| New model in OGS2.0 | DPOGS209715 |
|---|---|
| Genomic Position | scaffold756:- 15802-25836 |
| See gene structure | |
| CDS Length | 7233 |
| Paired RNAseq reads | 2157 |
| Single RNAseq reads | 5975 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008952 (1e-131) |
| Best Drosophila hit | target of rapamycin (0.0) |
| Best Human hit | serine/threonine-protein kinase mTOR (0.0) |
| Best NR hit (blastp) | target of rapamycin isoform 1 [Bombyx mori] (0.0) |
| Best NR hit (blastx) | target of rapamycin isoform 2 [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0007584 response to nutrient GO:0040007 growth GO:0016310 phosphorylation GO:0004672 protein kinase activity GO:0009594 detection of nutrient GO:0046622 positive regulation of organ growth GO:0045793 positive regulation of cell size GO:0030307 positive regulation of cell growth GO:0040018 positive regulation of multicellular organism growth GO:0016773 phosphotransferase activity, alcohol group as acceptor GO:0008340 determination of adult lifespan GO:0006914 autophagy GO:0035264 multicellular organism growth GO:0008406 gonad development GO:0043621 protein self-association GO:0001558 regulation of cell growth GO:0032456 endocytic recycling GO:0090070 positive regulation of ribosome biogenesis GO:0006974 response to DNA damage stimulus GO:0048813 dendrite morphogenesis |
| InterPro families | IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic IPR003151 PIK-related kinase, FAT IPR009076 FKBP12-rapamycin-associated protein, FKBP12-rapamycin-binding IPR003152 PIK-related kinase, FATC IPR016024 Armadillo-type fold IPR011009 Protein kinase-like domain IPR014009 PIK-related kinase IPR011989 Armadillo-like helical IPR011990 Tetratricopeptide-like helical IPR018936 Phosphatidylinositol 3/4-kinase, conserved site |
| Orthology group | MCL11517 |
Nucleotide sequence:
ATGACGAGCGGCCAAGTTTTTGATTTAATAATTGGGCTTAAGTCCCGGCATACGGAAACG
