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Field | Value |
---|---|
Gene ID | LotjaGi6g1v0123700 |
Transcript ID | LotjaGi6g1v0123700.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Clathrin heavy chain; TAIR: AT3G11130.1 Clathrin, heavy chain; Swiss-Prot: sp|Q2QYW2|CLH2_ORYSJ Clathrin heavy chain 2; TrEMBL-Plants: tr|V7BP18|V7BP18_PHAVU Clathrin heavy chain; Found in the gene: LotjaGi6g1v0123700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:31598167..31606461) extracted from Lotus japonicus Gifu genome v1.2.
ATGCAGCCTCATTTGCCTCATTTAGAGTACTTGTCCCTTCTTTGTGATTTATTATTATGGATTTCAACTGTGTGGCTTGT AGGTTGAATGCTGTTTTTTTTTTGTAATTTATACAACATGTAGGTTACTGGCAATGATAAGGACTCGATTCTTATTTGTT TTGCATCAAAGAGCTTCAATGCTGGACAGGTTACATCGAAGATGCATGTCATTGAACTTGGTGCCCAGCCAGGTATGCAT GGTTTTTTTTTTTTTTTTTTTTCTAAAAGTAGGTATGCATGGCTAGATTATCCTTTTTCAGCAAAAATACAGATTGTTAA GGATGATATTATTTTTTAGTATTAATTTGATATATTAATAAAATAGGAGATAATGGGATATAAATCGGCGGAAGTTTACA ATCTAATTACAAAACTTCCATTTGTTGTCAGGCAAGCCAACATTTACCAAAAAACAAGCAGATCTGTTCTTTCCTCCAGA CTTTGCTGATGATTTTCCTGTGTCAATGCAGGTACAAGTTTAAACTTAAATTTGGATTCTCTATTCCCAATAGATATTAT GTTAAATATTTGATTTGTTTTTATTGTGCAGATTTCGAATAAATATGGCTTGATATATGTTATCACGAAACTTGGGCTTT TATTTGTCTATGATCTAGAGTCTGCCACTGCAGTTTACAGAAATCGAATCAGTCCGGATCCTATATTTTTGACCGCTGAA GCATCAACTGCAGGAGGCTTTTATGCCATAAATAGACGTGGTCAGGTGTTGCTTGCTACTGTGAATGAGGCCACCATTGT GCCTTTTGTTAGCGGTCAGGTATTTTACGTGTTACACCATTCTTGAATAGTTAGGAAAACTTTTTTTCGTACCTACTTCT AAATGTTTGTTTGGATATTGTGCAGTTAAATAATTTGGAACTTGCTGTTAATCTTGCTAAAAGAGGAAACCTCCCTGGTG CAGAGGAATTGGTAACTTGAGTTGCATTTGATTTATTATGTATTTTATTTATCTGTCATTTTAAAGTTTGTGTTCTGACC ATGTACCAAAAAAAAGTTTGCGTTTTGATTATTGTTTCCAGAATTGGCTGACTCTCTGATGAGTCAGATAAATGCTTGAC TAGAATTTTTTTTTCTATGCGTTCTGTCTCATAAATTGTAGTTGTCCTAAAAGCATCTCCGGAGTGTAATCTAGAGTAGA ACAATTATCGTCAAGTCGATTAACATAAAATACAAGAAAATGATGAACAATATATTATTTATTTTTGTGGCATCTGCTAG TACGATTTATTCTGTCAGAGAATATCAGGATTGACACTCCACAGTTTGTAAGCTTACCACTACTTGTGGGAAATTTGGTC AAAAGAATACGAAAACCATGATTTTTTTACCCTTTCATATAAATTTCATTAAAATTACTTTTGCATAAAGTTCGCCAAAA CTGTGATGTTTTTCTTAGCTGATTTCACCCATGGGAATCATTTTGCCCGTGATTGTAAGTTTCTGTCGATTTTCTTAGGT