New model in OGS2.0 | DPOGS215184  |
---|---|
Genomic Position | scaffold895:- 33555-42840 |
See gene structure | |
CDS Length | 3276 |
Paired RNAseq reads   | 3923 |
Single RNAseq reads   | 8830 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008726 (4e-08) |
Best Drosophila hit   | Kinesin-like protein at 61F (1e-170) |
Best Human hit | kinesin-like protein KIF11 (1e-137) |
Best NR hit (blastp)   | GF10068 [Drosophila ananassae] (0.0) |
Best NR hit (blastx)   | GF10068 [Drosophila ananassae] (0.0) |
GeneOntology terms    | GO:0005871 kinesin complex GO:0003774 motor activity GO:0005737 cytoplasm GO:0005875 microtubule associated complex GO:0005873 plus-end kinesin complex GO:0003777 microtubule motor activity GO:0007018 microtubule-based movement GO:0008574 plus-end-directed microtubule motor activity GO:0007100 mitotic centrosome separation GO:0005819 spindle GO:0007052 mitotic spindle organization GO:0007049 cell cycle GO:0051299 centrosome separation GO:0005524 ATP binding GO:0045169 fusome GO:0005783 endoplasmic reticulum GO:0005794 Golgi apparatus GO:0007030 Golgi organization GO:0031535 plus-end directed microtubule sliding GO:0051289 protein homotetramerization GO:0001578 microtubule bundle formation GO:0043148 mitotic spindle stabilization |
InterPro families    | IPR001752 Kinesin, motor domain IPR019821 Kinesin, motor region, conserved site |
Orthology group | MCL11773 |
Nucleotide sequence:
ATGACGTCTGAAAAAGGATGCAGAAAAGAAAAAAATCAAAACATTCAAGTGTTCGTGAGG
CTGAGACCTCTGAACCAAAGGGAGAGGGACATCAAGTCTCTAGGAGTGGTGGAAGTTGTT
AACAACAGGGAGGTGGTTGTGCGTCAGTCACAACAGAACTCGTTAACTAAGAGGTTCACC
TTTGACAGAGCATTCCCCCCTCACTCAAAACAGGTGGAGGTTTACCAAGAGGTGGTGAGT
CCTCTGATTGAGGAGGTATTGGCTGGTTACAATTGTACGGTGTTTGCCTACGGTCAGACA
GGCACCGGTAAGACTCACACCATGGTCGGAGAGGCAGCACAGGATGAGACCACTTGGCAG
AATGATCCACTGGCTGGTATAATTCCGCGAGCCTTGAGCCAGCTGTTTGATGAGCTCCGT
CTGTCCAACACTGAATATACCGTGAGGGTTTCCTACTTGGAGCTTTACAATGAAGAGCTG
GTAGACCTGCTGTCAACAGAAGACGGTTCCAAGCTGCGCATCTACGAAGATGTAACCAGG
