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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0220900 |
Transcript ID | LotjaGi4g1v0220900.4 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | GPI transamidase subunit PIG-U; TAIR: AT1G63110.1 GPI transamidase subunit PIG-U; Swiss-Prot: sp|Q9H490|PIGU_HUMAN Phosphatidylinositol glycan anchor biosynthesis class U protein; TrEMBL-Plants: tr|A0A072UQS3|A0A072UQS3_MEDTR GPI transamidase subunit PIG-U; Found in the gene: LotjaGi4g1v0220900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:52001689..52017338) extracted from Lotus japonicus Gifu genome v1.2.
CAATCAGAAGAGGCTGTGATCAAGGAGGAGATGATGAAGAAGAAGAAGGTGCAATGGTTTTGGACTTGGGTGGTTGGTTC CATCATTTTCAGGCTCATTCTCATATACTTTCCGAAAAACCTTAACCTATCTTCTCGCCCTGAAGTCGCTACTCCTCTCA CCAGCATCCGTCGCTGTCAGCTCTCCCTCTCTCACCACGCCCAACTTATTTTATATTTTCTTAACTCCTCTATGCTCTTT CCTCAAGTCCAATTTCCTTTTTTTGTAGTGGCTGAGGGTTACTGGTTGAAGCAGTCATCAATGTCACCCTATGCCGGTTT GTCACTTCATTTTGTTTGATTCAATCATCCAATCAAACTCCTATGTAAATTCATCATTATTAGTTACTATTTGTATTCTA AGAAACTTCTGTCTGCTTGCGTTATTAGGATCGATGTACCATGGCTCTCCTTTGCTATTGACACTTCTTGGCCCGCTCAC TGTTACAAGGTACGTGCGGTCAATTCTATAAGCTTTTGTTTTGTTGCTTATTTTAAATGGAACAAAGTTTCAAATGATTT GTGTCACTACTAACATCATAAGATAGTGAAATGATATCAAAACCAAAGTTGAATTCCCTATCCTATGATATTGATTGTCA AAACCAAGGTTGGATTCCCTATCCTACAATATTGTTTGATAATATAGTAACTATTAGGGAGTGAATGAGAGACAAGAGGT TATAGATAAGGAGAGGAAGTTTAGAGAGGCTTATCTTTGGTATTTGGAAAAGGATCTAGAGTGGGAGAGGGCCTGGTATT TCGAATACCAGGCTGTATCAACATTTTTTCTTCTGTATGAACTCATTTTCTTCCTATATTCTGATCCAGTTTCTATCAAC TGGCATCAGGGCTCCAATCTTGGAGCTGTGACTAAAAATCTCAAAGACAAAAGGTTGCTAAGAGGTCCCTCATTGACTAG AGTTATGGTCAAATAAGTCTTTACAAAAGGGTAGAGCAATCTTTACCCTTGAGCTAACTTTTGAGGTAGAGTTATGCATC CGAATTCTAAGATGGTATCAGAGCCTACCCTAAAATTGTTTACTGGGCCACGGTTAGTGTAGTATTTGCATTCTGTTTCT GAAAGTTCTGTTATGTTAGTTAGTGCCAGCTGGCTTTTAGCTTTAGCCGGTTAATCTGTTTTCTATTCAGCTCCTTATCT AAGAGCTTCTCTTTTACATTTCATTTAGATAATCAATATACAAATTTACAGTTTTCTCTTTTTCTCTTCCTCTCCAAATA CTGTTTCTCAATAAGTTATCGTGAGCTAACATCAATCCTCATCCATGGCTTCCCCTTCCAATCCCTATGTTTCAGCAGTG AATCAAGGAGTATCGGCTTCTCCTGTTTCTTTTTTTTAGTTGCCTACCGTGATGCGGATTGGGCTTTGGACATGGATGAT CGAAAATCTACTTCAGGATTTTGGGTATTCTTTGGTTCAAGTCTGGTTTCCTGAAGTTCTAAGAAGCAGGCCTTAGTTGC AAGGCCCAGTACTGAAGTAGAATACTGGAGCCTAGCAGTTACAGTAGCTGAGTTACTTTGATTCAATTCCTATCGACAGA CCTGAAGATTCCTTTTATGGCATCGCACATATACTGTGATAATATGAGCACCGTAGCTCTTACACATCTGTGCTTCATAC AAGGACAAAATGCATGGAGCAATATTTACTTCTTGTAAGAGAAAAGGTTCTCAATAAAAGCCTAATTGTCTCTCATATCC CATTCTTGGACCAACTGGCTGATATCTTCACAAAAGCCCTCTCCTCAACTCAGTTCACTAGTCTTAGAGACAAACTCAGT GTGGTAGACAAGTTTTCAACTATTCTACCACCTTGAGTTTGAGGGGGAATGTTAGTGTAGTTTTTGTATTCTGTTTCTGA AAGTTCTGTTATGTTAGTTTGATTTCTGTTCTATTCTTTAGTGCCAAGCTGCCAGCTGACTGTTAGCTTTAGGCGGTTAT