New model in OGS2.0 | DPOGS206802  |
---|---|
Genomic Position | scaffold1:- 3832363-3849021 |
See gene structure | |
CDS Length | 3639 |
Paired RNAseq reads   | 3336 |
Single RNAseq reads   | 7432 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000603 (0.0) |
Best Drosophila hit   | sunday driver, isoform A (6e-141) |
Best Human hit | C-Jun-amino-terminal kinase-interacting protein 3 isoform 2 (1e-154) |
Best NR hit (blastp)   | PREDICTED: similar to jnk/sapk-associated protein [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to jnk/sapk-associated protein [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0000139 Golgi membrane GO:0019901 protein kinase binding GO:0005515 protein binding GO:0005737 cytoplasm GO:0046328 regulation of JNK cascade GO:0019894 kinesin binding GO:0016192 vesicle-mediated transport GO:0005078 MAP-kinase scaffold activity |
InterPro families    | IPR011047 Quinonprotein alcohol dehydrogenase-like IPR015943 WD40/YVTN repeat-like-containing domain IPR019143 JNK/Rab-associated protein-1, N-terminal |
Orthology group | MCL11595 |
Nucleotide sequence:
ATGAATTTCGACGACAGTGCGAGTAGTGGCTATGCCACGGCCGAAACCATATACGGGACC
CACGAAGATAGTCATGTTGTTATGTCGGAGAAGGTTCAATCTCTCGCGGGGAGTATTTAT
CAAGAGTTTGAGAAGATGATAGCTCGTTATGACGAGGATGTGGTGAAGACTTTGATGCCA
CTATTGGTGAATGTGCTGGAGTGCCTGGACTCTGCATACCAAACCAACCAAGAACATGAA
GTGGAACTAGAACTCCTTCGTGAAGACAACGAACAACTTGTCACGCAATACGAACGAGAA
AAATCAGCCAGGAAACATTCTGAGCAAAAGCTACTAGAAGCTGAAGATCATTATGAAGGT
GAAAGGAAAGATTTGACAGGACGTCTCGAGGCTTTGGACAGCATTGTTCGTATGCTGGAG
TTGAAGCATAAAAATTCCCTGGACCATGCTAGTAGACTTGAAGAAAGAGAGAATGAACTT
AAAAAGGAATATGCAAAACTCCATGAGCGCTACACTGAACTGTTCAAGACTCATATGGAT
TATATGGAGCGGACTAAGTTACTGCTGAGTACGGCCGGAGACAGGAGCGAGGTCCGAGGC
AGGTTGGGGCTCAACCCTGTGGCCAGGTCCAGTGGTCCTATATCATTCGGGTTCGCGTCC
TTAGAGGGCGCTGTTGCCGAGCAAACTGAGAGCATCCCCGCCAGCCCTGACAGCTTGTCC
TCCTCGCCACCAACACCACCGCTCGGTTCCGAATTAGCAGCGGTACGTACAGTGGAGCGA
GCTCATCAGACGGACCCTATTACACAACATAGTCAAGCAACGTCCCCGGTAACTCCTCAA
GCACCACCTGGTCGTTCGCAGACCAAGAGTGAAAAACGAAGCGGGAACACCCTGTATCAA
