New model in OGS2.0 | DPOGS200349  |
---|---|
Genomic Position | scaffold640:- 36713-39652 |
See gene structure | |
CDS Length | 2940 |
Paired RNAseq reads   | 1389 |
Single RNAseq reads   | 3609 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005642 (0.0) |
Best Drosophila hit   | domeless (3e-30) |
Best Human hit | phosphotidylinositol phosphatase PTPRQ (9e-09) |
Best NR hit (blastp)   | putative tyrosine phosphatase [Heliconius melpomene] (0.0) |
Best NR hit (blastx)   | putative tyrosine phosphatase [Heliconius melpomene] (0.0) |
GeneOntology terms    | GO:0006470 protein amino acid dephosphorylation GO:0004725 protein tyrosine phosphatase activity GO:0007259 JAK-STAT cascade GO:0007424 open tracheal system development GO:0007350 blastoderm segmentation GO:0005886 plasma membrane GO:0004888 transmembrane receptor activity GO:0002009 morphogenesis of an epithelium GO:0016324 apical plasma membrane GO:0007298 border follicle cell migration GO:0016327 apicolateral plasma membrane GO:0007442 hindgut morphogenesis GO:0019955 cytokine binding GO:0007425 epithelial cell fate determination, open tracheal system GO:0006955 immune response |
InterPro families    | IPR003961 Fibronectin, type III IPR008957 Fibronectin type III domain IPR013783 Immunoglobulin-like fold |
Orthology group | MCL16045 |
Nucleotide sequence:
ATGGCCGATTTACTGCCCTGTGGCGTTGATCATATAATAGAATATCAAATTGCTAAAATT
GATAACACTACACATTTCCGAAGAGTCAATGCATCATTCCTACCTCCCAAAAATAAAATT
TATAGATTTCAATTGACAGACCTTCCATATGCTCATAAACAGTATGAAGTAAGGGTGTTT
ATTAAGTCTAAAAAGGCTACAAAGAGAGAGTTATGGTCCGACTTTAGCTATGTTGTTTTC
TACACTGCAAGTGAAAGACCAAAACGACCCCCTGATACTATAGCTGGTGCTTTCCATAAA
TCTGCGTATAGCAATAATAGAGTCATTTATGTGTATTGGAAACAGCTCGAAGAATATGAG
GAGGCTGGAGCCAACTTTACTTATAAAATCCTTGTGTCTCAAGATAATAAGACACAAACT
GTGTTCCCAGATAAAAACAAGAGTTTGAGTTATGTCAGACTTAACGCAACACTTAATGCA
TTGGACATCACAGTTTGGTCACTAAACAACAAAGGCACTTCTCTTAATAGCAGTCACTTA
TACATCCCTGCTGAAAAAGACACTCACTCATTAAAACTAACTTCATTTACAAAATTAGCA
TATGAGAATGGAACTTATGAGTTATCGTGGGTTGCCATAAAAAATATTGACAATTACACC
CTTTTCTGGTGTCAACATAATGCAACACAGATATGTGTAGGAAGAATGGATTTTGCTGTT
CTGAGTCCAGATAAAAGTAATCATGTTATTGATTTACCAAGAGAATATAGATATCAGTTT
GCAATATCTGCAAATAATGGATCAAAAACTAGCGGAATGGTGTGGGCCAACTGCGATATT
TCAAAGGATGGATTTGTTATGTATGGTTTCCCAGTTCATTTAAAATATGATGTACCAGGC
AAGTCACATGTGACTCTAAGATGGCTTATGGATTGTGCTCTTCAAGATGGTATAATTACG
GGGTATAATATATCCTACTGTCCCATAGTCCAAACAAGCAGTTACTGTGACAAATCTTTT
AACAATAGTTACAAGTTCATTTCTAACCCTAAGCAAATGCAGGTTACTATAGAAAATTTA
TTTCCATTCCGAACATACCAGTTCACTATAGCCTTGAATACTATTTATGGACAAAAAACT
ATAGAGAATGCTACAGCTGTTATAACAACTTCAGAAGATACTCCTACAAACCCTGTAAAT
ATATCAGTATCTAACATAAGAAACACCTCACTTGTTATTTCATGGGATCCACCAATACAC
AAGAACGGAAATATAGGAAAATATGTCATTTATAATTATGACAAGGAGTTGTATGTTGAC