AAGGGAGCTAATATAGTCAATGGTCTAGAAGAAATAACTGTGTACAATAAGAATGAGGTG
TACAAGATCATGGCTCAAGGACAGGAACGGAAGAGAGTGGCTTCCACACTCATGAACGCT
CAGTCCAGTCGTTCTCACACCGTGTTCACGATCGTGGTTCACATGAAGGAGAACAGTCCC
GAGGGAGAGGAGCTGGTGAAGATCGGCAAGCTGAACCTCGTGGACCTGGCCGGCTCCGAG
AACATCAGCAAGGCCGGCAGTGACAACCCTGCCAAGAGGGAGCGGGCCAGGGAGTGTGTT
AACATCAACCAGTCCTTACTGACGCTGGGCAGGGTCATCACAGCACTTGTTGAGAGACAT
CCGCACATCCCATACAGGGAATCAAAGCTGACCCGCATCCTCCAGGAGTCCCTGGGAGGC
AGGACGAAGACCTCGATAATAGCGACCATCTCACCTGGACACAAAGACCTGGAGGAAACT
ATGAGTACACTGGAATACGCCAACAGAGCGAAGAACATCCAGAACAAACCAGAAGTTAAC
CAGAAGCTGACCAAGAAAGCGATATTGAAGGATTACGCTGAGGAAATTGATAGATTGAAG
AGAGATCTCCACGCAGCCCGGGAAAAGAATGGAGTGTATCTGGCTAACGACACGTTCGCC
GAAATGACGCTCAAGCAAGAAGAACAGCGGAAGGAAATACAGGAGCTGCTGCTGAAGAAG
AGGGCTATGGAGGAGGAGAGGGAGAGGATCCGCCAGGTGTTCCAGGAGTTGAGGAACCAG
CTGGAAGATAAACTGAGAGACACACAGGACCAACTGGCCAAGACCAATGAGAACCTCCGG
ACAACGAAACAACAGTACTTGGAACAGCGACATCTGGCGAGCGTCCGCGCTAACACCGAG
AAAGTACTAACCGAGCAAGCGACAAAGATTCTAGAAGCAGCGGACTGCGCCTCCGTTGAT
GCCATGGGGCTTCACGACGCGGTCGACCGGCGGAGGAAGCTGGAGGAAGACAACCTCGGC
CTCACCACCAGCTACAGGGAACACGCCAGGAAACACCGCGACTACGCCAGGGAAGATCTC
AACGACTACATGCACTCGCTGATCGGAGCGCTCAAAGAAATTACTGATCATTTAGACACC
TTCACTAACATGTGCAGTCAGACACACTGTGATAATGAACAGACGCTCAATGAATTAGTC
AAGAACACTATGAGTGTCATGGAAAAGATAAAGACAATGAAAGATAACTTCAGCGCTGAT
ATTGAAGACACGGCGAAGACGGAGCTGTGTTCACTCAGAGAAAACGTCAAGTCCAGAGAA
GGAGCCATTCTAGACGTACTGAAACGGCTGTCGAACGGAATTAAGACGAATTTGAAGAAG
ACGGAGGTCGACGACCTCGGGCTGTTACTGAGAGTTATCGAGGAACTGAGGTCGGCGTCC
TCGGCGCGGGTGAGGGCGGTTCGTGAGTCCGGCGGCCGAGTGGAGAAAGCGGTCCGGGAG
TCCGGCGGCCGGCTGAGGAGCGCCGCGGGAAATGCCAGGGAACATACGGACGGACACGCG
GGAGCCCTGGACCGCGCCGTACGGGACAGACTCGCTCTCTTGATGGAGGACAAGTCGAGG
ACGGAGAAGTATCTAGCAGAACAAATGGCTGTAGCGGAGAACGAGAGAAGAGATATGGAG
ACGCGACTGAAGAAGTGGGAGGAAGAGGAAGTGAAGCGGATCAAACTACACGTGGAGACA
GAGAGATGTCTGCTAGAAGATAGACTGGCTGCCAGAGTCAAGGATATAGAAGAACAGAGA
AGGGTCATGGAGGACAGAATGACACAGAATATGGAGTGGCTGAACGGTCTGTTGGACTCC
AGCGACACGCAGAGACGAAAGGCGGAAGAGGATCTACAGGCCTTGGAAACAGAACTACAG
