New model in OGS2.0 | DPOGS210629  |
---|---|
Genomic Position | scaffold600:- 50882-56232 |
See gene structure | |
CDS Length | 4470 |
Paired RNAseq reads   | 9324 |
Single RNAseq reads   | 20829 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013580 (0.0) |
Best Drosophila hit   | APC-like (6e-12) |
Best Human hit | ND |
Best NR hit (blastp)   | PREDICTED: similar to APC-like CG1451-PA, partial [Apis mellifera] (3e-59) |
Best NR hit (blastx)   | PREDICTED: similar to APC-like CG1451-PA, partial [Apis mellifera] (4e-53) |
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   | ND |
Orthology group | MCL15013 |
Nucleotide sequence:
ATGCTAACTACCTTTGATTTTATCTTGCCGGTAACTGACACGTGTGTAGATCAGGCCTAT
GTTGTCGTTATAACAAACCTTCTCATCTCCAGTCCTCCGCCGTTGCCGCCCAAGGAGCGT
CGCAGCCCCGCCCCGCCACGTCCGCCGCCGCCGGATGACTTCGGTCGAAGACAGACCGAG
AGAGCCCAGCGGACTCCAAAGCCAAAGTTACCGGTCACACAAAACTTAGTCAGAAACGAT
TCTCTCAGTTCACTCAGTTTAGACTCGTTTGGTTCTACCGATAGGGAGATATTCGAAGAG
ACCGTGAAAGCGGGGCTGTCGAGTGTCAACCCTAGAGCGCAATACACTCTCGATAATTGC
AAAGGCAAGGCACACTCGGCAGAGAGACGGACGGAACCGAAACATAACAGACACAACAGG
TCACTCGATAGAAGCGACAAGATCACCAACAGGGGTCACAAGGTACGGGACCCGGAGTTC
GAGAGAAACATCGCATCTGGGGCTTATAACATTAAGCCGAGCAACAAAGTCAAGAAGCTC
GAGCAGGAGTTTGCTAATTTCAATGTGGCGAGATCCTCGTATTCATATCACGGAGAAGGT
TCTGGAACTCATCAGTCGAGGTTCAGAGGTCACGGCCGGTATTACGACGATGGACCCCCG
AGCCTGCCCACCAGAAGCGACGAACCACGCAGGCTGGATAGAAGCAACTCACTCAGTTCA
CTCAGCAACGATTCATTTGGTTCCACGGACAAAGAAGTGTTCGAACGTTCAGTACGGATA
GGAATGTCGAAGCCACTACCGAAAAAGAAGGAGGAACCTAAACTAAGAGTAAGGAGTGAC
GATCGACTGGAAGTAAGAGAGTCACATAGGAGACGTCGCCGGGACACCAAGCATCAGGGG
GCCTTGGACAAAATGGTCGGCGAGGAATACTCGAAGGATAGGGCGATATTGGAAGAAGTT
ATAGCGCGAGGCGCCGGCGAGACTCAATCAGCTAATCAGAGCGCTCAGTCAAGTCAGTCA
AAAAACGTCGAGGCGCCGTCTGCGGGTCCCGCGGCCGCAGACGACGCACGCACCGCGCGA
GACAACATTGGCTCTGATGACTCCGCCATACACACCATGGACGACATACAGATCACCATC
AACGACACGCCCATATCCATCTTCGACCGATCTAATGAAATGCCCACCGTCGACTCGGGA
AATACAACTCTAGACTCGGACTGCATAGAGATGGATAAATCCAACGAGTGTTTGGCGCCG
GCGTCCTGCAACACTACGGTGGAATCTGATAGAGACGAGTTAAATCGATCCAATGAATCG
TATGCCGATGTTTTGGATGGCTCCTGGAGCGAAGACGAAAAGCACAAGGAGTATGATTCA
GGTACATTGACAAGAAAGAGTAAACACAAGCCCGAGTGGACGGATGTGACGTATATGGGG
GGTCCGGCGAACTTGGAGTTTGAATCCAAGAATAATGACACTTGGAATGAAAACACGTGT
CCGGATGACGTCACTTTCCCTACAATCAGTGGCTCCGTTCATATGGTGTCGTCCATGAAG
