New model in OGS2.0 | DPOGS205065  |
---|---|
Genomic Position | scaffold62:- 21849-32301 |
See gene structure | |
CDS Length | 2898 |
Paired RNAseq reads   | 6798 |
Single RNAseq reads   | 16974 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006809 (0.0) |
Best Drosophila hit   | kinesin heavy chain (0.0) |
Best Human hit | kinesin-1 heavy chain (0.0) |
Best NR hit (blastp)   | kinesin heavy chain [Bombyx mori] (0.0) |
Best NR hit (blastx)   | kinesin heavy chain [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0005871 kinesin complex GO:0003774 motor activity GO:0008017 microtubule binding GO:0007018 microtubule-based movement GO:0003777 microtubule motor activity GO:0007269 neurotransmitter secretion GO:0019227 neuronal action potential propagation GO:0008574 plus-end-directed microtubule motor activity GO:0007317 regulation of pole plasm oskar mRNA localization GO:0007315 pole plasm assembly GO:0007310 oocyte dorsal/ventral axis specification GO:0007303 cytoplasmic transport, nurse cell to oocyte GO:0045451 pole plasm oskar mRNA localization GO:0008088 axon cargo transport GO:0005524 ATP binding GO:0001754 eye photoreceptor cell differentiation GO:0016482 cytoplasmic transport GO:0005739 mitochondrion GO:0047497 mitochondrion transport along microtubule GO:0008103 oocyte microtubule cytoskeleton polarization GO:0048311 mitochondrion distribution GO:0005875 microtubule associated complex GO:0007411 axon guidance |
InterPro families    | IPR001752 Kinesin, motor domain IPR019821 Kinesin, motor region, conserved site |
Orthology group | MCL10958 |
Nucleotide sequence:
ATGGCAGCTGATCGCGAAATTGCTGCTGAAGACAGCATTAGAGTCGTATGCCGATTTCGG
CCACTCAATGACTCCGAAGAAAAAGCTGGCTCCAAATTTATTGTTAAATTCCCTTCAGGG
CCGGACGATAATTGCATTTCCATAGGGGGGAAAGTGTATTTGTTTGACAAAGTGTTCAAA
CCAAATGCAACTCAAGAGAAAGTATACAATGAAGCTGCTAAGAGCATTGTATCTGATGTA
CTTGCCGGTTACAATGGTACCATATTTGCCTATGGCCAGACCAGTTCTGGTAAAACACAT
ACCATGGAAGGTGTCATAGGAGATCCAGGAAAACAGGGTATCATACCAAGGATAGTCAAC
GATATATTCAATCACATTTATGCAATGGAAGAAAACCTTGAGTTCCACATTAAGGTTTCA
TATTTTGAAATTTATATGGATAAAATCAGGGATCTTTTAGATGTATCAAAAGTGAATCTG
AGCGTTCATGAAGACAAAAACAGAGTTCCATTCGTCAAAGGTGCTACAGAGAGATTTGTG
TCAAGTCCAGAAGAGGTCTTTGAAGTCATAGAAGAAGGAAAGTCAAATAGACATATTGCT
GTAACAAACATGAATGAACACTCATCTAGATCCCATTCAGTCTTCCTCATAAATGTCAAA
CAGGAAAACTTAGAAAATCAAAAGAAGCTATCTGGCAAACTCTACCTTGTAGATTTAGCT
GGATCTGAAAAGGTATCGAAAACTGGTGCTGAAGGTACGGTGCTTGATGAAGCAAAGAAT
ATTAATAAATCACTGTCGGCGTTGGGTAATGTAATTTCTGCACTAGCGGACGGTAATAAA
TCACACATACCATACAGAGATTCCAAATTGACCCGTATCCTACAAGAATCTCTTGGTGGT
AATGCCAGGACCACTATTGTCATCTGTTGTTCTCCGGCTTCATTCAATGAAAGTGAAACT
AAGAGTACTCTGGACTTTGGTAAAAGAGCCAAGACTGTTAAGAATGTTGTATGTGTCAAC
GAGGAACTCACAGCTGAAGAATGGAAGCGCCGCTATGAGAGAGAGAAGGAGAAGGTGGCT
CGGCTGAAAGGAAAGGTTGAAAAATTGGAAGCTGAGGTTAACCGCTGGAGGTCCGGAGAG
