New model in OGS2.0 | DPOGS215963  |
---|---|
Genomic Position | scaffold439:+ 225940-241497 |
See gene structure | |
CDS Length | 4803 |
Paired RNAseq reads   | 5355 |
Single RNAseq reads   | 12610 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001079 (5e-42) |
Best Drosophila hit   | protein tyrosine phosphatase 10D, isoform E (0.0) |
Best Human hit | receptor-type tyrosine-protein phosphatase beta isoform b precursor (3e-82) |
Best NR hit (blastp)   | receptor protein-tyrosine phosphatase 10d [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | receptor protein-tyrosine phosphatase 10d [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0005001 transmembrane receptor protein tyrosine phosphatase activity GO:0005886 plasma membrane GO:0004725 protein tyrosine phosphatase activity GO:0006470 protein amino acid dephosphorylation GO:0008045 motor axon guidance GO:0004728 receptor signaling protein tyrosine phosphatase activity GO:0004721 phosphoprotein phosphatase activity GO:0007424 open tracheal system development GO:0030424 axon GO:0007417 central nervous system development GO:0045177 apical part of cell |
InterPro families    | IPR013783 Immunoglobulin-like fold IPR000242 Protein-tyrosine phosphatase, receptor/non-receptor type IPR000387 Protein-tyrosine/Dual-specificity phosphatase IPR003961 Fibronectin, type III IPR016130 Protein-tyrosine phosphatase, active site IPR008957 Fibronectin type III domain IPR003595 Protein-tyrosine phosphatase, catalytic |
Orthology group | MCL11392 |
Nucleotide sequence:
ATGCTTCCACGGGAGAAGACCAGCATTTGCTTAGAAGAGAAAGTGTCATGTGAAATCAGA
GAGTCGCCTTCAATGATGTGGAAGAGGTCGATTGTGCAAGCGAGGGCTGGATATACACGA
CATTATGCTGCTATGATTCTAGTTTTAGCTTTGTTTACATTATTGAATTTCCACGTCGAA
GCTGCGGATCTAGTCATTGAAATCCCTGGCTGGGGTGCGGAGGGTGCTGATGGTGCACAC
TACCGACTCGACTACCGTCCTCCCCAGGGTTCGCCAGCGCCAAACTTTACTGTACCAGCT
CGTGCCTCCACGATCAACTTCCAGGGTCTACCTGGCACTAAATATCATTTTATGCTATAC
TATTCCAATGCCACCTTCGCCGACCTGCTCACATGGAATCAAACCATTATTACGGCGCCA
GAACCTCCAACGAATCTGACAGTGACTTTGGGACGCAACAAGCAGGCAACTATCTCTTGG
