| New model in OGS2.0 | DPOGS204852 |
|---|---|
| Genomic Position | scaffold443:+ 11369-32580 |
| See gene structure | |
| CDS Length | 4728 |
| Paired RNAseq reads | 330 |
| Single RNAseq reads | 833 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011750 (8e-102) |
| Best Drosophila hit | osm-1 (1e-120) |
| Best Human hit | intraflagellar transport protein 172 homolog (9e-145) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL005155 [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | osm-1 [Culex quinquefasciatus] (1e-179) |
| GeneOntology terms | GO:0000122 negative regulation of transcription from RNA polymerase II promoter GO:0001841 neural tube formation GO:0005515 protein binding GO:0005634 nucleus GO:0005929 cilium GO:0007224 smoothened signaling pathway GO:0007275 multicellular organismal development GO:0007368 determination of left/right symmetry GO:0009953 dorsal/ventral pattern formation GO:0016485 protein processing GO:0042384 cilium assembly |
| InterPro families | IPR011046 WD40 repeat-like-containing domain IPR001680 WD40 repeat IPR015943 WD40/YVTN repeat-like-containing domain |
| Orthology group | MCL12115 |
Nucleotide sequence:
ATGCGACTGAAATTTTCTAAAACGCTTTTGGATGCTCAGGAATCGGATATCCCAGTAGCC
GACATATGTTGGTCACCAAATAATGTAAAATTAGCTGTTGGCACTTCTGAACGGGTGGTA
CTTTTATTTGACCGCGATGGGATGCGTCGGGATAAGTTTAGCACCAAGCCAGCTGATGCA
GCAGCAGGAAAGAAATCATATGTTATCACCGGTTTAGCATTCAGCGACAATTCGGAATTG
CTAGGGGTAGCTCAAAGCGATAACATGGTTTTTGTATACCGAATCGGTGCTGACTGGAGC
GGCAAAAAAGTAATCTGTAATAAATTTCCTCTCACCGGGTCGCCTTTACGTTTACTTCCA
GCTGAAACTGGATTCTTTACAGGAACTAGTGATGGAAAGATAAGATCTTTGGATTGTAAA
ACAAATAAAAGCTCCAGTTTGTGGTCCGCGGGATCATGTTGCGTGTCTCTGGCACGTGGA
TCTGAGGCGATGTTGGCATCTGGACACATTGATGGAACTATTTATTTAAATGGCAGATTA
ATATTACGCTACACTCTACCGCCGACAGCCATGGTCTTGGTATCTTCCTACCTGATAGTC
GGAGCTTGTGATGGTAGAATAACAATGTATGAGGCTCAGAGAGGAGCGCTAGTAAGAAGT
TTAGAACCAACATTACCTCCTGATAGAAGAGATATCATATCAGCTTCTCTTAGTCCTTCT