TGTTCAACGTTTTCAAGAGTTGTTTGCTCAGACCAAGTATAAGGAAGCTGCAGAGCTTGCTGCAGAATCACCACGGGGAA TACTTCGTACTCCTGACACTGTTGCTAAATTTCAGGTATTATTTGCATTACATATGGTGGTCCATTCATATTTATTGGGT TTGTTAAGTTCATGCATTTGGTTTGTGGTGTGCTAATGAAATTGAGCCACCTTAATATGGAAATTTAATATGCTCTTCAT GTCAAGTTCTTGATTCGCCCTTGTTAATTTTCTTCAGAGTGTTCCTGTGCAAGCTGGGCAAACGCCACCACTGTTGCAAT ACTTTGGAACTCTGTTAACCAGGGGAAAACTCAATGCTTTTGAATCGTTGGAACTGTCACGACTTGTCGTAAATCAGAAC AAAAAGAATCTTTTGGAAAATTGGCTAGCAGAGGATAAGCTAGAATGCTGCGAGGAGCTTGGTGACCTTGTGAAGGTCCT GCAGAAATTTAATTTGTTTTCTCTTTTGTAATTGCACTTATTGATTTTTGTAGGTTTTTGGGAAGGAAATCTAAACTATC TTTTCTTTTCAAAGCAACTCATTTCTGTTCCTTGATTTGTTTTTCATACTTCTTTCCTTTGTCTTTCAAATTATAATGAG ACCGGCATATAATGCAGACGGTGGATAATGACCTTGCATTGAAAATCTACATCAAAGCTAGAGCCACACCAAAAGTTGTT GCAGCTTTTGCGGAGAGGAGGGAATTTGACAAGATCCTGATATATTCTAAGCAGGTAATTTTCTTATTTGGTTTAGTAGA ATCACAAAAATAGTGATATGAATCTTATATTGTATCTCATGTGTTGCTTGGCGTAATTTTGTATATAGTATATTTCTGAT GCATTATTCTCTTTTTCTTTGCTGAAGGTTGGATACACACCTGATTACATGTTTCTTCTGCAAACAATTTTACGGACAGA CCCACAGGTAAGCAGGTTATTTCTGAACATAATTTTGACTCACAAGTTACACTTCACTTCTGAATGGGTTCACTTTTGTG GTGCACAGTGCACTTATTTTTTTTCAAAGGTTTAAGCGTATCATTACTTAGAATTCGTTGCACCTCATGCATGGCTGTTA AATAGGTCCAAATGGAAATGGTTTCTTGATGCTTGTGATGTTTTCCTTTTAACAATATTTATATCGTGCTAATCTACTTT GAATTATTTATTTTTTTGAGCATCTACATTGGTTTTTTTATTGGTGTGTAGCATAATACAAAACTTCCTTCATTGCAGGG TGCTGTAAATTTTGCTCTGATGATGTCTCAAATGGAGGGAGGTTGCCCCGTTGACTACAACACAATAACTGATCTCTTTC TTCAGGTCTATTTGCAATTTACTTTTTTTGTTTAATGGTACCTGGTTCGTTGTTCTCATACTATTTTTAACTTCGATGTA ACTTAAAGAAGGCTGTATCATCGATCATGTACAAGTACAACATTTTTTTTCTCTCTCGTGGTGTTCATTCTGTTCTGTTT TCAAATTTTAAACTGAGAAAAGATAATAATGATATGAAACCTAACCTCTCTTGAAAGTTGAAACTGGTTTTGGTATGCTT TTTGACAATTTTTGGCTAACATCTTTTCCTATAATATCAATAACTGAGAATTATTTGTTAAAGCAAGAAACAATTTTACC CTTCTTTTTGTGTGGGCTGGAACCTTTTCTTTATATTTTTCTTCTGCTACTTTTTAGAGAAATTTGATCCGTGAGGCAAC AGCTTTTTTGTTGGATGTGCTGAAGCCAAATCTGCCTGAACATGGATATCTTCAAACAAAGGTTCTTTTATTTTATGCGC TGTTTATGTTTCCCTGAACTTAACAGTATTGCATATAGTTTTTTTTAAAAGAAAAACATGATGATACTCAATATATTGTT TTAGGTTCTGGAAATTAATCTTGTGACGTTTCCAAATGTTGCTGATGCCATATTGGCCAATGGCATGTTTAGTCATTATG ATCGCCCACGCATTGGACAACTCTGTGAAAAGGCGGGGCTGTTCATACGGGCTCTTCAGGTTCTTGACTTTTCTAATTGA