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 | LotjaGi6g1v0076900 |
Transcript ID | LotjaGi6g1v0076900.2 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Clathrin heavy chain; TAIR: AT3G11130.1 Clathrin, heavy chain; Swiss-Prot: sp|Q0WNJ6|CLAH1_ARATH Clathrin heavy chain 1; TrEMBL-Plants: tr|X4Z1M5|X4Z1M5_LOTJA Clathrin heavy chain; Found in the gene: LotjaGi6g1v0076900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:14569590..14581119) extracted from Lotus japonicus Gifu genome v1.2.
ATGGCGGCCGCCGCCAACGCTCCGATCACCATGCGTGAAGCCCTCACCGTGAGTCCTCTTTTCTCCTTCCTCCATTTCCC TAGCTCAATTCGCAACTCAAACAGTTAGTTATTATTATGCTTTGCTCGATTCTGAATTTTCCGAATCGAAGTTTACTGTG TGCTGCTTTACTTTGCTACTGTTGATCATCGAGTTTACGCAGATCTGAACATTTCTCGTTGCGTTTGTGCTGTTGTGAAT TTGAATGAATGATGTGATGTGATTTGTGTGTGATTTTGCAGTTGCCGAGCATTGGTATAAATCCGCAGTTCATCACGTTC ACTCACGTGACGATGGAGTCTGATAAGTACATATGCGTTCGAGAAACTTCTCCGCAGAATAGCGTGGTGATCGTTGATAT GAGCATGCCGATGCAACCTTTGAGGAGGCCTATTACTGCTGATTCTGCTCTTATGAATCCGAATTCGAGAATCCTTGCTC TGAAAGGTTGGTTGCTACACCTTTCTGTTCTTCTTTACTTGAACTTGCAAGCTGTGATTGTAGCTAGTAATGTTGTGGAT AAGCTAACTACTTGCATTTCGGTATTGATCTGAATTATATGTCATTGTAGATAGTAAGATTTGTTTGGAATTAAATTCTA TTTATTATTTATTTACTTTTTGGTGAGACAGAGCCAGTGTTATATGCCGCTATAGCGTAGCGGATTTTTGGCTAATCGCG ATGCCGCTATTCGCTGCCAAATAGCGGCTGAAATAGCAGATTTTTGGCTCACCGCGATGGTCCGCGATCGTGATTTGATA ACACTGGACAGAGCTTAAGTAATTTATGTCTTTGCCGTTGATGCGACTATTATATGAAGTAAACCGCCTAGTTTCAACAA GTTTGACTAGGAGATGACTAAAAGATCTTGAAGTATCTGCTGCTGCATTATGACTTGGTTGGTTGAGAAATAATTCTTCG TACTCGCAAAGCAGAGATCTTTGATTCATTTGAGAATACGATATCAATTGGCATTCATATTTCTTTGCCTTTGATGCAAC TATTATATGAAGTAAACTGCTTAGTTTCAACAAGTTTGACTAGGAGATGACTAAAAGATCTTGAAGTATCCTCTTATGCA TTATGACTTGGTTGGTTGAGAAATAATTCTACGTACTCGCAAAGTATAGATCTTTGATTCATTTTAGAATACGATATCAA TTGGCATTCATATATTTTTTTTCAAGAAATCAAAAGATCATGTCCTTAAGGAATATAATCATGTAGAGAAGAATCTTATC GCTACTTTTGTTTTCTCCCATTTTAGGGTGAAAGAACCATTACAGTCAAATTACTACTAGGAAAGGAGGGAGGGGTCATA CTTTGTAGTTTACTCTATGACTTGATTCTTGAGATCTTTCTTTTCAAGGATAGGAACTATATTGTTCATAATGATATTTA TGTGATAATGCTTTCTAGTTTTGCTCATATATTTACCATTCCCAATTTTCACATTGCACATAAGGCGAATTAAATGTTGT TATGATATATATTATTCATGTTATCATCATTTGAGAAACTTGACAGTGGTTTTATTTTAAGAAAAAAAATTCCTATAAAA ATAGTTTGTATGTTCATAAAGCATCTGACCTTAGGGAGAAGCTTCATGTTCTTGTTTGATTATGCCATGTGTTCTTGTTT GTGATGCACCACCTCAATTAGTATATGCTCTCGAATTATATTCACTTACACTTGACATCCTTCTCTTGAAGCCCAACTCC AAGGAACAACTCAAGATCACCTACAAATATTTAATATTGAAATGAAGGCAAAGATGAAATCTTACCAGATGCCTGAGCAG GTAATTGTCATGTGCGAGTATACATGCTCTTTAAAATAATGAGTGACCAGGTAACGTTTATTAATCCTCGTCAAATGCCC TTTTTTTTGAGTGCAGGTAGTCTTTTGGAAGTGGATTACTCCCAAGTTGTTGGGTCTTGTGACACAGACATCTGTATACC ATTGGTCAATTGAGGGTAGGATAAGGATAAACTTCAGTTCTGCTTAACTCTGGTTTTGTGCCATGTTTCTAGTTTATGTA TTTTTGTTCAGTGTGCTTCTAGCTTGTCTGCAAGTTGTTTACCAGTCTATTGGTTTGATATATTAACTTGTAGGTGACTC TGAACCTGTAAAGATGTTCGAGAGAACAGCGAATTTGGCAAACAATCAAATAATTAATTATCGATGTGATCCTACAGAAA AGTGGTTGGTCTTGATTGGTATTGCTCCTGGTTCCCCTGAGGTATATATCTGGTACTTGCTATAGTTAGTTGGTTATTGT