| New model in OGS2.0 | DPOGS215603 |
|---|---|
| Genomic Position | scaffold446:+ 141369-153449 |
| See gene structure | |
| CDS Length | 5178 |
| Paired RNAseq reads | 1341 |
| Single RNAseq reads | 3200 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000358 (0.0) |
| Best Drosophila hit | rapamycin-insensitive companion of Tor (6e-154) |
| Best Human hit | rapamycin-insensitive companion of mTOR (2e-53) |
| Best NR hit (blastp) | rapamycin-insensitive companion of Tor, putative [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | GG18066 [Drosophila erecta] (0.0) |
| GeneOntology terms | GO:0005488 binding GO:0006974 response to DNA damage stimulus GO:0048813 dendrite morphogenesis |
| InterPro families | IPR016024 Armadillo-type fold IPR011989 Armadillo-like helical |
| Orthology group | MCL15543 |
Nucleotide sequence:
ATGGCCACCTTTGAAAATAGATTGAGTCGCAGAAAAGGTAAACATGGAGGCGATACTTAT
AGGTTAGACACTAAAAATAAAACACCTGAAGAAAATATAATAGAAATAGTGCAAGGTCTT
TATATAAAAAAGACATTCCACAATGATACCTCACCTACGAATAAGAACCTTCCTCCTGAA
TTCAGATCAGGTTTTAGGATTCAGAAGAGTGGTTCTGACAGCCACAGATGGTCATATTTT
GATGCTTTGGTTACACTGTTACATAAAGAGGATAGAAGTAACTTAGGATTTACTACAGAT
GAATTGATGACTTGTATTCGCATCAGCCTGGTGGATGATTCTATGGTGATAAGAGCAGCA
GGTTTGAGAGTTCTGAGATACTTGATCAAAACCGAGAGTGACATAGCTACATTTAATAAT
CTAAAATTACCATATCTTGTGACTAGATCAATGGATCTCATGCTTCGGAATGAGGAAGAG
CGTGCCCAAGCATTGAAAGTTGTCCGTCGAGTGATTGCAGTGGTAGGAGCTATTGAACAG
GGAACAAGAAAACATAGGGCTGCCTACATTGATCAAGGCCTATTAAGATGCTTGGCAGCT
GTAGCCAGGGCTGGCAGTGCTGGTGATGGTAGTGGTGACAGATTATCAAGGCCTGCTATT
GCTACATTGGCAGAAATATGTGTATTAAATCCGGAATTATTCATATCGTGTGGTGGGGTG
ACGGCGGTGACGCGGCAACTGGCGGAATGTGCAACGCCGCGGATGGCGGAGGCGTTGTGT
GGTGTTTTATTACACACCCTCAATGATCCGAAATCTCGTAAAGCTGCTAGGATTGACCTC
ACCTGTCTAAATTCACCCTACTGTGATTTTCATTTTAGACCAGCTGGCACTGATACTAGC
AAAGATGAGCGTGAGATGCGGTTCACTTGCAGTCGTCTGGCATTGTTGTGTGTGCTACGC
AGCTGGCCAGGGTTGTTACACTTCTGTCACCCTGCTAGCACGGGCGGGCTCAGCGCTTTG
GTGGCAGCCCTGTATTTACCAAGGCTGGAGGTTCGAAAAGCCATATTGGATTTGTTGTAT