TCACCGCCGGCGCACGGCGACTACACCGGCTTCCGTTTCCGTGTGTTGCCGCCATCAGAA
GGCGAGGGTGGTCCAAGGAACGTGACAATAGATGGCACTGGCAATTGGTCTCATGTACTC
CGTGAACTAGCACCTGGTGCCACCTACCAATTGCACGCTTTCACACTACTACACGATAAA
GAAAGCGCTGCCTACGCTTCCTTCAACTTTACCACAAAACCGAATACACCGGGAAAGTTT
ATAGTATGGTTCCGTAACGAAACAACGCTTCTTGTGTTATGGCAGCCGCCCTATCCGCCG
GGCGCGTACACTCACTATAAGGTATCAATCGAACCTAAAGATGCTCGAGACTCGGAGTTG
TATGTCGAGAAGGAGGGCGAGCCGCCGGGGCCCGCTCAGGCTGCCTTTAAAGGTCTGGTC
CCCGGCCGGGCTTACAACATCTCCGTGCAAACCGTATCTGACGTGCAGCTCTCCGCGCCG
ACCACCGCTCAATACAGAACGGTGCCGTTGCGGCCGCGGAACGTGAGCGTGGACCCCCGC
AGGCTGACGGAGACATCGTTCAAGGTCACCTGGCTGCCGCCGTTGGAGCTCAGCGAGTTC
GAGAAGTACCAAGTGTCGGTAGCGGCGGGCGGCGCGGGGGCGGGGGCGCGCCGCTTGCCC
CCACAGCTGCGCTCCCGTGACGAGCCCCCGAGCGCCTCCTTTGAAGGACTCGAGCCCGGC
GGCCATTACGCCGTCACCGTTAAGACTATGTCAGGCAAGGTCACGTCGTGGCCGGCCGCT
ACCGACCTAACACTGAAACCGCTGCCAGTGCGCGATCTACAGAGCCGTCTCGTAGAATCG
GACGCGGGCGGAGGAGTATTCCTATCGTGGTCACCAGCTGAAGGGAGCACTCAGGACGAG
TATAAGATTTCATATCACGAGACCGGTCCTTCGAGAGACGACAGCAACACGCTGACGACG
ACCACCACTAACGTGACCCTCGAGGCTCTGCTGCCGGGACGTAATTACACAGTATCGGTG
AGCGCTGTATCTCGTGGCGTCGCGTCTAATGAGACGTGGTCGTGGAGCGCCACTCGTCCG
CTGGCGCCGGTGCTCCGTAGCGCCGCCGCTGGGACGAGGTGGCTCCGTCTGGCGTGGAGC
TCGGACGTGAACTCGCGTCAGGAGCGCTACGAGCTCCGCTATCGTCGCCGCACGACGCCG
GAGGAGGCCTACGTGACGCTGGAGACGAAGGACGCGAACGCCACGCTGGAGCAGTTGCAG
CCGGGCGCGGTGTACGAGGTCCAACTGGCGGCCGTCAGTCACGGACTGCGCAGCGACAGA
CACACAGTGCTCAAACCAGTCCGCCCTCTACCGGCGGAGTGGCTGAACGTGGAGCGAGTG
ACATCTAACTCTGTTGTGGTTCGTTGGCGAGGACCTCACACGGGGTCGCTGGCGGCGTAC
TCGCTCCGCTATAGGACGGCCGGACTCGACGCCCCCGCGGTCACGAGGCTGGATCCGCTC
CCGGCTACTGTGGATCATGCTGAGATCAGTAACATGACACACGGAGAGCGGTACACCATA
CAGCTGGACACCGTGAGCGAGGAGGCGGCCGGAGAGACGGTCGAGAGCGGCCAGCCTCTG
AGCGCCGTGCACACCGTCCGTCCCAACCCTGTTTCTAACGTTGCGTTACTGGCTGATACT
CGTAACGTTACATTGGAGTGGCCTCGACCGGAAGGTCGGGTGGAGTGGTATGAGGTTCGC
TGGTGGTCCAGCGAGGACGAGGCGGGGGGGTCCGCGGCGGAGGGGGAGGGACAAGCCTTA
CGCCGCGTGCCGGCCACTGAGGGCAGTCGGTCGGCGCGGGCGGTGCTCGACGCTCTGCTA
CCCGGCTATGGCTACGCGCTCGCCATAGCAGCACATTCGTACAATCTCTCCAGTGACCTG
TTTACTATGCATACTCGTACTAGACCCTTAATACAATCTGAAATGACCATCGTCAACGAA