GGTCAGACGATAGCATTCGGTGTATTTGATGGTTGCCTAATCGGTGAAATAAAGGAATCT
GGAAGTATGGAATTATCCACGTTAAATATATCGAATTTGTATGCTGCGCGATCTTTAGCA
TGGAGTGGAGATGGAACCAAGTTGGCAGTAGCATCGCAAACTGGTGCCGTTTTGGTCTTT
GAAGCCGTCCTTAGACGTTGGGTGTGGCGGGACCTTATAGAGGTGCAGCACGTCAGCACA
CGTCAGCTGCTGCTGCGACGTCGTGGTGCTGATACTGCTGCGCTCACTGTTACCGCTAAA
CTAGCCCCCGATATATTTAATGTTAGATTTATTGGTAACGATTGGTACGCTGTCTGTCGT
ACAAGTAATAGTCTGATCCTGTGCGACATAGCTCGTGGTCTGACTAGCGAAGTGCGTACT
GAGCGTGTGAATCCTCACGTGCTTAGTGTCCGTATCAATGAGGGCCGGAAGACGGAGGAA
GAACGCAAACACTTCGCCTATTTGCTGGATAGACAGACGATTGCTGTCATTGATCTCGTT
ACTGGAGTTCAGTTAGGGCAATGGTGGCACGAAGCTCGGGTGGATTGGTTGGAGCTGAAT
GAGAGCGGACATCTGCTTCTGTTCCGCGATACTAGGCGACGTCTAGCACTTCTCCGTATT
GATACCGGTGATAAGGAAATTATCGCGAGCGGAGTTAGTTTCGTGCAATGGATAGAAAAC
AGTGACGCTGTTGTAGCCCAAACCCCAACTCATTTGCTCATTTGGTACAGTGTATGGGAG
CCTCAATGTGTTGAAATGTCTGAGTGTGGAGGCGGCTCGGCCGTATCGGTGTCAGAGCGA
CGAGTCGTACTGGAAGGTGGTCAGATTCAGGCCATCGTTTTGGATGAACATCGACTAGCT
TTCAATTCGGCGTTACGTAGCGGGGACTTACAAGATTGTGCTCAGTACTTGGATGCTGTG
TCACGGTCTGCGGACGTCGGGACGCTGTGGTGCCAACTGGCTGAGCAAGCTTTGACTGCT
TACGATGTTGAGTTGGCGACGAAGTGCTATAGAGCTGTGGGTGATGAGGCTAGAACTTTT
TATCTAGAGAAAACTGTCGAGTTAGCTTCAGCCAAAGGGAACGGGAATATCGATGAAGGT
CGGCTCGGCGAGGCGGGGGCGGTTTTAGCGTCGAGCGGTGACGTGCGCGGCGCGGTTCGT
GTATGGGTGAAGGGGGGACGTGCGAGGCGAGCTGCCAGCGCTCTTCTACATCACCCCACA
CTCATGAAAGACGACGAGCTTCTGCAGGCTGTGCACGATCAGCTAGTACAGGAGGAATGG
TGGGAAATGGCTGGTGAAATATCCGAGCGTAAAGGTGATATAAGAACTGCGGTGGATTAC
TATTCTAGAGGCAACAACTACGCAAGAGCGGTCCAACTAGCAAGAGATGCCTGTCCCGGT
GAAGTGACCAGGATAGAAGGAGAATGGGGAGCGTGGCTTGTATCTACGCGACAGGCGGGC
GCCGCTGTGCCTCATCTCATAGAGGCTGGTCGCACGGTCGATGCGCTCACCGCAGCTCTG
AAAGCACATCATTACAAAAAAGCTCTTCAAATTGTACAGGTTATAGAAGATAAAGAATCT
ATTCGAGAGCAATGTGAACAGTTGGGGGATCATTTTATATCTTCTCAAGAATGGGATACA
GCGGAACGTGTCCTCACTTCCTGCGGCATGGCGGAAAAATGTGTACGTGCGTACAACGCC
GCGGGCAAAGTGTCGGAAGGTCTACGTCTCGCCGCTACACATCTGCCCGAAGAAGATACA
AGGGACATTTACTTACCGCTCGCTCAACAATTAAGACAGGAAGGGCACTTTAGAAAGGCT
