New model in OGS2.0 | DPOGS202022  |
---|---|
Genomic Position | scaffold356:+ 138083-146472 |
See gene structure | |
CDS Length | 4752 |
Paired RNAseq reads   | 3226 |
Single RNAseq reads   | 7961 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA012531 (1e-22) |
Best Drosophila hit   | Bub1 homologue (1e-80) |
Best Human hit | mitotic checkpoint serine/threonine-protein kinase BUB1 (5e-47) |
Best NR hit (blastp)   | Bub1 [Culex quinquefasciatus] (6e-96) |
Best NR hit (blastx)   | Bub1 [Culex quinquefasciatus] (2e-91) |
GeneOntology terms    | GO:0004674 protein serine/threonine kinase activity GO:0004672 protein kinase activity GO:0006468 protein amino acid phosphorylation GO:0005524 ATP binding GO:0007094 mitotic cell cycle spindle assembly checkpoint |
InterPro families    | IPR000719 Protein kinase, catalytic domain IPR013212 Mad3/BUB1 homology region 1 IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR015661 Mitotic checkpoint serine/threonine protein kinase, Bub1 IPR011009 Protein kinase-like domain IPR017442 Serine/threonine-protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain |
Orthology group | MCL12733 |
Nucleotide sequence:
ATGGATATAGATGTTAGTAAGGAAAATATCCAACCTCTAAGAGGTGGCAGAAACCTTATG
CAGCTGGGCACTGCTTTGCAAGCTCAGTCAGACAGTGATGTTCAAAGACAACTACTATTG
CAAAAAGACGAGCATGAAGAAGCTATAAGACAGTACCAAGGCCCTGATCCCTTGGAGCCA
TGGTTTAATTATATCCAATGGGTGGAACAATCTTTTCCTAAGCATGGCCACGAAGGGAAT
ATTGATAAGCTAATCAAAGACTGCCTACAGTTGTTTGAAAAAGATGAGAGGTACTTCCAA
GATAGGCGTCTTGTTAAATTATGGATCAAATATGTGGACTGTCTCTCCAATCCTCTTGAG
ATATATCAAAGGTTATATAACACTGGCATTGGTGTTGAGTGTTCAGAGTTTTACCGAGCC
TGGGCCTGTTATTGCGAGGAGTCTGGAGATTATAAGAAAGCAAACCAAGTGTACATGTTA
GGTCTGCAAGCTAAGGCTCAGCCATTGGATGAATTGGAACAGGCTCATATGAACTTCCAG
TTATTTTTTGCCCAGCGTATGTTACATGATGATTCACCAACTAAACGTAAGGCAGCTTCA
GCGCTTGCCGAAACCAGAATGGCTCTAACATCGCTTAAATCATTCAAGAGGAGAAACATT
GCTAATGTCCCAGTACAAAGAGTCGGTGACAGTGTTAAGAGCAGTCTACCAGGTGTTGTA