GAATTAGTGGGACTGCCTCAACCAGATTGGACCGATGAAATATCTGTTGCTTTAGATGCT
GTAGATCCTTCTGATTTTCAAGACTCGTGGCGTTTGAATCATGGTTTCGTGTCTGCTGAA
GGAATAGCAATTTTACCTCATCTTTGCGCCACCGGCCCTGATATAATTGAGATTCACTTA
GCCCTATTATTACAATGTTTCCTGGAGGTTGGCCTCCTGGATGGATTGGTCGAAGTGATA
GTGACAAGCGATACCTTTATATCTGTTAGGGCGACCGTATTACTAGGTCAACTCTTGCAT
TTAGTACACCTATTTCTACCTCCTCAAATATGTAGTATAACACCAGCTCTACCATCTTTG
ATATCTCAAGCATCCAATGGGAAGCCCCAGGCTCTAGCTGCGGTCGCTGCTTTGAGAAGA
TTGCATTCTATGCACGAGGCCAGACCAGCCGCTAACAGCCTATTCCTCGATCATATCATA
CAGTATTGCAGCGGGGCATTCAGAACAAAAATTGAAGATACATCAAAGAGCAAAAAGGAG
AAAGACAATGCTAGCATGGCTAAACCCAGAAATATGGCTGATGTTCCTAAAGACAGTATT
GAATTTTTAAACGAATCTGATACAGAATATGAGCCAAAGCAAAGGCATAGTGTCGGTTCG
AGGGCCGATGTCGCCTCTAGGAATGTGAGCGCTCTCGTTAAAAGTAAAAGTGTGAGTTCA
AGGACCAGTGCCGCTGTGAGTAAAGTCACTAAGTCCGCAAAATTCTTCAGTCTATTTGAG
CGTGACAGCGACAGCCTTATAAGGTCGTCACTCGTCATGCAGAACAAAGATGGAAACACA
TGGAATTGGGAGATCATTAGAACCATACTGAAGGAAACCGAAGGCACTCCTTTGTTGAAT
CTGAACGACAGCGGTCATAGAGCTTGGGCGAGTCGTATAATTAATTATTTGAAACCATCT
GCTAATAAATATTCCCACACGGATCTCTCCACGACCTGCAACGGACATTCGGCGACGCGT
GCCGGCTGTCAGCTGATACGGCATCTACTGCGGCACAATGATTCTGATTCGCAAAGACTG
TTAGAGGAATTGTTCATGGACGTCAGCCGTCAGATAGAGGCCATAGAGACCGGTCGCAAG
GCTCACGAATGTCTGTTCAGTCCGCAACACATGTGCAACACTATGTGCCAAATGTACTTC
CTGTTTATCGGACAACTGTGCCATTCACACACCGGTTTGAGACTCTTCAAACAAACAAAA
CTATATGAGAATCTCCTAGAATTATCTACCAAGACCCATCACAGCTGTTACGTTAAGTTA
GTCATATCGAGTCTAGATTACACTATAGATTCGTGTCCACGTGATATTCTTGCCAAGACC
CTGACATGCAACATACAAGCATCAAGACTGTACACAACTCAGTTCCTAAACGTACTTTTA
AGAGCGTCGCGGAAATCTAAAGATTTGGTGCGAAAGAAGTCGAAATTAAAGAAGGATATT
ATGCAGGATCACTTTAAGTTCGCTCATAGAGATGATAGTGTTGATAGCGGCTTGGACATG
GATTCCTGGGTCCTCAAGATGTTAGTAGGTCAAGTTAAGGACGAATTTAAAGCGGTCGTT
AAAACTGCTTTGACTATTCTCGAAGAAGCTTACAGTGTACCTGTTTATTTAGAAAAGTTA
ATGTCATTAAAGGACGCGCTAGCGCAAAATTGTCGCTTGGATAAATCCATTGAACCGTCG
GCTATGGATTTCTCAGCAGTGGGCGACCGTGGCTACTTACTGTGGTTGGGTCTAGAAGTC
GCGTCTGCGTCTCAAATAGCTGATGCAAATGCTATAACATTCGTCAAAAAACATTTGGAT
TTTTGGAACAAATCCTACAACTACAGATACGTCCGCCTAGTAGAAGCGGTGGTCCACGAA
GCTCTGACGGTGTCAGAGAGTTCGAGACGAGCCCGCAACGCTCGTCGCTCAGCGCGTCCG
