| New model in OGS2.0 | DPOGS203692 |
|---|---|
| Genomic Position | scaffold120:- 43472-65628 |
| See gene structure | |
| CDS Length | 4572 |
| Paired RNAseq reads | 1476 |
| Single RNAseq reads | 3897 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003486 (0.0) |
| Best Drosophila hit | big bang, isoform C (2e-22) |
| Best Human hit | pro-interleukin-16 isoform 2 (6e-25) |
| Best NR hit (blastp) | PREDICTED: similar to prIL-16 [Nasonia vitripennis] (7e-38) |
| Best NR hit (blastx) | PREDICTED: similar to prIL-16 [Nasonia vitripennis] (2e-28) |
| GeneOntology terms | GO:0005615 extracellular space GO:0005634 nucleus GO:0005737 cytoplasm GO:0045449 regulation of transcription GO:0044419 interspecies interaction between organisms GO:0006955 immune response GO:0005125 cytokine activity GO:0005515 protein binding GO:0030595 leukocyte chemotaxis GO:0005576 extracellular region GO:0006935 chemotaxis GO:0050930 induction of positive chemotaxis GO:0005622 intracellular |
| InterPro families | IPR001478 PDZ/DHR/GLGF |
| Orthology group | MCL19756 |
Nucleotide sequence:
ATGGAGGCAGACGCGGCTGTCGAAGAGTTTGTCACAATAGTGCCGGTTGGGGAAAATAGT
ACTGTTGTACAGGATCCAGAATTTGTTACAGTGCTCAACGTCAGTGTGACAAAAGGCGGC
GCTGAAGTTATTGTAAACAGACCACGTGGTGCTCGATTAGGTCTAGGACTAAAGTTTGAA
GGTGGATCAGCTGCAACAGAGAAAGTTCGAAGACTTTTAGTACAATCATGTGCGGAAGAT
AGTCCTGCTGCGAATGCGTGTACTCCTTGGGGTAAATTGATATCAGGGGATGAAATTTTA
GCTATAGATGGGACTCCAGTATCTGAATTAACAAGAATCGAATGTGTACGTCGTTTAAAA
GATTCAGATGAAAGTTTAATTCTTCTTGTCAGACATTTTGAAACATTGGATAAAGTAGAT
CAGCAAAATATGGAAACAAAAGAAACAGTGATGACTGACTCGAAAACTTTTGTTGATATA
TCAAGACCTCTGACTTTACCTCCCCCCGTCCCTCCGAGGAAATTGGGTAAGAAAAATTCC
TTTAAGGATAAAACAACCCTTCAAACTGTGGGTGAACAGAACGCTCTCATGAATTTAAAT
CTGTCTGACACTGGTAACGATAAAGATAGTATTATAAGTGCATTAGTCCACCAACATTCG
ATGGTTTCAACTATGAATAAATTATCACGGAAATCGTCTTTTGATAGCCATATACATCGT
CAAACCAAGGAAAGTTTTGCACACTTAAAAAAAGGTTCTCCTGAAGAAGTGAGGCGTCTA
GTACGTCGACTATCAGACGGCAAAACGATACCACCAGAAGCTGAAGTTTATATTGATTTA
CTTTCGAATGAGTGGGAACGCTGTCTTGTATTAGCAGATGCTGAATCAGACGATACTGGT
AGTTCTATATCTACTGTAGTCGATAGACTAGGATCTATGGCTAGTTCTGTAGAGAATAGT
ATTCCTTCAACTCCAGTTATGCAACAGAAATCAATTGATATTCAAAAGGTACTCAATAGC
ATTGAAAATATAGATTCTGATATATTAAAAGACATGACGAACGTGAAATATTCTGAAACT
AAAGTAGATAGAAATGATGATCTTAAAAGATGTTTAAGAAATTCTATGACAAATGGACAA
AAAGTGTCTAATACAAATTCAAACATAGTTACAGAAAATATAAAACCAAAACAATGTGAA
AACGATAACAATAACAACGAAACATCTAAAACTTTGGCACCAAACGATACGTTTGCGATA
AATGACAAGAAAATGAAGGAGGATGTAGTGCTCGATAAACCTAAACCAATGCCACGCAGC