GAACAAATTTATATAGGACTGGGAGATACCGATGAAGCTATATCCATGTACAAGGAAGCA
TCTCAGTATGAGTCAATGCTGCGGTTGGTGGCGGCTCATAGACCAGCGCTGCTGCAGGCC
ACGAGGAAGAAGGCGGCCAGTGACCTCCGCGCCGCGGGGGACCTTCGGGCCGCTGAGACC
TACTACATACAAGCTGGTGACTGGAAAAGTGCCATCCAGATGTATCACACGAGTGGTCAG
TGGGAGAACGCTGAGCGCGTGGCTCGGGCTCACGCTCCGGTTGGAGTACAGCAGCAGGTG
GCTCTTCAGTGGGCCGGGTCGTTGTCCGCAGCAGCCGCGGCCCGCCTGTTGGTTGCCCGG
GGACTGGCAGCACTTGGGGCGCGGTGGGCCCTACAGGCGCACAGATGGGATATTGCTATT
GAGTTGAGTGAGATGGGTGGTGGGATCACAAAGCGAGAAGTAGCAAGGCATGAAGCGGCA
GTTCTGGCTGAAGAGAACCCGGAGGAAGCTGAGGCGGCTTTCCTTAGGGCTTCTGCGGCT
GAGGACGCGATCCGGATGTGGCTGTCTAAAGGGAATCACCATAGAGCTTTGGCCTTGGCC
GAACAGCATGCCACTCATATGACGGAGGAGGTGTTGGTGGAGGGAGCTCGCGCTGCGGCC
GAGCGCGGCGACCTGTCGCAGTTCGAAGCCCTCATGATAAGAGCCAACCGGCCGAGAGAC
GTGGTGCAACATTACAAAGACTTGGAGCTGTACGAGGAGGCGTCTCGAGTGTCCCGCGAG
TATCTTCCGGAGAGCTCCGAGACTGTCCCGCCTCACGTACCGCCGCTGTTACAGCGTGCC
GCCTCACACGCGGACCGGGGCGAGTGGTGGGAGGCAGTGCAAGTGCTGCTACAGGCGAGT
GCAGCGGGCGCGGCGGGTGGGGCCGCGGGATTGGCAGAGCGAGCGGCCCTCAGGGCTGCA
CGACTGGCCAGGGATCAGCTCTCGGGCGTTAAGAGAAGAAGGGCCGCCGACCTACTGGCA
GACACGTTTGCTTCCATCGGTCAGAGCGATGTGGGCGAACAGCTTCGGGCGGCACTTGTA
GATGGAATTGATGAAGATAATGCTGAAGGACTATTAGCAGAGTATGAAGAGGAGGGCGAA
GAGATGGACCAAGAAACAAAAGAATCTGACTCGGAAAGTGAAGCGCTGGAGAAGTTAGTG
CGGGCTGGCCAGTGGCAGCGCTGTCTGGGGCGAGCCGGGGACAAGGCGGCACATTACGCA
CTCAGATACGCTGCTCACCTGTTCAAGACGAATTCACGCATGGAAGGCGTAGATATTGTG
AGCGAAGATATACCAGAAGTTCTTTCCCAAGTTCTGGAAGTACTTCGACAATATCTTACA
GATGACGCTGGTGTAGTGATAGTCTCTACTAGTGATAGTGCCTTGGCTAAGGCTGTATGC
AGTGAGATCCTTGTTAGGATATCCGCTGCCCCCAAAGCCCTCAATGCCATGAAGGAAGCG
GCCGCCATTATGGTGATAGCGGGAGCCGGCGAAAGGAGTATACAGGCTATCACACTGCTG
ATGGGTCTCCACGTGCCACAGATAGCGTCCAAAGCAGCTCGAGCCCTGCCTCGATACACC
GACATCATCGTTGCTGATGTTGCGTACTACTTATGCGGTGAGGTCATCCGCGGTGAAGGA
GCCCGCGGGGCCCGGGAGTCCTTCGTGTTGCTGAACCACTGCCTGGACCTGGTGGAGGCC
GCTGACGACGATGGAAACCAAATGTTGGACTACGCCGACTTTGAATGCACGGACTGGTCT
CAGAGTCCGCTGTTGTTGGAGGGGTCGTGTGTTCGAGGGACGACTCTTTCTGAGCTAAGG
