| New model in OGS2.0 | DPOGS215957 |
|---|---|
| Genomic Position | scaffold439:+ 50863-71985 |
| See gene structure | |
| CDS Length | 4929 |
| Paired RNAseq reads | 2272 |
| Single RNAseq reads | 5438 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001072 (1e-173) |
| Best Drosophila hit | CG33291 (3e-109) |
| Best Human hit | ankyrin repeat and BTB/POZ domain-containing protein 2 (5e-58) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL012496 [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC007059 [Tribolium castaneum] (1e-126) |
| GeneOntology terms | GO:0005575 cellular_component GO:0008150 biological_process GO:0003677 DNA binding GO:0005515 protein binding |
| InterPro families | IPR009072 Histone-fold IPR020683 Ankyrin repeat-containing domain IPR011333 BTB/POZ fold IPR002110 Ankyrin repeat IPR000210 BTB/POZ-like IPR013069 BTB/POZ |
| Orthology group | MCL11652 |
Nucleotide sequence:
ATGCTGTGCTCTGCGCGTTGTTCTTGCTTTCTTTGCCGTGAATTACAATCGTGTCAAGCC
GCAGACGGTCGGAAACCACCCGCGAAACACAACATGTGTGACAATTTCATACTTAAAAAA
GCTGAAGCCTGGGAGCCTATGAAATTCATTCGTGGAGCTGCTAGATTTTCTGTGAGACAT
TGGCAGAACCGGGAACCGATCGCAGCTCCGAAAACTCGTGTTTCACCACACAAGTCGACA
AGTTGTGAACAGTTATATCTCAAACCATCTGAGGATTCTGGTCCTTACGTATTGCGAAAA
GCTCCAAGTTCAGATCGTGTTAAACAAATGGAGCGCAAACCAGTCTTTAAGCTTCTGGGC
AATTCTCGTTCAAAAAAAATAACTAGTATTGAGGCGCCGGACTCAAATCTGAGAAGATCC
GTTTTGAATTTTAGAAAAAATGAAATGACTAATTCCAAAAATATTCATGAAAAATATATT
CCGTTAAGACGAGCCCCTTCTCCTTTGGAACACATTTATAGCGAACCAAAGCAATGGCCA
ACGCAACTTGACGATTGTTGTAGACCTCCAATATATCAAAGTGTTGAAAAGAAAATGTCC
TCGAATAAAGAAGCTTCATGTGAAAAGAAAATGTATAACCATCGACCTCCCTGTTATGAC
GAATTAGCAGAAAGGCTATCCCATGAGAGATTGAAAAAAAATAGCAACCCTGTTCCTGAT
GGAGGGTTAAGTAATAAAATTACACAAAACAATAACAAAGTAGTTATATATTTTGGAGAT
TCCATTATTAGGAAACACAATGAACTGAAGAAAGAAGTTAATGAGCTTAAAGAAGATTCC
GCAATTCGAAAAGAGGATATCAAGCATAAAGAAGAAGCAATTTATGCAAATAAACAGTCC
ATTGAAAGTGAAAACTTCCATTTAAGTCAGGAAATTGACAGAGGAGGGACAAAATTAGTT