TTTGTTTTCTATTCAGCTCCTCTTGTACATTTCACTGAGATAATCAATATACCGATTTACAGCTCTCTCTCTCTCTCTCT CTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCCAAATACCATTTCTCAATAGCCACACCTGCAAATACGGTGTCCTGTTCT GCAAACTTTACGCTCTACATATCTAGCTCTGGGTGTAAGGGGTGTGTTTTGAGAGGCCCCACATTGACTAGAGATAAGGC CAATAATTCATTATAAAGAGTAGAACCGTAGAACAACCCTCATGCCTGAGCCAAGTTCACATAGACCCAGGATTTGGCAT GTTTACACTACAAGGAACAGAACTGGAAGGATCAATAAGGAGGGATGAGGTGGCAGAGAGAGAAAGGAAATGCTGAGGGA TAGTTAGTTACGAGGAGTGTGGGATGTCTGAGGTGTGTGATTACATATAGGCACAGGTTAGCATGAGGGAGAGTGAGTTT TGGAATATTGCTATTAGCTAGAATGGAGAACTCTGGTTCTCTATATGAGCTTCAGCCTTCAGCTTTGGGCAGAGGTTTCT CTATTGTAATCCTCTGATCTTAATTAATAATACATACCTTTTCTTAAATTGTTGAGTTGTTCTGTATCAGTTCTTGACAT GGTATTAGAACCTCTATGACCAAGTGGTCTAGAGTTTGATCATTGTTGCCCTATTAATATTATCATATGTTGCACCTGCT ATGGCCAGGCCCAGGTTTGGCAAAGTCTACAATAGGAAGCCCAAGTCCACTGGCATTCTGTCAAATGACAAGGCCTTCTA GAATGTTAGGATTCCTAAATAACCACCTGATGAGGTGTTATTATTAGTATTGATGAGTAGTACAGCTAGGGGGGGGACCA CTAGGGAGTGAGAGGAATATATGTTAGTTATGGTGAGAGAATGAGGTAGGCTTGTTTTTGGGCTTAGGATTGGGAGAGAA GAGCACTCTCGAATTGCTCTGTTTATTTTCCTTTGTTTCTTGTATTCTCTAACACAATTTCTGGGTTTCATACCAGAAAT TCAGTATAATCAATACAATTTCAGTTCCAGTTTCCTTCATATTTTCTGGTACCTAACATTGGTATCAGAGCTCCCGATCC TGAGGGAGCTTTTATGGTGGTTACGCGAGCTGCAATGGAGTCCAGAGTTGATGACCTTGAGCGATCTGTTACCACGATGA AGGAGATGGCCACGGAGCAATTTGAGGAGCTCCGGCGACTCATCATGAATCGGGAACGGAGGCGCACGCGAGGAAGATCG AACACACCCAGAAACCGGCGACCATCGCGAGACAGAGAGCGAGATCGCGACGCTTCGTCTTCGCACTCCGGGTCGCGAAC CGGGTCACGAACCGGGTCGCGTACCTCAGACCACAGCAGGGAGCGATTCGATCACCCCCATCGCGTCCATTTGCGTGCTG TGACTGGAAGAAGGGTCGACATCCCCATGTTTGATGGAAGCGATGCTTATGGGTGGATTAATCGTGTTGAACGGTTCTTC CAACTCAGTCGTGTAGGGGAGGAGGAGAGGTTGGAGATGGTGATGATTGCCATGGAAGGGAAAGCACTGGGATGGTTTCA ATGGTGGGAAGAGCAAGCTGTGGAGAGAACCTGGGAACCTTTCAAGCAAGCCTTGATAAGGAGATTTCAACCCACCTTGG TTCAGAACCCTTTTGGCCCTTTGCTTAGCATTAAGCAAAAAGGGAGTGTCATGGCCTACAGGGAAAGCTTTGAAGAGGCA GCAGCACCCATGAGAGGTGCTGATAGGGAGATCCTGAAAGGAGTGTTCCTTAATGGATTGCAGGAGGAAATCAAAGCTGA AATGAAATTGTACCCTGCTGCTGATCTTGCAGGATTGATGGATAGGGCCTTGTTGATTGAGGAAAAAAATTCTGCTCTCA GAGGAGAAAAAGGAAAGGATGAGGACAAACGTGGGTGGAAGGATAAGGGTGGGTTTGGAAGCAAATCTTCAAGTTATGGG GGAAAGCACATAAGTTATAATTCCAGTCATCAGGGGAAGAACAATACTGGACAGGAAACCAAACCAAAAGAGACCCAGGA CGATGGAGGGAATGAAACTAAGAACCCTGAGAAGAAGTGGCAAGGGGGACAAAGACTCTCTCAAAATGAGTTGCAAGAGA GAAGTAGAAGAGGATTGTGTTTTAAATGTGGTGAGAAGTGGGGAAGAGAACATGTGTGTGCTAAGAAACATTTCCAATTC ATTCTCATTGAGGGAGATGAAGAGGAAGAAGAGGAAGACATATTTGAAGAAGCTGAAGATGGTGAGTTTGTTTTGGAGGG CAAAATACTGCAATTGTCTCTTAATAGTAAAGAGGGCTTAACATCTAACAGGTCTTTCAAAGTTAGAGGAAGACTTGGAA CAAGGGAAATCTGGATTCTGGTAGATTGTGGAGCAACCAGCAATTTTATCTCCCAAAATATTGTGAATGAACTAGACTTG GCTGTTGTAGCAACCACTGAATATGTGGTGGAAGTTGGAAATGGGGCCAGAGAGAGAAATTCAGGAGTGTGCAAGAATTT