AGTGTGTCTGGAACTGACACATCCCGGAGACAAGTGACAATTACTGGACTGCAGGGTTTT
ACTAAGTACTCCTTAACTGTGCAAGCCTGTAACATTCCAATAGGTTTATGTTCAAAAATA
AGATCTAATGACTCTGTAAACGTAACCACAAGGATAGGTGCTCCAAGTAGACTAAGAGCA
CCAACTGTAAGGAACAGTCCAAATAAACTTCAATGGGAACCCCCCGAAATTCCCGGAGGA
AGGGTGGATCTGTATGAAATAAGAAGGATCAAAGATGATCTTGCACCGGAAATTATTAAC
ACTACAGAATTGTCATATCCCCTTGAGTATTGTGTAGGAGTAGTATCAACAGAGACATAC
CAAGTAAGGGCGGTTAATTTCGATGTGACCTCATCTAGAAAAGGTATTAATGAACCTCCA
AAAGAATATGTAGGACCATGGAGTGAATCAAGTGTTGTTGCTTGTAGGACTAGAGATGGT
TTGACAATGATATTAATTATCATGGCAGTTCTCTCACTAACAGCGATAGTTGTTTACGGT
TCTATAAAGCAATACAAAAAGTATCGGAAAATGGAGGATATCAAACCAGTTTTACCAAGT
GGTTTAGGTATTCCTGAAAAAGATATATCCAAGTACACTTTCGGTAATTGGAATCCCACA
ACTAAGGAAGAGAAGCCGTCCTCTGATGAAATGTTATTATTGCCTAATTCTAAAACAACA
GTTTCATCTACCGACACTAAACAAAAAGATGACAACTGTGCTTCAAGTGATCATACAGAT
AGCACTGCTTTGTCAGAGTCTTCCAGAGGCCCTGTTGAAAGACAAGCTTCAACATCAGAA
GAAGGCTCTGAAACCTCAGACCATTTGGAGGTAGTCGCCGATAAAGGAGAAATCAGCAAT
GAAATCCAAGAAGAGGAATCTTCAGCATCAGATACTGAAACTTCCCCAGAAAATTCGCCA
TACTTTAGTGATAAAGCTTTTAAGAAAAATCCAACCAGTGGATACGTGCAACCGGTAGTG
AGTACTACTTCCGGATATGTTCAGTCAGCACCAGCGCCAGTGCAAACTAAATGTCCATCT
CAGAGTACTGCAACACAACCAGCCAGTAACAGTTACGTTATGGCTGGCTTGCCTCCACCA
GTATTTGTTCCTAACTCAGCGACGGCTACAAATCCGCCCACATTATCTTCGGGCTACGTA
CTACCCGAAGATGTACAAGCCAGGTCTATGATGAATACTAATAAATTCGGACCATCGATT
CCAAAATCCGTTGGACCAGAAAGTTTACCAACGATGCCTTCCTTGCCACCTGCAGCGAAA
CAAAGCGCCGACAATAGCTATATCCAGTTACAGTCTTTAGACTCCTTGCCTAGTCTTAAG
TTAAGTGAGCGTAACTCATTCCCAAAACAACCGTCAAGCGGTTATGTAAGTCCAGGGGAT
GTCGTCATAAATAAACATCTGAACATTTTGACGGGCGGTCAGCACGCCGAGGAGTCTGCG
ATATTAGATCCAACGATGTCTCCGGATGCATATTGTCGCTTCTCCTGGAGCAATGACCCC
GCCAATGATAATTTAAATACCTTACTCAGCGATTCCCCCACACGGACGTACAACAATTGA
Protein sequence:
MADLLPCGVDHIIEYQIAKIDNTTHFRRVNASFLPPKNKIYRFQLTDLPYAHKQYEVRVF
IKSKKATKRELWSDFSYVVFYTASERPKRPPDTIAGAFHKSAYSNNRVIYVYWKQLEEYE
EAGANFTYKILVSQDNKTQTVFPDKNKSLSYVRLNATLNALDITVWSLNNKGTSLNSSHL
YIPAEKDTHSLKLTSFTKLAYENGTYELSWVAIKNIDNYTLFWCQHNATQICVGRMDFAV
LSPDKSNHVIDLPREYRYQFAISANNGSKTSGMVWANCDISKDGFVMYGFPVHLKYDVPG
KSHVTLRWLMDCALQDGIITGYNISYCPIVQTSSYCDKSFNNSYKFISNPKQMQVTIENL
FPFRTYQFTIALNTIYGQKTIENATAVITTSEDTPTNPVNISVSNIRNTSLVISWDPPIH
KNGNIGKYVIYNYDKELYVDSVSGTDTSRRQVTITGLQGFTKYSLTVQACNIPIGLCSKI
RSNDSVNVTTRIGAPSRLRAPTVRNSPNKLQWEPPEIPGGRVDLYEIRRIKDDLAPEIIN
TTELSYPLEYCVGVVSTETYQVRAVNFDVTSSRKGINEPPKEYVGPWSESSVVACRTRDG
LTMILIIMAVLSLTAIVVYGSIKQYKKYRKMEDIKPVLPSGLGIPEKDISKYTFGNWNPT
TKEEKPSSDEMLLLPNSKTTVSSTDTKQKDDNCASSDHTDSTALSESSRGPVERQASTSE
EGSETSDHLEVVADKGEISNEIQEEESSASDTETSPENSPYFSDKAFKKNPTSGYVQPVV
STTSGYVQSAPAPVQTKCPSQSTATQPASNSYVMAGLPPPVFVPNSATATNPPTLSSGYV
LPEDVQARSMMNTNKFGPSIPKSVGPESLPTMPSLPPAAKQSADNSYIQLQSLDSLPSLK
LSERNSFPKQPSSGYVSPGDVVINKHLNILTGGQHAEESAILDPTMSPDAYCRFSWSNDP
ANDNLNTLLSDSPTRTYNN