AGCTGTATGACGAGTGTTGATGGATGTATACAGGAGATGGATCAAGAAAGCATTGGAATA
ATAAGCGACACGGACAGAAGGACAGAGGACGTCGTGAAGGTTGTTGAGAGAATACAAGCA
GACCTACAGGGAACGGTGACGGGGACAGAGACGTGCATACAGTCGATAGAGGCTAACAGT
CAAACACTCAGTGAGGTCGCGGACCTCGCCGATAAAACCGTCAGTTTGATCGAACGGAAA
TGTAACGAAACTGTGGATTCAATAGTTAGTGAGTTCGAAACTGCATCCTCAGAAACTATG
GAAAATGTCCGTCGTGTGGGGGCGTTGTCTCACAGCTTAGCGGAGAACACGCAGGGACAC
CGCCACGAACAGGGCGAAGCCCTACAAGGGGTGCGGCAGCGGGCGGAGGCGCTCCAGAAC
GACCTGGTCAGGGAGCTGGACGCGTTGAACCAACTCGACGAGCAATGTCTGTGGAGAGAG
TACGCTGTGTATCGACCCAGCGGCTCGACTCCGGCCCGCCGACCTTACAACTACCCTCGC
TCGCTGGCTTCCACCTCCCCGGAGTCCTTGGTGCTGGCCAGATTGACGCTGCACTCCAAT
TCCGTCCTGGAGGACTCCAGCGACGAGGACCTCGACTCCAACACGGAGGAGAGCATCGTC
AACGGCAGCTCCGACGCCAACAACAGTCGCAAGCAGCGCGAGGAGTCAGGGAAGGAGAAC
GTGAACTCGAACCGCTCGATGAGTTTCAAGAAGCCGTCCAAGTTGCCAGCTCCCTCCAGC
ATCAAGAAGCCGCTCGTGGATAGAAACGACTACTGA
Protein sequence:
MTSEKGCRKEKNQNIQVFVRLRPLNQRERDIKSLGVVEVVNNREVVVRQSQQNSLTKRFT
FDRAFPPHSKQVEVYQEVVSPLIEEVLAGYNCTVFAYGQTGTGKTHTMVGEAAQDETTWQ
NDPLAGIIPRALSQLFDELRLSNTEYTVRVSYLELYNEELVDLLSTEDGSKLRIYEDVTR
KGANIVNGLEEITVYNKNEVYKIMAQGQERKRVASTLMNAQSSRSHTVFTIVVHMKENSP
EGEELVKIGKLNLVDLAGSENISKAGSDNPAKRERARECVNINQSLLTLGRVITALVERH
PHIPYRESKLTRILQESLGGRTKTSIIATISPGHKDLEETMSTLEYANRAKNIQNKPEVN
QKLTKKAILKDYAEEIDRLKRDLHAAREKNGVYLANDTFAEMTLKQEEQRKEIQELLLKK
RAMEEERERIRQVFQELRNQLEDKLRDTQDQLAKTNENLRTTKQQYLEQRHLASVRANTE
KVLTEQATKILEAADCASVDAMGLHDAVDRRRKLEEDNLGLTTSYREHARKHRDYAREDL
NDYMHSLIGALKEITDHLDTFTNMCSQTHCDNEQTLNELVKNTMSVMEKIKTMKDNFSAD
IEDTAKTELCSLRENVKSREGAILDVLKRLSNGIKTNLKKTEVDDLGLLLRVIEELRSAS
SARVRAVRESGGRVEKAVRESGGRLRSAAGNAREHTDGHAGALDRAVRDRLALLMEDKSR
TEKYLAEQMAVAENERRDMETRLKKWEEEEVKRIKLHVETERCLLEDRLAARVKDIEEQR
RVMEDRMTQNMEWLNGLLDSSDTQRRKAEEDLQALETELQSCMTSVDGCIQEMDQESIGI
ISDTDRRTEDVVKVVERIQADLQGTVTGTETCIQSIEANSQTLSEVADLADKTVSLIERK
CNETVDSIVSEFETASSETMENVRRVGALSHSLAENTQGHRHEQGEALQGVRQRAEALQN
DLVRELDALNQLDEQCLWREYAVYRPSGSTPARRPYNYPRSLASTSPESLVLARLTLHSN
SVLEDSSDEDLDSNTEESIVNGSSDANNSRKQREESGKENVNSNRSMSFKKPSKLPAPSS
IKKPLVDRNDY