GTCACTGGTAGTGCAAGGAATCCCTATCACTCAACATTTCTTTATCCTTGGGCTTGGGGGCACTGATTTAGTCTTGGGAA TGGATTGGTTAGCCAGCCTTGGGGACATTGAGGCCAACTTCAAAGAACTTATTATTAAGTGGAACCTTCAGGGCAAGCAG TTTGTGTTACATGGAGAACCGCAGGGTAATAAAATTCAGGAAGCTTGCAAAAACATAAAGAGCACAAGGAAGAACAAAGA CCTGGATTTCTGCCTTTCTCATGAGTTTGTAGAAGGTATCAACATAGCAGTAGCTGAGGTCCCTGCTGAATTGAGAACCG TTATTGAAAAATTCCCTGTGGTGTTTCAAGAACCTCATGGGCTGCCTCCTAAGAGGCCTACTGATCATGCTATTATGCTG CAGCAAGGAGCAGCAGCACCAAACATAAGGCCCTATAGGTATCCATTCTACCAGAAAAATGAGATAGAAACTCAAGTGCA GGACATGCTCAAGAATGGGATTATAAGGCCCAGCATTAGTCCATTCAGTAGCCCTGCAATTCTAGTGAAGAAAAAAGATG GAGGGTGGCGTTTCTGTGTTGACTATAGAGCCTTGAACAAGGTTACTATACCAGATAAGTTCCCTATACCTATAATCGAT GAATTATTAGATGAGATAGGTTCTGCTGTTATCTTTTCTAAATTGGACTTAAAATCTGGTTATCATCAAATAAGGATGAA AGAGGAGGATATTCATAAAACAGCTTTTAGAACTCATGAAGGACATTATGAATATCTAGTAATGCCTTTTGGGTTATCTA ATGCTCCTTCAACCTTTCAGGCCCTCATGAATCAGGTTTTGAAACCTCATTTAAGGAAGTTTGTTTTGGTTTTTTTTGAT GATATACTAATCTATAGCAAGAGTTTAGAATTGCACATGGAACATGATAGGAACCTTATCTCTAGTAAGAGCAAGGATTA CTCTAAGGTTTACAAGCGTAGGGGTAAAGTGGGGATAAACATTAGTCCCACTACCTTAGGAGAGTAGGGTAACTAATTGT GAGCTGGCAGATTCCCTTTGCAGAGAATCAGGCCAGGTGGTGTGTATAAACACCAAAGGAAGAGAGAGAGAGAGGGTAGG CTAGAATTGGATTAATCTTGGACTAGGAGAGAATTGAAGCACTCTCGAAATTGCTTCTGCTATCACTGTTATTTCCTTTC TTTCTGTACTGTTTCTACACTGATTCTTGGTGATTTCACCAGAATCCTAGTAAATAATACAAGTTTCCTTCTGTTCATTC TTCATCTTTCTCTGAATACCTATCATTGGTATCAGAGCTCCCGATCCAAAGGGAGCTTTGTATGACCTTCACCCGCGCAC AAATGGAGAACCGTATGGAGAGCGTTGAGAAGAACGTCTCTGAGATGATGACTGTTGTCGACGAGCTCCGACAGCTGATG CTCCAACAGACGCGACACCGGAGCAGGGGCAGATCTAGAACGCCCCGTCGCCGTCACCGCTCGGGAAGTGAACATTTGAG GTTGGTGCTCCAAAGCTTGCAGGAAAATCACTTAGTAGCTAATAAAAAGAAATGTTCATTTGGCCAACCAGAATTGGTCT ATTTAGGCCATGTAATCTCCAAGCAAGGAGTAGCTGCTGATCCCTCTAAAATCAATGACATGCTGAATTGGCCTCAACCC AAAGAAGTGAAAGGGTTAAGGGGTTTCTTGGGTTTGACAGGGTATTATAGAAGGTTTGTGAGGAATTACAGCAAGTTAGC TCAACCTCTAAACCATCTCCTCAAGAAAAACAACTTTGAATGGAATGAGGAAGCCAGTCTAGCTTTTGCCAAATTAAAGA AGGTAATGACTACTGTTCCTGTGTTGGCAGCACCAGATTTCAGCAAGGAATTTGTGCTTGAGACTGATGCATCAGGATAG GGGCTTGGAGCTGTTTTGATGCAAGAAGGGAGACCAATTGCATTCATGAGCAAGACTTTATCTGACAGAGCTCAGGCAAA ATCAGTATATGAAAGAGAATTAATGGCTGTGGTTTTCGCAATCCAGAAATGGAGGCATTATTTACTTGGTTGCAAGTTCC TAATCCACACAGATCAAAAGAGCTTAAAGTTCTTAGCTGACCAGAGATTGATGGGTGAAGATCAGCAAAAATGGGTTTCC AAATTGATGGGTTATGATTTTGAAATCAGGTACAAACCTGGAGTAGAAAACAAAGTAGCAGATGCCTTGTCCAGAAAAAT GCAATTTTCTGCCATCTCATCTATTCAGTGTGAAGGCTGGAATGACTTAGAAGAAGAGTTATTGGCTGATGAAAAATGTA AAAAAATCATGCAAGAGCTATTGACACAAGGGCAATCTCTAGCAGGGTATCAATTAAGGAAGGGAAGACTATTTTATAAG GACAGAATAGTGTTACCAAAGGAGTCCAGCAAGGTTCTCACCATACTCAAAGAATACCATGAGTCTGCTCTTGGAGGCCA TGCAGGGGTCTTTAGAACTTATAAGAGAATCTCAGCTCTATTTTACTGGGAAGGGATGAAGATGGACATTCAGAAATTTG