New model in OGS2.0 | DPOGS210629  |
---|---|
Genomic Position | scaffold2962:+ 33659-41579 |
See gene structure | |
CDS Length | 4050 |
Paired RNAseq reads   | 5785 |
Single RNAseq reads   | 13443 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013580 (0.0) |
Best Drosophila hit   | APC-like (0.0) |
Best Human hit | adenomatous polyposis coli protein isoform b (2e-136) |
Best NR hit (blastp)   | GF16423 [Drosophila ananassae] (0.0) |
Best NR hit (blastx)   | GI10524 [Drosophila mojavensis] (0.0) |
GeneOntology terms    | GO:0008013 beta-catenin binding GO:0046673 negative regulation of compound eye retinal cell programmed cell death GO:0045177 apical part of cell GO:0030178 negative regulation of Wnt receptor signaling pathway GO:0005737 cytoplasm GO:0005875 microtubule associated complex GO:0008017 microtubule binding GO:0007017 microtubule-based process GO:0030720 oocyte localization involved in germarium-derived egg chamber formation GO:0030111 regulation of Wnt receptor signaling pathway GO:0007420 brain development GO:0007405 neuroblast proliferation GO:0030424 axon GO:0008258 head involution GO:0035293 chitin-based larval cuticle pattern formation GO:0007447 imaginal disc pattern formation GO:0021550 medulla oblongata development GO:0007411 axon guidance GO:0016337 cell-cell adhesion |
InterPro families    | IPR000225 Armadillo IPR009223 APC cysteine-rich IPR009240 APC 15 residue IPR011989 Armadillo-like helical IPR016024 Armadillo-type fold |
Orthology group | MCL15013 |
Nucleotide sequence:
ATGAATCGAGACTATTATAAAGTGATGTTCACGTACAAGAAGACGAATCGTTCGAAGGCA
CACAGTCGGGACGTTCTCGACAACGACACGGAATTCAATGCTAACCAGTTCAAACTTTAC
GACGACTTCTCATCGGAACACAGTTACAAGTTCACTACGCTGAGGAACTTTCATGAGGTC
GTGAGGAATGAGAGACAGAGATGCGATCCTAACGATTCAGGCATCGACCTCGACAACGGG
AACCCGACGTATGTCACGAACACTGACAGTGATCTGTTGGAGAACGAAGTAATGGTAGAT
CCTTGGAGCAGTATGGATTCATCGAATTCACCGTTGACTGATTCAGGACCGTCGGCCAGT
GAAGAATGCACTCCTTCTACTTCGAGCGAACCTCCTCGAGGGCCTCTGGATGCATCTTCT
CCAATATCTCCAGATACACGTCGCTTACCAGATCCAAAAGACACCAGACTCAAATATCCA
AGACAAAACTTAAATAAACCACGTACCAGAGATCTAACCCTGGATCTAGAATCTGACCTC
TCCCGCCGACCGCATTTTCTTGATGACGATTACCAGCTCCCATCCAAATCAAACATTGAA
TGCCGTATTCCGAAACCTCATTTCCTCGATCACTCGCCATCACCGGACGAGTTTGATGAA
CGCAGTGACATAACTAATCCAAATTTCCTTGACGATGAAGTCGATGCTGATGATAATCAA
GCACAAAAGAAATCCGGTGCTCTGCCCAAAAGGACAAATAAACCACAGACATCTTACACG