AGCGAGATCGTGGACACGGCTATGGCTCTCCCAGACTTGCTAGAAAAAAGCGAAGCCCCT
AATTTGTTCTCAAAACCAGATTTGACCGACAAACTAGACGGAAAGATATCAGAGATTGAC
GACGTCCATTTGGATGATAAAGCCCTGATTGAAAATATACCCGAGCCAAGCTTCACGTCG
CTGGTGGATGAAGCGGAGCCTAAATTTGATTCTATTATGGCGTTAGCTATTGAAAAGGAG
GCTGCAAGACTTGCCGCCCAATTGAAAAGTTCCCAATACGCAATGGAAAATAGCGTTACG
TCTTTGACGTCGCTGGATTTGGATAACGTGAAACCGCCATCGAATTTAGGCAGTCTACTC
TCCCTCAGTGCGTCGGGCCACTGGGATGAGTCAGCTCAAACATCGAGGAAGTCACAAAAA
AGTAGGAAGAAGTCGCTGCCCGTTGCTCTCATGATGAAAAGAGCTCTTAGCAACTCGATG
CATCAAGGAAGCTCCGAACATCTAGATAGTATCCCTCTTAGTTTATTAGACAATGTCAAA
CCTCCGTCGGAAATGGAAAATCTCGATATGGATGGAAGCATGATTTCAGTGTCGAGTATT
GTGTCCGAAGTGGCCGAGACTAAAGATAGCAAGACCCCGTTGATATTCGATTACAAACAA
CCGGTTCAGGACTTCCCACTGTGCTCTACATTTACACACGTCTTCCACGACTTAGACAAA
GTGAATCCGCCTTCATTGTTCGATGAAATAGCAGAGTCTACTTTGGAAGCAGACCAGACA
ACTGCTCACCAGGTGTACGATGATTGTACATCGAACACTCTGAACGTGATCACTGACATA
CCGTCCGGCTCAGAAACTTGCACGCCCTTACCATCAGATATCAGCAGCGTCGAATCAACA
CCAAAAAGACAACGTGATCCTAAATATTTAACCCCCAAAGAAAAACGAAGTGCGGCAAAG
CACAGATATCAAACTTATACTATCACGGACACCGTATCTAGCAACGATGTTGTACTGAAA
GTAGAATCTGAGGAATTTATAACTTGGACGAAATCTGAAAGCGATAAATCAGACGAATAT
GTAACCGCCAACTCGGAATCAAAATCCAAACGGCGACTGAGCGCTAAGCAACGAAGACAA
GAGGACAGAGCTAGGTATCAAACTCAGACCGTCAACATACATAATATGCTTTCTCAGGAT
TCCTCTCAGGAAAGAGAACAACTGAATCCTCAAATCGAGAGTCTCAAACAACGATTGGCT
GCAAAAAAGACTCTCAAACAGAAACGCATCGAAGATGCAGAGAGATTCAGGACCAGGACA
CTCAGCGAAGACATCCCGCCCTCTCCAACGTTTGTCACAAAAGACGCTAATTTTGAAAAC
GTTGAAACAACGACCGGTTACGACAGCCTGTCCTCGAATGAATTGAATCACCAACAACTG
CTGGACGACCGACACAGCGATGACGTGTTCAGAGACGTGGACAGCGGACACAATGAGGAC
GACTTCGAATTAAATTCCACTAAAATGAAAACTTACACTAAAAGTTTCAGGAACTATCTG
CCCGTCATCGAGAGTCCGGCGTCGGTTGACATGTGCGTCGTTAATAATCTGAAAAACATA
GAAATGACCGCCTCCTACCGACGTAACTTACAAAGCGATAAAATTCAGAATCCGAGCAGC
AGTGACTTTGCCAGCTTCGAAGGTGACAGCCACTCTGAAGGGAAAGCATTGTCGGAGTCG
GATTCGGAAGCACCCACGTCGAGGCCGAAACCGAAAATAATTAAGCCCGAGAGAAGAGAT
GGAAGTTTAGATTCCAACGAATCAGGTGACAGGGAACATGAAGCTCCTAAAGTCGTAAGG
GGTAGGAAAAAAGCTCTGTATGTATCACCTTACAGACGAAACGTACCAAGCCCCAAGAAA
CAAGCTACGCCAACAGCTGCTAAAATCCCTCCAAAGTCTGCCCCTACACAGAAACCGACT
ACCAGTAAAACAGTAGGCGTGAAAGCGCCAACCAAAACAGCTGTGACTTCTAAAGTACTC
CCAACTACTTCTCCTAAAAAGACTGCCCTCAATAAATCCCCATCCAAATTAGCTCAAAAA
CCAACTAACGCACCGTCTTCCAGCAAACCCGCACCTCTAGTCAGACAGGGTACCTTCACC
AAAGAAGAAAGCTCAGTACCCGCAAAAGATCTGCCTGTTCCGAGTAAAAAGTCCGTCGGA
