| New model in OGS2.0 | DPOGS212999 |
|---|---|
| Genomic Position | scaffold46:- 137719-152875 |
| See gene structure | |
| CDS Length | 4467 |
| Paired RNAseq reads | 2962 |
| Single RNAseq reads | 6917 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006909 (0.0) |
| Best Drosophila hit | CG12090, isoform C (0.0) |
| Best Human hit | DEP domain-containing protein 5 isoform 3 (2e-143) |
| Best NR hit (blastp) | PREDICTED: similar to ENSANGP00000023755 [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to ENSANGP00000023755 [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0023034 intracellular signaling pathway |
| InterPro families | IPR011991 Winged helix-turn-helix transcription repressor DNA-binding IPR022046 Protein of unknown function DUF3608 |
| Orthology group | MCL11419 |
Nucleotide sequence:
ATGAAGTCTTTTAAATTAATTGTTCATCAATCTAGTTTTAGCACCGAAGACCTTATTATT
AATCTTAAAGATTATCCTGGATTGAAAGAGAAAGATATTGTCGAAATATATCATCCTGAA
AATGATTATCCGCGGCTGCTCTTACAAGTTACAAAAGTGGATGCACCAGGGCGAGGCAGA
GATTCAATCAGTGTTGAGCAAAGCATTGCAACAACATTTCAATTACGAACATTTGCTGAT
GTTTATATTAATATAGTGAATGTCCCTGATGTGGCTCTGGATTCAGTTGAATTAACATTT
AAGGATCAATATCTAGGAAGATCAGAAATGTGGAGACTGAAAAACCACTTAGTGGGTACT
TGTGTATATTTAAACAAAAAGATAGAATATTGTGGTGGTGCAGTCCGTTGTCAGGTTTAT
GAAATGTGGTCACAAGGTGATAGAGTGGCATGCGGCGTTATCACCGAGGACACCAAAATT
GTGTTTAGATCATCGACCTCCATGGTTTATTTGTTTATACAAATGTCATCGGAAATGTGG
GATTTTGATATACATGGTGATTTGTATTTTGAAAAAGCTGTAAATGGATTTCTTGCTGAT
TTATTTACTAAGTGGAAGAAAAATGGGAGTAACCATGAAGTGACAATTGTTCTATTTTCA
AGAACATTTTACAAAGCAAAAACTTTAGAAGAATTTCCTCAGCACATGAAAGAATGTTTA
CAAAAAGATTACAGGGGCAGGTTTTATGAAGATTTTTACAGGGTAGCCGTACAAAATGAG
AGATATGAAGACTGGTCCAATGTTCTTCTTCAGTTAAGAAGATTGTTCACAGACTATCAG
AAGATTGTACTTCAATACCACGAGAGACCGAATATGGAAATACCCACGGCAATAAACTCA
ACGGCTGCCCAGGGGAACTTTCTAGAGGTTCTGAATATGAGTTTGAACGTATTTGAAAAA
CATTACCTGGACAGATGTTTCGATAGGACGGGTCAACTTAGTGTGGTCATAACACCGGGC
GTCGGCGTCTTTGAAGTGGATAGGGAACTGACGAATGTTACCAAACAGAGGATCATTGAT
AACGGCGTGGGAAGCGACCTCGTCTGCGTCGGCGAGCAACCACTACACGCTGTACCATTA
CTGAAGTTCCACAACAAAGACAGCACAATAAATTCCATAGACGATTACTCTATGCCGCAT
TGGATCAATCTATCATTCTATTCCACGAACAAGAAGGTTGCATATTCTAATTTCATCCCA
AGGATCAAGCTGCCGCCGCGCAAGAGCAATGAACCTCTGAAGAAAATGTACGAAGACGAG
AGTAAAGGCAAGTTGTTGAAGGAGGACGACTATATGCACAATTCTATATTCGATTACGAC
GCTTACGACGCTCAGGTGTTTCAATTGCCACCAGCTCACAGCACATGTGTACAAAGAGTC