TCTCAAGATGAGAGACCGCACAGGACCAATTACAGAAGCACACTTCATTATGGCTTAGAG
AGTGCAGCCAGATCGAGCGAACGTGACAAGAGGGCCTCACAACTCTTCAGAGGGACCTGG
CCAGGAGAGAGAGACGTCTGGACTGCACACGATTCAGGAAGTGTTAGGAGTTTCTCTAGC
AACGGCTCAGATGGACCGAGACCATCATCAAATTTGGAAAATAAAATGGAATGTGTCTGT
TCACTTATATCTCTTTTGAGCTTATCCCCAGAAAACAACGCCGATCTTAGCGAGCCACTG
TTAGAAATGAGTAGATCAATTGAAAGTTGTATAGCAATGAGGCAAGCTGGATGCATTCCA
TTACTGGTTCAATTGATCCACTCAAAAGTACCGAGAGAAACGCGAGATCGCGCAGCCAAG
GCTCTTCGTAATATAATACACACTCAAAAGGATGACAAGGCCGGCAGAAGGGAAGCGAGG
GTCTGGCGACTGCTAGAACAGGTCCGGGAGTATTGTTATGTATTAGAAGGTGTGGTTGAA
GCTAGGAAAGAAGGCAAAGAAGCGGTAGAAGATGACGCCACCAAACATCCTAGCCAGAGT
GTTGCTGCCTTGATGAAATTGTCCTTTGATGAAGAGCATCGCCACGTAGTTTGTCAATTA
GGAGGTTTGCAAGCCTTAGCGGCGCTTGTTAGTGGGGACCAAGCCGCACACGGAAGCAGA
ACTGACGATAACACATGCATAACGATGAGGAAGTATGCTGGTATGACACTTACAAATTTG
ACATTTGGGGACGGAAATAATAAGTCGTTGTTGTGCTCATTTAAAGACTTCATGTTGGCG
CTGGTTGAACAGCTGGAGTCTCCTAACGATGACATGAGACAGGTCACGGCTGCGGTGCTT
AGGAATTTATCTTGGAGGGCTGATACAAATAGTAAACAAGTGCTAAGAGAAGTGGGTGCC
GTGAAAGGGTTGACAAAAGCCGCTATGACGTGCCAAAAGGAAGCTACACTCAAGTCTGTT
CTCTCAGCACTCTGGAATCTCACAGCTCACTGTTCCATGAACAAAGTGGCTTTGTGTTCT
GTTGATGGCGCTTTGGGTTTCCTTGTAGACATGCTAAGTTATAATTCACCAACGAAGACG
TTAGCCATCGTGGAGAACGCGGGTGGTATCATGCGGAATGTGTCCAGTCATATCGCGGTC
CGAGAAGATTACAGGCAAATTCTCCGCGAGAGAAATTGTTTAAGTGTCTTGCTACAACAC
CTCAAGTCTCCAAGTCTAACTGTAGTCAGCAACTCGTGTGGTACTCTCTGGAATTTATCG
GCGAGGTGTCCTCAAGACCAACAGTTCCTGTGGGACCATGGAGCAGTACCGATGCTCAGG
AGTCTTATTCATTCGAAACACAAAATGATAGCTATGGGATCCAGCGCTGCTTTGAAAAAC
CTACTTAATTCTAAACCCGGGAAGACACATATAATATCCCTGGACACCACCGCGAGAAGT
ATGAATTTGCCCGCTTTACCGACCCTTGTAGCTAGGAAACAAAAGGCACTGGAACAAGAA
CTAGACCAGAACCTTGCAGAGACCTGTGACAACATAGAACCAGCGACCTCACCGACTACA
AGCAATAGAGACGAGAAGAATCTTTTTACAGCCACTGAAAGACAAATAGCAATGAATCTA
GAAAGGCACAGGATGACGTCCAGCTCGCCGCTCATGGGAACGCTCTCCTCTCAGATATCT
TTAAGTCACAGCGCACATCTCGCTAGTTACTTGAGCTGCAGCAATACCCTCTTAAAGGGA
GCGCTGGTCACTCGTTCTACAGGAAGCAGTTCTAACAATGTCAATAGATCCGACAGCAAG
GACTCGGTGACGAGTACTCATTCTGATTCCGTATTTGAGAGAGGCGCACGTACCGGAAAG
GTACCTGTGCCGACGCCCAGAAATAAGGACCTCATGAAAATGGACACAGGAAGTGATACA
TTCAAATCTCAAACTTTAACAAAAGATCCTTCGTATTTACCATACACCCAACCACCCATA
CCACCTCCGAGGAGTTCGACTGACATGAGAACCAACTACACAGAATCCGGTTACGACGTC
GACCAGGATTCTTGCGACCAACCGATCGATTTTAGTAGGAAATACTCAGAAACTAAGACT
GATACGGAGCCTGTAGAAAAATCAAAGTCTGAGTCCAAAAAGTATACGAAAAAAGATAAC
CCGAATACCTTTGGAGATTACCAAGAGACTGATCTGGATCAACCCACGGACTACTCGTTA
CGTTACGCGGAACACCAGTCGGAGACGGGCTCGGATATATCAGAACCGCCCGCGCCTTCC