ACTAAAGTGGAACGTTCTGCAAGTGAAAAGAAACGTCGTCCTGTTCCAATACCAGAAGTA
CAGCCTCCTAATATTTCGGAACCACTTTTAACACCTACAAAGAAAACATGTATTGAATCG
TGGTTACAGCGCTCAGAAGCTGAAATGCAGAATACCTCGACAGAAAAAATAGAGGAAACT
ACTATTCCTGAAGCATTACCACGTCTTATTGACTTTGTCCCCAAGAATCAGTACAAAGAA
AAAAGCAACGAATCTCCAACATGTGTTAGACCTACAACGGCTCCTCCTCCACCACCCGTA
CCTCCACCAGAAACCAGAGAAGATGGATCGGGAGCATCACTTGATACAATTGGTGAACTT
GATGAAACCTGCGACGTTGTAGACAACGCGAAACAAACGAAGGATATTGAAACGAATAAA
AGAAAATCACATTACGAGAGAAACTTCTGGGATGATCGAGTTAATAGAAGTGATGCCGAA
GACAAAAGCCTTTCTAATGATGAAACTCCATTGCCTTCTTGTCCTCGACAACCTCCCGAT
GGAGTAGAGACACCTTCTGATGTTGTTGAAAAAGTCCCAGACCTCCCTACAAGATTACCT
CCAACTACTTGGATAAGTACTCGCTCTAGATACTCATATGCATCTCGGACTCAAGACGCC
AGAAGTGAAGCAAGTGTTAAAGATAAAATTGCGATGTTCTCTGTTGACCTCGCTGCGTCA
TCAGATCGATTGGATAAATGTGGTACGTTACCGGCCAGATCACATTCAACAGTAAGAAAA
AATGCGCCTTCTTTTAAAAATGATTACACAGAGATATCATCCTTGGATCGACGTCTTACA
AAGTCTCAAGATAATTTGGATGAGACACCTCGCTCATATAAACGGAACTTAGACAGACCT
GAGGTACTTGGGGCTTTGGAAAACTCACATATCGAAAAGAAAGGTTATAGGTCAAAGCCA
TCAGATATGTTCGGTAAACCCTTATTCTATGGGAGTACGACTACTTTGCCTACAAATATA
TCACCTAATAAATCTATTTATCATGCACGTAGTATAAGTGATGATAACAGCAACAAAAAC
TCTGCTTCACATAAATCTAATCTCGAGTATTTGATAGAGCAAAGAAAGAAGTCAATGTCA
AAGTTGCGTGGTTTAGTAATACCTGAAGTTCAAGCCCCTATTGTAGACTTGCCTGAAATT
AAGGTCAAGGATCCACCACCAAAAACTTTACTTCATAATTTCTCACAGATCCAAACAACA
AAAGAAAGTAAAAGCGGTTCTAAAAATCCCTTATTTGTGTCAGAAAATAAGTGGAATACC
AGCTTTTTAACAAATAATATACCAAAATATTCACCAGCATTCAAACGAAAATTTCTACAA
GTTTATACGCCTTCTCTATCGAAGGAAACAACTCCAGAGAGAAAATTGCCTTCAAAGGTA
GACACAAATGAAAGAATTATAAACAATTATAACAATTCTTTTTCGTCTAAACCTGCTAGG
ATTACACAAGAATACCCGAAACCCACGAACAAGTCCACGCAATTGTTAAATAAAGAATTC
TATAAAATTAACTCCAATGATAAAAATAATGATTTTAAAAATTATGAAATACGAATTTGC
ACTACTACAGATGTTGTGGATAGTGATAACGATTCTGCCATGAGTTCTACTCAATCAAGC
TATCGTTCTTCAGCTTCTTCACCTATGCATAATATGGACCACTTAGAGTCAGATAGCTCA
CGATTGTCTCCCAAACTTTCACACTACAATTCGTATTCCATAGTAAAGACAGAAATCCCG
AATAAGTTACTACCTATCTCTCAAAAGAACTATGAGGAATATAGCAAAAGAAAAGTTTGC
CGATCTATGTCTTCGGACACAAATATTTCCCTTAGTTCTTCTGCAGGTTCTGCTGCTACA
TCAGGATCACAAGCAAGTTGTAGCTCTCTTGAAAGTTCTGTGGCTGACTCAGATAAGAGA
AAAGTTTCAACAATATATAATGTGGATACAATAAATCGAAGAAACATTGTAGCTTCTTCA
AAGTGTAGAAGCGGAAGAGACGTAACGCTTACGTCCCCAGTTATTGAAACTAAGTTCTCG
CATGAGTCCTACAACAGATCTCCTAGTCCAACACACAAACCGTCTGATCGCCTTTCGACG
CTCACATCAACAGTGAGCGCTGTAGCGAATAAAGGTGAAAACAGACGACGTAATAAAAAA
ATTGTTTCTGATTCTGATTCTGATAATGAAGAAAATATCAGACAGCGCAAACCTGACTAT
AAGAATACAAGATTAAAACGTAATTCTAGTACAACGAATAAAAATAATAAATATAGTGAC
AATGTCCAGGTAACAGAAGTAATAGAAAAGGAATCTGTTTTAAAAGAAAAAGTTTCAAAA
