New model in OGS2.0 | DPOGS203439  |
---|---|
Genomic Position | scaffold244:- 3514-10961 |
See gene structure | |
CDS Length | 5013 |
Paired RNAseq reads   | 3711 |
Single RNAseq reads   | 8850 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011162 (0.0) |
Best Drosophila hit   | protein tyrosine phosphatase-ERK/Enhancer of Ras1 (4e-54) |
Best Human hit | receptor-type tyrosine-protein phosphatase R isoform 2 (5e-42) |
Best NR hit (blastp)   | hypothetical protein AaeL_AAEL011434 [Aedes aegypti] (4e-100) |
Best NR hit (blastx)   | hypothetical protein AaeL_AAEL011434 [Aedes aegypti] (4e-111) |
GeneOntology terms    | GO:0007465 R7 cell fate commitment GO:0006470 protein amino acid dephosphorylation GO:0007265 Ras protein signal transduction GO:0004725 protein tyrosine phosphatase activity GO:0005737 cytoplasm GO:0000188 inactivation of MAPK activity GO:0000278 mitotic cell cycle |
InterPro families    | IPR000242 Protein-tyrosine phosphatase, receptor/non-receptor type IPR000387 Protein-tyrosine/Dual-specificity phosphatase IPR016130 Protein-tyrosine phosphatase, active site IPR003595 Protein-tyrosine phosphatase, catalytic |
Orthology group | MCL18853 |
Nucleotide sequence:
ATGGATAGTCAAGGAAAACATGTCATTCTGATCCTCATCACAGCTGAACAGAGGACTTCA
CCGACAACCTGTCGCTGCAAACCAAAAATTAAGTATCACTCCAATTACTGTTATTCAGTG
ACTCTATACAGTTTCAATGCTTGGCAGTTCTCCAGATGTGAAGGTGTCGGTATGTGGGGC
GCGTGGGGCGCGCAGGCGGGCTGGTGGTGCGGCGCGCTGGCGGCCGCGCTGCTGGCGCTG
CTCGCGTTGTGTCGCCGCGCCCAGAAGAGGACACCGCCGCGACCGCCTGGCACCGTCACA
CAGGTGCAGATCGTGTATGGCGGTCCGGCGCGTGTAGTCGTGGCTGGTCCGCCGCCGGGC
GCGTCTTGTGCTACAGCGTCCCTGTCGGCTGCGCCGCCCCCCGACCCTCCGACCCCCGCC
GACCCCCCGCAACCCGCTCTCCCACAAATCCTCGTCGTCCAGGACAGCACTCAAAATACT
GTCCCCCAACAGAGTGATCCTCAACCCTCGAGCTCCCAAGGCCCCAGACCTCTGGAGTAC
CACGGTATCCCCAAATTGCCACTTCCTGAGCAGTGGCTCCATAAACGACCTTTCGATTAC
AAGTACTCTGCTATACCCCGACCTCTAGCTCAAATCGTCAGCTCGGATCTATCAGTAGAT
CTGCAGAGAGAGTCGCGGGCTAAGAAATTTAGTGCTACGAGGTCGCCATCGTTGGAAAAA
GACGAGAAGTCCCCCTTCGTTAGCAGTGCTAAGTCTGAAGATATGGAAGTGTTCGGTTTC