TCAGAAATTGAAGTTCCGGAAGGTATTTATTCTGAAATCAAAAATGACGATATTAATGAA
GACACTAATGTAGTGACTATTAATGATGCCACTTACAAAAAAGACGTCTATGAGACTGTT
AGTTCCGATGGATTTCTGGTTGTTGAGTTTGAAGGTAACTTCGAAAGAGCACGTCAATTA
GTTGAACTTGTGCATGGAAACAATGTTGACCAAAATGAGGCGACCGTGCTCGATGAAGAT
GACCAATGTGACTGGAGTTTCATACAAGACTGGAGAAAACGGCCTTCGAGCGGATGTCGT
CCTACTGAGGAGTGGTGCGGCGCGGGTGTGTCGGGAGCGCGTGCGTTGCGCGTGCGCGTG
TCCAGCGCGGCGGCGGGCACGGCAGCACATGCGAGATGTCTCTCCCCTCCGCCACATGCA
CACCGGGCGACAACTCCACCACCTCCGCCGCCAGTGGATCAAACTCCAAAGACTAATACT
GAGGAGGTAGTATCCCCGGACGCAAGTGTGGCCCAGTTGAAACCTGTGACCGCTGTGTCG
GGGAGTACAGCTGCCAGCACGCCTGTACGCAGCGCGCCCGCGCAGAGTAGTCTAGCGTTA
GAGAGACGCAAACACGAACATCGATCTGTGGACTCTTCACATATACAGCTGCAAAATGGT
GTACGTGAGTGCAACAGCAGTTCAGATGAGAACAGGTCATCGGGACATGCTTCTATGTCG
GATAGCGGTGGAGGTGACGCGGGGAGGGACGAGCCAAGACGGGCCAAGCAGCCGCCTCAC
GGACGAAATAAACATCGCCCGCATAATAAGTTACAATCCCCTTGGCCGGGTGGTGGTGGG
TTAGAAGAAATCAGGTCAGCCATCAAGCAGTTGACTCTACGTTCTCGGGACAGCAGCAGT
ACAGCTACCAGCGGTGCATCAAGTGCGGGCGGTAGCAATAATGGTGCACCGGATGGCGTC
AGTGCAGCCGAGGCACGTCGTCGTCGGGCGCCACTCGTTCGTCAGCCTTCACTAGACACC
GTCTGTACAAACGTCACAAGCGCCGACGAGTTCGTATGGGTGGACTCACATAATAGACTA
GTTGAACTTCGCTGCGTGCCGTGGACGGCTGGCGAGGTATCCCGGGCGATACAAGCAGGT
CGATGTCGGGATATAGCACCCCGTATGGCTCCAGACTCACCTCCTAGACTGGCCTACTTA
TTACAGAGAGCTTTGGTTCGGATAGGGCGGGAAGCTCAGCGTCTGTCACAGAACTTTGGC
TTCTGTTCCAAGCACGAGGTGGCTGGCGCTTTCCGAATCGTACTGAGTACACCGTTAGCT
GATTCTTGTATAAAGGGTTGTCAACGTGCAGCGACTATGTATGCAACGTCAGTAAGCGCT
GCAAGAAGACTAGGCTCGGCGGCTCGAGCGCGCACAGGTCTAGCACCTGGACGTTTTCAG
CGCTGGATGTTGGACGTGCGCGTCGCGGCATTCGTACATGAATACGCAGCCATTTATCTT
TGTGCGGGAATGGAGACTTTATTGGAAGAGATTGCTTTAATAGCGGCTGGCACTGGCACA
TCACCGATTACACCAGCCACCATCGATCACGCGGTTGCAAACTGCGCTGACCTATGGGGA
TTGTTACAACCATACAGCCATTTAAATGCGGGGAGAATCGCTTCAGGAGCATTATCGCTT
TCTCGATGGGAGTCAATGAGTTCCTTGGGCTCTGGGTCGTCGTCTCACCGACAGCTGGGC
ATGAGCCATGATTCCGGAATTACTACTAATGGCTCTGGTGGATCTGGCACGTCGGCGGGT
TCCAGTAGCGGATCGGTGTTGTTAACGACGTGTGCAGGCTCCTCTGGCGAACTGCGAGCT