AGACATAAGGCGATACGGGAGCTATTACATTTTGCTAAAACCGATCTTAGAGAAATGTCG
CAGGATAATTTAACACAGACACTTGATGATTTCAATCAACAAATCCATGTATTAACTTCT
AGTTACGATAACAACGAAAAGAAAGCAGGCATATTGATTATAGTTTGTCTTATAAGTGGT
GATCAGGAAGTAAATAAAACAAGATTGACCCGCTATGCGCAATATCTAAGAAGCATATTT
CCATCAAATGATGCAAACATTTTAGAACTAGCTGCTAAAACTATGGGCCGCATAGCAACT
TGCCTTGGTATTAAAAGAGGTGAATATGTCGAATTCGAAATTAAAAGAGCTTTTGAATGG
TTAGCTGAGGATAGAAATGAAAGCAAGAGGCTTTCAGCATGTCTTATATTAAGAGAACTG
GCCATAGCGATGCCATCGAATTTCTTTCAGCATATAAATGATTTTTTTAATTACATTATG
ATACCACTTCGTGACAGCAAAGAGTCTATTAGAGAAGCAGCTGGCAAGGCTTTAAGAGCA
GCATTTGTAGTGACTGCTCAGAGAGAACTACCAGAACAAAGTAATAAAGCACACTGGTAT
ATTCAATGTTATGAGGAAGCGGTCACTTCTTTTTCTGATCACCTGTGCAGGGACAGAACT
ATCAGCAGGGATGAACATGTTCATGGTGCTTTGTTGATTTTAAATGAACTTCTCAGATGT
TCCAATTCTGTATGGGAGAAGAAATACACAACCCTAATGCAAAAACTTGACTCTCAACAG
GACATATCAGATGAAATGTCAACATTTAATCCAAAAACACAAAATTCTTGGGCTTATCAA
AGTTGTTTGGAGGACAAGCAACAATCTTTTACTATATATGAATCTTCAATTTGCAAAAAA
CTAGTATCAGAAAAATATGATCAGATATCTGTGGATGTGATGGCTCAGCAGATTTCGAGG
TCACATATTGTCCACCAGATGCTTTTGTTACTGATTCCAAGGCTGGCAGCATTTAATAGA
GATTCATTTGCAAAGAAACACCTCAAGTCTACCATCAATCATTTGATAACATTTCTGAGA
GGGAGAGAGAGAGAGAAGGCCATGGCTTTCACAACCTTAGGATTGATATGCATTGCGGTG
GAAGATGAAATACAACAGTACCTATCAAGAATCATTGAAATTATCAAACTAACTTTACCT
CTTAAAGATGTGCCAAAGAAAAAGAATGGTGCTGATAGTCCATTGTTCAGTTGTGTCACT
TTACTGGGAATTGCAATGAAAGAAACTGTTTCCAATGAAATCAAAGACCTTTTAGACCCT
ATGTGTGTCACTGGACTAAGTCCTCAGTTGACAACTTGCTTTAAAGAGCTGAGCAAAAAT
GTACCATCTTTAAGAAAAGAGATAACAGACAGGCTACTCAATATTTTGTCCTTAATTCTA
AGGAAAAAGCCCTACATACCTTCTAATGCTGAACCATCCTCAGCTGCGATGTTATCAACA
GCTATGCTGGTAGAGCCTCACGATGCTGTGAAGTTGGTCTTAGCCTTGCATACTCTGGGA
TCGTTTGACTTTGAATGGAACAATACTCTCATGTCTTTTATAAGAAGATGTACAGATTAT
TACCTGCAGTGTGAGCAGCAAGACATACGATTGGAGGCTGTGAAAACGATTGCTAGACTT
CTTATTAAAGCTATCGAAAGGTCTTCGGTGACTAACTCGCGAACCCTTAACTCGTTAATC
GACGAATCTATCGGGAAACTTTTATCGATAGGCCGGTCAGACTTCGATCATGAAATAAGA
TATAGAGTTTTTGAAATATTTACAAATCCTATTTTCGACAAATATCTTGCTGTAGAAGAG
CACCTGAGCTGTCTCTTTATAGCCATTAATGATTCAAATAGTGATGTCAGTGAACTGGCG
