTAGGGAGTTGATTCCCACATTATAAATCCCTGCTACTTCTT TCCCAATGTCCCTAGGGCCTATTGTATTTCTTTGATAAAAATTGTATCAGCTAACAGTAAAATAGTTTACTGTTATTTTG ACATTTTGCTTCTGTTATCTTTATTCACACATTCAAAGTGGCTAGTAATTAGTTAGTTGATTAGATAATTAGTTAGAGAG TGAGATCTATAGGATATAAATGGAGTGGAATTTGGGAGATAGATCTTTGGTTTCTCAACATCTGGAGAAATCTGTTGTCA CATTTTTTCACCTTTGTTCTTCTGTTTTTTGATACTGAGCTCACTGCTCAGGTTTGGGGGAATTCTTCAATAACATTTCT GATATTTGTATCTATTATGATCCAATTTTAGCAAATTTGCACTGGTAGGATTTGAATGCTATTCAATTCTGTTTATTTTG TTTCTGTTGGAATATCTGAACCTTATTAAAGGACTGAATTTTATATTACTTGGATTGGAATTCTGTTGTACATTCCATGA TGAACGCTTGAATTTTGATTTTGGCTCTTAGATTTCCACTATGCCATCGAACTTATTAACATTGTGTGGTAGTTGGCACC AGGTTCTTCGAGAATTTAATCATGTTAATCCACATGATGACCAGGAAGGAAAAATATTTGCAGATACACGTGTAAGTGGT CATGTGTCTCTTTCTCAATATACTATTATTTATATTCTTTAGAAATGAAGCATATAATCCAACTTATCATTGGTAGGTTG ATTTCTTAGACTAAATGTTTATCTCTTTTTCACTCTATGATTGAAGAATTTGCTACACCTGAACGTTGCTGCATGCTATC TAAAGTTAGGAGAATGCAGAAAGTCCATTGAGACTTGCAATAAGGTATGCTTGATGACCCTTGCTAACTAGTAGTTTCTG AGCTAGTGCTTTAATTTTAATGACTCGATTAATTTCTCTGTATGGGTTTCAAATATAATCAGAAGTAATAAAAAGTGGGT GCTTTTAGTTTGGTGATGTAGTAGTCATTGTATTGTGCAAAGGATCCATGGGGTTTTTCTGAATACTGAAGGAGTTGGTA TTTATCTCTTTGCTATTGTTTCATGCTTATCAAGGCCCTCTTTGTGGGTCTTTTTTGGTTTCTGTCTTAATCTGCATTCA AGCATTTGGTTTTATGTTTTGTATAATTTTACCTCTTATCATGTATTTTCCAATAAACCATGCAGGTTTTGGAAGCAAAT CCTGCACATGTCAAAGGCCTTTATCGTCGTGGAATGGCGTACATGACTGCTGGAGACTTTGAAGAAGCAAGGGCTGATTT CAATATGGTAGGAATCTTTATAATGGCTTTAGCATACAAGTTATATCAGCTTTCACTTTCTAAAGTCACCTGCATTCTAT TTTAGATGATTAAAGTCGACAAGTCAACTGAATCAGATGCAACCGCAGCTCTTCAAAAGCTGAGGCAGAAGGAGCAGGTG GGCTTGAATTCAGTTATTCTCTTTATGTTCTTGAAAACATTATAGGAGGAAACAAGATTTCATTCTTATACTGATTAATT TGTAGGAAGTTGAGAAGAAAGCGCGGAAACAATTTAAAGGGCTATTTGACAAGAAGCCTGGAGAAATTGCAGAAGCAAAA GCTGATGAAAATGGAGATCAGTTAACAAGGAAAAGCCAGAACAACAGAGAAGTACATGGGGACTCCGATGGAGAAAATTC AGAGGATTCACACGAAGCCGCACCCGATGCACATGGAGCGAGTTGGTTCTCTCTCTTTTGGACTCCTGGTAGAAGACTTC TTTCATCTCTTGGGCTTCAAAGATGTTCCATACTATAGTCTTAACATAAAGCTTGTGATAGTTGGCCATAATACAATTTC TAAAAGGAGGCATACCTGGTCACTATAGAAGAGAGTTTCAGGCATTTGTAATGTTTTTGTCACCCGGACACAATGTGCTG AAAGTATTTTTTTTTTCTTTTTCATTTTACATTCCCATCTAAAACATATTTGGTTATTAGTAAAATCTAGTTGTTAGGAT AGCAGGGGATGACCAGTTGAAGTAGTTGGTAAAAGTGCTCAGTATCTTGGGGTTGTTTCTTGTAGGTTTCATATTTCAGG AACATTTTGTAATGAGAGACATGTAACTTGTTGGAGAGAGAAGGAATAATTGTTGTAAAATGTATAGTGCCTAAGAAAAA ACATTATGAGGGATCCTAAAGAAATGCAATGTGGTGCATAAAATCTGTATACACACTCAGTCTTGCTCTTGTCTTTAATT TGAGCAAGAGTTAGATTGGGGAGGTGTGAAATTGATATTACTGTTCAACTGCTGCACTTAGAACATTAGTATAAAGACAG GTTTACATCCTTACTGCCCACACATAATAATCTTTTCATCAAACACCACAGGTTCAATTGCAGTAGATGAAGGTTTTCTG ATTCTCTTTAGTTTGAACGATTTTTTTGTTTGCTTGGTCTCACAATCCCTCAATAATCAAGATAATAGCTGTTGATACTG GTTTTTAGGATTTGATGGTGGAAGACAAATGAAGCTAACTTATTCAT