TCCTTGGTAGTAGTGCCTCCTTGGCAAAGTAGTTTGGAGTTCAACTCTGGTTGCTCCCATTCTTGTGATATACGTTAAAT TTAAATATAATGTTATAAGGGCCTTCAATTGTGTACACTCCAGCCTCAGATGACCCTTGGACTCTATAAGGCTTGTTAGA TATAACACCTATCTTTCTACTATTACCTGAACCTATTGAATTAGTTGGTTCTTGAAAATGATCATGATCTATTTTATTAT AACTTTCACGAGTCTGATCTGTTTGGTTTGTTTCATTATTTGTTTTGCATTATAGAGGCCACAGTTGGTTAAAGGAAACA TGCAACTCTTCTCCGTGGATCAACAGCGCAGCCAAGCTCTTGAAGCACACGCTGCATCATTTGCTCAGTTAAAAGTGCGT CTCTTTATGATTTTGTGTGTATTTTTGTTTATTTCTTAATTTAATATTTACCTGAATAATTGTATACTACTATATCATGC TACTATGTACTGGAAAAATTGAAGTTTGTTTTTGGACAGGTTCCTGGGAATGAAAATCCTTCTACTTTGATTTCGTTTGC CACGAAGACACTTAATGCTGGACAAATTATATCCAAGTTGCATGTTATTGAGCTGGGTGCACAACCAGGTCTGCATAGTT CTTAGATAAATTTGTCTTGTGATTCCAATTTAGTTGTTATATTTTGAGTGTCCACGCTTATTTCTTTTTCTGCTAAATTA CTTAAATAGATGAATTAAATTTTTTAACTGGTCATATCTTGTATTGCATCTCTAGAGGTGAGGGAAGATAACCTTTCTAA AGATACCCCTAGAATAACACCATCTTGCATTTTATAATTATTCAACTCAGGATAGCTATTTCATAAACTTCATATTGTAG ATGGATGAATTAAAATGATCATTTAGTAACTTTGTTGTATGGAGGAGGTTACTTATCATAGCTAATAGTTTTAGTTAGGC CGTGCTCTAGGTATCAGTGTTATCAAATCGCGATCGCGGACCATCGCGGTGAGCCAAAAATCCGCTATTTCGGCCGCTAT TTGGCAGCGAATAGCGGAAATAGCGGGAATAGCGCGCTATAGCGGGCAATAGCGGCGTCGCGATAAGCCAAAAATCCGCT ACGCTATAGCGGCATAGCACCGCTATAACCGCTATTTGATAACACTGCTAGGTATTACTTCAAATTTGAATGATAGGAAA TTTTGAATGATGTGATCGTAATATACTCTGTTGGGTTTTCAATTTAACAATAAACTTATGAAGCTGCTGTAAGTATATTA TATTATTTGAATGGTGTTGTTTGGTGGTTGATTTCGCAAATTCCGGAAGCAGTAATTGAAATTAGTGTGAACATTTGAAG ATGGATTGGTGATATTGTGTTACAGAAAAATCATAAATAACATTGTGATTTAATTGGTCATCTTCCCAGGATTTAACTTC TAATATTTTTTTTGGCAGGGAAGCCATCATTTACAAAGAAACAAGCAGATCTTTTCTTTCCCCCAGATTTTGCTGATGAC TTCCCAGTTGCCATGCAGGTATTGAAGTTTCTGGTGTTTGTTTTTCATTTTACAAACTGTGCAGATATTTGATTCGTAGT TTGATTTTTGGCAGATATCCCACAAATACAATTTGATTTATGTGATCACGAAACTTGGTCTCCTATTTGTCTATGATTTG GAGACGGCCACTGCTGTGTATAGGAACAGAATTAGTCCAGATCCTATATTTTTGACGTCAGAAGCTACATCAGTTGGAGG CTTTTATGCCATTAACAGGAGAGGCCAGGTGTTATTGGCTACTGTTAATGAGCAAACAATTGTGAATTTTGTCAGTGGTC AAGTATGTTCCTGATCTTGTTCTCTCTCACTTGATGTAGAGTAGAAAAAGTGACATTTTCACAAATTTCATTTGTTATTA TCACAGTTAAATAATTTGGAGCTAGCCGTCAATCTTGCCAAGAGAGGAAACCTTCCAGGTGCTGAGAAGCTGGTATGTCG CTTGTTGTTTAAAACATAAAACATTTCTTTATTGGGGTGTTGTCAGGAAGGTCCCTAGAAATTGGAATTTCACATGATTA ATATGGTGGGGGTTTCATATAATGGCTAAATGCAAACTTTGTGTGAAATGTTCAACGTTTTAACTTTTAATTAATACATG ATAATATTCTTTAGTATTCATCAGTTGAGGCTAATACAAAATTGTTCAACAGAAATATCCTTTCCTTATTGAAATTTGTT GTATCTGTGTCATGCTGTCAACCTTATGTATTTCATGCTGGTAAAAAATAGATGCTTTGTACAAGGGAGGTTATGTGGGT TACCTGAATGCTGAATTATCACAAATCTGTTTCTTCTCCAGTCATTTGCATTTTTTTGTTTCGTTTCAATGAAATGTACA TGCTTCAATTGATTTTTTTTGTTAATTTTCCAAATTTTTGAAATTGATTGTAATTGCCTGATTTGCCTCTTCTAAAATGG CATATTCTTTTGTTAATTGCTTTTTTTGCTCATTTTTTAATTTGTAAATTAACGTTAGTCTTTGTTGACATGTTGTTGAA CAGGTTGTTGAACGTTTCCATGAACTGTTTGCCCAAACAAAGTATAAAGAAGCAGCTGAGCTTGCTGCTGAGTCCCCGCA AGGAATCCTTCGTACACCTGATACAGTTGCCAAATTTCAGGTTTTGTGGCTATGAAAGATTTGTTCATGCTGTTTCAGCA ACAAAACTTCTGTAGGCTGTAGGCAGTCATTTTACTTGTTTTTAGGGATAAAGGAAACTGAGCTGTTTTTACTTATTAGC