TTATGCGTTATTGGCAGACTAAGCAACATAAATCCTAGTTACACTACTCCAGCCTTGCGC
CAATTGTTCGTTGAAATATTAATGGAAGTACAACACTCTGAGTCAGCTCGTACCAAAGAA
CAGTCTCTAAGAATGATAAATCACATAATATCTCATGCTCCTCGACTAACTCGACAGTTT
GTTGATACCATATTGAAGGTATTGGTCCCAAAACTTAAAGAAGAGAGTAATCCCAACATG
ATCACCATAATTTTAAAGGCTATCGGTGATCTGGCGGAGGTGAATGGTGGTGGAAACGCT
TTAAATCAGTGGCTGCCAGAATTGATGTCAATCCAACTCGAGATATTGTCGGATCCAAAC
CAACCCGAAAAAAGAAGTGTTGCGCTCTGGTCATTCGGTCAGGTTATAAGCGCTATCGGC
TATGTGGTGACGCCCTATACGGAATATCCGAGTTTGATGGATATGCTCTTGAACTTTTTC
AAAACTGAACAGAATGCTAGAGATCGGAGGGAAACTATACGTGTTCTTGGTTTGTTAGGG
GCTCTGGATCCCTACAAACATAGAGTGAATCAAGGCTTAATTGACTTCCAGACAGCGTCT
ACATTAATACCTATTACAGACACCTCCAATGATAATTTGGACATAAATGTGAATGAGATG
CTCGTTAGTATGTCTCCGCTCGTCCTGGATGAATTCTATCCTGCCATAGCTGTGACGTCC
TTGATGCGTATACTGCGGGATCCTCAGCTCTCACAACATCACACGAGTGTGGTTCATTCA
ATAACATATATATTCCAAACTCTTGGCTTCAAATGCGTTCCATACATATCGCGCGTCACT
CCAAGTCTTTTATATGTAATTCGGTCGACTGATAACCACAATTTTAGAGAATTCTTATTC
AATCAATTAGCGCTACTAATTTCCGTAGTAAAGATACACATACGAGCATACTTGGAAGAA
ATATTTGATCTTATAAGAGAATATTGGACACCAGACAGTCAGCTTCAACCGACCCTCATA
TCTCTTGTTGAGCAAATAATTATAGCCATTGGGACTGAATTCAAGATATACGTCCGTAAA
ATATTGCCGAATATACTCAGACTCCTCAAATATGATAGCAGCAAAGATAGGATTTTAACG
GAAAAGTTGTTGCTAACTATACAAAAGTTTGAAAACAATTTAGACGACGTCCTAATGTCT
ATAGTGCCAGCGATTATAGCTCTGTTCGACGGAAGGAATATACCGACGTCCATATCTAAA
TTGGCAATGGAAACTATCGAACATCTCTCTATGTACCTTTACTTCAAACCTTATTCAGCG
ATGCTAGTTCAGGCATTAGCGAAGGTTTTAGAAAACAGTATTCCATTACGTCAGACGGCG
ATGAACACACTCTGCGCTATCATCATTCAACTCGGCAGAGACTATATAGACTACATACCA
TCTATCGATAGGATTCTGGTAAAGCACAAAATACAATGCCCTAATCCAAAAGAAAGACGT
AAGTTTAATTATAACTCTCATTATAATCAGTTGTTTCTAATGTATAAAAAATGTCCAAGT
ATAGTTGTTTCAAATGATCCGCAAGCCATACAAAAGTTGACACTGAATGTGGATAAATTA
AGAAAATGTTGGCAAGTACATAACATTCTATCAAAAGATGATTGGTTGGAGTGGTTACGG
CAGTTGAGCATCGGACTCCTAACAGAATCCAACAGTCCAGCTATACGAGCCTGTTCAAGT
TTAGCACAGAATTACTCTCAGCTGGCTACTGATTTGTTCAACGCTGCCTTCATGTCGTGT
TGGACGGAGCTCGGTGAAGCGGCGCGTTCCGAACTCGGTGCGGCCTTAGAGAAAGCACTC
GTAGCCCCCGAAGCACCCGAACTAGCATTGGCTGTTCTGAATCTGGCTGAATTTTTGGAA