GGAAAAGATTGTAATAACGAAATTCAGGATAATCAGAAAGATTTAGACAAAAATAAATCT
GAAGTAATCAACACTACGGGTCTTACGAAAATTGAAAAGGACAAAGAAAAAAGAAATGGA
ATTACACCCAAAAAAGACGTTCCTGTAAAGTTGCAAAATGTTAAACCTGTATCTATCCCT
GTGATAAATTCTAATAATGTGCAAGAGAAACCAGTGAAGGTGACTACACAAGTAATACGT
CTTATAAAGGGAGCTGGTTCTGGGGTTGGTCTTATATTAGCCGGTGGAATTGATTGTGAG
GCTAAGGATGTAACAGTACATCGTGTGCTAGAGGATAGTATAGCAGCAAAAGCTGGGATA
AAGAGGGGATCAAAAATTCAAAGTATAAACGGCAATGCTATGAGCGGAATGACCCACGCT
CAGTCCGTAAAGGTGTTAAAGGAACAGCGTTCAGAAGTCATCATAGAAATAGAACTTCCG
GATAACAGAACTCTTAAAGACTGCGGCTCTCAACATTCGGAGTCGAAAGGGCAACAGGGA
ATGGACGGAACAAAATTCCGCAACAATTCAGGCCGTTCAATTGTGACTGTTATATTAGAA
AAAGCCGGGGGTGGTGCTGGATTGGGTTTTGGCCTAGATGGAGGAAGAGATTCTCCTCAA
GGAGACAAACCTTTGACTATAAAAAAACTGTTCGCCGGAGGTGCGGCTGCTCAAAGTGGG
AAAGTTTTGGTTGGCGCAGAACTGCTCTCTGCTGGTGGTCAAGCTATGGAGGGATTTACT
CGTACTCAAGCGTGGGCTGCTCTTAAAGCCTTACCAGCCGGTCAAGTGACTTTAGTGTTA
CGGAACCCGTAA
Protein sequence:
MEADAAVEEFVTIVPVGENSTVVQDPEFVTVLNVSVTKGGAEVIVNRPRGARLGLGLKFE
GGSAATEKVRRLLVQSCAEDSPAANACTPWGKLISGDEILAIDGTPVSELTRIECVRRLK
DSDESLILLVRHFETLDKVDQQNMETKETVMTDSKTFVDISRPLTLPPPVPPRKLGKKNS
FKDKTTLQTVGEQNALMNLNLSDTGNDKDSIISALVHQHSMVSTMNKLSRKSSFDSHIHR
QTKESFAHLKKGSPEEVRRLVRRLSDGKTIPPEAEVYIDLLSNEWERCLVLADAESDDTG
SSISTVVDRLGSMASSVENSIPSTPVMQQKSIDIQKVLNSIENIDSDILKDMTNVKYSET
KVDRNDDLKRCLRNSMTNGQKVSNTNSNIVTENIKPKQCENDNNNNETSKTLAPNDTFAI
NDKKMKEDVVLDKPKPMPRSTKVERSASEKKRRPVPIPEVQPPNISEPLLTPTKKTCIES
WLQRSEAEMQNTSTEKIEETTIPEALPRLIDFVPKNQYKEKSNESPTCVRPTTAPPPPPV
PPPETREDGSGASLDTIGELDETCDVVDNAKQTKDIETNKRKSHYERNFWDDRVNRSDAE
DKSLSNDETPLPSCPRQPPDGVETPSDVVEKVPDLPTRLPPTTWISTRSRYSYASRTQDA
RSEASVKDKIAMFSVDLAASSDRLDKCGTLPARSHSTVRKNAPSFKNDYTEISSLDRRLT
KSQDNLDETPRSYKRNLDRPEVLGALENSHIEKKGYRSKPSDMFGKPLFYGSTTTLPTNI
SPNKSIYHARSISDDNSNKNSASHKSNLEYLIEQRKKSMSKLRGLVIPEVQAPIVDLPEI
KVKDPPPKTLLHNFSQIQTTKESKSGSKNPLFVSENKWNTSFLTNNIPKYSPAFKRKFLQ
VYTPSLSKETTPERKLPSKVDTNERIINNYNNSFSSKPARITQEYPKPTNKSTQLLNKEF
YKINSNDKNNDFKNYEIRICTTTDVVDSDNDSAMSSTQSSYRSSASSPMHNMDHLESDSS
RLSPKLSHYNSYSIVKTEIPNKLLPISQKNYEEYSKRKVCRSMSSDTNISLSSSAGSAAT
SGSQASCSSLESSVADSDKRKVSTIYNVDTINRRNIVASSKCRSGRDVTLTSPVIETKFS
HESYNRSPSPTHKPSDRLSTLTSTVSAVANKGENRRRNKKIVSDSDSDNEENIRQRKPDY
KNTRLKRNSSTTNKNNKYSDNVQVTEVIEKESVLKEKVSKGKDCNNEIQDNQKDLDKNKS
EVINTTGLTKIEKDKEKRNGITPKKDVPVKLQNVKPVSIPVINSNNVQEKPVKVTTQVIR
LIKGAGSGVGLILAGGIDCEAKDVTVHRVLEDSIAAKAGIKRGSKIQSINGNAMSGMTHA
QSVKVLKEQRSEVIIEIELPDNRTLKDCGSQHSESKGQQGMDGTKFRNNSGRSIVTVILE
KAGGGAGLGFGLDGGRDSPQGDKPLTIKKLFAGGAAAQSGKVLVGAELLSAGGQAMEGFT
RTQAWAALKALPAGQVTLVLRNP