TGCAAGATTGTGAGGTTTGCCAGAGAAACAAATATGAAGCATTGAATCCAGCAGGTTTGTTACTACCTCTTCCTATACCA TCACAAGTGTGGTCTGATATTTCTATGGATTTCATAGGGGGCCTTCCTAAGGCAATGGGGAAGGACACCATCTTTGTGGT GGTTGACAGGTTCACCAAATATGCCCATTTCATAGCTCTCTCACACCCCTATAATGCTAAGGAAGTGGCTGAAATATTCA TAAAGGAGGTAGTAAAGCTACATGGGTTTCCCAATACCATAGTTTCTGACAGAGACAGAGTTTTTCTTAGCACTTTCTGG ACTGAACTCTTTAGATTGGCTGGAACCAAACTGAAATTTAGCTCTGCCTACCATCCTCAAACAGATGGGCAGACCGAGGT AGTAAATAGGTGTGTTGAAACCTATCTCAGGTGTGTGACAGGAACAAGACCTAAGCAATGGCCAAGATGGTTGTCTTGGG CAGAATTTTGGTATAATACCAACTATCATTCTGCCATCAAAACCACTCCCTTCAAGGCCTTATATGGGAGAGACCCTCCT GCTATCATCAGGGGAACTGATTCTGTCACTTCAGTAGAGGAAGTGGAGAAGCTTACTGCTGAAAGGAACCTTATGCTAGA TGAACTCAAGGAAAATTTGGAGAAGGCTCAAAACAGAATGAGACAGCAAGCAAATAAACATAGAAGAGACATTCAATTTG AGGTAGGGGATCTTGTGTATCTCAAGATTCAACCCTACAAACTCAAGAGTTTGGCCAGGAGGAAGAATCAAAAGTTGAGC CCTAGATACTATGGTCCTTATCCTATAATAGAGAAGATCAACGCTGCTGCTTACAAGCTTCAATTACCAGAGGACAGCCA AGTTCATCCAGTATTCCACATTTCTTTGCTCAAAAAAGTAGTGAAGGAGGGGATCGTCAGCCAACCATTGCCCAAAGATC TAAATGAAGGGTGGGAGCTTCAAGTAGAACCTGAAACCATCTTGGATGCCAGACAGAATGACCTTGGAACCACAGAAGTT CTAGTGAGATGGAAGAATCTGCCAGCTTTTGAAGATTCCTGGGAAGAATTGGACAGATTGATAGCACAATTTCCAGACCG TCACCTTGAGGACAAGGTGAATCTTCAAGGGGGGAGAGATGTTGCACCTGCTATGGCCAGGCCCAGGTTTGGCAAAGTCT ACAATAGGAAGCCCAAGTCCACTGGCATTCTGTCAAATGACAAGGCCTTCTAGAATGTTAGGATTCCTAAATAACCACCT GATGAGGTGTTATTATTAGTATTGATGAGTAGTACAGCTAGGGGGGGGACCACTAGGGAGTGAGAGGAATATATGTTAGT TATGGTGAGAGAATGAGGTAGGCTTGTTTTTGGGCTTAGGATTGGGAGAGAAGAGCACTCTCGAATTGCTCTGTTTATTT TCCTTTGTTTCTTGTATTCTCTAACACAATTTCTGGGTTTCATACCAGAAATTCAGTATAATCAATACAATTTCAGTTCC AGTTTCCTTCATATTTTCTGGTACCTAACATCATAAAAAGTTGAATTTCAGCACATGGTAAGTGAGTCTGTGCATTATCC ACGCTTCAAGTCCAATGATCTTGCGTGAGGGAGTGTGTTAGAAATATAATATAAAAGTATAAACCCATTTTTGTGTCTTC ACCCAATAGCTTGAGGTTTTAAGATAGTTGGTTCATGACAATTCTTAAGATGCATGAGGAGAGATAGAAGGGACACGAGG TTTGCAGGCCAAGCTACCACTGCCAGAGCCGCTGGGCAAGATAGCAGATGCAACTTCAGAAACTTTCGCCGATGACTAGC ATGGTGGCCAAGCAACCACCAGAAAACTACTAGATTGGGCTATTGATGTGGTGGCTAATAGGATGGTGCTAGACTGGCAG CGACAATGAGGGAATGCGTACATGGGAAGCACGAAAAAGGAGAGGCAAGATTGGAACTGCAATTATTGAGCTCAATTTTT AACCTGTTGGGTTAAACTCCGAAGGAGATAATCTTTGAAATCAAATGAATTAGGCCCAATTTTTCAGGTGCAGCTTGTGG AATAGAAGTTTGTTTCCATGAAAACTTTCATCCATGCATTAATCATAGGAGGTTCCAAGCCATTGCTAAAACTTTGGAGC TAGCTACTATATTAGGAACTGAAGAAGAGCTGCAAGACCCCATCTTTCATTTGTATCATGGTTAATATGTTTCAAACTGT GGGACCTGGGGGGGGGGGTTTTGTTTTCAGCTACGATAAGCTATTCACCTTGAAAGAGGGAGGGGGGGGGGTAGAGAGTA TTGACCTTAATTTGTTTTCAAGAATATTGAGTGACTCTTAGAGTGTATGTTAGAAAAGTTAGTTAAGGGATTTAGTTAGA GATAGGAGGTTATAAATAAGAGAAAAGAAGTTTAGAGAAGCATATCTTTGGTGTTGTAAAAGGACTTAGAGTAGGAGACA ACCAATTCTCGTGGCTGTATCAACAATTTTCTTGTGAATGAGCATATTTTCTTCCTGTATTCTGATCCAGTTTCTATCAG ATATAATGACATTTGTAAACTTTGTTGGTGATACAGAATTGAAGGACAGCCTGATCATTTTTTATGCAGGTAACTTTCTT