AGACAACAGGCCGTTGATAACAGATTACCCAACTCTAATGTAATGGTTAATGTGTATGAG
GATGCTCCGTCAACATCGAGAGGAGTTGTGACAGCTGAAGATCCCGGCCCGGCATCACTG
GTCCAGGCCTGCAATGTGGAAAATGAAAAGGAGGTTGGGATATGGACCAACCCCAAAACG
AAGATGGTTCACACCAATGTCGTACCGCACCAACCTTTGCCTTTTACTCCATATGAAGAT
ATGGACGATGATTTAAAACTTTCTTCCAAGCATATGCCTTATTGCTTAGATGACTTAACA
TTTAATGTGCCACTGTGTGTACCTGATCCAGCCGATCCAACGAAAATTCCCTGTTATAAT
AAAGCCCAGGTATATTTTAACGATAAAGAATACAGTTTAGAAGAAATAAGAGCTAGAAAA
TATAATGTACAAAAAGCCGTTAAAACAGAAAATGTGCAAGTACAGGAAACCTATAAGAAT
ATAAACGAAACGTTAGCACAGTGCAGTGCATTAGAAACTTTAGCCAATTGTGCTTTGGAC
TCTGAACAAGATCATATGGGACAATTAATGCCACTAACAATGCCAACACTACAAAATGTC
ACCAAAGTAACAAATATGCATTCACCGGGAGAGCCTAAAGTATTGTGTAATTTAGACTCG
AAAGAAGTGAGCGAGCTTGCCGCTAAGAAAAACGACGAAAATGAAATCCCATCGAGTTCA
TTAAGCGACAAGGAAAATCAAGTTGCTAATCACTTCAACAACGAGAACGTTGGTAATTTT
GGTAAAAATAATTTAATGGAAGAATTCAATAGAAGCTTAATGGGGAACCTTTTGGGTGAT
TCAGTGACTGTTAACACAAAGGAAGCGCGCTGGGAGTTGCGTAACATATTTAACGACAAT
GCGGAGCCATCTATAGTTCAGCCGGTTGTTCAACAATTTGACGTTCCCAAATTTGATATA
CACGAAGACAGATCTATGACTATGGCGATTAATGCGAAGAAAAATTTTGATATTCAGGAT
GCCAGAAATATGCCAGAGGATAAAGAAAATGCTAATAAATTTAACGCTATTCAGCCAAAC
GTTACCTCGCAAGCACCAAACGTGTTTAATTTCAACATTAAAAACGCTAGTACTCCAAAC
ATGTCCCAATTTAAGAAACCATCAAATATTGATCAGTCCAGTAAATTCGCTGTACCGAAA
TTTAGCATTGACGAAAGTGTCATTGAACAGCCTGATCAAATTAGTACTAAGAGAGACGAT
TGTTCTAGACAAACAAACGACCAACACGCAACTGTTGACAATCAAGGTGGCGGATTATCT
GTTATTATGGAAGCTACAAGGGAATACAATAGCAAATCTGGTTCTAGTTCATCGGGCCAG
TCAATAAGGACTAATTTTACAGGCTACACTACCAACTTTGACTCCGTTTATAATAACCAC
AATGATCCTAATCATCCGAGTACAACATCAAAAAGGAATTCATTATCAGCTCAAGCTAGA
CTGCCGAATGGTCAATTCGCTCGAGCGTACCCACAGAAGAGGGAAGCGGAAAATAAGATG
GCAGTTACACCGTCCACCTCAGTGCCTTATCATTCTCACGATCACCAATACCAAAAACCT
ATGCCGCCAAACTTCAGTGGTTATTCGCCACAACGCTCGATACATTATCAGCAGAACTAT
AACTATCAACAAAACTTTCCCAACAATCATATGATGAACCAACAGCAACAAGGTTACGGG
AGTCCTAACCCGAGTTCCTATCAAAGTCCTCAGCATCCAAGCATGCAAAATTCCCACGAA
ATGAATCAAGTACCAACTGGATTCCAAAGTCCAACTTATTCTAATCAAATGGCGTACCAT
