| New model in OGS2.0 | DPOGS202874 |
|---|---|
| Genomic Position | scaffold859:- 6530-23544 |
| See gene structure | |
| CDS Length | 3720 |
| Paired RNAseq reads | 4513 |
| Single RNAseq reads | 9909 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005102 (6e-42) |
| Best Drosophila hit | Kinesin-like protein at 3A (1e-98) |
| Best Human hit | chromosome-associated kinesin KIF4A (5e-139) |
| Best NR hit (blastp) | PREDICTED: similar to Kinesin-like protein at 3A CG8590-PA [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Kinesin-like protein at 3A CG8590-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0000166 nucleotide binding GO:0003677 DNA binding GO:0003774 motor activity GO:0005524 ATP binding GO:0007018 microtubule-based movement GO:0003777 microtubule motor activity GO:0005634 nucleus GO:0005874 microtubule |
| InterPro families | IPR019821 Kinesin, motor region, conserved site IPR001752 Kinesin, motor domain |
| Orthology group | MCL11250 |
Nucleotide sequence:
ATGAGAACAGAGATTGAGCGAGGGTGTGACGAATGTATTGACGTTGTATCTGGAGAACAA
CAGGTGCAAATAAAAGACCTGGCCTTTACTTACAATTATGTTTTCCCTCAACATATCAAC
CAGCAAGAGTTTTACGACACAGCAGTTAAAGGACTTATCGGGAAACTATTTCAAGGATAC
AATGTTACAATACTCGCCTACGGCCAAACTGGATCAGGTAAAACCTATACAATGGGAACA
AATTATTCTGGATCTGACGGTGACTCAACTAAACTAGGTGTAATCCCCCAAGCTGTAGCT
GATATATTTGACTTCATCGAGACCCATGAAGACAAGTTTATATTCAAAGTGTCTGTCTCC
TTCATGGAGTTGTATCAAGAGCAATGTTACGACCTGCTTTCCGGCAAGGAGAGGGGTCAT
AGTATTATAGAAATTAGGGAAGATATAAACAAAGGCGTCATTTTACCTGGTATAACTGAA
TTGCCGGTTGCATCGACTCGTGAAACTATGACGGTGTTAGAAAGAGGATCATCTGGCCGA
GTGACCGGTTCCACAGCGATGAACCAGGCATCGAGTCGTAGTCATGCAGTATTCACAATA
GTAATTGCTAAAGAGAGCAGAAGTGATAAGAATTTAGCAACAACATCGAAGTTCCATCTC
GTGGATCTGGCTGGTTCAGAGCGTATCAAGAAGACTAAGGCCAGCGGCGAACGACTCAGA
GAAGGTGTCAAGATCAACCAAGGCCTACTGGCACTAGGGAACGTTATATCAGCCCTCGGC
GACGGAACCAATAGGAGCTTCATCAGCTACAGAGACAGCAAGCTCACGAGATTGTTACAA
GACAGCCTGGGCGGTAATTCCTTAACATTGATGGTGGCGTGCGTCAGTCCGGCCGACTAC
AACCTGGACGAGACCGTGTCCACGTTACGGTACGCGGACAGAGCCAGACGTATACGGAAC
AAGCCTGTTATTAACCAGGACGCTAAGGCTGCTGAGATTGTAAGGTTGAACAATTTGGTT