TCCGATGACACTGATGACAACGACGCTCTTCCAGCCATTAGGGTGATTTATACACGGACG
CCGGAAACAGCGACACGATTCGACACGTATCGCTTTCGCCTGGAAGGCAGCGGCGAGGGC
GGTGAGGCTGGCGAGGCTCGCTGGCAGGAGCGTGCGGCGAGCGCCCCCGCACAGCAGGTT
CCCTTCCGCGGCCTCCGCCCCGGCCGCCTCTACAACCTGTCGATGTGGACGGTCTCCCGG
AACGTGACCAGCCACCCCGTGCAGCGGCAGGCCCGACTCTACCCTCGGCCCATAACGCAG
TTGAACGCGACAGAAGTCGGGGCTCACGAGTTAACACTACGTTGGGACCGGCCGGCCGGG
GACTACACGGACTTCGAGGTGCAATACCTGGCAGCGGCCGACCAACTCGAGACCAGGACG
ACATCGGAGCTTGAGCTACGACTCGATGGACTCTCGCCATACACGCTATACACATTCACT
GTAGTCGTGAGGTCTGGGAAGCCTGCCACTATCCTGATGTCTTCCCGGGCCCACTCGGCG
GTGGTCCGCACGCTCCAGGCCCCGCCCGCGGCGCCCGTAAGGTTCCAGCCGAGTGACGCG
ACTCCTACTGAGTTAGCGTTCGCCTGGGACCTGCCCGCGGCCGACGCTCACGGCCTACTG
CGCGGCTTCGTACTGGAGTACGCATCAGTCGATGACCCCTCTGACATACACACTATTGAG
TTTTCACCAGACGCTCGTTCGGGTCGCGTGTCTGGTTTGACGGCTGGCGGAGAATACGAG
TTCCGTCTGTCAGCGGAGTCCGGCGCTGGTCGCGGGGCGGCGGCGCGGTGGAAGCAACGA
ATGGCGATCGCAGCCCCTCCCCGGCCGAGACCGCACGCTCTGCCCGCGGAGGTCGCGTCA
CGACGCACGTCCTCCTCCGTCGCCGTGCGGTTCCGCTCCGATTACTTCTCAGCGGCGAAC
GGAAACGTAACGGGATACACGCTGGTGGTAGGGGAGGAGCCGCGCGAGGACACGCCCGCG
CCGCTGCCGTCGTGGCGGGATGTGCACCGTCTGCCGCTGTGGCCGCCCTACCAGGTCACG
GAGCCCTACTACCCGTTCCGAACCTCGGCCGTCGAGGAGTTCGTGATAGGGTCGGAACGC
TGCGAGGTCGACAGCCCTCCATACTGCAACGGACCTCTCAAACCTGGCGCTCGTTACTAC
GTCAAGCTGCGGGCCTTCACTGCTCGCGATAAGTTCACGGACACGGCCTACACACTAGTA
TACACCGAGGCTGACAACACTGGGTGGATCGCGGGAGGCGCGGTGTGTGCGGCGGCGCTG
TGTGCTGCCGGGGCGGGCGCTCTGGTCCTGCGTCGACGGAGAGCCCGCGCGTCGCCCACC
GCAGTCCCTGCGCCACAGGCCTCCAGACCTGTACGAGTGTCGGACTTCATAGATCATTAC
AGACTCATGTCTGCTGACTCGGATTTCAGATTTAGCGAAGAGTTTGAGGAGTTGAAGCAT
GTGGGGCGCGAGCAGCCATGCACGGCCGCCGATCTCCCCTGTAATAGACCCAAAAACAGG
TTTACCAACATCCTGCCCTACGACCACTCGCGTTACAAGTTACAACCTGTGGATGACGAG
GAGGGCTCCGACTACATCAACGCCAACTACGTGCCCGGACACAACTCCCCCCGCGAGTTC
ATCGTGACCCAGGGTCCACTCCACTGCACCCGAGACGACTTCTGGCGCATGTGCTGGGAG
TCCGGATCTCGCGCCATAGTCATGTTGACCCGCTGTGTAGAGAAAGGCCGCGAGAAGTGC
GACCGCTACTGGCCTTACGACACGCGGCCAGTGTACTATGGAGACATTGCGGTGACGTCA
CTCAACGAAAGTCGCTTCCCTGACTGGACAGTTACGGAGCTGGCGGTGTGCCGCGGCGCG
GAGCAGCGCGTCGTGACGCACTTCCACTTCACCACGTGGCCAGATTTTGGAGTCCCGGAT