CDS sequence (LotjaGi3g1v0220500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTGCTGTAAATGAAGTTGCTGAGCAGGATTATGCACCCCCAAAGAAGAAGCCACCATCTGAGGATGACAAGAGGAA GGAGAAAATTGTGCCTGGGAGTTTGATGAAAGCTTTGATGAGGCCTGGTGGGGGTGATTCTGGACCTTCAGATGGTGACC AGGTTATCTATCATTGTACAATTCGAACATTAGATGGAGTAATCATGGAATCTACCAGATCTGATCATGGAGGCAAGGGT ACTCCGATTAGACAGGTTTTGGGCAAAAGCAAGATGCTATTGGGCTTGCTAGAAGGAATTCCATCAATGTTAAAGGGTGA AGTGGCAATGTTCAAGATGAAGCCTCAGTTGCATTATGGTGAGGATGATTGTCCTATTTCTGCTCCTGATGGTTTTCCTA AGGAGGATGAACTTCATTTTGAAATTGAGCTGATAGAATTTTTCAAAGCCAAGGTTGTTACTGATGATTTGGGAGTTGTG AAAAAGGTAGTATGTGAAGGGCAGGGTTGGGAATCTCCAAGAGAACCTTATGAAGTGAAAGCCTGGATTTCAGCAAAGAC AGTTTCTGGGAAATTGATCATGTCACATACAGAAGGAGAACCATACTTCTTTACATTTGGAAAATCAGAGGTACCTAAAG GTCTTGAAATGGGGATTGGAACGATGGTCCGGGAAGAAAAGGCTGTTATATATGTTACCAGTCAGTATTTAACTGAATCT CCTTTGATGCCTTTAGTAGAAGATTATGATGAAGTCCAATTTGAAGTGGAGCTTGTTCACTTTATTCAAGTCAGGGACAT GCTTGGAGATGGACGCCTAATAAAACGCCGGATTCGTGATGGAAAAGGTGAGTTTCCAATGGATTGCCCCCTCCATGACA GTCTACTTCGCCTTCATTACAAGGGTACTGTTCTCAATGAAGAAAAAAGTGTATTCTATGATACAAGAGTTGATAATGAT GGTCAACCATTGGAGTTCTGTTCTGGAGAAGGGCTCGTACCAGAGGGATTTGAGATGTCTGTTCGTCTGATGCTTCCTGG AGAGACAGCTCTTGTCACATGTCCACCTGACTATGCTTATGATAAGTTTCCAAGACCTTCAAATGTCCCTGAGGGTGCTC ATATTCAATGGGAAATTGAGCTTCTAGGTTTTGAAATGCCCAAGGATTGGACTGGATTGGACTTTGATAGTATAATGAAT GATGCTGAAAATATCAGAAATACGGGTAACAGATTATTCAAAGAAGGAAAATATGAACTTGCAAAGGCAAAGTATGAAAA GGTTCTTCGAGAATTTAATCATGTTAATCCACATGATGACCAGGAAGGAAAAATATTTGCAGATACACGTAATTTGCTAC ACCTGAACGTTGCTGCATGCTATCTAAAGTTAGGAGAATGCAGAAAGTCCATTGAGACTTGCAATAAGGTTTTGGAAGCA AATCCTGCACATGTCAAAGGCCTTTATCGTCGTGGAATGGCGTACATGACTGCTGGAGACTTTGAAGAAGCAAGGGCTGA TTTCAATATGATGATTAAAGTCGACAAGTCAACTGAATCAGATGCAACCGCAGCTCTTCAAAAGCTGAGGCAGAAGGAGC AGGAAGTTGAGAAGAAAGCGCGGAAACAATTTAAAGGGCTATTTGACAAGAAGCCTGGAGAAATTGCAGAAGCAAAAGCT GATGAAAATGGAGATCAGTTAACAAGGAAAAGCCAGAACAACAGAGAAGTACATGGGGACTCCGATGGAGAAAATTCAGA GGATTCACACGAAGCCGCACCCGATGCACATGGAGCGAGTTGGTTCTCTCTCTTTTGGACTCCTGGTAGAAGACTTCTTT CATCTCTTGGGCTTCAAAGATGTTCCATACTATAG
Protein sequence (LotjaGi3g1v0220500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAAVNEVAEQDYAPPKKKPPSEDDKRKEKIVPGSLMKALMRPGGGDSGPSDGDQVIYHCTIRTLDGVIMESTRSDHGGKG TPIRQVLGKSKMLLGLLEGIPSMLKGEVAMFKMKPQLHYGEDDCPISAPDGFPKEDELHFEIELIEFFKAKVVTDDLGVV KKVVCEGQGWESPREPYEVKAWISAKTVSGKLIMSHTEGEPYFFTFGKSEVPKGLEMGIGTMVREEKAVIYVTSQYLTES PLMPLVEDYDEVQFEVELVHFIQVRDMLGDGRLIKRRIRDGKGEFPMDCPLHDSLLRLHYKGTVLNEEKSVFYDTRVDND GQPLEFCSGEGLVPEGFEMSVRLMLPGETALVTCPPDYAYDKFPRPSNVPEGAHIQWEIELLGFEMPKDWTGLDFDSIMN DAENIRNTGNRLFKEGKYELAKAKYEKVLREFNHVNPHDDQEGKIFADTRNLLHLNVAACYLKLGECRKSIETCNKVLEA NPAHVKGLYRRGMAYMTAGDFEEARADFNMMIKVDKSTESDATAALQKLRQKEQEVEKKARKQFKGLFDKKPGEIAEAKA DENGDQLTRKSQNNREVHGDSDGENSEDSHEAAPDAHGASWFSLFWTPGRRLLSSLGLQRCSIL