GATGCTGAATCCGTGAGAAAATTAAGTGAAGATAGAGAAAAACCCGTGGAAATGGCGGAA
CCTCCGCCACAATCTCCACAAGAGAGCGATAAAGAAATGTCGCCCATTAACCTCAGGAGG
TTCCGGTCAGTGAGCACTCGCCTTAATCTGTGCAGTGTCAGCGAAAGCCCCCATCCCGAA
GGTCATCAAGAAAGGTTGGAAATGCAGAACTCCCCTCGCGTCATTGAATGCAGTTCCGCC
AAAGAGAAGTCATCGGGTACTAAATTCGACTTCTCTCCAAAAATCCTAGCTGATAGCATG
TGCTCCCCGCGTTTCTTCACTCCTCCCGAGATGGTTTCACCGATGTTCTTCGCGGAACCT
TCACCAAAATCGGTTTATTACGATAGCGTGCGATCTCCGAAGTTTTTTCCTGAAACTCCA
CGAGACGTTGAGGTGCCGCAATCGCCGCGTCTTTTGGGAGACCATCGAAACAAAACGAAC
GGCTTAACCGAGAAACCGACCTCTCCGAAGGTTTTAAGTGCTCGACCCAGTCCTAAGGTT
CATAGTCACAATAAAGAGAATTACTTCACCTTCGAACAAGCGAGTGCCACAGAAGAGAGT
GCAGCGAGGATGTCGCCCAGACCGAGGAGGTACGGAGGAAGAAATTCCATAGAAAGAGAA
AGGTTCACGCCCCCCGCTGATAAAGAAGTTAAGAAATACAGGCGACACAACAGTTGCGAC
ACGAGTTACAAAAGTGTAGAGTTAAATATATCCAAGTGTGATAATATCTTAGAGACTGAT
GCCACCACCGTGGATGTGATAGAGAAAGACGTAGTGGACTGCTGTGCCAAAGTAGATTCC
TTGCATGTCGATGCGAAACTTGAAAGTGATAAACACGAATTGAAGCCAATATCGAATACG
GCGCAGGCGAGACGACAACGATTAAAATCGATATCACTCGACTCCGATAATGCCAAAATA
ATCGAACAGAATTTAGGTTTACCGATAGCGAAACAAATGAAAGACCAAATGAATGAGGCG
TATAAGAATCAAGAAGTGAGTACATCGTGCGAGAGTATGGAGAGATACCCAAAAACACCG
ACAGCTGAACGACATATATTCAAATTTGATGCAGAGCATAACGAAAAACCTGAGCCAGAG
GCTAAACCGGAAGTAAAACAGAAAAAGTGCCTTCGTCAAAGTTCTGACACGCAGTCTTTT
CTCGATATGCCCAGGTTTTCTCCTAAAGAATTTGAAATAACGGTTACATCAGAGGAAGGC
GACACTACAGCCGCTGAAACACAGACCAAAAGGAAAGGCAAGAATTTGAGAAACTTAACA
ATAGATTTGTCTAAACGAGACAGTGATTTAGAAAAAGAATTGCTCGAATTCGAAAAATTG
TATACGGACGCCGAAGAAAAGAAAGTTAAAACGCCAACACTGAAAGTTAAGGCTACTTCA
TTAGACTCATCAGAGAGTGTAAACCTCTCATTGCCGCCCAAGAAGTCTCTGGAAGTTCCG
CAGAACTCCATATCAGTTCCAAACACGCCGAAGCGTCAGTTGAAGAGAATTTTGGCTCAG
AAAAGCGGAAAACATGACTTTGTTGTTGGGAAACTGGGTTATAATACCATTCAGAGTGGC
GCAGACCAAAGACGGTTATACATGAAGGGACAGGATAGTGGGATATTTTTACGGGAAAAC
CACGCAAGTCTCATGCTGTACCAACCAGGAACATCTCGTATTGGTTCGAGGACAATGGGT
TCATTCGACGAAAATATGGCGGATAATGCACCAGAAATAAATATCGTTGAAAGTAGACCT
TTTCACATAGATCCAGCTCAAACACTTGGTTCCAATCTGCTTAACTACAAACAGAATCTA
AGCGTATCCAGCACAAACTTGAAGACTCTTCCTGAAGGAGTTCCGTCTGATGATTTCGAA
CCTAGCGCAGAAGACGAGAAAGTTGTGAAAAAACTACATCGACGGAATTCCAATCAGAGT