TTTCCTTTATTTTGGTCAGTTAGACTGATGTTTAAAGTGTCGCAATCTGTTTAATGTTGCAGAGTGTTCCTGTGCAAGCT GGACAAACTCCTCCACTCTTGCAGTATTTTGGAACCCTTTTAACTAGAGGAAAGCTGAATGCCTTTGAATCATTAGAATT GTCACGGCTGGTTGTGAATCAGAACAAGAAAAATCTTTTGGAAAATTGGTTGGCAGAGGACAAGCTTGAATGCAGTGAGG AACTAGGAGATCTTGTAAAGGTTGGGTTGCATTTGAAATTATGAAAAACTTGGATTTTGATCTATCTATTTTATATTTTT TTTGCTTCTGTTTCTTTCTAACTGTTTGCCTTATGACCAGTATACTTTTTCTTGTTCAATTTACTTATTGTGAGATCGTG TAATTTTAATTGGCATGCTCCATTGTAGACTGTGGACAATGACCTTGCCTTAAAAATATATATCAAAGCCAGAGCTACTC CAAAAGTTGTTGCTGCGTTTGCTGAGCGAAGGGAGTTTGACAAGATTCTCATATATTCTAAGCAGGTAAAGGGCTTTTTT TATCAATGAATATTGTTCTTTGATTCACAAGTTTCTTTGTCCTTCTATTGTTAATTTTTTTAATGTTGTTATGGCCTGTT GAGTATTTTACTTAGCCTGTGTTCTCAAGATTACATATCTTGCCTTGACATTTTCGTGTGCTTGAACATTTTCATTATTT ATTTATTCCTATAGGTTGGGTACACACCTGACTATCTCTTCCTTTTGCAAACAATTCTCCGGACAGATCCTCAGGTATGT GTCTGATGGTTGTAACTGACTGTTTTTCCAACACAGTTAATTTTATAATTTCCGGGCCGAAAATTCTATAAGGTACTTTT TTTCATTGTGGTTTTCAGAAATATAGTTCTATAAATTAATTCAACAGCTATTTTTCATGATGATTTGCAGGGTGCTGTTA ATTTTGCATTAATGATGTCTCAAATGGAGGGAGGTTGTCCTCTTGATTACAACACCATAACTGATCTGTTTCTTCAGGTT GTTATCTACTGTGATTAAGCCATTAATGGAATTTGTAATATATATATTCCTGCTTCATGTTCATTGACATATCATGAAAT GTTTAAGTGGCCCATTTTCATTTAATATAAGAGCACTTGCTTTGTTTCTCCTGTTTGTAGTTTAGCAATATGCATTTCTG GACAGTTGATTTATGAGCTTATGATTGTTTTTTATGTCCTGCACAGAGAAACTTGATCCGTGAGGCTACTGCCTTTCTCC TAGATGTTTTGAAGCCAAATTTACCTGAACATGGTTTCCTTCAAACAAAGGTTCCAGTCATCATTTTTTCATTTGTTATG GGCATTTTACTCCTGCAGTCCTTTCTTTGCACTGATTCAATCTTGTGAATTTTTGTTCAGGTTTTGGAGATAAATCTGGT AACGTTTCCCAATGTTGCTGATGCTATTTTGGCTAATGGCATGTTCAGCCATTATGATCGTCCACGTATTGCCCAACTTT GTGAAAAAGCTGGTCTTTATGTGCGAGCTTTGCAAGTAATGATCCTTCAAATGTGTTGTTTTTTTGGTTTTATATTAGTT TAGGCTGAATGTCATTTCACTTGTTTATTATAATGTTTTTGGTGCAGCATTACACAGAGTTGCCAGATATAAAACGTGTG ATAGTTAATACACATGCAATTGAGCCACAGGTTTATGTGCCCCTTTGCTTTGTAGTTTGTCTATTCTAACATCATGGTAG TTGAAAATACTTAGTGGTTATTTGATTGATGCAGTCACTTGTTGAGTTTTTTGGTACTCTGTCACGAGAATGGGCCTTAG AGTGCATGAAAGATCTGTTACTGGTCAATCTTAGAGGCAACCTACAGATAATTGTTCAGGTACGGTAGTTTCATTTTCTT CTATAACTAAGAATTAGTAGTAATAAATTTATAACTGAAGCTTACTTATGTCTGTCCAGGTTGCTAAAGAATATTGTGAA CAGTTGGGCGTTGATGCTTGCATTAAGATTTTTGAGCAATTCAGGTCCTATGAAGGACTCTATTTCTTCCTTGGTTCATA TTTAAGCTCCAGGTAATTCTTTCATTTCGAAAGATCTGTTTTGGCTGGCGACAAGTTATCCCATTTTTACAGAGGTATTG TTGAATGTTTATCTGCTAATATGTTTCTCTGAATAACATGCCAGTGAGGATCCCGACATCCACTTCAAGTACATTGAGGC AGCAGCAAAGACTGGACAAATCAAAGAGGTCGAGCGTGTGACTAGAGAATCAACTTTCTATGATCCTGAGAAAACGAAGA ACTTTCTAATGGAAGCTAAGCTTCCCGATGCACGACCTCTTATTAATGTTTGCGATCGATTTGGATTTGTTCCTGATCTG ACACACTATCTATACACAAATAACATGCTTCGCTACATTGAAGGATATGTTCAGAAGGTATTGTTGTTGTAATTCTATTG CAGTGGCCCTGCTTGTTTCATGAGTGCTGTCCTCTCTCTCTCTCTGCTTCTTAGTTATGTTGTGCCTTGCTTTATAGGTG AACCCAGGGAATTCTCCTCTAGTTGTTGGGCAGCTGCTAGATGATGAGTGTCCAGAAGATTTTATCAAAGGCTTGATTCT CTCTGTTCGTTCATTGCTGCCGGTGGAGCCACTGGTGGAGGAATGTGAGAAGAGGTGGTATCTATTCTCTAATTCTACAT ACTGTCTGCTTGTCTAGCACTCATGTTTCTGCCTTTTCCTATGTTGCTCTTTCTGGGATGCAGGAATCGGCTTCGTTTGC