CCGCCGACTGCACTGGCCCGCTTTGTGAGGGCCTTCCGTGAGCGTTGTCCGGCTGACGGT
AGGCCTGTGGTGGTGCATTGCAGCGCTGGGGTCGGCCGCTCGGGGACGTTTATCACACTG
GATCGAGCGCTGCAGCAGCTGGCCGCTCACGCGGACACGCTCGATATATTCGGTATGGTG
CATGCCATGCGCCGCGAGCGAGTGTGGATGGTGCAGACGGAGCAACAGTACATCTGTATA
CACCAGTGTGTGGTGGCAGCACTAGAGGGCGCAGACCTTGCGCCTCCTTCACCGCCGCCC
AACAACCATCATCTCAACCCCGCCTTCGAAGACGATGAGGGGATCGCGGAGTCGGGTATG
TGA
Protein sequence:
MLPREKTSICLEEKVSCEIRESPSMMWKRSIVQARAGYTRHYAAMILVLALFTLLNFHVE
AADLVIEIPGWGAEGADGAHYRLDYRPPQGSPAPNFTVPARASTINFQGLPGTKYHFMLY
YSNATFADLLTWNQTIITAPEPPTNLTVTLGRNKQATISWSPPAHGDYTGFRFRVLPPSE
GEGGPRNVTIDGTGNWSHVLRELAPGATYQLHAFTLLHDKESAAYASFNFTTKPNTPGKF
IVWFRNETTLLVLWQPPYPPGAYTHYKVSIEPKDARDSELYVEKEGEPPGPAQAAFKGLV
PGRAYNISVQTVSDVQLSAPTTAQYRTVPLRPRNVSVDPRRLTETSFKVTWLPPLELSEF
EKYQVSVAAGGAGAGARRLPPQLRSRDEPPSASFEGLEPGGHYAVTVKTMSGKVTSWPAA
TDLTLKPLPVRDLQSRLVESDAGGGVFLSWSPAEGSTQDEYKISYHETGPSRDDSNTLTT
TTTNVTLEALLPGRNYTVSVSAVSRGVASNETWSWSATRPLAPVLRSAAAGTRWLRLAWS
SDVNSRQERYELRYRRRTTPEEAYVTLETKDANATLEQLQPGAVYEVQLAAVSHGLRSDR
HTVLKPVRPLPAEWLNVERVTSNSVVVRWRGPHTGSLAAYSLRYRTAGLDAPAVTRLDPL
PATVDHAEISNMTHGERYTIQLDTVSEEAAGETVESGQPLSAVHTVRPNPVSNVALLADT
RNVTLEWPRPEGRVEWYEVRWWSSEDEAGGSAAEGEGQALRRVPATEGSRSARAVLDALL
PGYGYALAIAAHSYNLSSDLFTMHTRTRPLIQSEMTIVNESDDTDDNDALPAIRVIYTRT
PETATRFDTYRFRLEGSGEGGEAGEARWQERAASAPAQQVPFRGLRPGRLYNLSMWTVSR
NVTSHPVQRQARLYPRPITQLNATEVGAHELTLRWDRPAGDYTDFEVQYLAAADQLETRT
TSELELRLDGLSPYTLYTFTVVVRSGKPATILMSSRAHSAVVRTLQAPPAAPVRFQPSDA
TPTELAFAWDLPAADAHGLLRGFVLEYASVDDPSDIHTIEFSPDARSGRVSGLTAGGEYE
FRLSAESGAGRGAAARWKQRMAIAAPPRPRPHALPAEVASRRTSSSVAVRFRSDYFSAAN
GNVTGYTLVVGEEPREDTPAPLPSWRDVHRLPLWPPYQVTEPYYPFRTSAVEEFVIGSER
CEVDSPPYCNGPLKPGARYYVKLRAFTARDKFTDTAYTLVYTEADNTGWIAGGAVCAAAL
CAAGAGALVLRRRRARASPTAVPAPQASRPVRVSDFIDHYRLMSADSDFRFSEEFEELKH
VGREQPCTAADLPCNRPKNRFTNILPYDHSRYKLQPVDDEEGSDYINANYVPGHNSPREF
IVTQGPLHCTRDDFWRMCWESGSRAIVMLTRCVEKGREKCDRYWPYDTRPVYYGDIAVTS
LNESRFPDWTVTELAVCRGAEQRVVTHFHFTTWPDFGVPDPPTALARFVRAFRERCPADG
RPVVVHCSAGVGRSGTFITLDRALQQLAAHADTLDIFGMVHAMRRERVWMVQTEQQYICI
HQCVVAALEGADLAPPSPPPNNHHLNPAFEDDEGIAESGM