CCGCCGCACCTGCTTGCCACCCTCGCCCACTTGTGCACCAACAAGAACGGTAACCCTCCA
TTCACCAAGGGACTGCTGGCCGCCGTTCTACCACCACACTATAAGATCCTACAAAAGAAG
CAGTGTGTGACGGAGCAAGAGATCGTTGATCTAAAAGCTTCTTTGTGGGCGGTTGGGAAT
GCAGCGGTAACTCCCCAAGGCTTACAGCAGCTGATGAATTTGAGTAATGGCTTCCTCGAG
GACTCTATACCGGTTCATATTGTACGTCTCGCGAAGTATAGTCCTGTGTACGCAGTACGG
GCGACCGCCTTCTATGTCCTGGGGCTAATTGGTAGCACCTTTGACGGGGCTAATCTTTTG
CAAGAATTAGGTTGGCTCTGCGTCCGTCACACAAGACACGACCGATTCCCCGTCATCCCA
GACGAGAATTACACTCAAATGGTAGATCCGAACGACACGTCGCTGTCCTTTATGACGTCA
CCGAACAAACGTTTCAATTTCGACATAGACCTGAGCGAGCATTCAGACCACACAGATCAG
AGCACGGCGGAGAGTCTCCACTCGGAAAATGTTAAGCTAAACAGGACAATAGCTTCAATG
GATCAGACCGAGATCGACCAAGACGTCGTCGACCACAAGCTGGGATCGATCGAACGCCGC
GAACCCGACAAGAGGAAGTCTCACACGCTGCCGTCACAGGGATCCACCTCGCATGAACGG
ACGTTAACAGAGTCGAGGACTGTGGACATTTTAAGAGACTGTTCAGTGTACGAGAGGCCT
CGCATGCATATGGACAGATTTGTGAAAATGAATTCCTTCGATCACACACAGGAGGGACGG
GTTAGAAATACCAGCGAGTCCAGTACGAGCGGTGTTAGCAGTTGTGATTCGTTTCTAGGA
AAACATGCGCTGCCCGAGCGTGTGGTGAAGCTAAGCCCTATTCCAAGTTCGTCCAGCCTT
CATGGATTGCGAGGATCCACTCGCACTAGACCGACCAGACGTACTTCCACCTCCAGTTTC
ACTACACCAGAAGCAGCCAGTTCACCGCCAACTCAAATGGATATGAGTGGATATGCAACA
CTTCTATCATTAAATAAACACAGAAGGCCGCACTACGTATCAGAGAGTGAAGCAATGGGC
GCCAATGACATAGACGTGTTAAACTGGCTACCGCTCGACTCTAATCAACAGCCGAAAGTA
TTTTCATCATTGCGTGATAGATCTAAATCAACTCGAGAAAGGATGACTAAATATAGTCTC
TTAGAATACGATTGGAAGCCGCTAACTCAGAACGAGAGTTCGAGAATTGTTGCACCGACA
TCTTCGAATTTGAGGACAATGCCTTCAATGCCAAAAACGCCATATTACATGGGAATATGT
CTGCCGAGGAACCTCATGGATCTATTTCCTATGGAAAATGATGGCAATGTTATGGAACCA
GAGGAAAAAGCGGTTCATCCAGTGTCTTCTGTAGTAGAGGACGGGTTGGCCGGCGACCTA
AGAACGCGGACACCTGACTACTCGCTCGGACTGAATAAAGGAACGAGCCTTCACACATCA
AGTACGTCGACCGGAAACACTCAAACTGAAATCGAAGCTAGCAAGGTTGAGGGTGACATT
AAAACAGATGACAGAAGCAAGTCAGATGTAACCGTCACAGATAAGAGGGAAGTCAGGGAG
GATAACATGTATGGGAGGGTCGGGAAAGTTGGTAAATGGAGGCACGTAGCGTCTGACTGT
TTGGCCTGTGTTAAAACGAGACCGCCCTCATCGCACGAACTGAGAGAGGCTTTCTTTGCT
GAGCTAGAAAGTCCAGCGGGTCCATCTTCACCCGTGGGATCTACTCCTCAAGCATTGCTG
TTACACAATGTCCTGTTTATGGCTAACCCCATACACTTGAGGCAGACGCGGTCTTCCTTA