CTAATTCTGATGCAATACTGACTGACTAAGTGGCGTTCCTTGTGAGAATAATTTCTTGAACCTTGTATTTGTTATGTGCA GCATTATTCTGAGTTGCCTGATATCAAACGTGTTATTGTGAATACACATGCCATTGAGCCACAGGTATGGATTGCAATTG CTCAAATGACCTAATCTATCATAAAACCATTTTACATTCTGAATATATGATGCTTTGCAGGCTTTAGTTGAGTTCTTTGG AACCCTTTCCCGAGAATGGGCACTTGAATGTATGAAAGATCTTTTATTGGTCAATCTTAGGGGCAATCTTCAAATAATTG TGCAGGTACTGTTTTTGATAATGTTGCCATTAGGCAGTTTTTTATTCCATAAGTCGATTATTAGAGAATCTTATTTGCAT TTTGCATGATTTTTAGACTGCTAAGGAATATTCTGAGCAGCTGGGAGTTGATGCATGTATTAAACTCTTTGAGAATTTCA AATCCTATGAAGGACTGTACTTTTTCTTGGGTGCATACTTGAGCTCCAGGTATTTCATATTAAAGAATGAGTTACCTTAG TTCACTTGACAGTCTGCTTTGGTTTTCTAGTTTTCTTTCAATTATTGTAATTTACCTTTTTATTCTTTCTTGTATAGTGA GGATCCTGATATTCACTTCAAGTACATTGAAGCTGCTGCTAAAACTGGACAACTTAAGGAGGTAGAGCGTGTGACTCGGG AATCGAATTTTTATGATGCTGAGAAGACAAAGAATTTTCTAATGGAAGCCAAGCTTCCAGATGCACGTCCACTAATTAAT GTGTGCGATCGTTTTGGTTTTGTTCCGGATCTTACCCATTATCTTTATACTAACAACATGCTTCGCTATATTGAAGGTTA TGTTCAAAAGGTAACTTTGTTTCAGGATTCTATTCAATTTTTGTGATTCATAGGATACGGGTGTGTTTTAAATCTAACAA AATTTTAAGACTAATATTTAATTATTACACTTCTCGCTTTTAGGTCAATCCTGGAAATGCTCCTCTAGTTGTAGGACAGT TGTTAGATGATGAATGCCCTGAAGATTTCATTAAAGGTCTCATACTTTCAGTTCGTTCTCTTCTGCCAGTTGAGCCTTTA GTTGAAGAATGTGAGAAGAGGTGTGCTAGTTTTCTTTCTACCTTTCTTTTCCAAAGTCATTGCCATACTCTTTCTCATAT CACTTGTTTTGCATAGGAATCGTCTCCGCTTACTGACTCAGTTCCTGGAGCATCTTGTAAGTGAAGGAAGTCAGGATGTA CATGTACATAATGCGCTGGGTAAAATCATCATTGACAGCAACAACAATCCTGAGCATTTTCTCACAACCAACCCATATTA TGACTCTCGAGTTGTTGGTAAATATTGCGAGAAGCGGGATCCTACCCTTGCTGTTGTTGCTTATCGAAGAGGGCAATGTG ATGATGAGCTAGTTAATGTAACTAATAAAAATTCCTTGTTCAAACTCCAAGCAAGGTATGTATATTGTCCTTCATAAGGA AGATATCATTATGTTTTATAATACTAATTTGAGTCACTCGTGTTATTTTTTTTTTTCAGATATGTTGTGGAAAGGATGGA CTCTGACCTCTGGGAGAAAGTTCTTAATCCTGAGAATGAGTTCAGAAGGTTGTTGATTGATCAAGTGGTGTCTACTGCTT TGCCTGAAAGCAAGAGTCCTGAACAAGTTTCAGCTGCAGTGAAAGCTTTTATGACTGCCGACCTCCCACATGAGTTAATT GAGCTTCTTGAAAAGATTGTGCTACAAAATTCTGCTTTTAGTGGAAACTTTAATTTGCAAAATTTGCTGATCCTTACTGC AATCAAGGCAGATCCTTCTAGAGTTATGGATTACATAAACAGGTTGGACAACTTTGATGGGCCTGCAGTAGGGGAGGTGG CAGTGGAAGCACAGCTATATGAAGAAGCATTTGCTATTTTCAAGAAATTCAATTTGAATGTTCAGGCTGTTAATGTCCTG CTGGATAACCTTCAAACTATTGATCGTGCTGTGGAATTTGCTTTCCGGGTTGAAGAGGATGCTGTTTGGACCCAGGTGGC