TTAATGCTAAGTACACATAGCTTACAAGAGTCCAATTGTTCGCTCAGCAGCGCTGGTACC
TCCTGCCACAACCTCAATACAGTCAGAACTAGCATATCGAATTTCAGTCTGAATGACCAC
AGGCAGAAGAAACTGTCTCTGGAAAGGAGGGATTCAAACGTCAGTATAAACCCCATGGAT
CATATTACACCCACAACACGGGTCATATGTTCCTCGAACACGAATTTAACCGGAGACGTG
TCAAAGAACTGCTTACTGCAGCGGCGCGGATCGAATAACAGCTTAACGTTAAACATACAT
TCTTCAAATAATTTAAGTCGGCATTCTAGTAACAGTTCCTTAAACAAAGATGCTAAAATC
GGCCATAAAAAGGGTCTGTTGGAGCGTAGGAGCTCAAACACATCTCTCACCCTGAACATA
AACTCTTCAAATCCTCAGCTGTCTACTAATAGAGGATTGAGTATATCAAACTACAACCTG
AACGGATCGACCTGCAACCTAAGTAGATACAACAGTAACCACAGCATAGACAACGCGGAA
CCTCGGAAAGGTATCTTGGAAAGGCGTAGTTCGAACACGTCTCTCACTCTAAACATCCCT
CAGGAACCTCGAGATCTGGAGATAGATGAGACGATGTTAGACGCGAACTTGAAAGATATT
CCACACAGAGATAAACACAGAAAATCGTTAAGCACGGAAAATTTGATACCGAAATCCTAT
AAAAACAGGACACGCCTGCGGTCGACTGAAAAGGTTTTCGGTTCACACGATAATCTATGG
TCAACGTCCTTCAGTGAGCAGGAGTATGGACAGAATTTGACATACGTCTGCGGCGATCAG
GAAAATGAGATTATTTATGCGTTCGGCCGTCAAGAAGACCAGAATTTCCAAGCTGGTTTT
GTTAGGAACATTACCACGAAGCCACTTAGTCCTCAGAGCACTTCCGAGGACTTTAGGTTA
TACTTAGCTAATATGCAACACTTACAGAATGCATCTAGCGTATTAACTCGTCAGCAGCTT
AGGGACTTAAACGACGTTTTCCAAAATGGTTACTCCAAAGTTAAATGTCTCAGTACAAAC
GAAGGCCAACATTGCTGTACTGGCAGAGTTGACGACATCGCCAAGGAAAACCCTCAGATG
GTGATCCCAGAGGTAGCACCACCACCATGTTCGGAATACCAAAAGATGCTATTGAGGAAT
CTCCATCAGGAGTTCTGGGATATGCCGACAAATTTTCAGGAAAAGCCCATAGTTTCTGGA
TCACATCCCAAGAACAGATACAAGACGATCTTACCAAACGAACATTCCAGGTTCATTCTA
CGAGCGGACGCTGGCAATACCGAGGGCTACATTAACGCCAACTATATCAAGGGCCACGAA
TACACTAAAAACAGCTACATCGCGACGCAGGGTCCGCTTCAGAACACCGTCTATGACTTC
TGGCTCATGGTGCGCCAGAATAATATGGAACTTCAGGCCAGAGCGGAGACATTACTCAAC
AGGACAGAGGAAAGGTCAGAAGCTATACAGAAAATAGTGATGCTCACCAACTTTATCGAG
AACAATAGACAGAAATGCGAGAAATACTTCCCCTTAGAGAAAGGCGAGGAGATCGCCATA
TCCAGTCCAATCTCGAGCGAAACTTGTTCAGAAGACTCGCCCAAAAACAGTTTTATCATA
AAGAATGTGGGTATGTCTAAAAAATCTGGCTATACCGTCCGGAAGCTGGATGTGAGGTAT
AGTGGGGAAACCGAATCCTTAACAGTATACCACTACTGGTTCCACAACTGGGCTGATCAC
AAGTGCCCCAAAGACGTGAACGCTTTACTCAACCTAAGTCTGGACGTTTTACGAGAAGAC
ATCAATGATTTCGAGGCTCGCGATGACGAGAAGGACGAACAGTGCAAGTGCGTCGACAGC
CCCAAGGGCTCCAAGTTCGTGTTTCCGCCGATGGAGTCGGCGAGTGTCGCGTGTCCGGTC