CAGTCGCCGGTGAATAATCCTGGAAATGTAATGATGAGTCCCCAACAAGGTTTCACCGGA
CGACAGGATTTCCACTACAGTAATCATACGGACCGCCATGTTTACGTAAACCAACAACAC
CAAGTCTTCCAAAGTCCTCCACATCAGACTCAGTTTCAAAACTCTGTTTATTACCAAAGA
TCAAGTCAGCCACAGACACAAAATTCGTACAATCAACAAAACTATCACCATATCCAAAGT
CAATATAATAATCCTAACATGTATTCGAGTAGTGGTCAAAATTCTAATAATCCGAATTTC
AATACAGTACAAAGTCCATACAGGCAAGTGCCGAAACAAATTGAGAACCAAGCTTCTTAC
GGAATGTCAAACAACCAACAATTCCAAATATATCAAAGCCCTCAAGCTTCCCAGAACAGT
AACCTCCGCAATACATCAATGCATGACGCAAACATGGTTCAAGGTTATCAAGAAACACAG
GGACGGCAAGAAATGGTTGATTCGTTGGGGAAACACGAACGAGATGTTGAAAACACAACT
CTCATTAATAACCCGCAGTCCAAAAATTCATCTTCACATAAAAGTCCAAACAATTCAGTA
TTAAGAAACGTAAGATACGACCAGCCTAACGTTAAAATTGGACAGAAATCACCAGAGGTA
GGATTTTCTAATCAATTCTTGAACTTCATATCTAATAGAAACGAACCCAAGGACAATGCG
AATACACCGAAATTTACGAATAGCCCAAGTATATCTCAGAAAATGCATAAAAACTTATAC
GTGTCGAGTCCTGAGCAGGCTCAGATTCCTCCTTCGTCAGGTCTTTCGGACACTGACAGC
AAAGATGGTATGACTGCCCAAACAGCTACACCGATACAATCTGCCAAAATTCTCACTATC
GATAAACAAAAGGACATTTCAAAAAGGCAGTTAGATTTCGAGCACAGAGATAGAGTCGAG
ATTCAATCGGAAGATAGCAGGGACTCGGTCAGTAAGGACAGTAGGATATCATCAGTGTAT
TCGCGACAATCCGATTTCCAGTCCGACGGCTACGGTATGGATATTGACAGTGAAAACTCT
ATGGAGTGTGGCGCCTTCAAATCTTCGCATTCGATCTCCATGATTGAAACCAGTGATATT
CCACGACCCGCTGATATAGACTTCCCCAAGGTCATCGATCCATTCAACAAGAAGATGTTA
ACATCGTTATTGGAATATGTAAAATTTCCCAACAAGACGCACGCCGAGGGATACAACGAA
GTCAGATCTATACCTAAATTGCAAACAGCAACGGTCATATCCGTCGGCAATAGTAAATAC
TCCATAGAAAAACAACTGGGCAAAGGAAACTATGGTGCTGTGTTTCTGTGTCTAGATTTC
CACAGCAATAAGTCTGTTGCAGTGAAATATCAGAAACCAAGTCGTCCATGGGAATTCTAC
ATTTGTCAGGAAATAAAGGCTAGGATAAAAGATCCCTTCATGCTACCTGGTTACATGGAA
ATATCGACAGCTTTCCTTGGCGAAAACGCCAGTTTGTTCGTATCAGAATACTCACGTTAT
GGGTCCTTGTTGGACGTAGCCAACAAAGTTAGGATTGCTACGTCAAAGTGCATCAATGAA
CTCATAGTTATTTTGTTAACATCAGAAATGCTGTCTATAGTACATTATCTCCATAAGGCG
CAAATAATTCACGCCGATATTAAACCTGACAACTTCCTATTAATGAAGATTCCCACTCAA
GAATGGAGGACTCCTTCCTTACAGTTAATTGATTTAGGATGTGCTATAGACATGTCACTG
TTCCCAGAAGGAACTACATTCAGAGAATTAATCGCTACTGAGGGATTTACTTGCACTGAA
ATGAGAGAAGGGAAGCCTTGGACCTATCAGACTGATTTATATTGTCTCGCTGGTACAATA
