Pre Gene Modal
BGIBMGA005071
Annotation
PREDICTED:_baculoviral_IAP_repeat-containing_protein_6_[Papilio_machaon]
Full name
Baculoviral IAP repeat-containing protein 6
Alternative Name
BIR repeat-containing ubiquitin-conjugating enzyme
RING-type E3 ubiquitin transferase BIRC6
Ubiquitin-conjugating BIR domain enzyme apollon
RING-type E3 ubiquitin transferase BIRC6
Ubiquitin-conjugating BIR domain enzyme apollon
Location in the cell
Cytoplasmic Reliability : 1.111 Nuclear Reliability : 1.706 PlasmaMembrane Reliability : 1.034
Sequence
CDS
ATGAACTTTTCTGTAACTTCTCTCACGTACCACAGTAATCTTAATATTATATTGGTGAAGACTGATGTGGGTAGTGTACACGTTTTGGATGTGAATTCGGGTGTGATACTGCAGTCTTCATGTCTGTCAGCGGACGAAGCTGGTACGTTGGGAGTAGAGTACGCTTCCGGAGCGGACCGAGTTTTTGTGTGGGATAGTAGTGGTATTGGTGCACGCACTGATTACAATGGAGTGTTATTACTTCATACAGCTCTGCAACGTCCCCTGCCAATTTCTCATACTGAAAAAAACATAAAGATTGAACTTGTCTTATCTGAGGCTGTGCTCCTGTATCAATGTCTTCAGAGCATAGATGCACATTTTATAGTAGGGCTTTCTGATTTTATCACTGAGTTGAAAAGTGCTATTGATGCTGAACCAGTCCGAAAAGGCGTCAAAGCCCAAAAGTGGAGTACAGTAACAATATGCCTGTCACTATCAACTTTACGACTGGTGGCAGCTAGTGTTGTCCAAGAGCTCAAAGGACAGAGCCGAAGAATTCCGGCCTTAGCTATTGCATCAGCTGTAGGGCAGAGAGCCAATGAACTAGATCCATCATTACGGGATGATGAGAATAGACCCTTGATGAGCTCCGAGGCTGAAAGGAAAGAGACATTCAAAAGATGGCCCCACATGGATTACAAATGGGCTCTCCCAGCTCGTATGGCACAGGCAGGATTCTACCATCAACCATCACCCAGTGGCGATGACCGCGCCATGTGCTTCGCATGTAACGTGTGTCTCGTTTGCTGGGAGAAGAGTGATGAGCCTTGGGTTGAACATGAGCGCCATTCACCTAATTGCTCCTTTGTTAAGGGAGAGTACACACACAACGTCCCCATATCAGTGACAAATGCTACAGCTTGTGCAGTACCATGTCCCAATGTAGCAGTAGTGTCTAAAGGTAACACCGGTGATCTTATCGCTACAGGCACCGTTGAGGGAAAAGTAAACATATGGAGATTCGATTGTGGACTGAAATTAGTCAAATTTGTACATGTTTCACCATATGACTCAATTTTCAGTGGAATTCTCACTACAGATTACAATAAAGTGTGGTCTACAAGCTTAGAGAAAGATTCTTCTACATATAGCATAGAATTGACTGCAATGACTTTTGCTGGAATGACAACTCAATCTGAGAACTACACTCAGGGACAAAATCTAGAAAACATTGAGAAAGATCCAAATATAAACAAGACCAAACCATCACTTATATGTGCTGTCATTATAACGAGAACAAATCTCCCTGAACCCACTTTACCTGTAAAAGATGAAAGTAGCAAAGCCCTCTTCGATTCTGGAGCACTGTCTGAAGAAAAAGTACAAGCAATGAACGATCGAAACGAAGCCGAAAATAGCATGGGACTGACAGAAAAAATACTGTTTTTGCTCACTTATGACATCCACAGTTCCTCAGCAGGGTCCATCACTGCTGTTGTACCAACATCCAATAACAGTGCCAATTCCAAACCAGGTGGTAGCAAGAAAGTTTGCTCAGTAACGAGGACTGACGATGCACATATTTATGACGAAATTTACTTCCAATATTCTGATGATGACACAGAACTACCACAGTGTACTAATACACTGATTGACGAACAAATAAGTAATGTAATAAATTTGAATGCATCATCAAGTAAGGACGACTGTAAAAATTGGGGCGAAACTAAAAAGATTTTTTTAACGAAGCATTTTAAAGTTATGCCACCCCCTCCACCTTCGGCATTGTTGCCTGAACTGCAAGAAGCTGGCCCAGTTAGTATCATAGATATAGTAGGAAAGAAGATGTCCCAAATTAAAAACTGGAAAAGTATGGAGAGTGCTGGTACCAAAATAGTTGATCAAACAGATGCTGTCTTACAAGCTGACCCTTTTGTTCATTATCTGAATATGAGTGGACCTGTTGAAATTCCCGATTTTAAATGGTACGAAAGTGGAGAAAGTACTGAGAAGATCAAGTTTACTACAATTACTGGAAGTAGCAAATTAGGAACTCAAACGGCTGCAACAAATACGAATGACGGGTTTGAAAATGATCCGCCTCAGGAAGAAGCTATCTCTCACGGAGTGGCAGTACAATGTCTGACATTTCCGTCTACGTTAACTCTAAAAGATAATCCCAGAGTGACACATTTGATGCCCACGGAAGATAGAGATCATTTGTTTGTTGTTATATCTCATGTTGATCTTCAAAAACTAAGACTTGAAGACGATACAGACAATGATGGGGATACGAAAATGGAAGTGGATGATGCAGACTTGGAAAAAAAGGCGGATCTAAAAGCTTATTTCATCCTATATAGGCTAAACACTAAAACTTCAATTTACACATTAGAAGATAATCCAATGTCAATTCAAGAGTTACCCTACAATGAAACTCCAATAGATTTATGTTTATTGCCACCGGATAAACATGAACAGTACTCCTTTGCATCTGTTGGTATTGATGGTTGTTTGAGGTTGTACTCTTTGCCAGACTTCAAAATTATATCTGAAAAACGAGTGCCAAAAGGACCTTTCACATCAGTAACATACTGTGCTTCAGTGGAAAGATTGAGTGTGGCAACTAAACATGGGATCATTTATTTCTATGCACTTAATAATGGAGAAAATGATTCAACTGGTGATATTGATGATGACGATTTTGCTAATATTGATTTTGACATGCTTCAACGAGCACCTCGAGATGAAGTTTGTGGACCAACACCTACGCCTATTATAATAGCAAACAAATCTGAACTAGATACTAATGATTTGGAAACTTTGATCAGCGTAACGGGGTTGTATGGTACTAATACGACTGTGCCTTACAGTGCAGTAGTGCCTGGTTTCTGGTGTGAATTATCACCTGCACAAAGACCAACATCGGATCACCAAAATAATAGAACTTGGCGATTACAGAATACGTCTTCAACTTGGGATGAACATGTTCTGGAGTTGACATTACCATACAGTGTCTCGTTAGCTCATATTGAATTTAGCTTCACTTTGCATACGGCATCTACAAGTAGCTTACCAATGATTTTAGTAACACTTTTGAAACAAAACTTACAGGGGATTGGTTACAAAAAAGATGCTTCGTTTGAACCCAAATCTGATTCCCCAGAACAGAATACAACTGAGGAGCCAAATGTCCATAACACAGATATACCTGTAAACAGTGAGGAATATTTACAAGCACAAAATGTTGAAATTTTAGCTGGTCCATTATTACTCTCTACTGGCTTAGATTTGACACAACAGTCTGGAACGTTGATACTGACAAGCCCTAGATTATATAGGGCGAGGGGTAGAACGTTTTTAATCCACATTAAGACTTTATTTGATCCAGCAAAGGATATGAATAAAGCCAATACGAAAACTGGGGAAGGATCTAAAAAATCTGGATTCATTGGATGTGACTGGTTGCATCAGATCTCTTTAACTGTTCGCTCAAGCCCTCATACCAATGTGCCTATGGAACGTCAGCAGAGGATAGCTATGCTCGAATCTAATACATTTTTGAACACATTGTTTGAAATAGCTATAGACAAAAATGATATTAACAAGAGAAAACTCGCACTGGATCTCATAATATGGGTTGTGTCTATTAGACTTCAAAGGATGCGATTAGGATCTAGTGACAAAGTAAAGATCAAAAGTGTCGAAGCTAATCAATTAGAATGTATTAAAATAGTTGAGAAAAACATAAATTCATTAATAAAAACCTGTATTTTATGTGGAAACCGCAGTCTTGCCAAAAAATGTATGAAAATTATACTAGTAACCAGCGAGGGTGACAAACAAGTGCCTAGACCATGGATGTCGACTTTTGACGCGACGCTATCGGGCAGCGTCACGGAGTGCATTCCCTACCTGGGTGCGTGCGAGTCTCCGGGTGCCCTGCGGTGGCTGGTCACTCTGGCACAGCACTGCACGCATCGCTCCACGGCACCCGCCCTGGTCTCCCGGTGCCAAGTTCTACTTGAGAAAACAGCTCGTTGCCTGCGAGAGCGAGCTATCGTCTACCACGACTTGCTAAGAGCCAGATTTGGGCTGTACGGTTTGCCGCTGGAACGCACCCTGTTTGCAACCGAAGTACCGGAGCTTGGCCGGGGTACGCCCGCTCCCGTTACGTACGCCAGCGTACTCTCTGGCGATAATACGACACCACAGCCGCCACCACCACCACCGCCTCCAATACCGAAACTTGATCACCAACTGAAGGATTTACTTAATTTACCATTAGAAATCGATTTAAAAGCGACTCTGTCTCCGTCTGCGTGGTGGGCGCAGAGCAACAGCGTGGCGGTATTCGGCTCGGGGCTGTGCGAGTCCATGCCGCTGCACGTCACGTGTCATATCGCCTCCGACGGCACCAAGCTGGAGTCCACTGGAGGGAGACACTACCCTGCTGTGGTCAGCACCCTGCCTGGACCTGGCTCTGCAGATCCCAATCAGTTGTGGAATGTAATGAAGGAAGGTCAAGCCAAACAAACATCTCAAGATCCTGACTCATTAGAGGATGTGGAAAGTTCAATGATGGATTGCGATTCCCAAGAGAAATTAGAATTTTCGGAAGAAAAGTACTTTAAGGATCAAGAACAGTGCAACATACCTTGGGCCTCTCTGGTTACACGGCCGCCTCAACACACCCTCATTGTGGAAAGAATGCACTCGGGCGCTAGGAGATACATTATATTGGATTTCGGACACACAGTGCGACTTACTGATATCATAATTCCAGCGTGCCCCGATTTAGTAACACTGGGCATTGATATCTGGACCAACTGTGAAGAAACTAACTCGGTCAAACTAGCATATGCCACTGACATAACCAATAAACATCTCGTCCTCACTGATATACAACCTCCGCCTCTTTGCCGATATATGAAGATAACTACAATCGGTCGTTATGGTATGTCTGCCATGAAGTGTAAAATACCACTTGGCTGGTTCTATGGCGAGATAGCTGATATTGCTAATGTTCCAGCGTCCATTAATGCACTCAACGCACTGCACCAAGATTTGACTTGTAGATTCAGGTTGGCGACAGGCAAACTAATGGACCTCCTAAATCCGTATCTGGAACTGTACAATGGTAATGCAGTCCACATGATGTCTTACCTGAATAGTACAATGGATAACGAAGGAAAAGTTATAACAGCTTACCACGAGTGTATAGAGCTCCAGCAACAGATACATACATGTACTAATGTTTTGAAGAAACTGCAGAATAAAACAGATAGCACCCGAAGCATACCAGAGTTGATTGCAAAAGGAAAGGTGACCACTGAAGGTCTCCTTCAGATGTGCTCGACAGATAAACTTAGAGTTATCACAGAGAATATTGTGGATATGTTGCTTTATTTCTATTTCCAAATTGGTGAAATACAATACGAGGAGGTGACTCTGGAATGGTGTCAGAAAGTGACTCCGATGCTATGGGAGTGGAGCGGGCGGAACGCGGGCGCGCTGGCGTCGCTGTTGGCGCGTGCGTGCGGCGCCGCGCCCTGGTGGGGGCCGCACGTCGCCGACACCCTGACCGACGCCTTCGGGGCCTACGACGCACCGCCCATCGCGCTCGACAGGTGTCTGGTGCTGATAATGTACATGTGCCGTAAGAGCGTGCTGTCGGACACCGAGGGAGGCGTGTGCCCGGCGCTCGCGACCCGCACCCTGGAGCTGCTGCAGAGCGGGAGACCACAACCGGCGCTGACGGCTGCACTACTGACTGCCTTGTCAGCTGTTCTAGATGCTGTGTCTGCAGTCACCAATAAACATACCAGATGGGACTGGGTGACGGGCGGGCGGCCCGGCGCCAGCAGCGGCGCCGACACCAGCGCCACGTCGCCGCGCGTGGCCGACTGCCGGCTGCACAGGCGCAAGCTGCACAAGAAACTGCTGCACCAGGTGCGCGAGGTCGAGGCTGCCAAGACCGGCATGCAGGTCGCTTTGGAAGATCAACAGCTATTACAAAGAGCTCGCATGAGTCTTAAAGCTCGACTAGCCGTGGCTGGTAAGCGTGCGCTAAAAGCTGACGTCATAGGCTCGGGCGCTGATTTTCCACCGCCCAGACCTCTGTCTCCCGCGCTGGCCGGGCAACTGGCCCAAGCACTGGTTGCTCACATCCTGGCAGCCGACAGTGCCAGTGACGGAGACGCATTGTTGCTCGCCGCTAAGGTGGTGGGGCGGCTGTGCGCGCTGTCAGGCGGCGACAGTCTGCTGGAGCCCTCGTGCGTGCTGGGGCTGGCGCGCCTCGCCGTCACGCTGCCGCCCTGGCCCAGGCACGCGCTCACCACGCTGCTGCAGGATCTGGTTGAGTACGAAGGTGGCGAAGTGAGTAGCGAAGAGTGGGGCGGCGGCTCGCGCGTCATACACGTGGCGTCTGAGAAGAAGTCTGGGAAAACTCGCAAGAACAAGGGACCGACTGTTGCAGTGTCAATCAAGGACATCGACGTAGAACTAGATTTAAATCAACCAGAGTCCAATGATTCAGACTCTTCGGAAGAGAAACTCGATCAATATTTCTTGGAGGCCGTTAAAAAAGTCACTAGTAGTCTCAAAATCGCTATCGACACAAGCAATAGCAACTTATCTCAGTGCGCGGACGCTCGGCTGGAGAGCGCGGGTGGCGGCGCCGGCGGGCCGGGCGAGGGCTTGGCTCGGCGCGCCCTGCTCACCACGGGACACGCGCTGTCCATCGCCGTGCTCACCGCACCCCTCGCGCCCCGCACGCCGCCCGCCGCGCCGCCCCCCGCGCCTCCCCTGCGACACCATCCCCCGCTTACGCACACGCTCTACGATGTCTTCAGGCATCTCGCACTTGAGTTCCACAATAAGATCGAATGCTCGTTTATGGAGAACGTAGTGTCCCTCTGGTTGACCCTGAACGGCTCGGCGTGGGGCAGCGGCGGCGCCTGGTCGATGGCCACGCTCGCAGTGCCCGTGGACAGGCCGCGAATACGATTGGCGTCTGATACTGTTACGGCCTTGCTTCAGTCTCTGTGCAAATTAGAAAACGTCTCGCTCCGCTGCTGGGTATTATCCATGCAAGCCTTGGCGTGGATCGCGAGCTTGCCCCTGCTGACTGAAGACGGCTGTCAGACTATGGGTCGTGTGATTTTGGAATGTGAACACTTCGTACCCACGTTAGTGAAGTTCGTCACGATGAACGTGAACGCTGACGGCACGGTCGCTTCGTCGGAACCTTACCTCGGCGGAGCGCATATAGGTGCCGGAGCCGGCGCCGCTTCGGCGCTACACTCGGTGATGTCCCGTGTGGTGTGCGGGCGCGGCTCTGCGGGCGCGCTGGCGGCGCTGCGCACCGTGGTCGGCGTGTGGACCCGCCCCTCGCCGCCCGCCCCCGCCTCCGACTTGCACGCCACGTTGTTACGGCTCGCTCATCCCATGCTGCCAGTTCTGTCATCGCATCACCTACATCACGCCTTACCTCTCTTCGAAACAGTCGCGCACGCTTCGTGGTGGTGGGTGTGCGAGACGAGCTGCGGGCGCGGCGAGGGCGGGGCGGAGGCGCGACTGTCGGGTCTGCTGGCGGACGCGTTGGCTGCCGGCGCCGGCCGACGGCCTCCACTGCGCCGCGCTCTCATTGCGCAACTGTTGCACTATTGTCGTAGGATGCTGGCTCTACCTTTGCCGCAGAACGATCAATCTGCCGGATCCTCATCGTCATCCTCTAATGCGGGATCGTCGGGTCCGGAACAGTCTCAGACAGACGAGAGCAAGGCACAAAACAACGCTCGTGAAGCCAACGTCGAAGATGAAAGAAAACAGCAAGCGGCCCGAACTCCGTGCTTTGCCGATACCGTATTACAACAACATCAGATAATGTACAATCTTTATAAAACCCTATCCATATGTGACGGACTCAACATGGCTCTCTTAAATTCAGACAAAAACTTTTCGGACTTGAGCATGAACTCTGAGACTGCTTCAATGAAAGAAGAAATGTATTGGCTGGTGGCACATATCGCCGCCGCTGCTTCGAACCCAAGTCTGATGGTTCCCAGCCTCATCGAATTTATACGTAAAGAAGATTTAGTCAAGTTATCACAATCTATGCAGCTAGTCATGATTCGTTTACTGGACAATCCGGAAGCTCTCGGTGCTTTCATAGATGCCGGAGGTTTTGAACTTGCAGTTGAGAAACTCACTGCTTGTCATCAGGCCGGTCCGAACAGTGGACAAGGGCTCGTGTCTTCTTTGATGAACTACCTTAAGCTTCCTCCTCAAATAATCAACATGTCAACTTCAGCAAACTCTAACAAGAAAAACCAAATGCCAGTTGTCGAGACTTCTAATGGACTGATCAATATCGCTCCGTTTTGCACGGTGACTTGCGGGAACCCGACAGCGCAGGCGGCGGACGTGCTGCTGGACGGCGGCGGCGGCGCCAACGTGCGGGCGGCGTGTGCTGCGCGACGCGTGCGGGCGGCCGCCTGGTCCTACCACTTCTTCAGCGCAGACGACGCTTCTCTCGCGATCACACTCAACCTGCCCTACGCCGTCCAACTGCACGAGGTGCAGCTGCAGCCGCATCTCACGAGCCTCGCCACTTGCCCTGGTGCTGTCGCAGTAGAAGCGGGCTGCGGAGGTACGCTGGCTCCGCTGGGGCCTCCTCAGACTACAGCCGGGACGACCTTCATCCGGCTCGTTATATCGCGGCCTATAGTCTGCAACACAGTACAAGTGCGCCTGTACAAGCCGAGAGACAGCTCTAATATGGGTCTACTGCAGTTGAAGCTACTAGCCATGCCCGCATTCAATACGACGATACCTATCTCAGCGAATACGAATAAGTGGGCGCGCGTGGTGTCGGCGATGAGCGGAGCAGGATCCCGCGTGTCGGATGCCCAATGGGCGGCGCTATGCAGCGGCGGTGCGCTGGCAGCGCTGTGTGCGTGCGTGGCGGCCGGTGGGCCCGCGCAGCACCCCGCTGCCGACGCGCTGCGAGCCGCCGCGCGACACTACCCGCTCGTGCGACCCCATCTAGTGGCAGCGCTCCTCAACATGGACGCGCACGCTCACGCTAACGCCTTCCAAGCGAGCCGCGCAGGTCGCGCGAACAGCAGCATGAGCGCGATATGCGGCTTGGTGCGCGCCGTGTGCGCGGAGAGCGCGGCGCAGTCGGCCGCCACGTACGTGCAGTGGCTGGCGGCCGCCGCCGAGCGCTGGCTGCGCACGCGCACGCCGCCCCCCGCCGCCTTCACGCACACGCTCGCCAACGTTTTATGGACATTGAAAGAAAAACAGCTGCTGGATAATGTAGAAGAATTAATTACGGATGATCTCTTTGACTTGGTCTATACCTGGATCAAAGAAGTGCCAGAAGCAAGTCTGCTGAAGAAATCACTTGACGCAGTTTTATGCTCGATGTGCTACATACGTCCGGAACTATTCAAGATGCTACTTGAGCATATGGATATACCAATGGATCAAGATGAAAGCATGGAAGGCGTGACCGACGACACCAAGGTGCAGGGCTCCAGCAGAGAGGGCGGCGCGGCGGACGGCGGCGTGGCGTGGCGCCTGCGCGGCTGGCAGCTGCGCACCGTGGCCTGCGCCGCCATGTCGCCCGCCGCCACGCTCGCGCTGCTGCACTCGCGCCTGCCCGCCGCCGTCGTCACCGCCATCGCAGAATTCAGCGACGCTAAATTGGAGGCAATAAAACTTCAACGTGATGCTCAAGGAGATGTACCAATGACGGATTCGGATAGAACCACTGGAATGAGTAAAACTGGTTTGACATCAATGAAGAGTGTATGTGAATTAGTGGAATGGGCGCGGCTGGTTTGCACAGAGCGTATACTTAAGGATTGGCTTGGAGGACCAGGTTCTTGTTTCTGGACACCACTATTGCGACTGCTTTGTTACCCGAGACACGCCGAGAGCACCTGGCACGAAGGCGCAGAGTACGCGCAACTGGAGGAAAATACTATACGCCTATTTTCCGAATTAACAGTTTGTCACCCCGCCAATCAGAAACTATTCGCGTCAACGTTGCACAGCATATTGGAGTCCGTGCACTGTACAGGTCCTGAAGGCATCAGCGGGTTCAGTCGCGCGCTGATCCTGCGGCTGGTGCTGTCGGCGGAGCGCGTGCGCGTGGCGGTGCGCTGGGCGAGCGGCGCCACGTGCGTGGTGGGCGGCGCGGGCACGGCGCTGGAGGGCGCGAACCACCCCGCGCTGCACTGCGACGCGCTCTACTCGCTGCCGCTGCACACCTCGCTCAGGACGCTCATCGCAGTGTCTGGCGGATCTGCTATATTTTTCCCTGTGGTGGAGGAGTCGAAGCAGAGCGTGAGCAGCTCCGGCACGGCGTCCGTCCTACGCAGCGCCTCGGATCCCGCGATCGGGGGCGGCGCTGAAATGTGGGAATTGAGTCTGGCTGCGGCTAGCGTGTCCAAAGATAAGCGTGTTAAGGATGTCAAAAACTCTTCCCTCAAGCACCACGCCAGCAAGAAACGGCAGACTAAAGCTGAAACCACCGTCGCGGCAGTGACCGAAGATATGGTCGAAGGCAACGTGCGCATAAAAATAGAAGGCATAGACGCATACGTGGGCGGCAACGTGACGCTCGGACAACTGATATCTTCTGTGCCGCAAGGGTACGGACCTCATCTCACCGTGTCATTGCATTTCGACACCACGGGGGAGGCGGTAGGACCTATGTGGGACAATAACTCGTCTAGCAGCGGGGTAGCGTCGAGCACGCTGGTGCGGGAGTTTGGTGCGTGCGGCGGGCTCGCGCTGGTGGCGGCCCGCCTGCCGCGCCCGCACGCCGCGCCGCCCGACCCGCCGCGCCCCTCGCACCAGCAGGACCTCGACTGGGTCAAACTCGACGACGCCTATGAGGAGGTGGTCGAGCTAGCAGTGACGTCGGGCAGTAACGGTCCCGACGAGTCGACCTGCACCGGGGTGCCGGCTCACGCGCTCATCGCCCTGGGCTTGTTACTGAAGCTCCCTGGATACGCCGACGCGCTGCTGGACGAAGGAGCTCGCGCTGTCCACCTGCTGCGGCTGTTGCTGGGAGTCACGCACGACGAAGAAGGACGTAGCATAGCGGTGAGCGGCGGCGGCGGCAGCGGCGGCGCAGGCTGGTCGCTGGGCACGCTGCCGCTGGTGGTGGTGTCCCGGCTGCTGGAGAGGGCTCCGCGCGGCACGCCGGAGGGCGCGCAGCTGCGGCGCGACCTGATGGCACTCGGGGCGCCGCGCCTGCTGCTCGCCTGTCTCGCTGTGTTTACCCACCACCATCACGCCTCGTCCAACGACAACAGCCAAGCGTCGAACGGGTCGACGGGTAAAACTGAAGAGAAGAACCAACTGTACTGGGCGAAGGGTACCGGCTTCGGCACCGGCTCCACGCAGCAGTCCTGGAACGTGGAGCAGGCGCTCATGCGGCAACGCACCGAGGAGGAGCACGTTACGGCGCTCCTACAAGTATTAGCGTCGTACATAAATCCATGTGAAAAGTGGCCCCCCGAAGAAGGTCAGGAGTCCTCACCGGATACCGAGAGTGAAGCGAACTCTACTGAAGCTCCCAGCGAGGATTGCTCAGACCTGCCTTCAGAGTTTATTGATCTCATAGCCAACAGCTCCCTAGTACCTGCCATCTGTTCGTATCTTAGGAATGATTCAGTGCTGGACATGTCGCGGCACATCCCGCTGTACGTGTGCGTGCTGCGGTGCGCGCGCGGGCTGGCGTCGCTGCGGAGCGCGCGCCTCGCCGCCCCGCTGCGCCCGCTGCCGCGCCTGCTCGCCCAGATGAGCCGCACCACCAACTCCTACGCCACTAAACTCAAAATGAGTAAGAAGACAATATTTGGCAAGATGACCTACAGCCAACGATTCTGTCCAGCCACAAATTCCGAATTATCAGAAGAGGACGAGGGATTAGCTTCACTAATTGCCGACGTACAGGCCACGTCAGCGATGATGTGCAGCGGCAACGTGACCGGCTGGGAGGAGGCGCGCGGCACTCCCAACGCGCCGCCGGCCTCACGCGAGGCTCGGTACATCCAGCTCATGAGAACTATGCAATTCGATACGTACGAGATGATAGCCGAGTGCCCGGAGGCCGGGTTCAAGTTCACCGTGCCGTACCACTTCGAGGGCACCGTGCGCGCGGCCGGCGAGCGCTCGCACCCCGCGCGCGTCAAGCGGCTGGCGCAGGAGGCCGCCACGCTCGCCACCAGCCTGCCGCTCTCCTACTCCTCCTCCGTCTTCGTGCGGTACGACGCCGTCAGGCTCGACGTCATGAAGGTTTTGATAACCGGTCCATCGGATACGCCGTATGCGAACGGCTGCTTTATCTTGGACGTGTACTTCCCTGCCGAGTACCCATCGGTACCGATGCTCATAAACCTGGAGACGACGGGTCGCCACTCGGTCAGATTTAACCCTAACCTCTACAACGATGGCAAGGTCTGCCTCTCCGTACTCAACACCTGGCATGGCAGACCTGAGGAGAAGTGGAACGCTCACACGTCAAGCTTCTTACAGGTATTAGTGTCGATCCAATCACTGATCCTGGTCCCGGAGCCGTACTTCAACGAGCCGGGATACGAGCGCAGCCGGGGCACGCGCGTGGGCAGCACCGCCTCCCTCGAGTACAACTCCAACATATACCAGGCTTGCGTGCGGTGGGCCATGCTGGAACATCTACGGAACCCGGAACCTTGCTTTAAAGAGGTGATTCAGACTCATTTTTGGATAAAACGAAATGAGATAATGCAAACTGTGGCGAATTGGATAACTGAGCTAGAGGGACAGGGCGGAGACGAGCGCACGCAGAGGAGCATACAACTGAACCTCATGGGGCTCAAGCGTCACTACGTTAAGCTGCAAGAGGAGCTCGCGAAGCTGCCGGTGCCGGCTGGCCTCGAGGAGCTGGACGAGCCGTTCCAGCTGCCCGCCGCGCCGCCCCGCCCCGCGCCCCCGCCCGCCGCGCCAGAACCCCGCCCCGCGCCGCCTTCCGACGACGAGATCGATCACGACATGGAGAAGATCGTCGCTTCCTTCCTCGACTGA
