New model in OGS2.0 | DPOGS206061  |
---|---|
Genomic Position | scaffold89:- 27178-42889 |
See gene structure | |
CDS Length | 2883 |
Paired RNAseq reads   | 2533 |
Single RNAseq reads   | 6159 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006843 (2e-144) |
Best Drosophila hit   | slingshot, isoform D (5e-159) |
Best Human hit | protein phosphatase Slingshot homolog 1 isoform 1 (4e-129) |
Best NR hit (blastp)   | PREDICTED: similar to slingshot dual specificity phosphatase [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to slingshot dual specificity phosphatase [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0006470 protein amino acid dephosphorylation GO:0017017 MAP kinase tyrosine/serine/threonine phosphatase activity GO:0008330 protein tyrosine/threonine phosphatase activity GO:0008138 protein tyrosine/serine/threonine phosphatase activity GO:0030036 actin cytoskeleton organization GO:0008064 regulation of actin polymerization or depolymerization GO:0004725 protein tyrosine phosphatase activity GO:0050770 regulation of axonogenesis GO:0016319 mushroom body development GO:0010591 regulation of lamellipodium assembly GO:0000278 mitotic cell cycle GO:0048749 compound eye development |
InterPro families    | IPR016130 Protein-tyrosine phosphatase, active site IPR000340 Dual specificity phosphatase, catalytic domain IPR014876 DEK, C-terminal IPR020422 Dual specificity phosphatase, subgroup, catalytic domain IPR000387 Protein-tyrosine/Dual-specificity phosphatase |
Orthology group | MCL15713 |
Nucleotide sequence:
ATGGCACTTGTAACAATTCGTCGTACTCCGAGTGTTCAAACACCAAAGAAAGCGGATGAG
GAAGAAAAGTCAGCTGAAGTCACAGAAGAGGATGTCGGGAATCGAACCAGTAAGAGTCTC
AATGAGTGTTACTTCGCTAACAAAGGCGCGGCGTTGGTGCTCGGTAGTACGGAGCAGGGT
TGCGCAGACCGGCGCGCGTCTCCCGCCCGTGTGCACCCGCAGCCCGACATACATCACCAC
CTACAGTCCATGTTTTATCTGGTGCGCCCGGAGGAGACGCTCAAAATGGCGGTGAAGCTG
GAGAGCGCCCACGCTGGTCGTACTCGTTACCTGGTGGTGGTTTGTCGATGTGATGAGGCA
GCGCTGCTTGGGATAGATTGTAACGAGCGCACCACCGTGGGACTGGTGCTGAGGGTACTG
GCCGATACCTCCATCAAACTCGATGGTGATGGCGGTTTCAGCGTTTGTGTATGCAATCAA
CAGCACATATTCAAACCAGTGTCCGTTCAGGCCATGTGGTCAGCGTTACAAACGCTTCAC
CGTGCGAGCGCCCGGGCCCGGGAGTTGAACCATTTCGCTGGTGGTTCGTCCCACGGCTGG
TGTTCCCACTACGAGAGGGCTGTGGACTCCGACCGCTCCTGCCTCAACGAGTGGCACGCC
ATGGACAGTATCGAGTCGAGGCGACCACCGTCACCTGACTCGCTCAGGCATAGGCCGCGA
GAGCGTGATGAAACGGAACGAGTGATCAGATGCACCCTCAAGGAAATTATGATGAGTGTG
GATCTTGACGAAGTTACAAGCAAAGCTATCAGAGGACGGCTCGAGGAAGAATTAGACATG
GACCTTACGGAGTTCAAGTCGTTCATAGACCAAGAGATGCTTACGATACTAGGACAAATG
GACGCGCCGACGGAAATATTCGACCACGTGTACCTGGGTTCCGAGTGGAACGCCAGCAAT
TTGGAGGAATTGCAAAGAAACGGAGTTCGCCATATACTCAACGTGACAAGAGAAATAGAT
AATTTTTTTCCGGGTATGTTTGATTACCTAAATATTAGAGTTTATGACGACGAAAAGACT
GATCTACTAAAACATTGGGATAACACATTTAAGTACATAAACAAAGCTAGAAATGAAGGT
