CDS
| Accession Number | TCMCG013C04633 |
| gbkey | CDS |
| Protein Id | XP_006467861.1 |
| Location | join(3773492..3773516,3773955..3774085,3774450..3774567,3775139..3775365,3775455..3775557,3776106..3776176,3776669..3776743,3776833..3776976,3777102..3777285,3777989..3778513,3779238..3779294,3779377..3780380,3780930..3781055,3781142..3781216,3781332..3781444,3781634..3781750,3781859..3781927,3782169..3782229) |
| Gene | LOC102619160 |
| GeneID | 102619160 |
| Organism | Citrus sinensis |
Protein
| Length | 1074aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA225998 |
| db_source | XM_006467798.3 |
| Definition | katanin p80 WD40 repeat-containing subunit B1 homolog isoform X1 [Citrus sinensis] |
EGGNOG-MAPPER Annotation
| COG_category | Z |
| Description | May participate in a complex which severs microtubules in an ATP-dependent manner. Microtubule severing may promote rapid reorganization of cellular microtubule arrays |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction | - |
| KEGG_rclass | - |
| BRITE |
ko00000
[VIEW IN KEGG] ko04812 [VIEW IN KEGG] |
| KEGG_ko |
ko:K18643
[VIEW IN KEGG] |
| EC | - |
| KEGG_Pathway | - |
| GOs |
GO:0000151
[VIEW IN EMBL-EBI] GO:0005575 [VIEW IN EMBL-EBI] GO:0005622 [VIEW IN EMBL-EBI] GO:0005623 [VIEW IN EMBL-EBI] GO:0031461 [VIEW IN EMBL-EBI] GO:0032991 [VIEW IN EMBL-EBI] GO:0044424 [VIEW IN EMBL-EBI] GO:0044464 [VIEW IN EMBL-EBI] GO:0080008 [VIEW IN EMBL-EBI] GO:1902494 [VIEW IN EMBL-EBI] GO:1990234 [VIEW IN EMBL-EBI] |
Sequence
| CDS: ATGGCCAAGCGTGGATACAAGCTGCAGGAATTTGTGGCGCACTCAGCAAATGTGAATTGTATTAGTATTGGGAAGAAAGCATGTCGGTTTCTTATCACTGGTGGAGATGATCAGAAAGTGAATCTTTGGGCCATTGGAAAGCCCACTGCCTTAATGAGCCTGTGTGGTCTTTCAAGTCCAGTTGATTCAGTAGCTTTTGATTCAGCAGAAGTTTTAGTGCTCGCTGGAGCTTCTTCTGGTGTGATAAAGCTGTGGGATCTGGAAGAATCAAAGATGGTTCGCACACTTACTGGGCATAAATCCAATTGCACTGCTGTTGAATTTCATCCATTTGGTGAGTTCTTTGCATCTGGTTGCATGGACACAAATTTGAAGATCTGGGATATCAGAAAGAAAGGCTGCATTCACACATACAAGGGTCATACGCGAGGCATCAGTACTATCAGATTCACTCCTGATGGTCGCTGGGTAGTTTCTGGTGGATTTGATAATGTCGTAAAGGTGTGGGATCTTACTGCCGGAAAACTCTTGCACGATTTTAAGTTCCATGAAGGGCATATCAGGTCGATAGACTTCCATCCCTTAGAGTTTCTTCTGGCCACAGGTTCAGCAGACAGAACCGTGAAATTCTGGGATTTGGAAACCTTTGAACTGATCGGATCAACCAGACCTGAGGTAACAGGAGTTCACGCAATCACTTTTCATCCTGATGGGAGGACTCTGTTTTCTGGTTTTGACGATAATCTGAAGGTCTATTCATGGGAGCCTGTTATTTGTCATGATAGTGTTGATATGGGATGGTCAACACTTGGTGATCTCTGCATTAACGACGGAAAGCTTTTGGGTTGCTCATTTTATCGAAATAGTGTCGGAATTTGGGTGGCTGATGTGTCGCATGTTGAGCCTTATGGAATTGGTGCACCTGAACCTGATCAAAGTATTTGCACAGAGGTCAAATTTAATCCCCCAGGAAGTCATTCTTTGGAAAAAGTGGGAATTATTGGGAGATCAACTTCAGGTTTCCGCTCTACCTCTCCTGATTGTGAGACAAAAGACATAAAGACCATATATGTGGATTCTACTGGCGGAAAACCTGTTGCTTCACAGAAAATTGGGCCTTTGAACTCTCCAAAAGTTGTACCTCCATTGGATTCTGAGGAAATCAGTGATCTGCAAACAGAGAAGCAGAATCCTGCAATAGGAGTTCCAGAATTATCTAATGGACAAGCACTTGATAAATCTTTTATTGTCCCTAGTATTGTACCTCAGGAGAGTCCCGCTGGGAAAGATTCTTCTTTTTCTGCAGGAGAATCTATCACCTTTTCAAGGACAAAACCTGGTATGTTGCTCAGACCAGCTCACGTACAGAAGCCATCAAATAGCAAGTATGATACTGAAAGGCTGTCAACAGCTGCTGAATCTGAAAGCCTTAACAGTAAGAAGAGTGATTTAGACAGTGCAGTGGATCCAAATGTCAAAACTCGCCTTGTATCGTCAGATGGAGCTAGAAAATCCTGTGAAGAAAAGGACTGTCATATCAAGACCATTACAGGGGAGATTGAAAATATTTTCTCTCCACAGAAACCTCCAAAACAAGAAGACGGTGATAAATCTCGTGATTGCAGCAAAATAACTAACTCTGTCAAATTTGTCAATGGAGTTGCAGTTGTACCTGGAAGAACTCGCTCTCTTGTAGAGAGATTTGAAAGAAGAGAAAAAGTTAATAGCAATGAAGATCTAGCAGCTAATGTCATCCCACAAACAAGACTGAGCAGAAATGAAGATCAAGCAGCCGATATCACTCCACAAACAACACTGAGCAGCAATGAAGATCATGTAGCCAATGTCACTTCACAAACAAGACTGAATGGCAATGAATATCAAGCAGCTACTGCCCCCCAACAAACAAGACTGAGCAGCAATATAGATCCAGTGGCTAATGTCACCCCACAAACACTACCAAGCGGCAATGAAGATCAAGCAGCTAATGTCACCCCTCAAACAAGACCGAGTAGCAATGAAGATCAAACAGCTAATGTCATCCGTCAGACAAGACCGAGTAGCAATGAAGATCAAGCAGTTATTGTCAACCCTCAAACAAGGCGCCATAGCAATGAAGACCAAGCAAGTAATATAGCCCCTTACACAAGACATGATAGGAATGAAGACCGAGCAACTAATATCACTCCTCAGTCAAAAATCAGTAGGAATCAAGACCAAGCAACTAATATCACCTCTCACATGGGACTTAATAGCAATGAAAACCGAGCAACTAATATTCCCTCCCGTTCAAGACTTAATAGCCGTGAAGACCAATCAACTAATACCCCCTCTCAAACAATAGTTAATGGCGCTGAAAATAAAGCAACTAAAACCCCTACTCAAATGAGACTTAAAAGTAGTGAAAACCAAGTAACTAGTACCCCTCCTCGTGCAAGACTTAACAGCAGCATTGAAGGCCAAGCAACTAATATTCCAATTCGGAGGAGATTTAATAGAAATGTAGATCAAACAACTAATGTTACCCGTCACAGGAGATCTATTAGCAACACAGATCAAGCAACCTCTACCACTGCTCATGTAGCAGTTAAGAACAATGATGATATAGCAACTGTTATTACCCCCCATGTGACAGCTTTATCCTACGAAAGAACCAGCACTCCGAAAGGAGAACCTCAAATTTCTGGAAGGGATACAACCGTTGCTAATGAGGGGGAAGCTGTTGAAAGTCTGATGGAAACTCATGATATTTTCATAAGCACCCTTCGATCCCGCTTGACAAAATTACAGGTGGTGCGGCATTTTTGGGAAAGAAATGACATCAAAGGCGGCATTAATGCCTTGAGGAAGCTGCCAGATCACTCTGTACAGGCTGATGTGATGAGTGTTCTCATGGAGAAAATGGAGATTCTCAACCTAGATTTGTTTTCGTGCTTGCTACCCATGCTTATGGGCTTACTGGACAGTAAGATGGAAAGGCATGCAAGCATCTCTCTGGAGATGCTTCTGAAGCTGGTTGTAGTCTTTGGCCCAATGATACACTCAACTCTTTCAGCACCTCCAGCTGTTGGTGTTGATCTTCATGCGGAGCAAAGGCAAGAATGTTGCAACCGGTGCTTTATGCAGCTGCAAAAGATCCAGAAAATTCTTCCCATCCTTGAAAGGAGGGGTGGCTTGCTGGCCAAATGTGCCCATGAATTGAATTTAGTTCTTCAAGAATCATAA |
| Protein: MAKRGYKLQEFVAHSANVNCISIGKKACRFLITGGDDQKVNLWAIGKPTALMSLCGLSSPVDSVAFDSAEVLVLAGASSGVIKLWDLEESKMVRTLTGHKSNCTAVEFHPFGEFFASGCMDTNLKIWDIRKKGCIHTYKGHTRGISTIRFTPDGRWVVSGGFDNVVKVWDLTAGKLLHDFKFHEGHIRSIDFHPLEFLLATGSADRTVKFWDLETFELIGSTRPEVTGVHAITFHPDGRTLFSGFDDNLKVYSWEPVICHDSVDMGWSTLGDLCINDGKLLGCSFYRNSVGIWVADVSHVEPYGIGAPEPDQSICTEVKFNPPGSHSLEKVGIIGRSTSGFRSTSPDCETKDIKTIYVDSTGGKPVASQKIGPLNSPKVVPPLDSEEISDLQTEKQNPAIGVPELSNGQALDKSFIVPSIVPQESPAGKDSSFSAGESITFSRTKPGMLLRPAHVQKPSNSKYDTERLSTAAESESLNSKKSDLDSAVDPNVKTRLVSSDGARKSCEEKDCHIKTITGEIENIFSPQKPPKQEDGDKSRDCSKITNSVKFVNGVAVVPGRTRSLVERFERREKVNSNEDLAANVIPQTRLSRNEDQAADITPQTTLSSNEDHVANVTSQTRLNGNEYQAATAPQQTRLSSNIDPVANVTPQTLPSGNEDQAANVTPQTRPSSNEDQTANVIRQTRPSSNEDQAVIVNPQTRRHSNEDQASNIAPYTRHDRNEDRATNITPQSKISRNQDQATNITSHMGLNSNENRATNIPSRSRLNSREDQSTNTPSQTIVNGAENKATKTPTQMRLKSSENQVTSTPPRARLNSSIEGQATNIPIRRRFNRNVDQTTNVTRHRRSISNTDQATSTTAHVAVKNNDDIATVITPHVTALSYERTSTPKGEPQISGRDTTVANEGEAVESLMETHDIFISTLRSRLTKLQVVRHFWERNDIKGGINALRKLPDHSVQADVMSVLMEKMEILNLDLFSCLLPMLMGLLDSKMERHASISLEMLLKLVVVFGPMIHSTLSAPPAVGVDLHAEQRQECCNRCFMQLQKIQKILPILERRGGLLAKCAHELNLVLQES |