AGCCTTTTACTTGTAATTAATATTATTGATTTCTGTATTTCCTAATCTTATGAACCATAATTGTTTTCATCCTTGTTGCT TGGTGAGTATATTTATTTTTGCTGTGAGAAAACCATGATTTTGCAACTACTCCTTTTGTTTCTTATTTGTGCCTGCTTCA GGAATAAATGATCCTTGCATGTGATCAATCATCTTTATTGCTTTTATAAATTATAATCCAAATTATACAGTTCTTCATCC TTATTATTTTTTTTATGTATCTTGTATATTTGGTTCTTTGCCCTTCTTATTTTCTTCTGACGTGCATGGTCAACGTTAAA TATCAATTCATTTCTGGATATAGTTTGGTTTTTGTGATTGCAGATGTTGTCACTGCAATACTCATTCGTGCTGCTGGTAA AAACCTTCAGGTGGCATACAGTTCAAGTTTACAATTCCTCGACCTTCATCAGTTATCTGAAAATTCAGGTCGCTAACATG ACCTTCAAGTGTGATTCTTTTGTTCAAATTTCATATGTTTTGGTTGGGTGTGCTAATTCTATTTTTACTTAATATTTTAA GTGATAAATACAATAACTGTACAAGTAAGAAGGCCCTTTGCAGATATATAGATATATTATACCATCAATGAAAGAGGTTC TTTATTTCATACTAGACCATATTATGAGATAATCATTGCATGGTACTTGCATGAAGATTGCTGGATAGTACCAACAATTT TCTATGGAAGATGTGGTGTTGCTTTTGAGTCTTGGACCTTGGTTTGTTTTTCTTTGTATCTTATGTAGAGCAGATTAAAA TTGAAAGAAAAAAAGAGGGTGAATGGAACACCTCATTGATCATTATCTTGGCTTTAGACATCAGTTTCTGAATAAATTTA GGATCAGCGCGTAATTTTATCGATAATGTTGAAATGTGTTGACAAAATTACATGCTTGTGTGGTTGCTGTTAACAAATGG ATGGTATCATGGTGAAGACTTATATGTCACTGTGGTTTTTGGTTATAAAGAAAGTTAAGATATCTAGCACTCTTTTCAAG GATAACATTTTATTGAATTGCTGGAAGGTAAGATGATAGTTGAAATTTGCAAATATTGTTCTGCAGGGCAAGTTATGATC ATCTTATTTAATGTTTAAACTATTTCCTTCTGAGGATGTGGATCTTTTTGAAACTCTGCAAATTCTTATTTATCCCTTTT AATAGCATCTTCATTGTTTGCAGAGGTTCTTCCTTCAGGAGATTTTGCTGCTCTGGTATACTTATGGAATCCTTTTACAA TTGTTGCATGTGTTGGTCTATCCACATCTGCAATTGAGAACTTGATGGTTGTGTTATCACTTTATGGAGCATGTACTAGT AAGCATCTAACAACCTATGGTTTTAATTTCTGAATTTTCTGATATTTAATTGATTCTACTGACGTGCTCCTTCATTTAAG TTTAATTGTTATCTGTTGATTGTTTTCTTGTTATTAAATATATGGTCCCTTATATTGAAAAAAAAATAGCATCGTATCCT TGTGTGAGAAGTGATGGTTGGAATCTCCACCGTCATCACAGTGCCTTCTTTCTTCCTGTTCTTGTTGATCTGACCTCTGC TTTCTTTTCCAAGATTTCTGACCCCTGATCCTTATTTCCTTTCTATACCAATTTCTGACTTCCTTTGATCCGATTCTTTG CTCTCATCCTGAGATGTACCACTTACTCTAATCCCAAATCACTTTCTGCTCACTCTCTTGAGCTTAAATTGATATATCTT GTTCCATTTCTAGCTAGAACAACTTGAGCAGTGACTTCACAAACATCCACCATGTCACTTTCTCGTTGCTCCTTTTCCAG CAAAACCACCAACTGAGAGCACCCCTCCTCAGCCCCATCACAGTGCATGATAGCTTCTCTTTGGGTACTCTAATTGCCTC AAAATACTTCTCTGCGTTGATCAGCCACCGGTAAGCCTCCTTCTATCAAATGTTGGAATCATCTCAAGAAGATTTCTCAC AACTCCTTTCTTGATTGAATTTTGTGTATAGCTCATTGGATTTGAGAGCTCTGATACCAATTGATAGGAACTGGTACTTT ATTTTTCAACATAGGGAAAATCTCCCTTGATTACTTATACAACTAGCAGAAGAGTCCCTCCAATGCTCAAAGGCCCCAAC ACTTCAAAATGACAAGACATCACTCCCTCTCAACCCCTCCTTCTATTAATAGGCAAATCATCTCAAGAAGATTTCTCACA ACTCCTTTCTTGCTTGAATTTTGTGTATAGCTCATTGGATTTGAGAGCTCTGATACCAGTTGATAGGAACTGGTACTTTA TTTTTCAACATAGGGAAAATCTCCCTTGATTACTTATACAACTAGCAGAACTTCAAGAGTCCCTCCAATGCTCAAAGGCC CCAACACATCAAAATGACAAGACATCACTCCCTCTCAACCCCTCCTTCTATTAATAGGCAACATGCTTTACTTCTATAAT CACCCCAGCCTCCTAGCTAAATGTCAATTCTTTAACTAACTATCTCAGGAACAACCTATAATTTTCCAGTGTTTTTGTCC