TTTCACAGTTTCTGGAACATCTTGTAAGTGAGGGAAGCCAGGATGCACATGTTCATAATGCTCTGGGTAAGATCATCATT GATAGCAACAACAACCCAGAACATTTTCTCACTACAAACCCATACTATGATTCTCGAGTTGTGGGAAAATATTGTGAAAA ACGTGATCCTACCTTGGCCGTTGTGGCTTATAGGCGAGGACAATGTGATGATGAACTTATCAATGTGACAAACAAAAATT CTTTGTTCAAACTACAAGCAAGGTTTGTAGTCTATATGCATTTTCTTTCACTAAATATTTATCCCTGGCTTCAATGCTCA TATGCTATTGATTACAGGTATGTTGTTGAGAGGATGGATGGTGACCTTTGGGAGAAAGTTCTTAACCCTGATAATGCCTA CAGAAGACAGCTTATTGATCAAGTTGTATCTACTGCTCTGCCTGAAAGCAAGAGCCCTGAACAAGTCTCTGCAGCTGTTA AGGCTTTCATGACTGCTGATCTACCTCATGAATTGATTGAGCTTCTTGAGAAGATTGTGCTTCAGAATTCTGCTTTCAGT GGGAACTTTAATTTGCAGAATCTGCTTATCTTGACAGCAATAAAGGCTGATACATCCAGAGTCATGGATTATATAAATAG ACTGGATAATTTTGATGGTCCTGCAGTTGGAGAAATGGCTGTTGAGGCTCAGTTATATGAAGAAGCATTTGCAATTTTTA AGAAGTTCAACTTAAATGTTCAAGCAGTCAATGTCTTGCTAGATAATATTCATAGCATTGATAGAGCTGAGGAGTTTGCT TTCCGAGTTGAAGAGGATGCTGTATGGAGTCAGGTGGCCAAGGCTCAACTCAGGGAAGGGCTAGTAAGTGAAGCAATTGA GTCATTTATACGAGCAGATGATGCCACACAATTTTTGGATGTTATCCGTGCTGCTCAAAATACCAATGCTTACAATGACT TGGTGAGATACTTGCTGATGGTAAGGCAAAAGACAAAAGAACCCAAGGTGGACAGTGAGCTCATTTATGCTTATGCAAAG ATCGACAGGCTCAGTGACATTGAGGAGTTCATTCTTATGCCGAATGTGGCCAATCTTCAAAATGTTGGTGACCGATTGTA TGATGAAGAGCTATATGAGGCTGCAAAAATTATATTTGCTTTTATATCTAACTGGGCCAAGTTAGCAGTCACACTTGTGA AGTTGAAACAGTTCCAAGGTGCTGTTGATGCAGCAAGGAAAGCTAACAGCTCAAAAACATGGAAGGAAGTTTGCTTCGCG TGTGTTGATGCAGAGGAGTTCCGTTTGGCCCAGATATGTGGGTTGAACATTATTGTTCAGGTAAAATGTTTTTTTCATTT CTTTAACTATATGTTGAGATGAACTATAGATTTTTTCTTTATTCAGGTCAGGTATCCCCTGGTTTCTATTAGAAAGTTTG AATAATTTGGGCTTTCACAGTATGTGATGGGAATATAATATCGTAGTATGCTGCGAGCTTGTAATTATGGGAAGGTTTTA TGTGCATTACTTGGTCTGCAGTTAATATGTCAATTTTTGTTTTGAATTTGTAGGTGGATGACTTGGAAGAGGTCAGTGAA TTTTACCAAAATAGAGGTTGCTTCAACGAGCTAATATCCCTCATGGAGAGTGGTTTAGGATTAGAACGGGCACATATGGG CATCTTTACCGAGTTAGGAGTTCTGTACGCTAGATACCGTCCTGAGAAACTTATGGAACATATCAAACTATTTGCAACCC GACTCAATATTCCAAAACTCATAAGAGCTTGTGATGAACAACAACATTGGAAGGAACTGACCTATTTGTATATCCAATAT GATGAGTTTGACAATGCAGCAACAACCATCATGAACCATTCACCTGAAGCATGGGATCACATGCAATTCAAAGATGTTAT TGTCAAAGTTGCTAATGTGGAGTTGTATTACAAGTCTGTTCATTTCTATTTGCAAGAGCATCCAGATCTTCTAAACGATG TTTTGAATGTCCTTGCACTTCGTGTTGACCATGCACGCGTTGTTGATATCATGCGAAAGGTAGCATTAATACTGTCAAAT ATTTCATTAGATCTTGGTTTATACTTGTTTCTGTCACTCATGTTTTTCCTGTTATGTGCTGTAGGCTGGTCATCTCCGTC TTGTCAAGCCATACATGGTTGCAGTTCAGAGCAATAACGTGTCTGCTGTTAATGAAGCCCTGAATGAGATATATGTGGAG GAGGAAGACTATGATAGATTGCGCGAGTCAATTGATTTGCACGACAACTTTGACCAAATAGGCCTGGCACAGAAGGTGAG CTGCATTATTCTTCATGTTGACCACTTATTGATTCCATTCTAGGATCCTGATATATCATCATCATCATCATCTGTTCTGC AGATTGAAAAGCATGAGCTTCTTGAGATGAGACGTGTTGCTGCTTATATTTATAAGAAGGCTGGTAGGTGGAAGCAGTCC ATTGCCTTGTCAAAGAAGGATAACCTTTACAAAGATGCCATGGAGACGGCCTCACAATCTGGTGAACGTGAACTTGCTGA GGAGTTACTTGTTTATTTCATTGATCAGGTACTGAATCCAGTTTCATCTGCATGTGATTCTTTTCTTCCCTTCTTGAATA TAGGTCTGGCCTCTATGATTTAGGGTTGACTATTATCAATTAATGCTTGAGGTATCCTTAATAGCATGTGCAGTTCTAAG TCAGGCAGATAAATTAATGGCAATTAGCATTAGTAGTATTATTTTGTCAAGCCTATAGTGACAAATTATACTGCCCATTT