| New model in OGS2.0 | DPOGS209385 |
|---|---|
| Genomic Position | scaffold151:- 36216-45384 |
| See gene structure | |
| CDS Length | 4104 |
| Paired RNAseq reads | 4515 |
| Single RNAseq reads | 10949 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005527 (8e-75) |
| Best Drosophila hit | raptor (0.0) |
| Best Human hit | regulatory-associated protein of mTOR isoform 1 (0.0) |
| Best NR hit (blastp) | regulatory-associated protein of TOR [Bombyx mori] (0.0) |
| Best NR hit (blastx) | regulatory-associated protein of TOR [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0001938 positive regulation of endothelial cell proliferation GO:0003674 molecular_function GO:0005488 binding GO:0005515 protein binding GO:0005575 cellular_component GO:0005829 cytosol GO:0008150 biological_process GO:0008361 regulation of cell size GO:0019901 protein kinase binding GO:0031669 cellular response to nutrient levels GO:0031931 TORC1 complex GO:0032008 positive regulation of TOR signaling cascade GO:0032403 protein complex binding GO:0042325 regulation of phosphorylation GO:0030425 dendrite GO:0043025 neuronal cell body |
| InterPro families | IPR016024 Armadillo-type fold IPR011046 WD40 repeat-like-containing domain IPR019782 WD40 repeat 2 IPR017986 WD40-repeat-containing domain IPR011989 Armadillo-like helical IPR015943 WD40/YVTN repeat-like-containing domain IPR001680 WD40 repeat IPR019781 WD40 repeat, subgroup IPR004083 Regulatory associated protein of TOR |
| Orthology group | MCL14082 |
Nucleotide sequence:
ATGACAAATATGCCTCCTTATCTCTCGATAAATGATGAGGAGAATAACAGTTGTGATCCT
GACAGTGATTCTTCGGATTTTGAAGATGATTTGCCTTTAAGTTTCAATAAACCGAGACAT
CTAGAGCCTATAAAGGGCGCAGAGAAAGAAGAACATTCGTGGAGAGTGAAAGAAAAGTAC
AAGACACACTGTGTTGCACTGGTTCTGTGCCTGAATGTGGGTGTTGATCCTCCAGATGTG
GTCAAGACACAGCCTTGTGCCAGACTGGAGTGTTGGATTGATCCGAACTCTCTATCACCG
ACCAAGGCTCTGGAGAGTATTGGACATGCCCTGCAGTCTCAGTATGAACGCTGGCAGCCA
CGGGCGCGCTACAAACAATCACTGGATCCCACTAGCGATGAGATAAAGAAGCTGTGTTGT
TCACTGCGCCGCAATGCCAAAGAGGAGCGAGTGCTGTTCCATTATAATGGGCACGGGGTG
CCGCGGCCCACCGCCCAGGGGGAGATATGGGTCTTCAACAGGGCCTACACCCAGTACATC
CCGCTATCGATGTATGACCTTCAGACCTGGATGGGCGCCCCCTCATTGTACGTGTACGAC
TGCTCCAACGCTGGCGTCATCGTGGAGAACTTCAAGCAGTTCGCTGAACAACATGAAAGA
GATTATGAGATGCAGGCCGGTTCCAAGCCGGACTCGGTCCCTCCGGTGTCGTACAAGAAC
TGTATCCAGCTGGGCGCCTGTGCCGCTGGCCAGTCCCTGCCGATGTCTCCGGAGCTGCCG
GCCGACCTGTTCACGGCCTGCCTCACCACGCCCGTCAAGATGGCCATCAAGTGGTTCGTG