GAGCTGGCGTTCCACGACACAGACGGTGGTGTGGAGGGGGACGATGGCGCGGACATTACT
GGCAGCTGGGTCCACCCAGGGGAATACGCGTCCTCAGGTATGGGGAAGGAAGTTGAGAAT
CTAATTTTGGAGAATAATGAACTTCTGGCGACCAAGAACGCCCTGAATGTGGTGAAGGAT
GACCTCATAGTGAAGGTGGACGAGCTTACCGGCGAGCAGGAGATCCTGAGAGAGGAGGTG
GCAGCCCTGAGCTCGGCGCGGGAGAGACTCAGGGATAGGGTCTCGCACCTAGAAGAAGAA
CTCAGACATCTCAAGGAGACGGTGATAACCAGCGCGGGGAGCGGAGCGGGTGCGGAAGCG
GAAGAGGAAGCGGACGTACCAATGGCGCAACGTCGCAAATTCACTCGTGTGGAGATGGCA
AGAGTTCTCATGGAGAGGAACCAGTATAAGGAGCGCTTCATGGAGCTTCAAGACGCTGTA
CGTTGGACGGAGATGGTGCGAGCGAGTAGGGCCGACTCATCTATGGATAAGAAAAGCAAA
CAGAGCATTTGGAAGTTTTTTAGCAATCTCTTCAGTTCTCCGGAGCGACCCCAGCGTCCC
CTATCGACGCCACACCTGCCCGCGGTCGCCGCCCCTACCGCCTCCATGAGACACTCACAC
ACAGAGAACTTTCTAGAGACGCAACTATCGGATCACGGGCACGCACACACGCGCAGACAC
GAGCATACCCGCACCGACCAGTTCCGACAGGTGCGTGCTCACGTTCGCAAAGAGGACGGT
CGCACACAGGCGTACGGTTGGAGCCTGCCTTGTAAGAACTCACAGGCACATAAAGGAACA
TCACTATCGCTCTCGTCAGGAGGTGTTCCTGTTCCGGTACCGGTTTTTTGCAGACCTATA
GCCGAGTCGGAGCCTCAGATGACTCTACTGTGTGCGGCTGGTGTAGAGAGATCAGTTCCG
ACCGGTCGAACGGACAGACATTCAGATGATTATGGAGAGGATCTCAGTCTAGCTCACGAG
ATGAACAATGCCCAGTGTGACGATGGAACAAGGAAGCTCTCCTCTCTCGTGTGGATCTGT
TCCAGCACACAGAACAAGTGTATCGTTATGATTATAGACGCAAATAATCCTGGCGAGGTG
GTGGAGTCCTTCCCCGTGCCAGATAAGCACATCTTGTGCGTGGCGTCGGTCCCTGGTGCA
AGTACCGCGGATTACCTCGAGGCGAAAGGAAGGGAGGCTGCTGTAACCAACGTTGTACAA
CCAGAGGAGAATAAACGTCATTCGCAATCACTATTCTGCGTGGGCAAGAGTGATTCTACA
GAGAGTCAGAGCAATGGTACGGTGACATCAAGCAGCAACGAGAACGGTGATAAAGAGGTT
ATTGTTGGGAGTACGAGATTGGTTGAGGCGAAGCTTCTAACACCGCCCAGTACTCCAGTG
AAGGAGACTCCAAAGAAGGAGAGTGAAGTCAAGGAAGGGAACGCGGAAGTTGATACTGAA
CCAGCTGACAGCCCGCCACTGTCATCAACACCAGTCAATGCGAACGAAGCTAGAAACTCT
CCTGAACCAGGTGTTGACGCGTTCGCCCAGCAGCAGAGCTGTGATACAGCTGGAGCTAGT
GCTGGAAGCGAAATCAGCACCGCAATGAATACCATGTGGCTGGGCACTAAGAGCGGCAAC
CTATACGTGTACTCCTCCGTGAAGAATTACAGCAAATGTCTGGCAATGGTGAAGTTAAAC
GACGCTATCCTGTCTATCGTATGGTGTTCGTCTCGATGTGTGGCCGCTCTTGCTGACGGT
ACTGTGGCTGTGTTCGCGAGAAAGACGGATTTAATGTGGGACTTGACAAGCTACTGGCTA
CTCACATTGGGGGATCCGAAGTGTTCTGTGCGATGTCTGAGCGCGGTTGGACCTCCCGCG
TCTGGTACCGTCTGGTGCGGGTACCGTAACAGAGTGTTGGTGGTAGAGCCGCGCTCACGA