TGTATTTAGAGTTTTACTGTCCAGTTATTGACTGAGGGATTGTGATTAAATTTTCTTACCTTATGGCCCAAACTTCTGGA ATGGTGATTTTCTAATCTTTTTAATATTAATGTGCATATGTTGGAAAACAGATATTAATGTACATATCCATAAAATTGAG TGAAATCATTATATCCTAATATCTTTTCTAACATGCTTATGCAGGGAAAAAAGGAATGCTTTGCCTCGTGTCTATTTGTT TGCTATGATTTAATCAGGGCAGACGTTGCTCTTGAACTGGCTTGGATCCACAATATAATTGACTTTGCCTTCCCATACGT GTTACAGGTTCTTTTCTTTGCTGCTTACTTGTATAGCACAAAATTTACAATACAGTTGATGTGCATGTCTTTTTCTTCAT GTTATCTAGTTCTTTCTTTTAATGTCTTCTCTCTGCTGTTGTAGCTTCTCCGCGAGTACACTGGCAAAGTTGATGAACTG GTGAAGGACAAAATTGAAGCACAGAAAGAAGTGAAGGCTAAAGAACAAGAAGAGAAGGAAGTAATTCAACAACAGGTAAT TTAGTTTGGCCATTTTATGCTTACCCACTAGTAACGTAGTTGATAATTTCTATCGCCTTCTCATCTGTCACTCTCAACAT ATTGAAAACTTCTGTTGCAGAATATGTATGCTCAATTGTTGCCTCTTGCTTTGCCTGCACCACCAATGCCCGGAATGGGA GGAGGCTATGCCCCTCCCCCTCCAATGGGTGGGATGGGGATGCCTCCAATGCCTCCTTTTGGCATGCCACCCATGGGCAG CAGCTACTGA
CDS sequence (LotjaGi6g1v0076900.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGGCCGCCGCCAACGCTCCGATCACCATGCGTGAAGCCCTCACCTTGCCGAGCATTGGTATAAATCCGCAGTTCAT CACGTTCACTCACGTGACGATGGAGTCTGATAAGTACATATGCGTTCGAGAAACTTCTCCGCAGAATAGCGTGGTGATCG TTGATATGAGCATGCCGATGCAACCTTTGAGGAGGCCTATTACTGCTGATTCTGCTCTTATGAATCCGAATTCGAGAATC CTTGCTCTGAAAGCCCAACTCCAAGGAACAACTCAAGATCACCTACAAATATTTAATATTGAAATGAAGGCAAAGATGAA ATCTTACCAGATGCCTGAGCAGGTAGTCTTTTGGAAGTGGATTACTCCCAAGTTGTTGGGTCTTGTGACACAGACATCTG TATACCATTGGTCAATTGAGGGTGACTCTGAACCTGTAAAGATGTTCGAGAGAACAGCGAATTTGGCAAACAATCAAATA ATTAATTATCGATGTGATCCTACAGAAAAGTGGTTGGTCTTGATTGGTATTGCTCCTGGTTCCCCTGAGAGGCCACAGTT GGTTAAAGGAAACATGCAACTCTTCTCCGTGGATCAACAGCGCAGCCAAGCTCTTGAAGCACACGCTGCATCATTTGCTC AGTTAAAAGTTCCTGGGAATGAAAATCCTTCTACTTTGATTTCGTTTGCCACGAAGACACTTAATGCTGGACAAATTATA TCCAAGTTGCATGTTATTGAGCTGGGTGCACAACCAGGGAAGCCATCATTTACAAAGAAACAAGCAGATCTTTTCTTTCC CCCAGATTTTGCTGATGACTTCCCAGTTGCCATGCAGATATCCCACAAATACAATTTGATTTATGTGATCACGAAACTTG GTCTCCTATTTGTCTATGATTTGGAGACGGCCACTGCTGTGTATAGGAACAGAATTAGTCCAGATCCTATATTTTTGACG TCAGAAGCTACATCAGTTGGAGGCTTTTATGCCATTAACAGGAGAGGCCAGGTGTTATTGGCTACTGTTAATGAGCAAAC AATTGTGAATTTTGTCAGTGGTCAATTAAATAATTTGGAGCTAGCCGTCAATCTTGCCAAGAGAGGAAACCTTCCAGGTG CTGAGAAGCTGGTTGTTGAACGTTTCCATGAACTGTTTGCCCAAACAAAGTATAAAGAAGCAGCTGAGCTTGCTGCTGAG TCCCCGCAAGGAATCCTTCGTACACCTGATACAGTTGCCAAATTTCAGAGTGTTCCTGTGCAAGCTGGACAAACTCCTCC ACTCTTGCAGTATTTTGGAACCCTTTTAACTAGAGGAAAGCTGAATGCCTTTGAATCATTAGAATTGTCACGGCTGGTTG TGAATCAGAACAAGAAAAATCTTTTGGAAAATTGGTTGGCAGAGGACAAGCTTGAATGCAGTGAGGAACTAGGAGATCTT GTAAAGACTGTGGACAATGACCTTGCCTTAAAAATATATATCAAAGCCAGAGCTACTCCAAAAGTTGTTGCTGCGTTTGC TGAGCGAAGGGAGTTTGACAAGATTCTCATATATTCTAAGCAGGTTGGGTACACACCTGACTATCTCTTCCTTTTGCAAA CAATTCTCCGGACAGATCCTCAGGGTGCTGTTAATTTTGCATTAATGATGTCTCAAATGGAGGGAGGTTGTCCTCTTGAT TACAACACCATAACTGATCTGTTTCTTCAGAGAAACTTGATCCGTGAGGCTACTGCCTTTCTCCTAGATGTTTTGAAGCC AAATTTACCTGAACATGGTTTCCTTCAAACAAAGGTTTTGGAGATAAATCTGGTAACGTTTCCCAATGTTGCTGATGCTA TTTTGGCTAATGGCATGTTCAGCCATTATGATCGTCCACGTATTGCCCAACTTTGTGAAAAAGCTGGTCTTTATGTGCGA