CATTGTGAGAAAGGCGCATTACCTATATCTATAAAACTGCTCGGAGACACAGCCATCACC
TGTCGTGCTTATGCAAAAGCTCTCTATTACAAGGAGGAAGAGTATCGAAGGAATCCGTCG
ACTCAAGTAGTTGAAGCTCTGATTCACATAAACAATAAATTACAGCAAAGGGAATCTGCA
AATGGATTGCTCGAAAAAGTAATCATGCAAAAGAAAAGTGGAGATTGCTCTCTCAATGTT
CACGTGCGTTGGTATGAGAAACTGCACAACTGGGATCAGGCCTTGGAACTCTATAACAAA
AACTTAGAAGAAGAACCCCAGGACATAGATTCAAAACTAGGAATGATGCGATGTTTGGAG
GCGATGGGCGAATGGCGAAAACTTTATAGCATGACCACAGAACAGTGGAGTGCCATGAGC
GATGATATCAAAAAGAAATCCGCCAAAATTGCTGCTGCGGCGTCCTGGGGCTTGCAGGAG
TGGGATTCCATGAAAAAGTTTGTCGAATGTATCCCTGATGATACACAAGACGGAGCATTC
TATCGTGCCATATTATCTATTCATGATGGACATTGGCCTGAATCTCGACATTACGTCGAC
TCTGCTAGAAGTCTTTTGGACGCAGAACTATCAGCTGTTGTCGGAGAAAGCTACCAAAGG
GCATACGGAGCTTTGGTGAACGCACAGCTATTGACGGAATTAGAGGAAGTTGTTACTATC
AAACTTGTTGAAGAAAGAAGAGGCATAATTCATCGAACGTGGTGGACGAGGCTGCAAGGA
GGCCAACGTTTAGTTGAAGATTGGCGTAAAATGCTTCAAATTCGCAGTTTAGTAATGAGT
CCACAAGAAGACTTCCAGACATGGCTTAAATTTTCTTCACTGTGCAGGAAATCTGGTGCT
ATTAATCAGGCACATAAAATAGTTCTGACTGTATTAGGCTGTGATCCTGTCACAAATCCT
GACATATTACTAACATCTCAAGATCCGAGAATAGTTTTAGCGTACAGCAAAAACCTTTGG
GATGCGGGAAACAAAAGATATGCCTATGACGTGTTACAGAAATTTTTGGACAATTCTGAA
GCAGAAAATGAAGAGCAGGGAAGATTGCTTGCGCGTTGTCATTTGAAGTTAGGTTCATGG
TGTGAAGCACTTCATGAAATAAATGAATTGTCAATACCTGAAATATTGAGGAACTACACC
ACAGCGACATTGCTCGCTCCAGACTGGTATAAGGCCTGTCATGCTTGGGCTTGTATGAAC
TTTGAAACGGTTCTATTTTATAAACAGCAGGACAACATATCGGAGAGCAGCATAGCTGGT
GGATCGGGTGAAAAGAAGATATCGAGAACGGAATTCATCAACACATTCACAATACCAGCT
ATAGAGGGTTTCTTTAAGTCGATTAGCTTGTCAAACGGAAGTTCCCTTCAAGACACGCTG
AGGCTACTAACTCTATGGTTCGACCATGGACATCACCCCGCTGTGTACGATGCTCTGTTT
GAGGGTATACGGCAGATCGACGTAAAGATATGGCTTCAAGTCATACCGCAGCTGATAGCT
CGTATCGACTCCCCGAGGAGTTTGGTGGCTAAACTGGTCCATATCTTATTAATAGATATC
GGAAAGCTTCACCCACAAGCTCTGGTATACCCGTTGACTGTTGCCACAAAATCCTCTTTC
ATAACGAGGAAGAACGCAGCCAATTACATTCTTAAAACAATGTGTACACACTCTCAGAGA
CTTGTCAATGAGGTGGCTGTTATATCGGAGGAGTTGATCAAAATTGCAATGTTGTGGCAT
GACCAGGTGTACACTGCTTTGGAAGATGCCTCAAGATTATACTTTAGTGAGAAAGATTAC
AGAGGAATGTTCAGAACGTTGGACAAGATGCACGCCATGTTAGATCACCCGCCTGAGACC