GACTGGGTGCTGGCGGTGTCCATGGACCAGCAGGTTGACCAGACTCTGCCATTGGACACC
CGTGGTAAATACGTCTCGTACGTTGGACCGGACGAGCAGTGCTGCGTCATCACAGGATAT
CCGTTGTCATCGCGATTGGTTACGTTTACAAATGGTAGATGCGCGAACAGAGAGTGGTGG
TCGCGCGTGTTTCAAGCCGCCCGTAATTCCTCTCCGGACGTGGCGGCGAGCGTTCTCGTT
GAGCACGTGACGCGCTGGTGCGGACCAGCTGACTACTCGCATATTTAG
Protein sequence:
MRLKFSKTLLDAQESDIPVADICWSPNNVKLAVGTSERVVLLFDRDGMRRDKFSTKPADA
AAGKKSYVITGLAFSDNSELLGVAQSDNMVFVYRIGADWSGKKVICNKFPLTGSPLRLLP
AETGFFTGTSDGKIRSLDCKTNKSSSLWSAGSCCVSLARGSEAMLASGHIDGTIYLNGRL
ILRYTLPPTAMVLVSSYLIVGACDGRITMYEAQRGALVRSLEPTLPPDRRDIISASLSPS
GQTIAFGVFDGCLIGEIKESGSMELSTLNISNLYAARSLAWSGDGTKLAVASQTGAVLVF
EAVLRRWVWRDLIEVQHVSTRQLLLRRRGADTAALTVTAKLAPDIFNVRFIGNDWYAVCR
TSNSLILCDIARGLTSEVRTERVNPHVLSVRINEGRKTEEERKHFAYLLDRQTIAVIDLV
TGVQLGQWWHEARVDWLELNESGHLLLFRDTRRRLALLRIDTGDKEIIASGVSFVQWIEN
SDAVVAQTPTHLLIWYSVWEPQCVEMSECGGGSAVSVSERRVVLEGGQIQAIVLDEHRLA
FNSALRSGDLQDCAQYLDAVSRSADVGTLWCQLAEQALTAYDVELATKCYRAVGDEARTF
YLEKTVELASAKGNGNIDEGRLGEAGAVLASSGDVRGAVRVWVKGGRARRAASALLHHPT
LMKDDELLQAVHDQLVQEEWWEMAGEISERKGDIRTAVDYYSRGNNYARAVQLARDACPG
EVTRIEGEWGAWLVSTRQAGAAVPHLIEAGRTVDALTAALKAHHYKKALQIVQVIEDKES
IREQCEQLGDHFISSQEWDTAERVLTSCGMAEKCVRAYNAAGKVSEGLRLAATHLPEEDT
RDIYLPLAQQLRQEGHFRKAEQIYIGLGDTDEAISMYKEASQYESMLRLVAAHRPALLQA
TRKKAASDLRAAGDLRAAETYYIQAGDWKSAIQMYHTSGQWENAERVARAHAPVGVQQQV
ALQWAGSLSAAAAARLLVARGLAALGARWALQAHRWDIAIELSEMGGGITKREVARHEAA
VLAEENPEEAEAAFLRASAAEDAIRMWLSKGNHHRALALAEQHATHMTEEVLVEGARAAA
ERGDLSQFEALMIRANRPRDVVQHYKDLELYEEASRVSREYLPESSETVPPHVPPLLQRA
ASHADRGEWWEAVQVLLQASAAGAAGGAAGLAERAALRAARLARDQLSGVKRRRAADLLA
DTFASIGQSDVGEQLRAALVDGIDEDNAEGLLAEYEEEGEEMDQETKESDSESEALEKLV
RAGQWQRCLGRAGDKAAHYALRYAAHLFKTNSRMEGVDIVSEDIPEVLSQVLEVLRQYLT
DDAGVVIVSTSDSALAKAVCSEILVRISAAPKALNAMKEAAAIMVIAGAGERSIQAITLL
MGLHVPQIASKAARALPRYTDIIVADVAYYLCGEVIRGEGARGARESFVLLNHCLDLVEA
ADDDGNQMLDYADFECTDWSQSPLLLEGSCVRGTTLSELRDWVLAVSMDQQVDQTLPLDT
RGKYVSYVGPDEQCCVITGYPLSSRLVTFTNGRCANREWWSRVFQAARNSSPDVAASVLV
EHVTRWCGPADYSHI