CAAGGCGCAATTAAGAGAAGGATTGGTGAGTGATGCTATTGAGTCCTTCATTCGTGCAGATGATGCAACTCATTTCTTAG AAGTTATAAAGGCTGCTGAAGATGCAGATGTATACCATGACCTGGTAAAGTACCTTCTCATGGTTAGACAGAAGACCAAA GAGCCCAAGGTGGACAGTGAGCTCATTTATGCTTATGCTAAGATTGATCGGCTTGGAGAAATTGAAGAGTTCATACTTAT GCCAAATGTTGCCAATTTGCCGAATGTTGGAGACCGCTTGTATGATGAGGCTCTTTATGAGGCTGCAAAAATTATATTTG CTTTTATATCTAACTGGGCTAAGTTAGCAGTAACATTAGTAAAGCTTAAACAGTTCCAGGGCGCTGTTGATGCTGCCCGG AAGGCAAACAGCGCAAAAACTTGGAAGGAAGTTTGTTTTGCTTGTGTTGATAATGAGGAGTTCCGCTTAGCTCAGATTTG TGGTCTCAATGTCATCATTCAGGTGACACTCTTTTCTTGTATATAAGTTGACATTTTGAATTTTTTTTCTCATGAAGATT GATTTCCGCCACTTCACTTCAAAAAATTTCTGTAATTTTTGTGATACATGGAAACGTTTAAATGCAAGTTAAATGATGCA CTGCTGCTAAATACTTAAAACAAGTAGCTCACAAACTGTTGATTACTTTATCTAACTTTTTGAAGTTTTCTGATTACATA CTGTATTGTTATGAAGGTGGATGATTTGGAGGAGGTTAGTGAGTATTATCAGAACAGAGGATGCTTCAATGAGCTCATAT CTCTAATGGAGAGTGGGCTAGGATTGGAACGTGCTCATATGGGTATCTTTACTGAATTGGGAGTTCTTTATGCAAGATAT CGTGAAGAGAAGCTAATGGAACACATTAAGTTGTTCTCAACTAGGCTTAACATTCCAAAGCTTATTCGGGCATGTGATGA ACAACAACACTGGAAAGAACTTACATACTTATACATCCAATATGATGAGTTTGATAATGCTGCTACCACTGTCATGAATC ACTCTCCAGAATCTTGGGACCATATGCAATTCAAAGATATCATAGTTAAAATTGCCAGTGTGGAACTCTACTATAAGGCT GTTCACTTCTACTTGCAAGAACATCCTGATGTAATAAATGATCTTCTAAATGTGATTGCTCTTCGTGTGGACCATACCCG TGTAGTAGATATAATGAGGAAGGTGTGCATGTCTTATTCCCTATAGCCAAATTCCTACTGTATAATCTTATTTTGTTAAA TATCCAATTGGCTTTAAACATCTTTTATAATAACATTGTTTGTGATTTTTAATTTTTAGGCTGGCCACCTCAAATTAGTC AAGCCGTACATGGTTGCAGTCCAAAGCAATAATGTGTTTGCTGTGAATGAAGCTCTGAATGAAATATATGTTGAGGAAGA GGACTATGATAGACTTCGAGAATCAACAGATCTGCATGACAATTTCGATCAGATAGGTCTTGCACAGAAGGTGAATCCTG TCTATCTTTTATCTTATTTAAAAAATTTAGTAAAAATTAAGATGTGGATGTTTCTGAGAAATCCAAAGTGTTTGTATATT ATTAACTGGCTTCAACAATACACTTGAGCAGATTGAGAAGCATGAACTTCTTGAGATGAGGCGTGTTGCTGCATACATTT ATAAGAAAGCAGGAAGATGGAAGCAATCCATTGCTTTGTCAAAGAAAGACAATCTTTACAAGGACTGTATGGAGACTTGC TCTCAATCTGGGGATCGTGAACTCTCCGAAGATTTGCTTGTCTACTTTATTGAGAAGGTGGTTATTTTCTTGTCCTTTTT TGTTAAGTTTTGAACTCCAGTATTTAAGGATTAGATACTAAATAGGCTAGGCCCTTTTGGGACAGTGCAGTTTGACTCCT GCTTCACTTTAAAATAATTTTGTTTTTTTCTATCTAGAGCCCATTATTGGTTTCTTCCGCTTGCTTCCTGCACTAGTTCT TTTCCGTTAATTTTTACAAAGGAATATATTGATATTTCTGCAGGGGAAGAAAGAGTGTTTTGCATCATGCCTCTTTGTCT