GCTTTGCAACATTACACAGAGTTGCCAGATATAAAACGTGTGATAGTTAATACACATGCAATTGAGCCACAGTCACTTGT TGAGTTTTTTGGTACTCTGTCACGAGAATGGGCCTTAGAGTGCATGAAAGATCTGTTACTGGTCAATCTTAGAGGCAACC TACAGATAATTGTTCAGGTTGCTAAAGAATATTGTGAACAGTTGGGCGTTGATGCTTGCATTAAGATTTTTGAGCAATTC AGGTCCTATGAAGGACTCTATTTCTTCCTTGGTTCATATTTAAGCTCCAGTGAGGATCCCGACATCCACTTCAAGTACAT TGAGGCAGCAGCAAAGACTGGACAAATCAAAGAGGTCGAGCGTGTGACTAGAGAATCAACTTTCTATGATCCTGAGAAAA CGAAGAACTTTCTAATGGAAGCTAAGCTTCCCGATGCACGACCTCTTATTAATGTTTGCGATCGATTTGGATTTGTTCCT GATCTGACACACTATCTATACACAAATAACATGCTTCGCTACATTGAAGGATATGTTCAGAAGGTGAACCCAGGGAATTC TCCTCTAGTTGTTGGGCAGCTGCTAGATGATGAGTGTCCAGAAGATTTTATCAAAGGCTTGATTCTCTCTGTTCGTTCAT TGCTGCCGGTGGAGCCACTGGTGGAGGAATGTGAGAAGAGGTGGAATCGGCTTCGTTTGCTTTCACAGTTTCTGGAACAT CTTGTAAGTGAGGGAAGCCAGGATGCACATGTTCATAATGCTCTGGGTAAGATCATCATTGATAGCAACAACAACCCAGA ACATTTTCTCACTACAAACCCATACTATGATTCTCGAGTTGTGGGAAAATATTGTGAAAAACGTGATCCTACCTTGGCCG TTGTGGCTTATAGGCGAGGACAATGTGATGATGAACTTATCAATGTGACAAACAAAAATTCTTTGTTCAAACTACAAGCA AGGTATGTTGTTGAGAGGATGGATGGTGACCTTTGGGAGAAAGTTCTTAACCCTGATAATGCCTACAGAAGACAGCTTAT TGATCAAGTTGTATCTACTGCTCTGCCTGAAAGCAAGAGCCCTGAACAAGTCTCTGCAGCTGTTAAGGCTTTCATGACTG CTGATCTACCTCATGAATTGATTGAGCTTCTTGAGAAGATTGTGCTTCAGAATTCTGCTTTCAGTGGGAACTTTAATTTG CAGAATCTGCTTATCTTGACAGCAATAAAGGCTGATACATCCAGAGTCATGGATTATATAAATAGACTGGATAATTTTGA TGGTCCTGCAGTTGGAGAAATGGCTGTTGAGGCTCAGTTATATGAAGAAGCATTTGCAATTTTTAAGAAGTTCAACTTAA ATGTTCAAGCAGTCAATGTCTTGCTAGATAATATTCATAGCATTGATAGAGCTGAGGAGTTTGCTTTCCGAGTTGAAGAG GATGCTGTATGGAGTCAGGTGGCCAAGGCTCAACTCAGGGAAGGGCTAGTAAGTGAAGCAATTGAGTCATTTATACGAGC AGATGATGCCACACAATTTTTGGATGTTATCCGTGCTGCTCAAAATACCAATGCTTACAATGACTTGGTGAGATACTTGC TGATGGTAAGGCAAAAGACAAAAGAACCCAAGGTGGACAGTGAGCTCATTTATGCTTATGCAAAGATCGACAGGCTCAGT GACATTGAGGAGTTCATTCTTATGCCGAATGTGGCCAATCTTCAAAATGTTGGTGACCGATTGTATGATGAAGAGCTATA TGAGGCTGCAAAAATTATATTTGCTTTTATATCTAACTGGGCCAAGTTAGCAGTCACACTTGTGAAGTTGAAACAGTTCC AAGGTGCTGTTGATGCAGCAAGGAAAGCTAACAGCTCAAAAACATGGAAGGAAGTTTGCTTCGCGTGTGTTGATGCAGAG GAGTTCCGTTTGGCCCAGATATGTGGGTTGAACATTATTGTTCAGGTGGATGACTTGGAAGAGGTCAGTGAATTTTACCA AAATAGAGGTTGCTTCAACGAGCTAATATCCCTCATGGAGAGTGGTTTAGGATTAGAACGGGCACATATGGGCATCTTTA CCGAGTTAGGAGTTCTGTACGCTAGATACCGTCCTGAGAAACTTATGGAACATATCAAACTATTTGCAACCCGACTCAAT ATTCCAAAACTCATAAGAGCTTGTGATGAACAACAACATTGGAAGGAACTGACCTATTTGTATATCCAATATGATGAGTT TGACAATGCAGCAACAACCATCATGAACCATTCACCTGAAGCATGGGATCACATGCAATTCAAAGATGTTATTGTCAAAG TTGCTAATGTGGAGTTGTATTACAAGTCTGTTCATTTCTATTTGCAAGAGCATCCAGATCTTCTAAACGATGTTTTGAAT GTCCTTGCACTTCGTGTTGACCATGCACGCGTTGTTGATATCATGCGAAAGGCTGGTCATCTCCGTCTTGTCAAGCCATA CATGGTTGCAGTTCAGAGCAATAACGTGTCTGCTGTTAATGAAGCCCTGAATGAGATATATGTGGAGGAGGAAGACTATG ATAGATTGCGCGAGTCAATTGATTTGCACGACAACTTTGACCAAATAGGCCTGGCACAGAAGATTGAAAAGCATGAGCTT CTTGAGATGAGACGTGTTGCTGCTTATATTTATAAGAAGGCTGGTAGGTGGAAGCAGTCCATTGCCTTGTCAAAGAAGGA TAACCTTTACAAAGATGCCATGGAGACGGCCTCACAATCTGGTGAACGTGAACTTGCTGAGGAGTTACTTGTTTATTTCA TTGATCAGGGAAAAAAGGAATGCTTTGCCTCGTGTCTATTTGTTTGCTATGATTTAATCAGGGCAGACGTTGCTCTTGAA CTGGCTTGGATCCACAATATAATTGACTTTGCCTTCCCATACGTGTTACAGCTTCTCCGCGAGTACACTGGCAAAGTTGA TGAACTGGTGAAGGACAAAATTGAAGCACAGAAAGAAGTGAAGGCTAAAGAACAAGAAGAGAAGGAAGTAATTCAACAAC AGAATATGTATGCTCAATTGTTGCCTCTTGCTTTGCCTGCACCACCAATGCCCGGAATGGGAGGAGGCTATGCCCCTCCC CCTCCAATGGGTGGGATGGGGATGCCTCCAATGCCTCCTTTTGGCATGCCACCCATGGGCAGCAGCTACTGA
Protein sequence (LotjaGi6g1v0076900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAAAANAPITMREALTLPSIGINPQFITFTHVTMESDKYICVRETSPQNSVVIVDMSMPMQPLRRPITADSALMNPNSRI LALKAQLQGTTQDHLQIFNIEMKAKMKSYQMPEQVVFWKWITPKLLGLVTQTSVYHWSIEGDSEPVKMFERTANLANNQI INYRCDPTEKWLVLIGIAPGSPERPQLVKGNMQLFSVDQQRSQALEAHAASFAQLKVPGNENPSTLISFATKTLNAGQII SKLHVIELGAQPGKPSFTKKQADLFFPPDFADDFPVAMQISHKYNLIYVITKLGLLFVYDLETATAVYRNRISPDPIFLT SEATSVGGFYAINRRGQVLLATVNEQTIVNFVSGQLNNLELAVNLAKRGNLPGAEKLVVERFHELFAQTKYKEAAELAAE SPQGILRTPDTVAKFQSVPVQAGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSEELGDL VKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQVGYTPDYLFLLQTILRTDPQGAVNFALMMSQMEGGCPLD YNTITDLFLQRNLIREATAFLLDVLKPNLPEHGFLQTKVLEINLVTFPNVADAILANGMFSHYDRPRIAQLCEKAGLYVR ALQHYTELPDIKRVIVNTHAIEPQSLVEFFGTLSREWALECMKDLLLVNLRGNLQIIVQVAKEYCEQLGVDACIKIFEQF RSYEGLYFFLGSYLSSSEDPDIHFKYIEAAAKTGQIKEVERVTRESTFYDPEKTKNFLMEAKLPDARPLINVCDRFGFVP DLTHYLYTNNMLRYIEGYVQKVNPGNSPLVVGQLLDDECPEDFIKGLILSVRSLLPVEPLVEECEKRWNRLRLLSQFLEH LVSEGSQDAHVHNALGKIIIDSNNNPEHFLTTNPYYDSRVVGKYCEKRDPTLAVVAYRRGQCDDELINVTNKNSLFKLQA RYVVERMDGDLWEKVLNPDNAYRRQLIDQVVSTALPESKSPEQVSAAVKAFMTADLPHELIELLEKIVLQNSAFSGNFNL QNLLILTAIKADTSRVMDYINRLDNFDGPAVGEMAVEAQLYEEAFAIFKKFNLNVQAVNVLLDNIHSIDRAEEFAFRVEE DAVWSQVAKAQLREGLVSEAIESFIRADDATQFLDVIRAAQNTNAYNDLVRYLLMVRQKTKEPKVDSELIYAYAKIDRLS DIEEFILMPNVANLQNVGDRLYDEELYEAAKIIFAFISNWAKLAVTLVKLKQFQGAVDAARKANSSKTWKEVCFACVDAE EFRLAQICGLNIIVQVDDLEEVSEFYQNRGCFNELISLMESGLGLERAHMGIFTELGVLYARYRPEKLMEHIKLFATRLN IPKLIRACDEQQHWKELTYLYIQYDEFDNAATTIMNHSPEAWDHMQFKDVIVKVANVELYYKSVHFYLQEHPDLLNDVLN VLALRVDHARVVDIMRKAGHLRLVKPYMVAVQSNNVSAVNEALNEIYVEEEDYDRLRESIDLHDNFDQIGLAQKIEKHEL LEMRRVAAYIYKKAGRWKQSIALSKKDNLYKDAMETASQSGERELAEELLVYFIDQGKKECFASCLFVCYDLIRADVALE LAWIHNIIDFAFPYVLQLLREYTGKVDELVKDKIEAQKEVKAKEQEEKEVIQQQNMYAQLLPLALPAPPMPGMGGGYAPP PPMGGMGMPPMPPFGMPPMGSSY
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 | 1 | 378 | 378 | 2.5E-157 | ||
PANTHER | 3 | 1701 | 1699 | 0.0 | – | |
PANTHER | 3 | 1701 | 1699 | 0.0 | – | |
PIRSF | 4 | 1688 | 1685 | 0.0 | ||
SUPERFAMILY | 6 | 344 | 339 | 2.09E-131 | ||
Pfam | 21 | 56 | 36 | 8.6E-6 | ||
Pfam | 155 | 198 | 44 | 2.7E-10 | ||
Pfam | 345 | 368 | 24 | 3.9E-8 | ||
SUPERFAMILY | 346 | 501 | 156 | 5.75E-53 | ||
Pfam | 370 | 435 | 66 | 5.1E-29 | – | |
SUPERFAMILY | 458 | 794 | 337 | 1.73E-85 | ||
Gene3D | 460 | 790 | 331 | 9.0E-16 | ||
SMART | 552 | 694 | 143 | 1.0E-34 | ||
ProSiteProfiles | 552 | 698 | 147 | 36.78 | ||
Pfam | 558 | 691 | 134 | 6.7E-22 | ||
SMART | 701 | 843 | 143 | 2.9E-39 | ||
ProSiteProfiles | 701 | 843 | 143 | 32.625 | ||
Pfam | 702 | 841 | 140 | 1.2E-19 | ||
SMART | 848 | 988 | 141 | 7.2E-38 | ||
ProSiteProfiles | 848 | 988 | 141 | 35.031 | ||
Pfam | 851 | 984 | 134 | 2.3E-25 | ||
SUPERFAMILY | 903 | 1069 | 167 | 1.93E-35 | ||
Pfam | 995 | 1133 | 139 | 2.3E-30 | ||
ProSiteProfiles | 995 | 1140 | 146 | 41.969 | ||
SMART | 995 | 1140 | 146 | 1.5E-41 | ||
SUPERFAMILY | 1052 | 1197 | 146 | 1.78E-27 | ||
Gene3D | 1053 | 1198 | 146 | 7.6E-36 | ||
ProSiteProfiles | 1144 | 1285 | 142 | 34.39 | ||
SMART | 1144 | 1285 | 142 | 2.4E-37 | ||
Pfam | 1149 | 1283 | 135 | 2.5E-27 | ||
SUPERFAMILY | 1198 | 1533 | 336 | 1.67E-107 | ||
Gene3D | 1199 | 1538 | 340 | 1.2E-152 | ||
ProSiteProfiles | 1290 | 1436 | 147 | 41.402 | ||
SMART | 1290 | 1436 | 147 | 4.6E-43 | ||
Pfam | 1291 | 1434 | 144 | 4.2E-28 | ||
SMART | 1439 | 1598 | 160 | 4.1E-43 | ||
ProSiteProfiles | 1439 | 1582 | 144 | 39.259 | ||
Pfam | 1442 | 1581 | 140 | 7.6E-30 | ||
Coils | 1479 | 1499 | 21 | - | – | |
Gene3D | 1544 | 1641 | 98 | 2.7E-38 | – | |
Coils | 1619 | 1654 | 36 | - | – |
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 | Structural molecule activity | The action of a molecule that contributes to the structural integrity of a complex or its assembly within or outside a cell. | ||
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 | Intracellular protein transport | The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell. | ||
Biological process | Vesicle-mediated transport | A cellular transport process in which transported substances are moved in membrane-bounded vesicles; transported substances are enclosed in the vesicle lumen or located in the vesicle membrane. The process begins with a step that directs a substance to the forming vesicle, and includes vesicle budding and coating. Vesicles are then targeted to, and fuse with, an acceptor membrane. | ||
Cellular component | Clathrin coat of trans-Golgi network vesicle | A clathrin coat found on a vesicle of the trans-Golgi network. | ||
Cellular component | Clathrin coat of coated pit | The coat found on coated pits and the coated vesicles derived from coated pits; comprises clathrin and the AP-2 adaptor complex. | ||
Molecular function | Clathrin light chain binding | Interacting selectively and non-covalently with a clathrin light chain. | ||
Cellular component | Clathrin complex | A protein complex that consists of three clathrin heavy chains and three clathrin light chains, organized into a symmetrical three-legged structure called a triskelion. In clathrin-coated vesicles clathrin is the main component of the coat and forms a polymeric mechanical scaffold on the vesicle surface. |
Expression pattern of LotjaGi6g1v0076900.2, 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…