CTGAGGACCCGCCTGAGGGTAGCCCGCGCTGACCTCGTAGACCTCATCGACAAGATCCCC
GGCCAGGTGACGGATCGCCGAACCATGCTGGGTGAACTCAACTGGATCTTCACGGCCATC
ACGGACACCATCGCCTGGAGCTCGCTGCCGCCCGACCTGTTCCAGCAGCTGTTCCGAGCC
GACCTCCTCACCGCCAGTCTGTGTAGGAACTTCCTGCTGGCGGATAGGATCATGAGGTCA
TACAACTGCACCCCTGTGTCATCTCCCGCGCTGCCCTCTCTCGCTCGTCATCCTCTGTGG
GCGGCCTGGGAGCACACTCTAGACCTGGCGCTGGCCCAGCTGCCAGCGCTACTGGAGCCC
TCGGCGGCTGGATACAGACACTCGCCCTTCTTCAGGGACCAACTCACCGCCTTCCAGCTG
TGGCTAGATCTAGGCAACTGGTCGGTGAGTCGGCCGCCGCCCGACCAGCTGCCGATGGTG
CTGCAGGTGTTGTTGAGCACGTTGCACCGCGTGCGCGCTCTCCACACTCTATGCCGCTTC
CTGGCCCTGGGCGCTTGGGCGGTGCGCGCGGTGCTGGCCGTGGGCATCTTCCCCTACATG
CTGAAGCTGCTACAGGCGTCCGCCCCCGACCTGCGCGCCTCCATGGTCTACATCTGGGCG
AAGATCGTCGCCGTCGATCCCAGCTGCCAGGTAGATTTGGTGAACGCCAAGGGTCACAAG
TACTTCCTGTCCATCCTGCAGGATCCGACTGTCGATACGGAACACCGGACCCTGGCCGCG
TTCGTCCTGGCCGGCATAGTGGACAACTACCCGGCGGGACAGGAGGCCGCGCTGCAGGGT
TCCATGATCTCGGCGTGTCTGGAGCAGCTGGGTGACTGCGAGGGAGCGGGCTCGCCTCTC
CTCCAGCAGTGGGCCTGCATCGGCCTGGGTCGCCTGTGGTCCGGCTGGGAGGCGGCGCGT
TGGGCAGGCGTCAGGGATCTAGCACACGAGAAGCTCGCAGCCCTCCTGCCGCACCCTGCG
CCCGAGGTGCGCGCCGCCTGCGCCTTCGCCCTCGCCGCTTTCGTGGCCGCCGGCGCCGCC
GCCCCCGCCCGCACCGACCACGCGAACGCCCTCGACCAGCAGGTGGCCGTGCTGCTGGCG
GCTCGGCTCCAGCGGGACGCCTCGCCTCTAGTGCGGGCCGAGATACTGGCAGCGCTGCAG
TGGATGGTGCTGATATTCGAGCAACACTTCATCGCCGTCTACATCCAGGAGCGGGTGCGG
AGGAGCGACGGCGGCGGAAGATCGGGACGGGGTCGCGTGGACCCGGGGTTGGACGCCCTG
GACCCTCGCTCGCCGCACGCCGCCATACAGCGGGTCGCACTACCGGCCATCGCAGGTTTC
GGGTCGGTGTACATGAAGGTGTGGAGCACGCTGTGCGCCATGTCCCGCGAGCCGCACCCG
CAGCTGGCGCAGATGGCCTCCGACATCATCTCGTACGTGTCCAGTCAGGTGGACAGCGTG
GCCCGCGAGCCCGAGCGCCCCGCCGGCGGCTCCAGCTCGCTGCCACCCTCGCCCAACACC
AGGCCTACGCTGCCTCACCTCGGTCACCGCCGCGGCAAGTCGGGTCTTCCGCATACAATA
TCCGAGGACTCGGTCGCCCACCGGGACCGCGAACGTGACTCCACATCATCTAATTCTAGT
CAATCAAAAAAGGTGATAGTCAGCACGCAGTTCGTCGAGTGGGCGACGACACAGTTCTCC
CGGGGCGAGGCGGCCGGGGCGGAAGGACCCTTCGGCAGTGCGGCCGAGTGGGCGGGGGAG
GCCGGGGACGACACCGCCGACTGCGAGAGTCGAGCGCATCACGAGAGAGTGTGGAGGCGG
GCCAGGAACAGGAGCATACGGCGCGAGGCGAGGAGGCTGCGAGAGGCGCGCGGCCCGCGG
CTAGAGACGCAAGCCTTCCACTCTCGCTGTCCGCTGCCGCCCGCCGTCGTGCTGTTCCAC
CCCTACGAGCAGCACGCCGCCATCGCTTCCAAGGACAACTTCGGAATATGGGACTGGGGC
ACAGCCGCAAAACTGTGTGTGGGAGCGTGGCGGCGCGCGTGGGGACGCATCACGGCCCTG
GCGTACATCAACGCGCACCATCGAGCACTGCTGGCCGTCGCGTCGCACCAAGGACACCTC
GCCATATACAGGCCGTCCGGCAGCAGCATGGAGCCCGCCCTGGTGTCGGCGTGGCGCGCG
CTCGACGTGCGACCGTCCGCCGACTACCGCCCGCCTCCCGCCCAGCCGCTCTACAGTCTG
GCGCAGCTGGTGTCGGAGCAGTTCGCGCCCGCTGACGACGGACGACGGGCGAGGGCGGAA