GTTATGATATCATACGGCCAGATGTTGCTCTTGAGTTAGCTTGGATGAACAACATACTTGATTTCGCTTTCCCGTATCTT CTACAGGTATGTTTTTGTTTGGGTCCCTTAATTAAATTTATTGAAAAGAAATTTGTTCTTTTATTGTTAACTGTCTTTGC TTAATTCTTTGAAGTTTATTCGAGAGTATACAAGCAAGGTAGATGAGCTTATCAAGGACAAAATTGAGGCACAAAATGAG GAGAAAGCAAAGGAGAAGGAGGAAAAGGACGTAATTGCTCAACAGGTACCTGTTACTAATTTCCTTTTATAAGACCATCA GTTTTATATTCTGTTTGATTATTCGATTAACATTTTTCAATGATCTCCAGAATATGTATTCCCAGTTGTTACCACTTGCT TTGCCAGCACCACCGATGCCAGGGATGCCAGGAATGGGGGGAGGATACGGCCCTCCACCACCTCCGCCAATGGGCGGAAT GGGTGGAATGGGGATGCCGCCAATGCCTCCTTTTGGCATGCCCCCAAGCTACTGA
CDS sequence (LotjaGi6g1v0123700.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCAGATTTCGAATAAATATGGCTTGATATATGTTATCACGAAACTTGGGCTTTTATTTGTCTATGATCTAGAGTCTGC CACTGCAGTTTACAGAAATCGAATCAGTCCGGATCCTATATTTTTGACCGCTGAAGCATCAACTGCAGGAGGCTTTTATG CCATAAATAGACGTGGTCAGGTGTTGCTTGCTACTGTGAATGAGGCCACCATTGTGCCTTTTGTTAGCGGTCAGTTAAAT AATTTGGAACTTGCTGTTAATCTTGCTAAAAGAGGAAACCTCCCTGGTGCAGAGGAATTGGTTGTTCAACGTTTTCAAGA GTTGTTTGCTCAGACCAAGTATAAGGAAGCTGCAGAGCTTGCTGCAGAATCACCACGGGGAATACTTCGTACTCCTGACA CTGTTGCTAAATTTCAGAGTGTTCCTGTGCAAGCTGGGCAAACGCCACCACTGTTGCAATACTTTGGAACTCTGTTAACC AGGGGAAAACTCAATGCTTTTGAATCGTTGGAACTGTCACGACTTGTCGTAAATCAGAACAAAAAGAATCTTTTGGAAAA TTGGCTAGCAGAGGATAAGCTAGAATGCTGCGAGGAGCTTGGTGACCTTGTGAAGACGGTGGATAATGACCTTGCATTGA AAATCTACATCAAAGCTAGAGCCACACCAAAAGTTGTTGCAGCTTTTGCGGAGAGGAGGGAATTTGACAAGATCCTGATA TATTCTAAGCAGGTTGGATACACACCTGATTACATGTTTCTTCTGCAAACAATTTTACGGACAGACCCACAGGGTGCTGT AAATTTTGCTCTGATGATGTCTCAAATGGAGGGAGGTTGCCCCGTTGACTACAACACAATAACTGATCTCTTTCTTCAGA GAAATTTGATCCGTGAGGCAACAGCTTTTTTGTTGGATGTGCTGAAGCCAAATCTGCCTGAACATGGATATCTTCAAACA AAGGTTCTGGAAATTAATCTTGTGACGTTTCCAAATGTTGCTGATGCCATATTGGCCAATGGCATGTTTAGTCATTATGA TCGCCCACGCATTGGACAACTCTGTGAAAAGGCGGGGCTGTTCATACGGGCTCTTCAGCATTATTCTGAGTTGCCTGATA TCAAACGTGTTATTGTGAATACACATGCCATTGAGCCACAGGCTTTAGTTGAGTTCTTTGGAACCCTTTCCCGAGAATGG GCACTTGAATGTATGAAAGATCTTTTATTGGTCAATCTTAGGGGCAATCTTCAAATAATTGTGCAGACTGCTAAGGAATA TTCTGAGCAGCTGGGAGTTGATGCATGTATTAAACTCTTTGAGAATTTCAAATCCTATGAAGGACTGTACTTTTTCTTGG GTGCATACTTGAGCTCCAGTGAGGATCCTGATATTCACTTCAAGTACATTGAAGCTGCTGCTAAAACTGGACAACTTAAG