CGGGTACTACACTCACTGGAGGCGCATCCGCGACACGAGAGCCAAGTGCGACAACTCGCG
GCCTACAGGGACGGTGTGTGGGTATCAATTAAAATGGATTCAGCGTTACGTTTATACCAC
GCCACTACATACGATCATCTCATGGATGTGGACATCGAGCCTTACGTCAGCAAGATGCTG
GGTACCGGCAAGCTTGGCTTCTCCCTAGTACGAATAACAGTGCTGCTGATTAGTTCCGGA
CGTCTGTGGATCGGCACCAGCAACGGCGTAGTGATCAGTGTGCCGCTCTCAGACGCACCA
ATACCATCCGGGAACACGGCACTGACAACCACGTCACGGTCTTCCGTACCAGGTCACGCG
GCGTTGATCCGAGCTGGTGTGAACGTGCCGCCTGGAAGTTGTATACCGCTCTGTTCGATG
GCCCAAGCTCAGCTCAGTTTCCACGGACATCGCGACGCAGTAACGTTCTTTGTGGCGGTG
CCGGGATCAACGACGCCACGGTCGCCGAGTACTCCTCCGGCCGGAGCGCCCGCCACGCCG
CCCTCACCGACACCAGCGTCACCCGCCACGTCGCCGCCGCCTCCCCCACCACCGCCGATG
CTAGTCATCTCAGGCGGGGAGGGATACATCGACTTTAGAATAGCGGATACCGGTATGGAG
GAGAGCGTGGTGGTGGCAGAGGACGGCTCCAGCGGTCACAGTTCTCTGGACCGCGGCGCT
CGCTCGCACTTGATTGTGTGGCAAGTGGCGGCTGCCTAG
Protein sequence:
MNFDDSASSGYATAETIYGTHEDSHVVMSEKVQSLAGSIYQEFEKMIARYDEDVVKTLMP
LLVNVLECLDSAYQTNQEHEVELELLREDNEQLVTQYEREKSARKHSEQKLLEAEDHYEG
ERKDLTGRLEALDSIVRMLELKHKNSLDHASRLEERENELKKEYAKLHERYTELFKTHMD
YMERTKLLLSTAGDRSEVRGRLGLNPVARSSGPISFGFASLEGAVAEQTESIPASPDSLS
SSPPTPPLGSELAAVRTVERAHQTDPITQHSQATSPVTPQAPPGRSQTKSEKRSGNTLYQ
ELAFHDTDGGVEGDDGADITGSWVHPGEYASSGMGKEVENLILENNELLATKNALNVVKD
DLIVKVDELTGEQEILREEVAALSSARERLRDRVSHLEEELRHLKETVITSAGSGAGAEA
EEEADVPMAQRRKFTRVEMARVLMERNQYKERFMELQDAVRWTEMVRASRADSSMDKKSK
QSIWKFFSNLFSSPERPQRPLSTPHLPAVAAPTASMRHSHTENFLETQLSDHGHAHTRRH
EHTRTDQFRQVRAHVRKEDGRTQAYGWSLPCKNSQAHKGTSLSLSSGGVPVPVPVFCRPI
AESEPQMTLLCAAGVERSVPTGRTDRHSDDYGEDLSLAHEMNNAQCDDGTRKLSSLVWIC
SSTQNKCIVMIIDANNPGEVVESFPVPDKHILCVASVPGASTADYLEAKGREAAVTNVVQ
PEENKRHSQSLFCVGKSDSTESQSNGTVTSSSNENGDKEVIVGSTRLVEAKLLTPPSTPV
KETPKKESEVKEGNAEVDTEPADSPPLSSTPVNANEARNSPEPGVDAFAQQQSCDTAGAS
AGSEISTAMNTMWLGTKSGNLYVYSSVKNYSKCLAMVKLNDAILSIVWCSSRCVAALADG
TVAVFARKTDLMWDLTSYWLLTLGDPKCSVRCLSAVGPPASGTVWCGYRNRVLVVEPRSR
RVLHSLEAHPRHESQVRQLAAYRDGVWVSIKMDSALRLYHATTYDHLMDVDIEPYVSKML
GTGKLGFSLVRITVLLISSGRLWIGTSNGVVISVPLSDAPIPSGNTALTTTSRSSVPGHA
ALIRAGVNVPPGSCIPLCSMAQAQLSFHGHRDAVTFFVAVPGSTTPRSPSTPPAGAPATP
PSPTPASPATSPPPPPPPPMLVISGGEGYIDFRIADTGMEESVVVAEDGSSGHSSLDRGA
RSHLIVWQVAAA