TTGAAGGAGGTGTCATTTCTACAAATGTATGGCAGAGATTTGAAAGAAGCACAACGCTGG
TGTGAACTTTATAAGGACAGCGGCGAAGACCGTTTCCTGAACGAGGCCTGGGATCTGTAC
TGTCACGTGGTCCGTCGTATTGGGGGTCAGTTCAGAGCGCACACGTCCTTGGAACTGCAG
TATGTGAGTCGCAGACTGCACGCTTGTAGGGACCTCGAACTGGCCGTGCCTGGGAGTTAC
GTCCCCGGACACCCCGTCATAAGGATAGACAGAATAAATACACACCTGCAGGTGATCAAG
TCAAAACAGCGTCCACGGCGACTCACAATACAGGGTTCAGACGGGAAGCAGTACATGTTC
CTCCTCAAGGGACACGAGGACTTACGTCAAGACGAACGAGTGATGCAGCTGTTCGGTCTC
GTCAATACTTTGCTTCAATCCGACACTAACACCTACAGGCATGACCTCGCCATACAGAGG
TACGCAGTTATACCGCTGTCGCCTAACTCGGGGTTGATCGGCTGGGTACCACAGTGCGAC
ACCCTCTACAACCTGATCAGCGATTATAGAGACAAAAAGACGAACAAAATGGCCCTGAAC
ACGGAACAACAGATCATGCTGCGTATGGCGTCCGATTACCAGAAGTTGATGCTCAAACAT
AAGGTGGAGGTGTTTGAATACACGCTCTCCCAGACTCCCGGAAACGACTTGGCTAGGCTG
CTCTGGCTAAAGAGTCCTTCCGCTGAAGCGTGGTTCGAGCGTCGCACGAACTACACCCGC
TCGCTGGCCGTCATGAGCATGGTGGGCTACATCCTGGGGCTCGGCGACAGACATCCCTCT
AACATCATGCTGCATAGAGTCACTGGCAAGGTCCTGCATATCGATTTCGGCGATTGCTTT
GAAGTAACTCAAACGAGAGAAAGATTCCCCGAAAAGATTCCCTTTAGATTAACAAGGATG
CTCATTAGTGCTATGGAGGTAACGGGCATCGAGGGCACGTACCGTTTCACTTGCGAGTCG
GTAATGCACGTGCTTCATAAGCACAGAGATAGCGTCATGGCCGTACTGGAGGCGTTTGTG
TACGACCCTCTACTCAACTGGCGTCTGATAGACAACGAGAAACACTCGATCACAGAATCC
ACCTTCTCATCAGACTTGGACTCATCGTATTCCCTGCCAAGCAGAAGTCGGAATCACTTA
CACTACGAGTCATTGGAGATGCCGCCGGAGTCAAATCTTAACAAACGAGCCCTAGCGATA
TTGAACAGGATAAGAGATAAATTGACGGGAAGAGATTTTCCTAACATAGAGGCCGTGGTG
AGTGTACCGAAACAGGTCGCCTTGTTGATAAAAATAGCAACGAACAATGAAAATCTATGT
CAGTGTTACATTGGCTGGTGTCCGTTCTGGTGA
Protein sequence:
MTSGQVFDLIIGLKSRHTETRHKAIRELLHFAKTDLREMSQDNLTQTLDDFNQQIHVLTS
SYDNNEKKAGILIIVCLISGDQEVNKTRLTRYAQYLRSIFPSNDANILELAAKTMGRIAT
CLGIKRGEYVEFEIKRAFEWLAEDRNESKRLSACLILRELAIAMPSNFFQHINDFFNYIM
IPLRDSKESIREAAGKALRAAFVVTAQRELPEQSNKAHWYIQCYEEAVTSFSDHLCRDRT
ISRDEHVHGALLILNELLRCSNSVWEKKYTTLMQKLDSQQDISDEMSTFNPKTQNSWAYQ
SCLEDKQQSFTIYESSICKKLVSEKYDQISVDVMAQQISRSHIVHQMLLLLIPRLAAFNR
DSFAKKHLKSTINHLITFLRGREREKAMAFTTLGLICIAVEDEIQQYLSRIIEIIKLTLP
LKDVPKKKNGADSPLFSCVTLLGIAMKETVSNEIKDLLDPMCVTGLSPQLTTCFKELSKN