GAGGTAGAGCGTGTGACTCGGGAATCGAATTTTTATGATGCTGAGAAGACAAAGAATTTTCTAATGGAAGCCAAGCTTCC AGATGCACGTCCACTAATTAATGTGTGCGATCGTTTTGGTTTTGTTCCGGATCTTACCCATTATCTTTATACTAACAACA TGCTTCGCTATATTGAAGGTTATGTTCAAAAGGTCAATCCTGGAAATGCTCCTCTAGTTGTAGGACAGTTGTTAGATGAT GAATGCCCTGAAGATTTCATTAAAGGTCTCATACTTTCAGTTCGTTCTCTTCTGCCAGTTGAGCCTTTAGTTGAAGAATG TGAGAAGAGGAATCGTCTCCGCTTACTGACTCAGTTCCTGGAGCATCTTGTAAGTGAAGGAAGTCAGGATGTACATGTAC ATAATGCGCTGGGTAAAATCATCATTGACAGCAACAACAATCCTGAGCATTTTCTCACAACCAACCCATATTATGACTCT CGAGTTGTTGGTAAATATTGCGAGAAGCGGGATCCTACCCTTGCTGTTGTTGCTTATCGAAGAGGGCAATGTGATGATGA GCTAGTTAATGTAACTAATAAAAATTCCTTGTTCAAACTCCAAGCAAGATATGTTGTGGAAAGGATGGACTCTGACCTCT GGGAGAAAGTTCTTAATCCTGAGAATGAGTTCAGAAGGTTGTTGATTGATCAAGTGGTGTCTACTGCTTTGCCTGAAAGC AAGAGTCCTGAACAAGTTTCAGCTGCAGTGAAAGCTTTTATGACTGCCGACCTCCCACATGAGTTAATTGAGCTTCTTGA AAAGATTGTGCTACAAAATTCTGCTTTTAGTGGAAACTTTAATTTGCAAAATTTGCTGATCCTTACTGCAATCAAGGCAG ATCCTTCTAGAGTTATGGATTACATAAACAGGTTGGACAACTTTGATGGGCCTGCAGTAGGGGAGGTGGCAGTGGAAGCA CAGCTATATGAAGAAGCATTTGCTATTTTCAAGAAATTCAATTTGAATGTTCAGGCTGTTAATGTCCTGCTGGATAACCT TCAAACTATTGATCGTGCTGTGGAATTTGCTTTCCGGGTTGAAGAGGATGCTGTTTGGACCCAGGTGGCCAAGGCGCAAT TAAGAGAAGGATTGGTGAGTGATGCTATTGAGTCCTTCATTCGTGCAGATGATGCAACTCATTTCTTAGAAGTTATAAAG GCTGCTGAAGATGCAGATGTATACCATGACCTGGTAAAGTACCTTCTCATGGTTAGACAGAAGACCAAAGAGCCCAAGGT GGACAGTGAGCTCATTTATGCTTATGCTAAGATTGATCGGCTTGGAGAAATTGAAGAGTTCATACTTATGCCAAATGTTG CCAATTTGCCGAATGTTGGAGACCGCTTGTATGATGAGGCTCTTTATGAGGCTGCAAAAATTATATTTGCTTTTATATCT AACTGGGCTAAGTTAGCAGTAACATTAGTAAAGCTTAAACAGTTCCAGGGCGCTGTTGATGCTGCCCGGAAGGCAAACAG CGCAAAAACTTGGAAGGAAGTTTGTTTTGCTTGTGTTGATAATGAGGAGTTCCGCTTAGCTCAGATTTGTGGTCTCAATG TCATCATTCAGGTGGATGATTTGGAGGAGGTTAGTGAGTATTATCAGAACAGAGGATGCTTCAATGAGCTCATATCTCTA ATGGAGAGTGGGCTAGGATTGGAACGTGCTCATATGGGTATCTTTACTGAATTGGGAGTTCTTTATGCAAGATATCGTGA AGAGAAGCTAATGGAACACATTAAGTTGTTCTCAACTAGGCTTAACATTCCAAAGCTTATTCGGGCATGTGATGAACAAC AACACTGGAAAGAACTTACATACTTATACATCCAATATGATGAGTTTGATAATGCTGCTACCACTGTCATGAATCACTCT CCAGAATCTTGGGACCATATGCAATTCAAAGATATCATAGTTAAAATTGCCAGTGTGGAACTCTACTATAAGGCTGTTCA CTTCTACTTGCAAGAACATCCTGATGTAATAAATGATCTTCTAAATGTGATTGCTCTTCGTGTGGACCATACCCGTGTAG