GTGCTGCGACAAGTCAGCCCCAGACAACCACCACTTAGTCCAGCCGCTGAACGCGCGCTC
TATTACTTCATGAGATGCTCCCAGTTGGAGCATACATCTAGCGGTGCGTCGGGTGCTGGA
TGTGGCGCAGGTCTGTGGGAGGAGCGTGGTGCCGGCGCGCTGCCTCCTCTTGGTGAATGG
GTGAGAGCAGCACGAGCTCATGCAGCAATGCGTCCTCCCCCCGCCATACCTGATGCCGAC
GATATATTACAAGCTGCCAGGCTACTATTACCGCATGCAGACTGCCCACCGAGACCTATT
ACTTTGGAGGAAGCGATTGAGCCTGCATGGTCACGTTGCTCACGTTCGCCGGATGAATTG
GGTCGGGCAGCATTGGGGCTAGCTCAGCGGGCTCTGTTATCTGGTCGCCCCGAGCTATTA
AACGGAGTCCGCGCTCTGCTACCGGCAGCTGGCATTGATGCTACTGACGCCTCTGGCCTC
ACCGCACTTATGAAGGCCTCCTTGGTTGGAGATGAACAAGTAGTTGCGATGCTATTAGAA
GCTGGGGCTGACCCTAACATAGAGACAGCGGGAGCGGCGGCACAGCACTCAGCACTACTC
TCACCGCGTTCTCCTACTCACCCACCCTCCTCAGCAGCTGCAACACCGGCACCAGGATAT
ACACCGCCCACAGCGGGTTGGACAGCATTAGTATACGCGTGCGCTGGAGCGGGTGCGGGA
GGTGGAACAGGATCAGGGGGAGCAGGGGGTGCGGGGGCCCTAGAAGTAGCAAGAAGACTG
CTGGCAGCCGGCGCCAGAGTTGACGGCGCACCTGCCAGAGGAGATGACGTGTGCACACTT
ACTCCTTTACAGATGGCATGTGGAGTTGGGAACTTGGAACTAGTACAGTTGCTATTGTCA
CACGGAGCGGATCCGTTCTTGTCTACGCAACTTAATGATGCACTCTGCTATTCTGCTGCT
GCGCAGTACGGCTGCTACAGTGCTGTAGCCGTTTGTTGCACGCATGGTCGTCGTAGCTGT
CTACGTGCGGCTGTTCGAGGCGGAGCTCGAGGTGCAGGTGGGGGTGCAGTGCTGTCTCTG
GAGGAAGTTCTTGCGGAGGGCGCACCACCCGCTGCTGGCCGGCCACCACCCTTCACCAAG
CAACAACAACGCGCGTTACAGGATGCCATGTACTATGCCGCGGAAACTGATCATTTGGAT
ATAACCCTAGAGCTGCGAGCACTGGGAGTCCCTTGGTCATTGCACGCTTGGACTCTTTCC
TTGGCCGCCGCTGCTGAAGCCTCGCTAGACCATGTGATCGACCAATTATTACAGGACTTT
TTACAAGTCTGTCCATCCGACGACAGTCACTACAGCAAGCAATTCATTTACGAGTGCCTC
CCTCTGCTTTTCAATATTTTACGCTATAGCAAGAAAGAAGGCACAGTGTTGCTTCTAGCG
GATATTTTATGCGCGTGTTACGGTTGGGAGCCAGTACCTCGGGTCGCACCGCCCGCGCCC
GCTCCGCCGCTACCAGCGCGAGTTGACCCTTCATACGTTAATAACCCATCGCTCGCTGAT
GTCACTTTCAGAGTTGAAGGTCGTCTTTTCTACGGCCACAAGATTGTGTTAGTGTCGGAG
TCAGCCCGCCTACGAGCTATGTTGGCGCCGCCCCGTTCTGGCGAACCCTTGGCAGGAGCT
GCTCCACCACTCGTGCAGATAAACGACATCCGATATCACATATTTGAGCAAGTAATGAAG
TATTTATACTCGGGTGGCTGCTCGGGCCTTGAAATTCCGGACGGTGATGTTCTGGAAGTG
CTGGCAGCCGCGTCTTTCTTTCAGCTGCTTCCCTTACAGCGCTACTGTGAAGCACGCGCG
GCACAATCCGTAGACCTGCACAATCTTGTATCGGTTTACATACACGCTAAAGTGTACGGT