AACGAGCTCAGACTGCAACTGCTCGGGAAGCTTCCCACCATAAGCGAGCAGAACAATGAA
CAATTGCAAGAAGAATTAGACAGGGAGAGAGCAAAGTACTCTGAGTTGCTCAAGAAACAC
AAACAAGTCACCGAACACTTGAACAATATGTTGATAGAAAACACGAACCTGTGCGAGAAG
GCGCTCCTGGCCGAGGCCGCCAAGGATAAAATAGAACGCAAGCTGAACGAAATGACGGAG
CACTGCAACCAGACCATAGAGCATCTGAACGTGACGGACACCTCGCAAGACGACGCGCAG
AAGTCGACGGTAGTGGACTACTTGAAGGAGATCAAGATGAGGCTGGAAGACTTACAGTCC
GTCAATCTGAAGACTAACGAGGAGCTGATCGATCACGAGATAAAGCTGTCGTTCGTTAAA
GAGGACGTGGACGGGGAGAAGGCGGACGACGACGTGATGCTCAACGAGGACCAGGCCGTG
CTGGAGGAAGAGAAGCGAGCCATGGGACAGGTCGCACTCAATCAAGAGCTGCAAGAGCTT
AACCGCGCTATGGCCATCAAGGCATCCGTGGTTCAAGCTATACTGGCCAACAACAAGGAA
ATATTGGACAGTCATAACAATCTGAAAGAAAACGAAGAAAGGATATCGCAATTAGAAAAA
CAAAGGGATGAGCTCATGCAGCAGTTGAAGCAGTCCAAGAGCAAAGATCCCTCGATGGAA
GAACGCCGTACGAAAGTTTCTACGCTGGAACAAGAGATATCAGACCTGAAGAGGAAGTGT
CAGCAGCAAGCGAACATTATAAAAACAAAGGAAAAGAACGAGGCTAAGATCGCTGCGCTG
AATGCTGAGCTGCAAGCCATGAAAGCCACTAAGGTTAAAATAATCCGTCAAATGCGTGAA
GAGAGCGAGAAGTTCCGCAAGTGGAAGGCTGACAACGAGCGCGCCATGCTGCGGCTCAGG
AACGAGGACCGGAAGCGGGCCACGGCCATGGCGAAGATGGAGTCTCTACACGCCAAGCAA
CAGAACGTGCTGAAGAGGAAGATGGAGGAGGCCGTGGCCGTCAACAGGAGGCTCAAGGAA
GCTCTGGATCGTCAGAAGCACACGGCCATGAAGCGGAACGCCAAAGGCAGTGTGAAGGCT
GGTGCGTTACAGCAGTACATAGAGCAGGAGTTGGAGGTGCATCTCAGTATAGTGGAGGCG
GAGAGGTCGCTCGAGGAACTCATGGAATATAGGGCCTGGATAACGGAACAGATTGAAAAT
CTCCGTAATAGTGCGGACGATGAAGCGAACAGAAAGAAAATAACGGAGCTGGAGGACGAT
CTCGCGCTCCGGAAGGCACAGATATCAGACCTACAGCAGAAGATACTAACAGCTGACCAG
GAAAACAAATCGCGCACTCAATGGGACAACATACAGTCGATGCTTGAAGCGAAGGTAGCG
CTTAAATGTCTTTTCGAGCTGCTCGTGGACGCTAAGAGGGAGCTGCAGAACCAGAGCGAG
AAGGGCTACCAGGCGAGGTACGAGGAGATCAAAGAGACATACGACAGGCTGGCCGTGGAG
TTCGAGACTACTAAGACTGAGTTCGAACGACAACTGGCCTCCGTGAAGTTACAGAACGAG
CAGAAGCTAAGTGCACTAGTGGCGCTGCAGCGCGGCGTCGTTGGACGGGGTGAGCGAAGC
GAAGCATGCCGTCATCTGCAGAATGTGATACAATACCAGCAGGACCGCCTGGAACAGCTG
GAACAGGAGAACAAAAAGTTGGCCGATGAGTTAGAAGAGCTGAGGACGGCGAGCAAGAAG
GCGAAGAAACGCAGCAAGAAGGATAGTTCGATGGAAGCTACAAAGAAGGTGGAATATGTA
GAGCCCACCGACGAAGAGGACGACGAGGTCGAGGATCCTGACAAGGATCCTGACTGGAGA
GCGACGCCTCTGTTCAAGAGAATACAGGCGCAGCGATCTCGTCTCACGATGAATTTCACT