CTCTCCCTGAAGCAGCGTCACCCAGATGTCTTCCGCAGTCCCTGTGTGTACTCGGATGTA
TGTGCTTTGCTCGCTCGAGACACGTACATGTTGTGCGCGAGACGATTCCTCCAGGAATTA
TTCCTGGACACAAACTTCGACTCTTTCAGAGACGAACCGGCCGCCATACTAGCGAGACAC
AACCTCAATACGGAATAG
Protein sequence:
MATFENRLSRRKGKHGGDTYRLDTKNKTPEENIIEIVQGLYIKKTFHNDTSPTNKNLPPE
FRSGFRIQKSGSDSHRWSYFDALVTLLHKEDRSNLGFTTDELMTCIRISLVDDSMVIRAA
GLRVLRYLIKTESDIATFNNLKLPYLVTRSMDLMLRNEEERAQALKVVRRVIAVVGAIEQ
GTRKHRAAYIDQGLLRCLAAVARAGSAGDGSGDRLSRPAIATLAEICVLNPELFISCGGV
TAVTRQLAECATPRMAEALCGVLLHTLNDPKSRKAARIDLTCLNSPYCDFHFRPAGTDTS
KDEREMRFTCSRLALLCVLRSWPGLLHFCHPASTGGLSALVAALYLPRLEVRKAILDLLY
ELVGLPQPDWTDEISVALDAVDPSDFQDSWRLNHGFVSAEGIAILPHLCATGPDIIEIHL
ALLLQCFLEVGLLDGLVEVIVTSDTFISVRATVLLGQLLHLVHLFLPPQICSITPALPSL
ISQASNGKPQALAAVAALRRLHSMHEARPAANSLFLDHIIQYCSGAFRTKIEDTSKSKKE
KDNASMAKPRNMADVPKDSIEFLNESDTEYEPKQRHSVGSRADVASRNVSALVKSKSVSS
RTSAAVSKVTKSAKFFSLFERDSDSLIRSSLVMQNKDGNTWNWEIIRTILKETEGTPLLN
LNDSGHRAWASRIINYLKPSANKYSHTDLSTTCNGHSATRAGCQLIRHLLRHNDSDSQRL
LEELFMDVSRQIEAIETGRKAHECLFSPQHMCNTMCQMYFLFIGQLCHSHTGLRLFKQTK
LYENLLELSTKTHHSCYVKLVISSLDYTIDSCPRDILAKTLTCNIQASRLYTTQFLNVLL
RASRKSKDLVRKKSKLKKDIMQDHFKFAHRDDSVDSGLDMDSWVLKMLVGQVKDEFKAVV
KTALTILEEAYSVPVYLEKLMSLKDALAQNCRLDKSIEPSAMDFSAVGDRGYLLWLGLEV
ASASQIADANAITFVKKHLDFWNKSYNYRYVRLVEAVVHEALTVSESSRRARNARRSARP
PPHLLATLAHLCTNKNGNPPFTKGLLAAVLPPHYKILQKKQCVTEQEIVDLKASLWAVGN
AAVTPQGLQQLMNLSNGFLEDSIPVHIVRLAKYSPVYAVRATAFYVLGLIGSTFDGANLL
QELGWLCVRHTRHDRFPVIPDENYTQMVDPNDTSLSFMTSPNKRFNFDIDLSEHSDHTDQ
STAESLHSENVKLNRTIASMDQTEIDQDVVDHKLGSIERREPDKRKSHTLPSQGSTSHER
TLTESRTVDILRDCSVYERPRMHMDRFVKMNSFDHTQEGRVRNTSESSTSGVSSCDSFLG
KHALPERVVKLSPIPSSSSLHGLRGSTRTRPTRRTSTSSFTTPEAASSPPTQMDMSGYAT
LLSLNKHRRPHYVSESEAMGANDIDVLNWLPLDSNQQPKVFSSLRDRSKSTRERMTKYSL
LEYDWKPLTQNESSRIVAPTSSNLRTMPSMPKTPYYMGICLPRNLMDLFPMENDGNVMEP
EEKAVHPVSSVVEDGLAGDLRTRTPDYSLGLNKGTSLHTSSTSTGNTQTEIEASKVEGDI
KTDDRSKSDVTVTDKREVREDNMYGRVGKVGKWRHVASDCLACVKTRPPSSHELREAFFA
ELESPAGPSSPVGSTPQALLLHNVLFMANPIHLRQTRSSLLSLKQRHPDVFRSPCVYSDV
CALLARDTYMLCARRFLQELFLDTNFDSFRDEPAAILARHNLNTE