TCTAAGGTTCTCGTGCATTGCAAGATGGGAATAAGTAGGTCGGCTTCAGTCGTTATCGCT
TACGCCATGAAGGCTTTCAACTGGAATTTCGATAAGGCTTTGAAGCACGTGAAGACTAAG
AGGAGTTGTATCAAACCGAACATAAATTTCCTCAGTCAGCTGGAGACCTACCAGGGCATA
CTGGACGCCATGAAGAACAAGGAGAAGTTACAGCGTTCTAAATCTGAAACTAACTTAAAA
GCTCCGATTTCATCATCAAAGAGTGAAAACAAAAATATGGAGCCGACGCCGTTGGTGCTG
GCACTGACGGGGTCGTACTCGGGCCGGCCGCGGTCCTGGTCTCCCGACACTAAGCTGGCT
GCCGAGTTACTGCCGCCTACTTCCGTGTCGCTGGAGAATCTCGCCTCCGAGACTAGACAC
ATGCTCATGCCGTGCGCCAGCGGCTCCTACAGCGTCTCGCCAAACCAGATAATACGGCTC
AAGGAGGAAGGCGCACCTTCAGTCAAACACATCGTTAACGAAATCGAGAGTGCCGCCTCG
AGCGACAGAAAAGATATCCCCAAAAGAAACCACAGGTTGAATTTCGGAAATTCCGGGGAC
GTGATTTCTGGTCGATCATCAGAGAGCTCCGGTCCTGTGGAATCTAGTGGCAAAAATCAA
TCATCTCCAATACAGAATACAGTGAACCAGCCCGACCTAGACGTGGAGAAAATTCACACC
TGGGATCCGGGGGAGACCGCTTGGTCGCGTTGCGAGGAGGTCCGGACAGTCTCGGACAGT
GATTATATAGTTAAGAGTGACAGTGGTATCATAGACAAAATTAAATTGAGTGACATTATA
TACAATTCGTTAGAACGCAACGTAGAGTTGGAGGAGAGGAGGGGCGGCGAGGAGGACGCG
CCGCCACCCAGCAGGCAGAGTTCGTGGAGCTCGTTCGACAGCGCAGTGGTCGCTGACCTG
TCTCGACATTCGTCGTGGGGGTCATACGATACACGCGGAGCGAGACCACCGGTGGGCCCG
CGAGAGGTCCGAGAGGAGCCTGCGCCTCCCGCGGACCTGGCAGTCATAAGGGAGCATACC
GAGCGCACCCGCCCTCTTTCGAACATAGCCGCCAACGAGAGGAAGTTCTACGAGACCTGT
GCCATACTGAAGGAGCTGGCGGCCGCGCGCTCTGGCGCCTGCACCTGGGGCGGCCGGCTG
TCCGCCTCCGCGCCCGCCGACACGTGGCTGCGCGCCGGTCCGCGCCGCCGTCGCCTAGCT
GCGTCTTCGCACGGAGACCTGCCACGAGCCGCGCCCGCCGGTCCGCCTCCGCCGCCAGCG
CTGGGCCTCGTCAGCAACCTCAAAAAGGAGTTCGAGGCTCGTTCCGAGTCGGAGGTCCCC
CGGCGTTCGGGGTCTCGCACGAGACAACCGCAAATTGAGGATTTGTCGGTGCGCGTGCTC
GTGGACCGCTACGACCAACCCGGCCGGACGCGTTCCGAATCCGCGGCGGAACCGATTCGA
GTGAAAGCGCCTCAAGAGTCTGTGTCCAAGAAGTGCAAGTTGGCGTCTGAGGTCGACAGC
CGGGCTCGTATGCGCAACTCGTACTGCGCGGGTCTGGCGGGCGGCGCCGGGGGCGAGAGG
CCGCCCGTGGTGCCGACCGTGGTCGCGCTCGCTCCCCTCGACTACTCTAATGTAGTGGTA
TCAACTGTGATGTCGAAAGCTCAAAATAAAAACAATTACAGCATGGGAAAACCCATCCGT
TGA
Protein sequence:
MALVTIRRTPSVQTPKKADEEEKSAEVTEEDVGNRTSKSLNECYFANKGAALVLGSTEQG
CADRRASPARVHPQPDIHHHLQSMFYLVRPEETLKMAVKLESAHAGRTRYLVVVCRCDEA
ALLGIDCNERTTVGLVLRVLADTSIKLDGDGGFSVCVCNQQHIFKPVSVQAMWSALQTLH
RASARARELNHFAGGSSHGWCSHYERAVDSDRSCLNEWHAMDSIESRRPPSPDSLRHRPR
ERDETERVIRCTLKEIMMSVDLDEVTSKAIRGRLEEELDMDLTEFKSFIDQEMLTILGQM
DAPTEIFDHVYLGSEWNASNLEELQRNGVRHILNVTREIDNFFPGMFDYLNIRVYDDEKT
DLLKHWDNTFKYINKARNEGSKVLVHCKMGISRSASVVIAYAMKAFNWNFDKALKHVKTK
RSCIKPNINFLSQLETYQGILDAMKNKEKLQRSKSETNLKAPISSSKSENKNMEPTPLVL
ALTGSYSGRPRSWSPDTKLAAELLPPTSVSLENLASETRHMLMPCASGSYSVSPNQIIRL
KEEGAPSVKHIVNEIESAASSDRKDIPKRNHRLNFGNSGDVISGRSSESSGPVESSGKNQ
SSPIQNTVNQPDLDVEKIHTWDPGETAWSRCEEVRTVSDSDYIVKSDSGIIDKIKLSDII
YNSLERNVELEERRGGEEDAPPPSRQSSWSSFDSAVVADLSRHSSWGSYDTRGARPPVGP
REVREEPAPPADLAVIREHTERTRPLSNIAANERKFYETCAILKELAAARSGACTWGGRL
SASAPADTWLRAGPRRRRLAASSHGDLPRAAPAGPPPPPALGLVSNLKKEFEARSESEVP
RRSGSRTRQPQIEDLSVRVLVDRYDQPGRTRSESAAEPIRVKAPQESVSKKCKLASEVDS
RARMRNSYCAGLAGGAGGERPPVVPTVVALAPLDYSNVVVSTVMSKAQNKNNYSMGKPIR