ACTGTCCGTCCTGAGGAACAAGTCAATCTGGTTGAGATTGAAGCAGTCACACCAGTTACA
TCCTTCATTGAAGAGAAGCCACCGGCAGCACCGGTGCCCGTGGCTGTATCAAGCGCTGTC
GAGGACGTCGCCATGCAGGCTAAGCTGGAAGCGCTGTATCAACAGCTGGACGACAAGGAC
GAGGAGATCAACCAGCACTCGCAGCTGGTGGAGAAGCTCAAGGAGCAGATGATGGAACAG
GAGGAACTGATCGCGTGCACTCGCCGCGACTACGAAGCTCTGCAAGGAGACATGAATCGC
ATCCAGCAAGAGAACGAGGCGGCCAAGGAAGAGGTGAAGGAAGTGCTACAAGCGCTGGAG
GAGCTGGCCGTCAACTACGACCAGAAGTCGCAGGAAGTTGATAGCAAGAGCCGGGAATGT
GATCAGCTGTCTGAAGACCTGCAGACTAAGCAGAGCGCCCTCGCGACTGCTACAGCTGAG
CTGCAACAGCTGCGTGATCTATCGGCTCATCAACGAAAACGTATCGCGGAACTCCTCACG
AACCTGCTGCGAGACCTGGCCGAGATAGGCGCTGCGGTTGGCGGCTCAGAACTGGACTTC
AAACTGAACGTGGACACGGTCGGGAAGCTCGAGGAGGAGTTCACGGTAGCTCGTCTTCAC
ATCAGCAAGATGAAGAGCGAGGTGAAGAACATCGTGCAGCGCTGTCACTCGCTGGAGTCG
GCTAACATCGACGCCAACAAGAAGATCGAGGAGTATGAGAGGTCGTTGGGCGAATGTCGT
CTGCTGATCTCACAGCACGAAGCACGTTGTGCTTCACTCGCCGAGTCCATGCGTGAGGCG
GAGAATAAGAAACGACAACTGGAGGAGGCGGCTGACGCCCTCAGGGAGGAGTGCGCCCGT
CTTCAGGCGGCGGAGCGCGTGCAGCTGGCGGCCGCCGAACAACGTGCCGATACCCAGGTC
CGTGCAGCACTGGAGGCACAGCTGGAACAGCTGCGCACTTCACACGCCACACAGCTGGCA
GCGCTCAGAGACGAGCTGGCCGCGCTGCAGAGACACCACCAGGAACTCAAGGATTCATAC
CAAGAGCTGACCCTTGCCCGCCAACAACTGCAGGACGACTACGAAAAGCTGAAGCGCGAG
GAGGCCGACAAGTCCGCCAAGCTGAAGGAGCTAATTCAAAGTGTGGAGCGACGCGAGCAA
GCCCGCGCAGATCTCAAAGGTTTGGAAGACACCGTGGCTAAAGAGTTACAAACGCTTCAT
AACCTGCGAAAGCTGTTCGTACAGGATCTGCAGGCAAGAATAAAGAAATCCACGAACTCC
GAGGAAGGCGCGGAAGAAGAAGGCGGTTCCCTCGCACAGAAACAGAAGATTTCCTTCTTA
GAGAACAACCTCGAGCAGCTCACAAAGGTGCACAAGCAGCTCGTGAGGGACAATGCCGAC
CTGCGTTGCGAGCTGCCTAAGTTAGAGAAGCGATTACGAGCCACCATGGAACGAGTCAAG
GCGCTGGAGACGGCACTCAAGGAAGCTAAAGAAGGAGCTATGCGAGACCGCAAGAGATAC
CAGTTCGAAGTCGACAGGATCAAGGAGGCGGTGCGCGCTAAGAACCTCGCCCGGAGAGGA
GTACAGGCTCAGATCGCAAAACCGATCCGAGCCGGTGGCGGTCACCTGGCGGGAAGCGGC
GCGGCCGGTGTTGTGCGACCCGCTCCCCAGGACATTAAGAGGAAGTCGATCGTGGTTGGC
GCAAGAGATGAGAGTTGA
Protein sequence:
MAADREIAAEDSIRVVCRFRPLNDSEEKAGSKFIVKFPSGPDDNCISIGGKVYLFDKVFK
PNATQEKVYNEAAKSIVSDVLAGYNGTIFAYGQTSSGKTHTMEGVIGDPGKQGIIPRIVN
DIFNHIYAMEENLEFHIKVSYFEIYMDKIRDLLDVSKVNLSVHEDKNRVPFVKGATERFV
SSPEEVFEVIEEGKSNRHIAVTNMNEHSSRSHSVFLINVKQENLENQKKLSGKLYLVDLA
GSEKVSKTGAEGTVLDEAKNINKSLSALGNVISALADGNKSHIPYRDSKLTRILQESLGG
NARTTIVICCSPASFNESETKSTLDFGKRAKTVKNVVCVNEELTAEEWKRRYEREKEKVA
RLKGKVEKLEAEVNRWRSGETVRPEEQVNLVEIEAVTPVTSFIEEKPPAAPVPVAVSSAV
EDVAMQAKLEALYQQLDDKDEEINQHSQLVEKLKEQMMEQEELIACTRRDYEALQGDMNR
IQQENEAAKEEVKEVLQALEELAVNYDQKSQEVDSKSRECDQLSEDLQTKQSALATATAE
LQQLRDLSAHQRKRIAELLTNLLRDLAEIGAAVGGSELDFKLNVDTVGKLEEEFTVARLH
ISKMKSEVKNIVQRCHSLESANIDANKKIEEYERSLGECRLLISQHEARCASLAESMREA
ENKKRQLEEAADALREECARLQAAERVQLAAAEQRADTQVRAALEAQLEQLRTSHATQLA
ALRDELAALQRHHQELKDSYQELTLARQQLQDDYEKLKREEADKSAKLKELIQSVERREQ
ARADLKGLEDTVAKELQTLHNLRKLFVQDLQARIKKSTNSEEGAEEEGGSLAQKQKISFL
ENNLEQLTKVHKQLVRDNADLRCELPKLEKRLRATMERVKALETALKEAKEGAMRDRKRY
QFEVDRIKEAVRAKNLARRGVQAQIAKPIRAGGGHLAGSGAAGVVRPAPQDIKRKSIVVG
ARDES