TAGATATAATGAGGAAGGCTGGCCACCTCAAATTAGTCAAGCCGTACATGGTTGCAGTCCAAAGCAATAATGTGTTTGCT GTGAATGAAGCTCTGAATGAAATATATGTTGAGGAAGAGGACTATGATAGACTTCGAGAATCAACAGATCTGCATGACAA TTTCGATCAGATAGGTCTTGCACAGAAGATTGAGAAGCATGAACTTCTTGAGATGAGGCGTGTTGCTGCATACATTTATA AGAAAGCAGGAAGATGGAAGCAATCCATTGCTTTGTCAAAGAAAGACAATCTTTACAAGGACTGTATGGAGACTTGCTCT CAATCTGGGGATCGTGAACTCTCCGAAGATTTGCTTGTCTACTTTATTGAGAAGGGGAAGAAAGAGTGTTTTGCATCATG CCTCTTTGTCTGTTATGATATCATACGGCCAGATGTTGCTCTTGAGTTAGCTTGGATGAACAACATACTTGATTTCGCTT TCCCGTATCTTCTACAGTTTATTCGAGAGTATACAAGCAAGGTAGATGAGCTTATCAAGGACAAAATTGAGGCACAAAAT GAGGAGAAAGCAAAGGAGAAGGAGGAAAAGGACGTAATTGCTCAACAGAATATGTATTCCCAGTTGTTACCACTTGCTTT GCCAGCACCACCGATGCCAGGGATGCCAGGAATGGGGGGAGGATACGGCCCTCCACCACCTCCGCCAATGGGCGGAATGG GTGGAATGGGGATGCCGCCAATGCCTCCTTTTGGCATGCCCCCAAGCTACTGA
Protein sequence (LotjaGi6g1v0123700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MQISNKYGLIYVITKLGLLFVYDLESATAVYRNRISPDPIFLTAEASTAGGFYAINRRGQVLLATVNEATIVPFVSGQLN NLELAVNLAKRGNLPGAEELVVQRFQELFAQTKYKEAAELAAESPRGILRTPDTVAKFQSVPVQAGQTPPLLQYFGTLLT RGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECCEELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILI YSKQVGYTPDYMFLLQTILRTDPQGAVNFALMMSQMEGGCPVDYNTITDLFLQRNLIREATAFLLDVLKPNLPEHGYLQT KVLEINLVTFPNVADAILANGMFSHYDRPRIGQLCEKAGLFIRALQHYSELPDIKRVIVNTHAIEPQALVEFFGTLSREW ALECMKDLLLVNLRGNLQIIVQTAKEYSEQLGVDACIKLFENFKSYEGLYFFLGAYLSSSEDPDIHFKYIEAAAKTGQLK EVERVTRESNFYDAEKTKNFLMEAKLPDARPLINVCDRFGFVPDLTHYLYTNNMLRYIEGYVQKVNPGNAPLVVGQLLDD ECPEDFIKGLILSVRSLLPVEPLVEECEKRNRLRLLTQFLEHLVSEGSQDVHVHNALGKIIIDSNNNPEHFLTTNPYYDS RVVGKYCEKRDPTLAVVAYRRGQCDDELVNVTNKNSLFKLQARYVVERMDSDLWEKVLNPENEFRRLLIDQVVSTALPES KSPEQVSAAVKAFMTADLPHELIELLEKIVLQNSAFSGNFNLQNLLILTAIKADPSRVMDYINRLDNFDGPAVGEVAVEA QLYEEAFAIFKKFNLNVQAVNVLLDNLQTIDRAVEFAFRVEEDAVWTQVAKAQLREGLVSDAIESFIRADDATHFLEVIK AAEDADVYHDLVKYLLMVRQKTKEPKVDSELIYAYAKIDRLGEIEEFILMPNVANLPNVGDRLYDEALYEAAKIIFAFIS NWAKLAVTLVKLKQFQGAVDAARKANSAKTWKEVCFACVDNEEFRLAQICGLNVIIQVDDLEEVSEYYQNRGCFNELISL MESGLGLERAHMGIFTELGVLYARYREEKLMEHIKLFSTRLNIPKLIRACDEQQHWKELTYLYIQYDEFDNAATTVMNHS PESWDHMQFKDIIVKIASVELYYKAVHFYLQEHPDVINDLLNVIALRVDHTRVVDIMRKAGHLKLVKPYMVAVQSNNVFA VNEALNEIYVEEEDYDRLRESTDLHDNFDQIGLAQKIEKHELLEMRRVAAYIYKKAGRWKQSIALSKKDNLYKDCMETCS QSGDRELSEDLLVYFIEKGKKECFASCLFVCYDIIRPDVALELAWMNNILDFAFPYLLQFIREYTSKVDELIKDKIEAQN EEKAKEKEEKDVIAQQNMYSQLLPLALPAPPMPGMPGMGGGYGPPPPPPMGGMGGMGMPPMPPFGMPPSY