ATGGACGAGAACAGAGCCATCAAGCGTTCCAACGACGGCGCGACTCACTGCACGTGCCGC
GGCAGTTGCTCCACTAAGATGTGCGGATGTGTTAAATCGGAACGCGGATGCGGAACCGGA
TGCAGGTGTCAGGCGGAACTGTGCAAGAACAGGAGAGTGTCCTCCGACAGCGAGGATAAG
GAGAATAATCCGTCCAGCACCGAGTACTCGCTAGACACGACACCGCCGTCTTCATACTTT
GACAAACGATTCGAATCATCCGACGAGTTGAATCAAACGAATTGTGATGAAAAACCAGCG
CCGAGTCCGCAGCAGATAGCGAGGCTGCGCCCCCAGTCCGAGAGAAGGTTGATAACTAGC
GGCCGTACACAGAAATGGCTACTGGCTTTACTAATATACAACACGTGTGTCGCGCCGGTG
TCCGAGTACTGCGCTAAGAGTCTCATTCAATACGGGCTAGACGTGGCCAAAGACAACGTC
CTGTCTAGTATAATGAAATATATGACGCGAGAGGTTATTCTGATAGATCACCTTGACGCT
ACGTATAAAAAAAAAAAGAAAAGTTATTTTTTCCCACAAGACGCTACCAACGGCGAGGTT
AAAAAGAAAATAACCGAAGGTGTGAAGACAGAACAAGGGATGATGAGTTTCGTCACGAAT
CAAGAAAGGCGCGAAGGCTTGCTTTCGTTGCTCGGAGAAATCACGGACCGGTCCCAGTAG
Protein sequence:
MRTEIERGCDECIDVVSGEQQVQIKDLAFTYNYVFPQHINQQEFYDTAVKGLIGKLFQGY
NVTILAYGQTGSGKTYTMGTNYSGSDGDSTKLGVIPQAVADIFDFIETHEDKFIFKVSVS
FMELYQEQCYDLLSGKERGHSIIEIREDINKGVILPGITELPVASTRETMTVLERGSSGR
VTGSTAMNQASSRSHAVFTIVIAKESRSDKNLATTSKFHLVDLAGSERIKKTKASGERLR
EGVKINQGLLALGNVISALGDGTNRSFISYRDSKLTRLLQDSLGGNSLTLMVACVSPADY
NLDETVSTLRYADRARRIRNKPVINQDAKAAEIVRLNNLVNELRLQLLGKLPTISEQNNE
QLQEELDRERAKYSELLKKHKQVTEHLNNMLIENTNLCEKALLAEAAKDKIERKLNEMTE
HCNQTIEHLNVTDTSQDDAQKSTVVDYLKEIKMRLEDLQSVNLKTNEELIDHEIKLSFVK
EDVDGEKADDDVMLNEDQAVLEEEKRAMGQVALNQELQELNRAMAIKASVVQAILANNKE
ILDSHNNLKENEERISQLEKQRDELMQQLKQSKSKDPSMEERRTKVSTLEQEISDLKRKC
QQQANIIKTKEKNEAKIAALNAELQAMKATKVKIIRQMREESEKFRKWKADNERAMLRLR
NEDRKRATAMAKMESLHAKQQNVLKRKMEEAVAVNRRLKEALDRQKHTAMKRNAKGSVKA
GALQQYIEQELEVHLSIVEAERSLEELMEYRAWITEQIENLRNSADDEANRKKITELEDD
LALRKAQISDLQQKILTADQENKSRTQWDNIQSMLEAKVALKCLFELLVDAKRELQNQSE
KGYQARYEEIKETYDRLAVEFETTKTEFERQLASVKLQNEQKLSALVALQRGVVGRGERS
EACRHLQNVIQYQQDRLEQLEQENKKLADELEELRTASKKAKKRSKKDSSMEATKKVEYV
EPTDEEDDEVEDPDKDPDWRATPLFKRIQAQRSRLTMNFTMDENRAIKRSNDGATHCTCR
GSCSTKMCGCVKSERGCGTGCRCQAELCKNRRVSSDSEDKENNPSSTEYSLDTTPPSSYF
DKRFESSDELNQTNCDEKPAPSPQQIARLRPQSERRLITSGRTQKWLLALLIYNTCVAPV
SEYCAKSLIQYGLDVAKDNVLSSIMKYMTREVILIDHLDATYKKKKKSYFFPQDATNGEV
KKKITEGVKTEQGMMSFVTNQERREGLLSLLGEITDRSQ