GCTCGTACAAAGAAGACTTCGGTGGCTGGTCTAGAAGGTATAAGCCGTAGAAGCTCACCC
TCGATACATCACAGAAAGATGTCGGATCCCGATATACATCACAGTCTCGGTTCTGACATA
CTGAGTAACAGTAAATACAGCGTGACTGACAGCAGTGACACAACGGATTCTCCGACATCG
ATGAGTCGCGCGTCTCCAAAGAGTTCAGTTTCCAACAAACCCGTTATAAGAACTGGGAGG
GCGCTCATCAATCCGTTCGATCCATCACACGTGACGGTCAAACTTACCAGCAACAGGCGA
CGGTGGACGCATATATTCCCTAAAGGTCCAACCGGCGTGTTGATTCAACAGCACCATTAC
CAGGCTCGTCCAGCCGGGGAACCGGCCAGGGAAACGGAAACCAAGGATAACGGTTCGATA
GTTAACAACCACTCCGTCTATCAAGTTGACGGTAATATTATTGGAAGGAAGCGCATGATA
AGCACTTCCGGTGGTTTGGGTGTCTTGGGTACATTGGGGACTCCGTCTACAACAAACAAC
GCCTCCCTAGCGTTACTTTGGGGCGCTACCGGCGAACAAGAGTGGACGCCAGCTTTAACC
ACCGGCGTGGACTGGAAATCGTTGACTATACCGGCGTGTCTTCCGATAACCACGGATTAC
TTCCCTGATAAGAGATCTCTGCAGAATGATTATCTCGTTTCCGACTATAACCTTTTGCCT
GATGATGTGAATGCTGATTTTGCCCAAAACAGAGCAATATACAAAGAACCGCTTACGACT
ATGGAGGTGTTTAAGGAACTTGTATCTCAGAGATTAGCGCAGGGCTTCCAACTGATAGTG
GGAGTGAATGAAAACGAAGTGATTGAATCCCACTGTCCATCAACCCACACCCCACCACCG
TCCAAAGTCGCACCACAGAGTAGCAAACTCACGAACGCGCCCACAAAACGCTATTTACTG
TCTATAGGAAGAATATTCCACAAGCTGACTCTGGTTGGATCCACGATCACCGTCACTCGT
TACAGGCCAAGACATCCCTACCCACCGTTCAACATCCACTACCGCTACCGTTTCCACGCC
CCCTACCACGACACGTACGAGGTGTCCTGGGTCTCCTTCACCACCGAGAAACTCGAGAAC
TACAACTGGAACTACATGGACCACTATATATGTACTAGGGGTGACACGGACTTCTTTCTT
GTTGAGTCACTGAAATATTGGCGTTTTAGAACACTTCTCCTGCCTTTATACAATCCAGCA
ACGAAAACAATACTCGAGGATGACTCTACCCACTGCGATATTTATCCAACACCAACCAGG
CAGGATCTCGACCATCTCACCGAAGGATTCCTTAAGATGACAGAGTCTTACTTCAATAAG
GTTAAACGTCCTAACAAGCAGAGGGTGGCGTGCGGCGGCGACGCGGGGCTCACTCGACGG
CGGCACTCCACCTCAACCTCCATCCTCACGAGGACCGTTCAGGGCGGGGCTTCGGGTTCC
CCGTTCAGAGAGCGCGTTGGCAGCACCCGACTTCCGGATCGACCGAGGCTTAGGATCGAG
GCTATAGCCGCAGCTAAAACAGTGCTCGAGAGATCGCAATCACAGTCCGGGGAATGCGAC
GACACCTACGACGATGGCGTTATTGAACCGAAGTTAAAACCGAACGCCACGTTATCCGAG
GTTATAGAGCGGATGCGTCACCAGACCTTGGGCGTCGGCTTCCTGCAGCAGACTGTCAGT
CTACCGTCTCACACCTTCGTATCAATATACGCTATACATTGGCTACAGGCCAATATGGAG
AATGTTACTTATGAAAAAGCAACTAACATTATGGAGAAACTTCTTCAGGAAAAAATGATA
TGCCATGCGTCCGGTGATACTCTCAAGCGTTATGTTGTTGGTTATTATATGTATCATATA
TTACCACAAAAGAAAGATAAAGAGCTTTCGGATTACGTGAAACCTCTAGGGGACTTACAG
AGCTTTGAAAACGAGTGGATGGAAGTAGAGGTCCTTGGGCCTAGATCTCCACTACAAACA
ACAGAGACGAGCTCGCGAGCAATTGATATATCTGGCACGAGCCCTGTCACCGATGATTCC
GGCATGCCCGCCTTCCTATGTGATAATATAGATCCGAATTATATGCAATTAGGCAGTGAC
GATATGCCGCTATACAAGAACACTCACCTGGATATCGATGTGAACAACAAGAGTGATCGT
ATTGAGTGGGGCCACGCTCGCTACCAGGCCACCTTCAGACCGGACCAGGCCTACGAGATG