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 |
---|---|---|---|---|---|---|
PIRSF | 1 | 1410 | 1410 | 0.0 | ||
PANTHER | 1 | 1428 | 1428 | 0.0 | – | |
SUPERFAMILY | 1 | 67 | 67 | 2.22E-19 | ||
PANTHER | 1 | 1428 | 1428 | 0.0 | – | |
Pfam | 68 | 91 | 24 | 9.2E-9 | ||
SUPERFAMILY | 69 | 224 | 156 | 5.7E-53 | ||
Gene3D | 70 | 231 | 162 | 1.0E-68 | ||
Pfam | 93 | 158 | 66 | 5.8E-30 | – | |
SUPERFAMILY | 181 | 517 | 337 | 9.5E-84 | ||
SMART | 275 | 417 | 143 | 4.1E-34 | ||
ProSiteProfiles | 275 | 421 | 147 | 36.229 | ||
Pfam | 281 | 414 | 134 | 4.4E-21 | ||
ProSiteProfiles | 424 | 566 | 143 | 33.766 | ||
SMART | 424 | 566 | 143 | 2.3E-38 | ||
Pfam | 425 | 564 | 140 | 7.2E-21 | ||
SMART | 571 | 710 | 140 | 3.6E-42 | ||
ProSiteProfiles | 571 | 710 | 140 | 37.674 | ||
Pfam | 574 | 699 | 126 | 1.1E-28 | ||
SUPERFAMILY | 625 | 790 | 166 | 1.81E-36 | ||
Pfam | 717 | 856 | 140 | 1.0E-31 | ||
SMART | 717 | 862 | 146 | 2.4E-42 | ||
ProSiteProfiles | 717 | 862 | 146 | 42.182 | ||
SUPERFAMILY | 776 | 919 | 144 | 1.9E-28 | ||
Gene3D | 776 | 920 | 145 | 1.0E-36 | ||
ProSiteProfiles | 866 | 1007 | 142 | 35.901 | ||
SMART | 866 | 1007 | 142 | 1.5E-38 | ||
Pfam | 869 | 1005 | 137 | 6.9E-28 | ||
SUPERFAMILY | 920 | 1255 | 336 | 1.09E-103 | ||
Gene3D | 921 | 1260 | 340 | 3.7E-149 | ||
ProSiteProfiles | 1012 | 1158 | 147 | 41.525 | ||
SMART | 1012 | 1158 | 147 | 5.2E-42 | ||
Pfam | 1013 | 1155 | 143 | 4.1E-28 | ||
SMART | 1161 | 1320 | 160 | 1.2E-42 | ||
ProSiteProfiles | 1161 | 1304 | 144 | 37.683 | ||
Pfam | 1163 | 1303 | 141 | 1.3E-26 | ||
Coils | 1201 | 1221 | 21 | - | – | |
Gene3D | 1266 | 1365 | 100 | 7.8E-39 | – | |
Coils | 1341 | 1378 | 38 | - | – |
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 LotjaGi6g1v0123700.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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