GTCCACGAGGACACTATAAAGCATTTCGCGACAGAGGGCACGCCGTACGAAACGCCGATT
ATTTTCTCCACAGCTACGTCCATGTCCGATCTTCGCATAATCGGCAAAGACGGGAAGCCC
AAGACGTCCAGCGTGAAGGAACATCCCGAAGCCATGACTCACTCAGACGAAAAGGACACC
TGCTCCATAGAAGACCCGCCGCGGCATAATAACGACGAAGTCACAACGTCACCGCCACAA
GCAGTCCCCGAGCCTATAGCGGAGAAACGAAGCGTCTTTGATACGAAGTTCAGCTCGGGA
ATGATCAGTCCCGAGAAACCTGTGAACTACTGTGACGAAGGAACCCCGGGGTACTTCTCC
AGGGTCAGCTCGCTCAGTAGTCTGGGCGAACCCACACAAGAAGACAGCCTGGCCAAGAAG
AACGCTCAGGCATCCATCAATGTTGACCCGAGCCCTCAGGAGCAAAGCACTAGTAGTTCA
GGAAAAGATAAAGAAGGATCTAAGGCGGTGACGTTCGCCACGGAGGCCGTGTCGATCGAG
TCGTCCACCCCGCCCCGCTTCATAGAGGACACTCCTCTTATGTTCAGTCGGTCCAGCTCG
CTGGGATCCCTGCCGGAGTGCTCGCAGCAAGACGACCAGGGCTCGGTGGTGTCGGAGATC
AGCCGGTTGACCTCGGGCTGCATCTCCCCCAGCGAGATCCCGGACTCCCCCGGCCAGTCC
GTGCCGCTCTCCCCACGGGCCCAGCTGTCTCCAAGGATTCCTCCCATACATCACGTGGAG
TTATTGTCGTCTGTGTTCGAGGAGCGGCCGGCACAGTTCGTGGTGGAAAACACTCCGGCA
CACTTCTCAGCCAACACCAGCCTCTCCAGCCTCACCATCAACGACGAACCGAGGGTACAC
ACAACACTTACACTAATATACTACTGTTAG
Protein sequence:
MNRDYYKVMFTYKKTNRSKAHSRDVLDNDTEFNANQFKLYDDFSSEHSYKFTTLRNFHEV
VRNERQRCDPNDSGIDLDNGNPTYVTNTDSDLLENEVMVDPWSSMDSSNSPLTDSGPSAS
EECTPSTSSEPPRGPLDASSPISPDTRRLPDPKDTRLKYPRQNLNKPRTRDLTLDLESDL
SRRPHFLDDDYQLPSKSNIECRIPKPHFLDHSPSPDEFDERSDITNPNFLDDEVDADDNQ
AQKKSGALPKRTNKPQTSYTSQDERPHRTNYRSTLHYGLESAARSSERDKRASQLFRGTW
PGERDVWTAHDSGSVRSFSSNGSDGPRPSSNLENKMECVCSLISLLSLSPENNADLSEPL
LEMSRSIESCIAMRQAGCIPLLVQLIHSKVPRETRDRAAKALRNIIHTQKDDKAGRREAR
VWRLLEQVREYCYVLEGVVEARKEGKEAVEDDATKHPSQSVAALMKLSFDEEHRHVVCQL
GGLQALAALVSGDQAAHGSRTDDNTCITMRKYAGMTLTNLTFGDGNNKSLLCSFKDFMLA
LVEQLESPNDDMRQVTAAVLRNLSWRADTNSKQVLREVGAVKGLTKAAMTCQKEATLKSV
LSALWNLTAHCSMNKVALCSVDGALGFLVDMLSYNSPTKTLAIVENAGGIMRNVSSHIAV
REDYRQILRERNCLSVLLQHLKSPSLTVVSNSCGTLWNLSARCPQDQQFLWDHGAVPMLR
SLIHSKHKMIAMGSSAALKNLLNSKPGKTHIISLDTTARSMNLPALPTLVARKQKALEQE
LDQNLAETCDNIEPATSPTTSNRDEKNLFTATERQIAMNLERHRMTSSSPLMGTLSSQIS
LSHSAHLASYLSCSNTLLKGALVTRSTGSSSNNVNRSDSKDSVTSTHSDSVFERGARTGK
VPVPTPRNKDLMKMDTGSDTFKSQTLTKDPSYLPYTQPPIPPPRSSTDMRTNYTESGYDV
DQDSCDQPIDFSRKYSETKTDTEPVEKSKSESKKYTKKDNPNTFGDYQETDLDQPTDYSL
RYAEHQSETGSDISEPPAPSVHEDTIKHFATEGTPYETPIIFSTATSMSDLRIIGKDGKP
KTSSVKEHPEAMTHSDEKDTCSIEDPPRHNNDEVTTSPPQAVPEPIAEKRSVFDTKFSSG
MISPEKPVNYCDEGTPGYFSRVSSLSSLGEPTQEDSLAKKNAQASINVDPSPQEQSTSSS
GKDKEGSKAVTFATEAVSIESSTPPRFIEDTPLMFSRSSSLGSLPECSQQDDQGSVVSEI
SRLTSGCISPSEIPDSPGQSVPLSPRAQLSPRIPPIHHVELLSSVFEERPAQFVVENTPA
HFSANTSLSSLTINDEPRVHTTLTLIYYC