Protein
MNFSVTSLTYHSNLNIILVKTDVGSVHVLDVNSGVILQSSCLSADEAGTLGVEYASGADRVFVWDSSGIGARTDYNGVLLLHTALQRPLPISHTEKNIKIELVLSEAVLLYQCLQSIDAHFIVGLSDFITELKSAIDAEPVRKGVKAQKWSTVTICLSLSTLRLVAASVVQELKGQSRRIPALAIASAVGQRANELDPSLRDDENRPLMSSEAERKETFKRWPHMDYKWALPARMAQAGFYHQPSPSGDDRAMCFACNVCLVCWEKSDEPWVEHERHSPNCSFVKGEYTHNVPISVTNATACAVPCPNVAVVSKGNTGDLIATGTVEGKVNIWRFDCGLKLVKFVHVSPYDSIFSGILTTDYNKVWSTSLEKDSSTYSIELTAMTFAGMTTQSENYTQGQNLENIEKDPNINKTKPSLICAVIITRTNLPEPTLPVKDESSKALFDSGALSEEKVQAMNDRNEAENSMGLTEKILFLLTYDIHSSSAGSITAVVPTSNNSANSKPGGSKKVCSVTRTDDAHIYDEIYFQYSDDDTELPQCTNTLIDEQISNVINLNASSSKDDCKNWGETKKIFLTKHFKVMPPPPPSALLPELQEAGPVSIIDIVGKKMSQIKNWKSMESAGTKIVDQTDAVLQADPFVHYLNMSGPVEIPDFKWYESGESTEKIKFTTITGSSKLGTQTAATNTNDGFENDPPQEEAISHGVAVQCLTFPSTLTLKDNPRVTHLMPTEDRDHLFVVISHVDLQKLRLEDDTDNDGDTKMEVDDADLEKKADLKAYFILYRLNTKTSIYTLEDNPMSIQELPYNETPIDLCLLPPDKHEQYSFASVGIDGCLRLYSLPDFKIISEKRVPKGPFTSVTYCASVERLSVATKHGIIYFYALNNGENDSTGDIDDDDFANIDFDMLQRAPRDEVCGPTPTPIIIANKSELDTNDLETLISVTGLYGTNTTVPYSAVVPGFWCELSPAQRPTSDHQNNRTWRLQNTSSTWDEHVLELTLPYSVSLAHIEFSFTLHTASTSSLPMILVTLLKQNLQGIGYKKDASFEPKSDSPEQNTTEEPNVHNTDIPVNSEEYLQAQNVEILAGPLLLSTGLDLTQQSGTLILTSPRLYRARGRTFLIHIKTLFDPAKDMNKANTKTGEGSKKSGFIGCDWLHQISLTVRSSPHTNVPMERQQRIAMLESNTFLNTLFEIAIDKNDINKRKLALDLIIWVVSIRLQRMRLGSSDKVKIKSVEANQLECIKIVEKNINSLIKTCILCGNRSLAKKCMKIILVTSEGDKQVPRPWMSTFDATLSGSVTECIPYLGACESPGALRWLVTLAQHCTHRSTAPALVSRCQVLLEKTARCLRERAIVYHDLLRARFGLYGLPLERTLFATEVPELGRGTPAPVTYASVLSGDNTTPQPPPPPPPPIPKLDHQLKDLLNLPLEIDLKATLSPSAWWAQSNSVAVFGSGLCESMPLHVTCHIASDGTKLESTGGRHYPAVVSTLPGPGSADPNQLWNVMKEGQAKQTSQDPDSLEDVESSMMDCDSQEKLEFSEEKYFKDQEQCNIPWASLVTRPPQHTLIVERMHSGARRYIILDFGHTVRLTDIIIPACPDLVTLGIDIWTNCEETNSVKLAYATDITNKHLVLTDIQPPPLCRYMKITTIGRYGMSAMKCKIPLGWFYGEIADIANVPASINALNALHQDLTCRFRLATGKLMDLLNPYLELYNGNAVHMMSYLNSTMDNEGKVITAYHECIELQQQIHTCTNVLKKLQNKTDSTRSIPELIAKGKVTTEGLLQMCSTDKLRVITENIVDMLLYFYFQIGEIQYEEVTLEWCQKVTPMLWEWSGRNAGALASLLARACGAAPWWGPHVADTLTDAFGAYDAPPIALDRCLVLIMYMCRKSVLSDTEGGVCPALATRTLELLQSGRPQPALTAALLTALSAVLDAVSAVTNKHTRWDWVTGGRPGASSGADTSATSPRVADCRLHRRKLHKKLLHQVREVEAAKTGMQVALEDQQLLQRARMSLKARLAVAGKRALKADVIGSGADFPPPRPLSPALAGQLAQALVAHILAADSASDGDALLLAAKVVGRLCALSGGDSLLEPSCVLGLARLAVTLPPWPRHALTTLLQDLVEYEGGEVSSEEWGGGSRVIHVASEKKSGKTRKNKGPTVAVSIKDIDVELDLNQPESNDSDSSEEKLDQYFLEAVKKVTSSLKIAIDTSNSNLSQCADARLESAGGGAGGPGEGLARRALLTTGHALSIAVLTAPLAPRTPPAAPPPAPPLRHHPPLTHTLYDVFRHLALEFHNKIECSFMENVVSLWLTLNGSAWGSGGAWSMATLAVPVDRPRIRLASDTVTALLQSLCKLENVSLRCWVLSMQALAWIASLPLLTEDGCQTMGRVILECEHFVPTLVKFVTMNVNADGTVASSEPYLGGAHIGAGAGAASALHSVMSRVVCGRGSAGALAALRTVVGVWTRPSPPAPASDLHATLLRLAHPMLPVLSSHHLHHALPLFETVAHASWWWVCETSCGRGEGGAEARLSGLLADALAAGAGRRPPLRRALIAQLLHYCRRMLALPLPQNDQSAGSSSSSSNAGSSGPEQSQTDESKAQNNAREANVEDERKQQAARTPCFADTVLQQHQIMYNLYKTLSICDGLNMALLNSDKNFSDLSMNSETASMKEEMYWLVAHIAAAASNPSLMVPSLIEFIRKEDLVKLSQSMQLVMIRLLDNPEALGAFIDAGGFELAVEKLTACHQAGPNSGQGLVSSLMNYLKLPPQIINMSTSANSNKKNQMPVVETSNGLINIAPFCTVTCGNPTAQAADVLLDGGGGANVRAACAARRVRAAAWSYHFFSADDASLAITLNLPYAVQLHEVQLQPHLTSLATCPGAVAVEAGCGGTLAPLGPPQTTAGTTFIRLVISRPIVCNTVQVRLYKPRDSSNMGLLQLKLLAMPAFNTTIPISANTNKWARVVSAMSGAGSRVSDAQWAALCSGGALAALCACVAAGGPAQHPAADALRAAARHYPLVRPHLVAALLNMDAHAHANAFQASRAGRANSSMSAICGLVRAVCAESAAQSAATYVQWLAAAAERWLRTRTPPPAAFTHTLANVLWTLKEKQLLDNVEELITDDLFDLVYTWIKEVPEASLLKKSLDAVLCSMCYIRPELFKMLLEHMDIPMDQDESMEGVTDDTKVQGSSREGGAADGGVAWRLRGWQLRTVACAAMSPAATLALLHSRLPAAVVTAIAEFSDAKLEAIKLQRDAQGDVPMTDSDRTTGMSKTGLTSMKSVCELVEWARLVCTERILKDWLGGPGSCFWTPLLRLLCYPRHAESTWHEGAEYAQLEENTIRLFSELTVCHPANQKLFASTLHSILESVHCTGPEGISGFSRALILRLVLSAERVRVAVRWASGATCVVGGAGTALEGANHPALHCDALYSLPLHTSLRTLIAVSGGSAIFFPVVEESKQSVSSSGTASVLRSASDPAIGGGAEMWELSLAAASVSKDKRVKDVKNSSLKHHASKKRQTKAETTVAAVTEDMVEGNVRIKIEGIDAYVGGNVTLGQLISSVPQGYGPHLTVSLHFDTTGEAVGPMWDNNSSSSGVASSTLVREFGACGGLALVAARLPRPHAAPPDPPRPSHQQDLDWVKLDDAYEEVVELAVTSGSNGPDESTCTGVPAHALIALGLLLKLPGYADALLDEGARAVHLLRLLLGVTHDEEGRSIAVSGGGGSGGAGWSLGTLPLVVVSRLLERAPRGTPEGAQLRRDLMALGAPRLLLACLAVFTHHHHASSNDNSQASNGSTGKTEEKNQLYWAKGTGFGTGSTQQSWNVEQALMRQRTEEEHVTALLQVLASYINPCEKWPPEEGQESSPDTESEANSTEAPSEDCSDLPSEFIDLIANSSLVPAICSYLRNDSVLDMSRHIPLYVCVLRCARGLASLRSARLAAPLRPLPRLLAQMSRTTNSYATKLKMSKKTIFGKMTYSQRFCPATNSELSEEDEGLASLIADVQATSAMMCSGNVTGWEEARGTPNAPPASREARYIQLMRTMQFDTYEMIAECPEAGFKFTVPYHFEGTVRAAGERSHPARVKRLAQEAATLATSLPLSYSSSVFVRYDAVRLDVMKVLITGPSDTPYANGCFILDVYFPAEYPSVPMLINLETTGRHSVRFNPNLYNDGKVCLSVLNTWHGRPEEKWNAHTSSFLQVLVSIQSLILVPEPYFNEPGYERSRGTRVGSTASLEYNSNIYQACVRWAMLEHLRNPEPCFKEVIQTHFWIKRNEIMQTVANWITELEGQGGDERTQRSIQLNLMGLKRHYVKLQEELAKLPVPAGLEELDEPFQLPAAPPRPAPPPAAPEPRPAPPSDDEIDHDMEKIVASFLD
Summary
Description
Anti-apoptotic protein which can regulate cell death by controlling caspases and by acting as an E3 ubiquitin-protein ligase. Has an unusual ubiquitin conjugation system in that it could combine in a single polypeptide, ubiquitin conjugating (E2) with ubiquitin ligase (E3) activity, forming a chimeric E2/E3 ubiquitin ligase. Its tragets include CASP9 and DIABLO/SMAC. Acts as an inhibitor of CASP3, CASP7 and CASP9. Important regulator for the final stages of cytokinesis. Crucial for normal vesicle targeting to the site of abscission, but also for the integrity of the midbody and the midbody ring, and its striking ubiquitin modification.