TATTTTTTTCTGCTTATCTAAAAATGTTTCCTGGTCTTTGCCTCTTAAGTCGCTTTTGGACAGAAAAAAATACGATTTTT TTGGTTAGTGATAAAACCAATAAAACAAGACTACTAATAGGGGCTGAACCCATGTCCATGTACGGATGTTCTACCTATAA AGAATGAAACTTTTTTTGTTATTTTACTATCAGTTCATGGTTTCTGGTGTATATTCTAATAAATTTGATGACTGATATCC CTTTTGCCTTTAATTTAGCTAACTATGTAATAGAAGAATTCCATCTTATTAACTTTCATTTTTTTCATTTTTTTTCTTGC TTGCGTGGGCCCTATTTCATTGGTAATTATTACTTTTTGAGTTTACTAATCTTCATCAAGTTAATATCCACTTGAGTGAA AATGTTGCTGATTGCTATATTCAGCAAGCAGATCAGATTTTGGAAATGCTAACAAAGACTTATCAAGAAATTATGTAATG CGAATCATAAAAAGATTGAAACAGCATCAATCAAACATATTATCATTAACTGCCTTTTGATCTTTTCACCTAATTCTTCG TTTAATGTTGAAACTGTACTGATGTAACAGGACTAGCTCCTGTGGCAGCTTTTGGGTGGGTCATGGCTACACATTTGTCT CTATACCCTGCAATCCTTATTATCCCAGTATGTTATTGCTTGAACTCATTACATAGCATTTGCAGCATATCCTGCAATTC TTTGCAGTCTTCTTTAATTTATCATTTTATTTATTTGTAGATACATCTATTATCTTATTTTGCAGGTCATATTATTATTC GGGTATGGTCCTGATGCTCCTCCTAGGAAATTATTCTGGCTAAGGAAAAATCATAAAGTTGACAATTCCACCTCAAGCAA TAGAAGTTGTTTAGAAGAAGTGAACAATGAGCCAAGGGAACCATATTTGTTCTCATGGAGGCCAGTTGTGCATTTTTTGC TCTGGACTTTACTGTGGTCATCCTATGTTTTAGTCCTTTGTGGCATTTATGTCCAACATCATGGTGGCCTACAGGAGATG CTCAAAAGGTATTGTTTAAATACTATGACCATTATTTATTTTGGAGGACAATTTTGCAAGTGCCAAAACATATCTGAAAA TTTGTTTGCATGCTGAACCCAGTGGCTTCTTTTTGGTAATTTTGAAAGCTCATTATTATTGTAGCTGCCAGAATTTTGTA CTGAGTAGCAATTAAAGAGCATTGCTTATGGGTGAGGTTTTTAAAGAATTAAGAGTCTACAGAATATCATTGTGAAGACA AATACACCTTTAAAGCGACTACAAAGAAATTGCAGAAGTATGGCTTATAGTCACTGCTATGCACGTTTATTTAGTCATCT AGAAGTTTCATAAAAACCTCTGCTGCCAAGCTGACTCCAAGAATTTGGAAAATTATAGGTCTACATTACTGTATGTAGTT TGCGAAGTCATATCATTCATTTCTCAATTCAGTCACCTGTATAGCATTTATTGCTTGTCTATACACGGATTTTTCCTTCT TTTGTTCAAAAAGCATTATGCATGATTTTCAACATCAGCGTTTTGGAAGTAACTTCTGATTCTGGATGATTTAGTTCGAT GACTTTACTGTATGTTGCTCCTTCGATGAACATTGCTCTTTGTAACATTGTGTGAATAAACATCCAGCTTGTTTGTGCAG AACCTATGGCTTCATTCTCACCATACAAGATCTATCTCCAAACATTGGAGTTTTGTGGTACGTTCTATAGGAAGGATCTC TCCCTCTTAATTTGTACTTGCTTGACTGTTTGAATCCTATGAACTTTAGCACTTATTAGTTCTCATGATGTTTGAATACA GGTACTTCTTTGCAGAAGTTTTTGACTTCTTCAGAGATTTCTTTCTGATAGTATTCCATGGAAATATTTTGTTGATGATA GTGCCATTAGCCTTAAGGCTTAATCATCGGCCATGCTTTCTCGCTTTTGTATATGTTGTGATTTCTTCTATGTTGAAGTC TTATCCTTCGGTAAGTTGTCTATTTTTCCATTAATTTATATTTTTACCTAGACTGAGATTAGCTCTTAGAATTTAAGGGT GAAGCCTTAACTAGGTGTTGCTGATTTATTTAAGGAATAGATGCTATCATCTTTTTAAATGTTTAGTCCTCGAAATCTTA AGATCCTACTGTCCCAAATAGAAATTGCACATGAACATCTGCACACTTTGCACATGCACATATACAAACTTGGAAGTGAA AAGTTCAACTGGAAATGTGGACCTATAAATTTGAGAGAAGTTTGAAAAGTGCTGAAATTTACGAACTCTATGTTCTGTCT ATGACTTAGTATAACCAGATGTAAATTCTGTCAAAGTTTTCCTTTTTTTTTTGGTGGTGAATTTGTATTTCTGTAGCAAT CTAATTGATCCCTTTACTACCTGTTTTACATTTTAACCAGGTTGGTGATTCAGCTCTATACTTGGGTTTGCTGGGGCTAT TTGCTTATGAACTCAAAGGTAATTTCTCTTTCTAACGTCTCACTGACCTTCTATATTGATCATAATCTCTTCTTGAATAA TCAAATTCCTTGATTTTCAGATATGCAGTTTTCATTCTTCCTGTTTTCTGGCTACATTGGAGTTTCACTTCTTAGTCCTG