AAAGTGTGCGTCTCCACTCCCATGCAGTTCACGAACGAGAGCAACTCCCCGCCCACCATA
GTCCACTGCTCGGCCGGCATAGGGCGCACCGGCTGCCTCATCGCCATACTGAACGGCATC
AAGCAGCTGACGAGCGAGGAGAAGGTGGACGTGCTGGGTATCGTGTGTAACATGAGGCTC
AACAGGGGCGGGATGGTGCAGAACTCTGAGCAGTACGAACTGATACATAAAGTGCTCTGC
CTCTTTGAGCAGGCCTGCCTGCCACACTTATAG
Protein sequence:
MDSQGKHVILILITAEQRTSPTTCRCKPKIKYHSNYCYSVTLYSFNAWQFSRCEGVGMWG
AWGAQAGWWCGALAAALLALLALCRRAQKRTPPRPPGTVTQVQIVYGGPARVVVAGPPPG
ASCATASLSAAPPPDPPTPADPPQPALPQILVVQDSTQNTVPQQSDPQPSSSQGPRPLEY
HGIPKLPLPEQWLHKRPFDYKYSAIPRPLAQIVSSDLSVDLQRESRAKKFSATRSPSLEK
DEKSPFVSSAKSEDMEVFGFDAESVRKLSEDREKPVEMAEPPPQSPQESDKEMSPINLRR
FRSVSTRLNLCSVSESPHPEGHQERLEMQNSPRVIECSSAKEKSSGTKFDFSPKILADSM
CSPRFFTPPEMVSPMFFAEPSPKSVYYDSVRSPKFFPETPRDVEVPQSPRLLGDHRNKTN
GLTEKPTSPKVLSARPSPKVHSHNKENYFTFEQASATEESAARMSPRPRRYGGRNSIERE
RFTPPADKEVKKYRRHNSCDTSYKSVELNISKCDNILETDATTVDVIEKDVVDCCAKVDS
LHVDAKLESDKHELKPISNTAQARRQRLKSISLDSDNAKIIEQNLGLPIAKQMKDQMNEA
YKNQEVSTSCESMERYPKTPTAERHIFKFDAEHNEKPEPEAKPEVKQKKCLRQSSDTQSF
LDMPRFSPKEFEITVTSEEGDTTAAETQTKRKGKNLRNLTIDLSKRDSDLEKELLEFEKL
YTDAEEKKVKTPTLKVKATSLDSSESVNLSLPPKKSLEVPQNSISVPNTPKRQLKRILAQ
KSGKHDFVVGKLGYNTIQSGADQRRLYMKGQDSGIFLRENHASLMLYQPGTSRIGSRTMG
SFDENMADNAPEINIVESRPFHIDPAQTLGSNLLNYKQNLSVSSTNLKTLPEGVPSDDFE
PSAEDEKVVKKLHRRNSNQSLMLSTHSLQESNCSLSSAGTSCHNLNTVRTSISNFSLNDH
RQKKLSLERRDSNVSINPMDHITPTTRVICSSNTNLTGDVSKNCLLQRRGSNNSLTLNIH
SSNNLSRHSSNSSLNKDAKIGHKKGLLERRSSNTSLTLNINSSNPQLSTNRGLSISNYNL
NGSTCNLSRYNSNHSIDNAEPRKGILERRSSNTSLTLNIPQEPRDLEIDETMLDANLKDI
PHRDKHRKSLSTENLIPKSYKNRTRLRSTEKVFGSHDNLWSTSFSEQEYGQNLTYVCGDQ
ENEIIYAFGRQEDQNFQAGFVRNITTKPLSPQSTSEDFRLYLANMQHLQNASSVLTRQQL
RDLNDVFQNGYSKVKCLSTNEGQHCCTGRVDDIAKENPQMVIPEVAPPPCSEYQKMLLRN
LHQEFWDMPTNFQEKPIVSGSHPKNRYKTILPNEHSRFILRADAGNTEGYINANYIKGHE
YTKNSYIATQGPLQNTVYDFWLMVRQNNMELQARAETLLNRTEERSEAIQKIVMLTNFIE
NNRQKCEKYFPLEKGEEIAISSPISSETCSEDSPKNSFIIKNVGMSKKSGYTVRKLDVRY
SGETESLTVYHYWFHNWADHKCPKDVNALLNLSLDVLREDINDFEARDDEKDEQCKCVDS
PKGSKFVFPPMESASVACPVKVCVSTPMQFTNESNSPPTIVHCSAGIGRTGCLIAILNGI
KQLTSEEKVDVLGIVCNMRLNRGGMVQNSEQYELIHKVLCLFEQACLPHL