Anti-apoptotic protein which can regulate cell death by controlling caspases and by acting as an E3 ubiquitin-protein ligase. Has an unusual ubiquitin conjugation system in that it could combine in a single polypeptide, ubiquitin conjugating (E2) with ubiquitin ligase (E3) activity, forming a chimeric E2/E3 ubiquitin ligase. Its tragets include CASP9 and DIABLO/SMAC. Acts as an inhibitor of CASP3, CASP7 and CASP9. Important regulator for the final stages of cytokinesis. Crucial for normal vesicle targeting to the site of abscission, but also for the integrity of the midbody and the midbody ring, and its striking ubiquitin modification. Required for normal placenta development.
Anti-apoptotic protein which can regulate cell death by controlling caspases and by acting as an E3 ubiquitin-protein ligase. Has an unusual ubiquitin conjugation system in that it could combine in a single polypeptide, ubiquitin conjugating (E2) with ubiquitin ligase (E3) activity, forming a chimeric E2/E3 ubiquitin ligase. Its tragets include CASP9 and DIABLO/SMAC. Acts as an inhibitor of CASP3, CASP7 and CASP9. Important regulator for the final stages of cytokinesis. Crucial for normal vesicle targeting to the site of abscission, but also for the integrity of the midbody and the midbody ring, and its striking ubiquitin modification. Required for normal placenta development.
Catalytic Activity
S-ubiquitinyl-[E2 ubiquitin-conjugating enzyme]-L-cysteine + [acceptor protein]-L-lysine = [E2 ubiquitin-conjugating enzyme]-L-cysteine + N(6)-ubiquitinyl-[acceptor protein]-L-lysine.
Subunit
Homodimer. Binds the activated, processed forms of CASP3, CASP6, CASP7 and CASP9. Interacts with RNF41, DIABLO/SMAC, HTRA2, KIF23/MKLP1, USP8/UBPY, BIRC5/survivin, MAP2K1/MEK1, RAB8A/RAB8, RAB11A/RAB11, PLK1, EXOC3/SEC6 and EXOC4/SEC8.
Homodimer. Binds the activated, processed forms of CASP3, CASP6 and CASP7. Interacts with RNF41, KIF23/MKLP1, USP8/UBPY, BIRC5/survivin, MAP2K1/MEK1, RAB8A/RAB8, RAB11A/RAB11, PLK1, EXOC3/SEC6 and EXOC4/SEC8 (By similarity). Interacts with CASP9, DIABLO/SMAC and HTRA2.
Homodimer. Binds the activated, processed forms of CASP3, CASP6 and CASP7. Interacts with RNF41, KIF23/MKLP1, USP8/UBPY, BIRC5/survivin, MAP2K1/MEK1, RAB8A/RAB8, RAB11A/RAB11, PLK1, EXOC3/SEC6 and EXOC4/SEC8 (By similarity). Interacts with CASP9, DIABLO/SMAC and HTRA2.
Similarity
In the C-terminal section; belongs to the ubiquitin-conjugating enzyme family.
Keywords
3D-structure
Apoptosis
Cell cycle
Cell division
Complete proteome
Cytoplasm
Cytoskeleton
Endosome
Golgi apparatus
Membrane
Mitosis
Phosphoprotein
Protease inhibitor
Reference proteome
Thiol protease inhibitor
Transferase
Ubl conjugation
Ubl conjugation pathway
Alternative splicing
Feature
chain Baculoviral IAP repeat-containing protein 6
splice variant In isoform 3.
splice variant In isoform 3.
EC Number
2.3.2.27
Pubmed
EMBL
Proteomes
Interpro
Gene 3D
PDB
3CEG
E-value=9.23429e-106,
Score=990
Ontologies
PATHWAY
GO
GO:0043066
GO:0030496
GO:0006468
GO:0008284
GO:0004842
GO:0042127
GO:0004869
GO:2001237
GO:0005815
GO:0005634
GO:0005768
GO:0061631
GO:0000922
GO:0090543
GO:0060712
GO:0016567
GO:0006915
GO:0005802
GO:0006511
GO:0007049
GO:0051301
GO:0016020
GO:0032465
GO:0060711
GO:0001890
GO:0005515
GO:0006357
GO:0006814
GO:0016021
GO:0006270
GO:0042555
GO:0015930
Topology
Subcellular location
Golgi apparatus
Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
trans-Golgi network membrane Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Endosome Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Cytoplasm Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Cytoskeleton Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Spindle pole Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Microtubule organizing center Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Centrosome Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Midbody Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Midbody ring Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
trans-Golgi network membrane Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Endosome Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Cytoplasm Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Cytoskeleton Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Spindle pole Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Microtubule organizing center Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Centrosome Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Midbody Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Midbody ring Exhibits cell cycle-dependent localization. Concentrates in a pericentriolar compartment in interphase, moves partially to spindle poles in metaphase, and finally localizes to the spindle midzone and the midbody in telophase and during cytokinesis. On the midbody, localizes to the midbody ring, also called Flemming body (PubMed:18329369). In interphase cells, localizes to the trans-Golgi network membrane and endosomes. During cytokinesis, a fraction moves to the midzone where it specifically arrives at the midbody ring. After abscission completion, travels with the midbody remnant into one daughter cell, and remains bound to it until a new midbody ring is formed during the next cell division (PubMed:18329369). With evidence from 11 publications.
Length:
4356
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.167300000000001
Exp number, first 60 AAs:
0.00638
Total prob of N-in:
0.00298
outside
1 - 4356
Population Genetic Test Statistics
Pi
228.770064
Theta
186.207096
Tajima's D
0.637379
CLR
0.610806
CSRT
0.559422028898555
Interpretation
Possibly Positive selection