CACAACCTGTCGGGCGGGTCTCTGGGCGGCGAGTACAGCGCGCCCCCGGCCGGCACGCTG
CTGCGGTGGAGCGCGCGGAACAGGTCGCTAGCGCTGGCTGGACAGGCCGCCACCGTCAGG
CTCTGGGACGCACACGCCGAGATGCTGCACGCCGACATACCCACAGAGAGCGAGGCGGCA
GCGACCAGTCTGTGGCGCGGCGGGCGGGCGGCGCGCGTCGTGTGCGGCTTCGGCGACGGC
TCGGTGAGGGCGTGGGACGAGCGCAGCCCGCGGCCGCTGTACTCCCTGCACGCCCACGGC
GCGGCCGTGCTGTGCGCCGCGCCCCGGGACGACCTGCACGCGCTCATCACCGGCGCCGCG
GACGGGGACGTGCGCCTCTACGACACCCGTAAGCTGAGCGACGCCGACTGCCTGCGAGCT
CCCGGGCCGCTGGCGGCGCTGGACGTGCACCCGCGGGCTAACGTCATGGCCTGCGGGTCG
GTGAACCAGTGCATCAGTCTGTACGACCTGAAGGGTTCGCCGCTCAACACCATCAAGTTC
CACGAGGGGTTCATGGGGGCGCGCATCGGCCCGGTGTGCGATGGGCGTGGGGTCGAAGGA
CTCGACGGTGTCGGTGTACGTGTCGGAGGCGCGCCGGTGACCCTCGCTGTACGGCCTCGC
GCTGCCGCTGCCCTTCAGCCAGTGACCTCGGGCGGCGGGGCTCGTGCGATTCAGCGCGAC
TCTCCCCAAGGAACGGGTGCAGGGACACGACAACCACATGGTCAAATATTCGACGTGTCC
GCAGTCTCGCTCGGTCTCTCGATGATAGTTTGTCGTCTCGGACACTTCACGTTTTCCTTG
CTCCAGCCTCCAGGTTCCAGCTCGTTCCGTCTCTCCCGCGTCATCGTTTCCTCTGGGTCG
TATCTTCGCTGCCCACCGACGTAG
Protein sequence:
MTNMPPYLSINDEENNSCDPDSDSSDFEDDLPLSFNKPRHLEPIKGAEKEEHSWRVKEKY
KTHCVALVLCLNVGVDPPDVVKTQPCARLECWIDPNSLSPTKALESIGHALQSQYERWQP
RARYKQSLDPTSDEIKKLCCSLRRNAKEERVLFHYNGHGVPRPTAQGEIWVFNRAYTQYI
PLSMYDLQTWMGAPSLYVYDCSNAGVIVENFKQFAEQHERDYEMQAGSKPDSVPPVSYKN
CIQLGACAAGQSLPMSPELPADLFTACLTTPVKMAIKWFVLRTRLRVARADLVDLIDKIP
GQVTDRRTMLGELNWIFTAITDTIAWSSLPPDLFQQLFRADLLTASLCRNFLLADRIMRS
YNCTPVSSPALPSLARHPLWAAWEHTLDLALAQLPALLEPSAAGYRHSPFFRDQLTAFQL
WLDLGNWSVSRPPPDQLPMVLQVLLSTLHRVRALHTLCRFLALGAWAVRAVLAVGIFPYM
LKLLQASAPDLRASMVYIWAKIVAVDPSCQVDLVNAKGHKYFLSILQDPTVDTEHRTLAA
FVLAGIVDNYPAGQEAALQGSMISACLEQLGDCEGAGSPLLQQWACIGLGRLWSGWEAAR
WAGVRDLAHEKLAALLPHPAPEVRAACAFALAAFVAAGAAAPARTDHANALDQQVAVLLA
ARLQRDASPLVRAEILAALQWMVLIFEQHFIAVYIQERVRRSDGGGRSGRGRVDPGLDAL
DPRSPHAAIQRVALPAIAGFGSVYMKVWSTLCAMSREPHPQLAQMASDIISYVSSQVDSV
AREPERPAGGSSSLPPSPNTRPTLPHLGHRRGKSGLPHTISEDSVAHRDRERDSTSSNSS
QSKKVIVSTQFVEWATTQFSRGEAAGAEGPFGSAAEWAGEAGDDTADCESRAHHERVWRR
ARNRSIRREARRLREARGPRLETQAFHSRCPLPPAVVLFHPYEQHAAIASKDNFGIWDWG
TAAKLCVGAWRRAWGRITALAYINAHHRALLAVASHQGHLAIYRPSGSSMEPALVSAWRA
LDVRPSADYRPPPAQPLYSLAQLVSEQFAPADDGRRARAEHNLSGGSLGGEYSAPPAGTL
LRWSARNRSLALAGQAATVRLWDAHAEMLHADIPTESEAAATSLWRGGRAARVVCGFGDG
SVRAWDERSPRPLYSLHAHGAAVLCAAPRDDLHALITGAADGDVRLYDTRKLSDADCLRA
PGPLAALDVHPRANVMACGSVNQCISLYDLKGSPLNTIKFHEGFMGARIGPVCDGRGVEG
LDGVGVRVGGAPVTLAVRPRAAAALQPVTSGGGARAIQRDSPQGTGAGTRQPHGQIFDVS
AVSLGLSMIVCRLGHFTFSLLQPPGSSSFRLSRVIVSSGSYLRCPPT