TGATGCACAACTTATGGATATGGAGGGTATGGTGTTTTGGGTTGATCTACATTTTCAAATAGATTACTTATCTTGTTATC CTCATTTCCTCACATGTGTAATGAAATTGGCAGGGTACTGGGAATGCAAACTTTTACTTTGCTACTGCAATTGGCTATGC TTGCTTGCAGGTGCTTTATCTCTACTCATTGATATTCATCATGTTAATTTTTATTGGTCTCCTTTTTCTCTGCTTGTAAA TTATAATTGCCAAACTATATCTACCTCACACATCTTACTTTTTCATGTTCAAATTTAAACTATATGCATATTCATTTTAA GATAATATCAAACATTGGGGGAGGAATCAACCCCATCCCATTTTCCTTAAGTAATAGCCAACTTAGCTACACAGGTTCCT AGTTTGACGCAAAGTAAGAATTAAGCATCAAAATTCACTATTAATCTCTCACTCTAATGGAAGACTTTATTTACATTGAA AAATGCTTTTATCTTAAAACCTTGAATCAGTCCATCTTTTAAGTTTGCAAGTTGTTTCCAAATTAAATGATTCATAACGT TGTTTTCCTGTAAACTTATGTGAGCTTCTCGCAGATCATTCTGGTGGTTGAAAGTGTTAGTTCGATGCTCAATCATGACA GAATGCTAACAAAGCTTTCTACTGCAAAGCTTCAAAATGCCAAATCCTGA
CDS sequence (LotjaGi4g1v0220900.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATGAAGAAGAAGAAGGTGCAATGGTTTTGGACTTGGGTGGTTGGTTCCATCATTTTCAGGCTCATTCTCATATACTT TCCGAAAAACCTTAACCTATCTTCTCGCCCTGAAGTCGCTACTCCTCTCACCAGCATCCGTCGCTTGGCTGAGGGTTACT GGTTGAAGCAGTCATCAATGTCACCCTATGCCGGATCGATGTACCATGGCTCTCCTTTGCTATTGACACTTCTTGGCCCG CTCACTGTTACAAGAATTGAAGGACAGCCTGATCATTTTTTATGCAGTTTGGTTTTTGTGATTGCAGATGTTGTCACTGC AATACTCATTCGTGCTGCTGGTAAAAACCTTCAGGTGGCATACAGTTCAAGTTTACAATTCCTCGACCTTCATCAGTTAT CTGAAAATTCAGAGGTTCTTCCTTCAGGAGATTTTGCTGCTCTGGTATACTTATGGAATCCTTTTACAATTGTTGCATGT GTTGGTCTATCCACATCTGCAATTGAGAACTTGATGGTTGTGTTATCACTTTATGGAGCATGTACTAGACTAGCTCCTGT GGCAGCTTTTGGGTGGGTCATGGCTACACATTTGTCTCTATACCCTGCAATCCTTATTATCCCAGTCATATTATTATTCG GGTATGGTCCTGATGCTCCTCCTAGGAAATTATTCTGGCTAAGGAAAAATCATAAAGTTGACAATTCCACCTCAAGCAAT AGAAGTTGTTTAGAAGAAGTGAACAATGAGCCAAGGGAACCATATTTGTTCTCATGGAGGCCAGTTGTGCATTTTTTGCT CTGGACTTTACTGTGGTCATCCTATGTTTTAGTCCTTTGTGGCATTTATGTCCAACATCATGGTGGCCTACAGGAGATGC TCAAAAGAACCTATGGCTTCATTCTCACCATACAAGATCTATCTCCAAACATTGGAGTTTTGTGGTACTTCTTTGCAGAA GTTTTTGACTTCTTCAGAGATTTCTTTCTGATAGTATTCCATGGAAATATTTTGTTGATGATAGTGCCATTAGCCTTAAG GCTTAATCATCGGCCATGCTTTCTCGCTTTTGTATATGTTGTGATTTCTTCTATGTTGAAGTCTTATCCTTCGGTTGGTG ATTCAGCTCTATACTTGGGTTTGCTGGGGCTATTTGCTTATGAACTCAAAGATATGCAGTTTTCATTCTTCCTGTTTTCT GGCTACATTGGAGTTTCACTTCTTAGTCCTGTGATGCACAACTTATGGATATGGAGGGGTACTGGGAATGCAAACTTTTA CTTTGCTACTGCAATTGGCTATGCTTGCTTGCAGATCATTCTGGTGGTTGAAAGTGTTAGTTCGATGCTCAATCATGACA GAATGCTAACAAAGCTTTCTACTGCAAAGCTTCAAAATGCCAAATCCTGA
Protein sequence (LotjaGi4g1v0220900.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MMKKKKVQWFWTWVVGSIIFRLILIYFPKNLNLSSRPEVATPLTSIRRLAEGYWLKQSSMSPYAGSMYHGSPLLLTLLGP LTVTRIEGQPDHFLCSLVFVIADVVTAILIRAAGKNLQVAYSSSLQFLDLHQLSENSEVLPSGDFAALVYLWNPFTIVAC VGLSTSAIENLMVVLSLYGACTRLAPVAAFGWVMATHLSLYPAILIIPVILLFGYGPDAPPRKLFWLRKNHKVDNSTSSN RSCLEEVNNEPREPYLFSWRPVVHFLLWTLLWSSYVLVLCGIYVQHHGGLQEMLKRTYGFILTIQDLSPNIGVLWYFFAE VFDFFRDFFLIVFHGNILLMIVPLALRLNHRPCFLAFVYVVISSMLKSYPSVGDSALYLGLLGLFAYELKDMQFSFFLFS GYIGVSLLSPVMHNLWIWRGTGNANFYFATAIGYACLQIILVVESVSSMLNHDRMLTKLSTAKLQNAKS