TGCATACAGTGGGCCATCGCTAGCGGGAACATCGTGGCTGAATTGATATTCGGTTGGGCT
CGCAAGGCGCAGAGTTGTCGTCTCCAAATGGTGCCAATACCGGCTGACCCACTGGCGTTA
CCCTTCACAGAGAAATCTGATCCATTAAGAGGTCCTATATACGTGCCTTTAAATGAAGAA
CCTCTATTAAGAGGAAAGACTTCTTTGTTCGAAGGTTTTCCAGAGGAAACCTGGTTAGAA
AGGTTGTTCCTGTTCCAAGAGGCTATAGTCGGTAGATTCGGTTTCATAAAATGCACGGTG
GAGAGTACTTCACACGCTGCGGGGGTGGGGGACCATTTGTACGTTCACGTGACTGGCAAC
ATGTTCATACTGATACCAACAACAGTTAAATTAGAACAGAAGTGTTTGAGGACGAAGCCA
GCGAATAAACCGGTTAATGCCAGCAGATATCCTGTGCACTCGGATGTGGCGCCGAGTCCG
CACGAAGGTTACATCACACGACATGTCAGCGGGAAAAATAAAGACGACTATGATAACAGC
AGACGGATGGGTTTCTTGTGGTCGTGGAATCACATGATATCTAAGAAATGGAAGTGGTCC
CAAACACCGGCTACGGGAGAAGAAGGATTCCAGATGAGAATGCTCAGAGATTTCAAACAT
TTCTGTGCAAATCATGAACAGAGATTGAGTTTATTCTGGGACTCGTGCTGGGAAATCAGA
GAGAGAGCAAATGGAATTAAGTTCTGA
Protein sequence:
MKSFKLIVHQSSFSTEDLIINLKDYPGLKEKDIVEIYHPENDYPRLLLQVTKVDAPGRGR
DSISVEQSIATTFQLRTFADVYINIVNVPDVALDSVELTFKDQYLGRSEMWRLKNHLVGT
CVYLNKKIEYCGGAVRCQVYEMWSQGDRVACGVITEDTKIVFRSSTSMVYLFIQMSSEMW
DFDIHGDLYFEKAVNGFLADLFTKWKKNGSNHEVTIVLFSRTFYKAKTLEEFPQHMKECL
QKDYRGRFYEDFYRVAVQNERYEDWSNVLLQLRRLFTDYQKIVLQYHERPNMEIPTAINS
TAAQGNFLEVLNMSLNVFEKHYLDRCFDRTGQLSVVITPGVGVFEVDRELTNVTKQRIID
NGVGSDLVCVGEQPLHAVPLLKFHNKDSTINSIDDYSMPHWINLSFYSTNKKVAYSNFIP
RIKLPPRKSNEPLKKMYEDESKGKLLKEDDYMHNSIFDYDAYDAQVFQLPPAHSTCVQRV
ARTKKTSVAGLEGISRRSSPSIHHRKMSDPDIHHSLGSDILSNSKYSVTDSSDTTDSPTS
MSRASPKSSVSNKPVIRTGRALINPFDPSHVTVKLTSNRRRWTHIFPKGPTGVLIQQHHY
QARPAGEPARETETKDNGSIVNNHSVYQVDGNIIGRKRMISTSGGLGVLGTLGTPSTTNN
ASLALLWGATGEQEWTPALTTGVDWKSLTIPACLPITTDYFPDKRSLQNDYLVSDYNLLP
DDVNADFAQNRAIYKEPLTTMEVFKELVSQRLAQGFQLIVGVNENEVIESHCPSTHTPPP
SKVAPQSSKLTNAPTKRYLLSIGRIFHKLTLVGSTITVTRYRPRHPYPPFNIHYRYRFHA
PYHDTYEVSWVSFTTEKLENYNWNYMDHYICTRGDTDFFLVESLKYWRFRTLLLPLYNPA
TKTILEDDSTHCDIYPTPTRQDLDHLTEGFLKMTESYFNKVKRPNKQRVACGGDAGLTRR
RHSTSTSILTRTVQGGASGSPFRERVGSTRLPDRPRLRIEAIAAAKTVLERSQSQSGECD
DTYDDGVIEPKLKPNATLSEVIERMRHQTLGVGFLQQTVSLPSHTFVSIYAIHWLQANME
NVTYEKATNIMEKLLQEKMICHASGDTLKRYVVGYYMYHILPQKKDKELSDYVKPLGDLQ
SFENEWMEVEVLGPRSPLQTTETSSRAIDISGTSPVTDDSGMPAFLCDNIDPNYMQLGSD
DMPLYKNTHLDIDVNNKSDRIEWGHARYQATFRPDQAYEMCIQWAIASGNIVAELIFGWA
RKAQSCRLQMVPIPADPLALPFTEKSDPLRGPIYVPLNEEPLLRGKTSLFEGFPEETWLE
RLFLFQEAIVGRFGFIKCTVESTSHAAGVGDHLYVHVTGNMFILIPTTVKLEQKCLRTKP
ANKPVNASRYPVHSDVAPSPHEGYITRHVSGKNKDDYDNSRRMGFLWSWNHMISKKWKWS
QTPATGEEGFQMRMLRDFKHFCANHEQRLSLFWDSCWEIRERANGIKF