VPSLRKEITDRLLNILSLILRKKPYIPSNAEPSSAAMLSTAMLVEPHDAVKLVLALHTLG
SFDFEWNNTLMSFIRRCTDYYLQCEQQDIRLEAVKTIARLLIKAIERSSVTNSRTLNSLI
DESIGKLLSIGRSDFDHEIRYRVFEIFTNPIFDKYLAVEEHLSCLFIAINDSNSDVSELA
LCVIGRLSNINPSYTTPALRQLFVEILMEVQHSESARTKEQSLRMINHIISHAPRLTRQF
VDTILKVLVPKLKEESNPNMITIILKAIGDLAEVNGGGNALNQWLPELMSIQLEILSDPN
QPEKRSVALWSFGQVISAIGYVVTPYTEYPSLMDMLLNFFKTEQNARDRRETIRVLGLLG
ALDPYKHRVNQGLIDFQTASTLIPITDTSNDNLDINVNEMLVSMSPLVLDEFYPAIAVTS
LMRILRDPQLSQHHTSVVHSITYIFQTLGFKCVPYISRVTPSLLYVIRSTDNHNFREFLF
NQLALLISVVKIHIRAYLEEIFDLIREYWTPDSQLQPTLISLVEQIIIAIGTEFKIYVRK
ILPNILRLLKYDSSKDRILTEKLLLTIQKFENNLDDVLMSIVPAIIALFDGRNIPTSISK
LAMETIEHLSMYLYFKPYSAMLVQALAKVLENSIPLRQTAMNTLCAIIIQLGRDYIDYIP
SIDRILVKHKIQCPNPKERRKFNYNSHYNQLFLMYKKCPSIVVSNDPQAIQKLTLNVDKL
RKCWQVHNILSKDDWLEWLRQLSIGLLTESNSPAIRACSSLAQNYSQLATDLFNAAFMSC
WTELGEAARSELGAALEKALVAPEAPELALAVLNLAEFLEHCEKGALPISIKLLGDTAIT
CRAYAKALYYKEEEYRRNPSTQVVEALIHINNKLQQRESANGLLEKVIMQKKSGDCSLNV
HVRWYEKLHNWDQALELYNKNLEEEPQDIDSKLGMMRCLEAMGEWRKLYSMTTEQWSAMS
DDIKKKSAKIAAAASWGLQEWDSMKKFVECIPDDTQDGAFYRAILSIHDGHWPESRHYVD
SARSLLDAELSAVVGESYQRAYGALVNAQLLTELEEVVTIKLVEERRGIIHRTWWTRLQG
GQRLVEDWRKMLQIRSLVMSPQEDFQTWLKFSSLCRKSGAINQAHKIVLTVLGCDPVTNP
DILLTSQDPRIVLAYSKNLWDAGNKRYAYDVLQKFLDNSEAENEEQGRLLARCHLKLGSW
CEALHEINELSIPEILRNYTTATLLAPDWYKACHAWACMNFETVLFYKQQDNISESSIAG
GSGEKKISRTEFINTFTIPAIEGFFKSISLSNGSSLQDTLRLLTLWFDHGHHPAVYDALF
EGIRQIDVKIWLQVIPQLIARIDSPRSLVAKLVHILLIDIGKLHPQALVYPLTVATKSSF
ITRKNAANYILKTMCTHSQRLVNEVAVISEELIKIAMLWHDQVYTALEDASRLYFSEKDY
RGMFRTLDKMHAMLDHPPETLKEVSFLQMYGRDLKEAQRWCELYKDSGEDRFLNEAWDLY
CHVVRRIGGQFRAHTSLELQYVSRRLHACRDLELAVPGSYVPGHPVIRIDRINTHLQVIK
SKQRPRRLTIQGSDGKQYMFLLKGHEDLRQDERVMQLFGLVNTLLQSDTNTYRHDLAIQR
YAVIPLSPNSGLIGWVPQCDTLYNLISDYRDKKTNKMALNTEQQIMLRMASDYQKLMLKH
KVEVFEYTLSQTPGNDLARLLWLKSPSAEAWFERRTNYTRSLAVMSMVGYILGLGDRHPS
NIMLHRVTGKVLHIDFGDCFEVTQTRERFPEKIPFRLTRMLISAMEVTGIEGTYRFTCES
VMHVLHKHRDSVMAVLEAFVYDPLLNWRLIDNEKHSITESTFSSDLDSSYSLPSRSRNHL
HYESLEMPPESNLNKRALAILNRIRDKLTGRDFPNIEAVVSVPKQVALLIKIATNNENLC
QCYIGWCPFW