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 |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 33 | 33 | - | – | |
Gene3D | 2 | 151 | 150 | 3.1E-20 | – | |
SUPERFAMILY | 5 | 161 | 157 | 1.73E-21 | – | |
PANTHER | 6 | 594 | 589 | 2.1E-284 | ||
PANTHER | 6 | 594 | 589 | 2.1E-284 | – | |
MobiDBLite | 11 | 32 | 22 | - | – | |
Pfam | 49 | 145 | 97 | 3.7E-12 | ||
ProSiteProfiles | 52 | 148 | 97 | 15.053 | ||
SUPERFAMILY | 151 | 261 | 111 | 1.41E-14 | – | |
Gene3D | 152 | 263 | 112 | 3.2E-16 | – | |
Pfam | 176 | 258 | 83 | 2.0E-5 | ||
ProSiteProfiles | 176 | 262 | 87 | 8.842 | ||
SUPERFAMILY | 252 | 384 | 133 | 1.96E-22 | – | |
Gene3D | 264 | 384 | 121 | 7.0E-22 | – | |
ProSiteProfiles | 293 | 385 | 93 | 17.241 | ||
Pfam | 294 | 382 | 89 | 9.6E-14 | ||
Gene3D | 391 | 550 | 160 | 1.4E-41 | ||
SUPERFAMILY | 399 | 541 | 143 | 7.37E-27 | ||
SMART | 402 | 435 | 34 | 160.0 | ||
ProSiteProfiles | 402 | 435 | 34 | 6.599 | ||
ProSiteProfiles | 402 | 435 | 34 | 6.048 | ||
ProSiteProfiles | 451 | 518 | 68 | 15.964 | ||
SMART | 451 | 484 | 34 | 0.011 | ||
ProSiteProfiles | 451 | 484 | 34 | 7.582 | ||
ProSiteProfiles | 485 | 518 | 34 | 9.44 | ||
SMART | 485 | 518 | 34 | 0.015 | ||
Pfam | 486 | 509 | 24 | 0.024 | ||
Coils | 519 | 542 | 24 | - | – | |
MobiDBLite | 555 | 594 | 40 | - | – |
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 , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Peptidyl-prolyl cis-trans isomerase activity | Catalysis of the reaction: peptidyl-proline (omega=180) = peptidyl-proline (omega=0). | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Biological process | Cell differentiation | The process in which relatively unspecialized cells, e.g. embryonic or regenerative cells, acquire specialized structural and/or functional features that characterize the cells, tissues, or organs of the mature organism or some other relatively stable phase of the organism's life history. Differentiation includes the processes involved in commitment of a cell to a specific fate and its subsequent development to the mature state. | ||
Biological process | Very long-chain fatty acid biosynthetic process | The chemical reactions and pathways resulting in the formation of a fatty acid which has a chain length greater than C22. | ||
Biological process | Plant organ development | Development of a plant organ, a multi-tissue plant structure that forms a functional unit. |
Expression pattern of LotjaGi3g1v0220500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…