ACTCGGCCCGGCACCGCCACCTCACCCACAAAAACACTGGCCAACACTTCGCCATCGAGG
TTGCCGCAATTTAATCGAACCCGTACCTCCACTGCCAAACCAAATACCAAACAGAATTCA
GCAAAACGTGCCTCAGAGCCTATAATGAAAAACTCGCCTTCCAACCACAGCTTACAGAGC
AACGACAGCGGCAAAACTATAGTATTGGCACGCGGTTCTCGACAAGGAAGCACTTCAAGC
GTGAATTCTGTAGCGTCCTCTAAAACAAAAGAAGTGGAAAGCAAAATTGCCAACCTGTGG
AAGAAAGTCGAGCAGACGAAGAAATTACCGGCTAAGGCCGATAAGAGAGTTTGGATTGAT
AGCGACAAGGCCGAAACACCGAAACTCATAAGGAGTTCCACGTTCGAAGGTCAACCGAAA
CTCAGCCCAGTGTCCACAGCAACCAAGCAAAAGTCCGCGATCGGCATACGAGTGTCGCAG
ATACCCAGCCTGAGGCCGAAGACGACGCCGGGCAGAGCCGCGAGTCAAACCAATGTCAAC
AAGAAACCAGCCAACAAAGGATTCTTACGGAAGGGCGGCGGTCAGGTAAGGGAGGTAGTT
TTGGCTTTTGAGAACTTTAAACGGCTTCGCATAAACGATAACATGTCAGTCCGAAAGCGA
GCTGGCTTCACACAATACAAATACACTTAG
Protein sequence:
MLTTFDFILPVTDTCVDQAYVVVITNLLISSPPPLPPKERRSPAPPRPPPPDDFGRRQTE
RAQRTPKPKLPVTQNLVRNDSLSSLSLDSFGSTDREIFEETVKAGLSSVNPRAQYTLDNC
KGKAHSAERRTEPKHNRHNRSLDRSDKITNRGHKVRDPEFERNIASGAYNIKPSNKVKKL
EQEFANFNVARSSYSYHGEGSGTHQSRFRGHGRYYDDGPPSLPTRSDEPRRLDRSNSLSS
LSNDSFGSTDKEVFERSVRIGMSKPLPKKKEEPKLRVRSDDRLEVRESHRRRRRDTKHQG
ALDKMVGEEYSKDRAILEEVIARGAGETQSANQSAQSSQSKNVEAPSAGPAAADDARTAR
DNIGSDDSAIHTMDDIQITINDTPISIFDRSNEMPTVDSGNTTLDSDCIEMDKSNECLAP
ASCNTTVESDRDELNRSNESYADVLDGSWSEDEKHKEYDSGTLTRKSKHKPEWTDVTYMG
GPANLEFESKNNDTWNENTCPDDVTFPTISGSVHMVSSMKSEIVDTAMALPDLLEKSEAP
NLFSKPDLTDKLDGKISEIDDVHLDDKALIENIPEPSFTSLVDEAEPKFDSIMALAIEKE
AARLAAQLKSSQYAMENSVTSLTSLDLDNVKPPSNLGSLLSLSASGHWDESAQTSRKSQK
SRKKSLPVALMMKRALSNSMHQGSSEHLDSIPLSLLDNVKPPSEMENLDMDGSMISVSSI
VSEVAETKDSKTPLIFDYKQPVQDFPLCSTFTHVFHDLDKVNPPSLFDEIAESTLEADQT
TAHQVYDDCTSNTLNVITDIPSGSETCTPLPSDISSVESTPKRQRDPKYLTPKEKRSAAK
HRYQTYTITDTVSSNDVVLKVESEEFITWTKSESDKSDEYVTANSESKSKRRLSAKQRRQ
EDRARYQTQTVNIHNMLSQDSSQEREQLNPQIESLKQRLAAKKTLKQKRIEDAERFRTRT
LSEDIPPSPTFVTKDANFENVETTTGYDSLSSNELNHQQLLDDRHSDDVFRDVDSGHNED
DFELNSTKMKTYTKSFRNYLPVIESPASVDMCVVNNLKNIEMTASYRRNLQSDKIQNPSS
SDFASFEGDSHSEGKALSESDSEAPTSRPKPKIIKPERRDGSLDSNESGDREHEAPKVVR
GRKKALYVSPYRRNVPSPKKQATPTAAKIPPKSAPTQKPTTSKTVGVKAPTKTAVTSKVL
PTTSPKKTALNKSPSKLAQKPTNAPSSSKPAPLVRQGTFTKEESSVPAKDLPVPSKKSVG
TRPGTATSPTKTLANTSPSRLPQFNRTRTSTAKPNTKQNSAKRASEPIMKNSPSNHSLQS
NDSGKTIVLARGSRQGSTSSVNSVASSKTKEVESKIANLWKKVEQTKKLPAKADKRVWID
SDKAETPKLIRSSTFEGQPKLSPVSTATKQKSAIGIRVSQIPSLRPKTTPGRAASQTNVN
KKPANKGFLRKGGGQVREVVLAFENFKRLRINDNMSVRKRAGFTQYKYT