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 |
---|---|---|---|---|---|---|
Phobius | 1 | 6 | 6 | - | – | |
PANTHER | 4 | 468 | 465 | 8.1E-196 | ||
TMHMM | 7 | 25 | 19 | - | – | |
Phobius | 7 | 27 | 21 | - | – | |
Pfam | 17 | 434 | 418 | 1.1E-109 | ||
Phobius | 28 | 62 | 35 | - | – | |
Phobius | 63 | 81 | 19 | - | – | |
TMHMM | 63 | 85 | 23 | - | – | |
Phobius | 82 | 92 | 11 | - | – | |
TMHMM | 92 | 114 | 23 | - | – | |
Phobius | 93 | 114 | 22 | - | – | |
Phobius | 115 | 154 | 40 | - | – | |
TMHMM | 155 | 177 | 23 | - | – | |
Phobius | 155 | 178 | 24 | - | – | |
Phobius | 179 | 189 | 11 | - | – | |
TMHMM | 190 | 212 | 23 | - | – | |
Phobius | 190 | 215 | 26 | - | – | |
Phobius | 216 | 264 | 49 | - | – | |
TMHMM | 262 | 284 | 23 | - | – | |
Phobius | 265 | 285 | 21 | - | – | |
Phobius | 286 | 296 | 11 | - | – | |
TMHMM | 297 | 319 | 23 | - | – | |
Phobius | 297 | 318 | 22 | - | – | |
Phobius | 319 | 323 | 5 | - | – | |
Phobius | 324 | 346 | 23 | - | – | |
TMHMM | 324 | 346 | 23 | - | – | |
Phobius | 347 | 352 | 6 | - | – | |
TMHMM | 353 | 372 | 20 | - | – | |
Phobius | 353 | 372 | 20 | - | – | |
Phobius | 373 | 391 | 19 | - | – | |
Phobius | 392 | 412 | 21 | - | – | |
TMHMM | 395 | 417 | 23 | - | – | |
Phobius | 413 | 423 | 11 | - | – | |
Phobius | 424 | 443 | 20 | - | – | |
TMHMM | 424 | 446 | 23 | - | – | |
Phobius | 444 | 469 | 26 | - | – |
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 |
---|---|---|---|---|
Cellular component | Integral component of membrane | The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. | ||
Biological process | Attachment of GPI anchor to protein | A transamidation reaction that results in the cleavage of the polypeptide chain and the concomitant transfer of the GPI anchor to the newly formed carboxy-terminal amino acid of the anchored protein. The cleaved C-terminal contains the C-terminal GPI signal sequence of the newly synthesized polypeptide chain. | ||
Cellular component | GPI-anchor transamidase complex | An enzyme complex which in humans and yeast consists of at least five proteins; for example, the complex contains GAA1, GPI8, PIG-S, PIG-U, and PIG-T in human, and Gaa1p, Gab1p, Gpi8p, Gpi16p, and Gpi17p in yeast. Catalyzes the posttranslational attachment of the carboxyl-terminus of a precursor protein to a GPI-anchor. |
Expression pattern of LotjaGi4g1v0220900.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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