New model in OGS2.0 | DPOGS213806  |
---|---|
Genomic Position | scaffold2009:+ 16380-18272 |
See gene structure | |
CDS Length | 1893 |
Paired RNAseq reads   | 639 |
Single RNAseq reads   | 1579 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006545 (0.0) |
Best Drosophila hit   | non-claret disjunctional (3e-109) |
Best Human hit | kinesin-like protein KIFC1 (2e-75) |
Best NR hit (blastp)   | kinesin-like protein Ncd [Bombyx mori] (0.0) |
Best NR hit (blastx)   | kinesin-like protein Ncd [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0032837 distributive segregation GO:0005819 spindle GO:0000212 meiotic spindle organization GO:0008569 minus-end-directed microtubule motor activity GO:0007100 mitotic centrosome separation GO:0005872 minus-end kinesin complex GO:0007059 chromosome segregation GO:0003777 microtubule motor activity GO:0007018 microtubule-based movement GO:0005871 kinesin complex GO:0007056 spindle assembly involved in female meiosis GO:0005524 ATP binding GO:0007051 spindle organization GO:0000022 mitotic spindle elongation GO:0001578 microtubule bundle formation GO:0042803 protein homodimerization activity GO:0031534 minus-end directed microtubule sliding GO:0007052 mitotic spindle organization GO:0090307 spindle assembly involved in mitosis GO:0032888 regulation of mitotic spindle elongation GO:0090306 spindle assembly involved in meiosis |
InterPro families   | IPR001752 Kinesin, motor domain |
Orthology group | MCL11196 |
Nucleotide sequence:
ATGTCCCGGATTCCAAAATATCCAGTTTCTGCTGCTAAAGAAAACAGACCAGGAATATCT
AACAGCCGTATAATATCAAGAACAATCGGAAACGGCTTCAGTGATGTTGAAAAGAAAAAT
CTGCTCATGAATCACACCAAGCCAATGAATGGCACTACAACTAACAAGGTGGCAGCTCCT
CGCATCAAGAGGTCAGCTACAGCACCTTCTTCTGCTACTGTCCCCACTAAAACAGCTAAA
GTTGAAAAGAAAACTACTACTGTTGCAGCGAGAATTCCTTCTTACGATTACAAAGCTAGG
TTTAATGATTTAATAGAGAAACACAAAGTCATTAAGAGTGAGTTGAGTGAATTAAAGGAA
AAACATTTGGAAATATCTGATGAGTATGAAAAAGTAAAAGACACAGTCGAAAGCAGTGTT
TCAGAAAGGGATGCTTTGAAAGAAAAACTTTTAAATACTTATACAGAGTTAAGAAAACAA
TCTACCGACTTGGAAAGCTTAAAATTAGATTATGAAATTCTAAAACGTGAAAATGACGAT
CTACATGGTAAGACTAGACTGTTAGAAGACATGACTAAAAGTTTAAAAATTAAGACAGCG
GAATATGACAAACTTAAAACAGAATATGATGACTTAACTCGTCGATATAAAAGTCTTAGT
GATGAAGCTGAAGCTTTGAGAGTTTTAACTGATCACCTTAAAAAAGTATCCGCTGAATAT
GACACATTACAAATTAATCATAAAGATGCACTTGACACTATATCCAAAACAAAATCCGAT
TCAGAGGCATTGCAAAATATATTAGCTAACATGTATAAGGAACAGAGAATATTAAGAAAT
ACTGTACAAGATTTGAAAGGAAACATCCGAGTGTACTGTAGGGTGAGACCTCCATTGGAA
TCTGAAGCATCGAAGCCCTTGTACAATCTTAATGTCCTTGATGCTTGTTCTATGGAGGTG
GAAAAAATTGAGTTATTAAATTCAGCAAGAAAGGGTAAATCTCAACATTCATTTTCTTTT
GATGGCATATTTACACCGCATTCATCTCAGGAAGATGTATTTGCTGAGGTTTCACCAATG
GTCCAGTCGGCATTGGATGGCTACAATGTTTGTATATTTGCCTATGGTCAAACCGGCTCT
GGCAAAACTTACACCATGGAAGGTGGTAATGGGGTAGAAAAATATGGTATTATTCCAAGA
GCCATTGACATGATTTTTGATGGTATGGTAGATCTTAAAAGAATGGGGTGGGAATTGTCC
ATCAAAGCTTCATTTTTGGAAATCTATAACGAAATTATATATGACTTATTAAACTCTAGT
AAAGACCAGGAGAGTCATGAAATAAAAATGGTCAACTCGAAGTGTACAGATCTATATGTA
TCTAACTTGAAAGAAGAAGAAGTGAAGAGCTCTCATGATTTCATCAGGTTATTGATATTT
GCCCAACGTAACAGACAAACCGCTGCAACATTGAACAATGAAAGGAGCTCGAGGTCACAT
TCAGTTGCACAAATAAAAATATCAGCTATTAATGAAAAACGAAAAGAAAAATTTACAAGC
AACTTGAATCTTGTAGACTTGGCTGGTTCAGAGAGTGGGAAAACAACACAAAGAATGGAT
GAAACGAAACATATCAACAGATCACTCTCAGAGTTATCTAAAGTTATCTTATCTTTACAG
ACAAATCAGTCTCACATACCTTACAGGAATTCTAAACTCACACATCTGTTGATGCCGAGT
CTGGGGGGAAATTCTAAAACACTTATGTTGGTAAATATCAATCAATTTGATGAAAGCTTC
AATGAGACTCTAAACTCCTTGCGGTTTGCTACGAAAGTGAACAGCTGCAGAACGATCAAG
GCAAAGAAAAATATAACTATGGTTGATTCATAA
Protein sequence:
MSRIPKYPVSAAKENRPGISNSRIISRTIGNGFSDVEKKNLLMNHTKPMNGTTTNKVAAP
RIKRSATAPSSATVPTKTAKVEKKTTTVAARIPSYDYKARFNDLIEKHKVIKSELSELKE
KHLEISDEYEKVKDTVESSVSERDALKEKLLNTYTELRKQSTDLESLKLDYEILKRENDD
LHGKTRLLEDMTKSLKIKTAEYDKLKTEYDDLTRRYKSLSDEAEALRVLTDHLKKVSAEY
DTLQINHKDALDTISKTKSDSEALQNILANMYKEQRILRNTVQDLKGNIRVYCRVRPPLE
SEASKPLYNLNVLDACSMEVEKIELLNSARKGKSQHSFSFDGIFTPHSSQEDVFAEVSPM
VQSALDGYNVCIFAYGQTGSGKTYTMEGGNGVEKYGIIPRAIDMIFDGMVDLKRMGWELS
IKASFLEIYNEIIYDLLNSSKDQESHEIKMVNSKCTDLYVSNLKEEEVKSSHDFIRLLIF
AQRNRQTAATLNNERSSRSHSVAQIKISAINEKRKEKFTSNLNLVDLAGSESGKTTQRMD
ETKHINRSLSELSKVILSLQTNQSHIPYRNSKLTHLLMPSLGGNSKTLMLVNINQFDESF
NETLNSLRFATKVNSCRTIKAKKNITMVDS