CACGTCATTTTGATGGGTAGCTACATGAAAGTAGCTAATCGATTAGGACAATGGAATATA
GATAAGAAATTACCAAGGTATATGAAGAATAGCCTTTGGGATAAAATATTTACGACTCTT
CTAAATGTGCCTGATTGTAACAATATACCGGATCTAATGGAACTGAAGAACGATGTTGAC
AACGTACTAAATCAAATTGACTGTCTCGGTTCACAGCTCCGTAACTTTGCTAATGTGCTT
AAATCTAGGTAA
Protein sequence:
MDIDVSKENIQPLRGGRNLMQLGTALQAQSDSDVQRQLLLQKDEHEEAIRQYQGPDPLEP
WFNYIQWVEQSFPKHGHEGNIDKLIKDCLQLFEKDERYFQDRRLVKLWIKYVDCLSNPLE
IYQRLYNTGIGVECSEFYRAWACYCEESGDYKKANQVYMLGLQAKAQPLDELEQAHMNFQ
LFFAQRMLHDDSPTKRKAASALAETRMALTSLKSFKRRNIANVPVQRVGDSVKSSLPGVV
RQQAVDNRLPNSNVMVNVYEDAPSTSRGVVTAEDPGPASLVQACNVENEKEVGIWTNPKT
KMVHTNVVPHQPLPFTPYEDMDDDLKLSSKHMPYCLDDLTFNVPLCVPDPADPTKIPCYN
KAQVYFNDKEYSLEEIRARKYNVQKAVKTENVQVQETYKNINETLAQCSALETLANCALD
SEQDHMGQLMPLTMPTLQNVTKVTNMHSPGEPKVLCNLDSKEVSELAAKKNDENEIPSSS
LSDKENQVANHFNNENVGNFGKNNLMEEFNRSLMGNLLGDSVTVNTKEARWELRNIFNDN
AEPSIVQPVVQQFDVPKFDIHEDRSMTMAINAKKNFDIQDARNMPEDKENANKFNAIQPN
VTSQAPNVFNFNIKNASTPNMSQFKKPSNIDQSSKFAVPKFSIDESVIEQPDQISTKRDD
CSRQTNDQHATVDNQGGGLSVIMEATREYNSKSGSSSSGQSIRTNFTGYTTNFDSVYNNH
NDPNHPSTTSKRNSLSAQARLPNGQFARAYPQKREAENKMAVTPSTSVPYHSHDHQYQKP
MPPNFSGYSPQRSIHYQQNYNYQQNFPNNHMMNQQQQGYGSPNPSSYQSPQHPSMQNSHE
MNQVPTGFQSPTYSNQMAYHQSPVNNPGNVMMSPQQGFTGRQDFHYSNHTDRHVYVNQQH
QVFQSPPHQTQFQNSVYYQRSSQPQTQNSYNQQNYHHIQSQYNNPNMYSSSGQNSNNPNF
NTVQSPYRQVPKQIENQASYGMSNNQQFQIYQSPQASQNSNLRNTSMHDANMVQGYQETQ
GRQEMVDSLGKHERDVENTTLINNPQSKNSSSHKSPNNSVLRNVRYDQPNVKIGQKSPEV
GFSNQFLNFISNRNEPKDNANTPKFTNSPSISQKMHKNLYVSSPEQAQIPPSSGLSDTDS
KDGMTAQTATPIQSAKILTIDKQKDISKRQLDFEHRDRVEIQSEDSRDSVSKDSRISSVY
SRQSDFQSDGYGMDIDSENSMECGAFKSSHSISMIETSDIPRPADIDFPKVIDPFNKKML
TSLLEYVKFPNKTHAEGYNEVRSIPKLQTATVISVGNSKYSIEKQLGKGNYGAVFLCLDF
HSNKSVAVKYQKPSRPWEFYICQEIKARIKDPFMLPGYMEISTAFLGENASLFVSEYSRY
GSLLDVANKVRIATSKCINELIVILLTSEMLSIVHYLHKAQIIHADIKPDNFLLMKIPTQ
EWRTPSLQLIDLGCAIDMSLFPEGTTFRELIATEGFTCTEMREGKPWTYQTDLYCLAGTI
HVILMGSYMKVANRLGQWNIDKKLPRYMKNSLWDKIFTTLLNVPDCNNIPDLMELKNDVD
NVLNQIDCLGSQLRNFANVLKSR