GCGACACAACTCCTGGAGTACTGTCAAGGATTTCTCCTGCAAAACATGGTCGCCTTACTT
ACTTACGATGATTCAGTTAAACGGCTGCTGTTTGGCAAGAGGCTCCCCGGACATAATGTG
TTGGGGGCACTACTAACTACTTTGCAGAAAAGAATCGAATCAAGGAAAAACCAAGTCAAG
AGCAGATAG
Protein sequence:
MLCSARCSCFLCRELQSCQAADGRKPPAKHNMCDNFILKKAEAWEPMKFIRGAARFSVRH
WQNREPIAAPKTRVSPHKSTSCEQLYLKPSEDSGPYVLRKAPSSDRVKQMERKPVFKLLG
NSRSKKITSIEAPDSNLRRSVLNFRKNEMTNSKNIHEKYIPLRRAPSPLEHIYSEPKQWP
TQLDDCCRPPIYQSVEKKMSSNKEASCEKKMYNHRPPCYDELAERLSHERLKKNSNPVPD
GGLSNKITQNNNKVVIYFGDSIIRKHNELKKEVNELKEDSAIRKEDIKHKEEAIYANKQS
IESENFHLSQEIDRGGTKLVSEIEVPEGIYSEIKNDDINEDTNVVTINDATYKKDVYETV
SSDGFLVVEFEGNFERARQLVELVHGNNVDQNEATVLDEDDQCDWSFIQDWRKRPSSGCR
PTEEWCGAGVSGARALRVRVSSAAAGTAAHARCLSPPPHAHRATTPPPPPPVDQTPKTNT
EEVVSPDASVAQLKPVTAVSGSTAASTPVRSAPAQSSLALERRKHEHRSVDSSHIQLQNG
VRECNSSSDENRSSGHASMSDSGGGDAGRDEPRRAKQPPHGRNKHRPHNKLQSPWPGGGG
LEEIRSAIKQLTLRSRDSSSTATSGASSAGGSNNGAPDGVSAAEARRRRAPLVRQPSLDT
VCTNVTSADEFVWVDSHNRLVELRCVPWTAGEVSRAIQAGRCRDIAPRMAPDSPPRLAYL
LQRALVRIGREAQRLSQNFGFCSKHEVAGAFRIVLSTPLADSCIKGCQRAATMYATSVSA
ARRLGSAARARTGLAPGRFQRWMLDVRVAAFVHEYAAIYLCAGMETLLEEIALIAAGTGT
SPITPATIDHAVANCADLWGLLQPYSHLNAGRIASGALSLSRWESMSSLGSGSSSHRQLG
MSHDSGITTNGSGGSGTSAGSSSGSVLLTTCAGSSGELRAVLRQVSPRQPPLSPAAERAL
YYFMRCSQLEHTSSGASGAGCGAGLWEERGAGALPPLGEWVRAARAHAAMRPPPAIPDAD
DILQAARLLLPHADCPPRPITLEEAIEPAWSRCSRSPDELGRAALGLAQRALLSGRPELL
NGVRALLPAAGIDATDASGLTALMKASLVGDEQVVAMLLEAGADPNIETAGAAAQHSALL
SPRSPTHPPSSAAATPAPGYTPPTAGWTALVYACAGAGAGGGTGSGGAGGAGALEVARRL
LAAGARVDGAPARGDDVCTLTPLQMACGVGNLELVQLLLSHGADPFLSTQLNDALCYSAA
AQYGCYSAVAVCCTHGRRSCLRAAVRGGARGAGGGAVLSLEEVLAEGAPPAAGRPPPFTK
QQQRALQDAMYYAAETDHLDITLELRALGVPWSLHAWTLSLAAAAEASLDHVIDQLLQDF
LQVCPSDDSHYSKQFIYECLPLLFNILRYSKKEGTVLLLADILCACYGWEPVPRVAPPAP
APPLPARVDPSYVNNPSLADVTFRVEGRLFYGHKIVLVSESARLRAMLAPPRSGEPLAGA
APPLVQINDIRYHIFEQVMKYLYSGGCSGLEIPDGDVLEVLAAASFFQLLPLQRYCEARA
AQSVDLHNLVSVYIHAKVYGATQLLEYCQGFLLQNMVALLTYDDSVKRLLFGKRLPGHNV
LGALLTTLQKRIESRKNQVKSR