| New model in OGS2.0 | DPOGS200453 |
|---|---|
| Genomic Position | scaffold5508:- 8532-24988 |
| See gene structure | |
| CDS Length | 3333 |
| Paired RNAseq reads | 522 |
| Single RNAseq reads | 1412 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011405 (4e-150) |
| Best Drosophila hit | neurofibromin 1, isoform D (0.0) |
| Best Human hit | neurofibromin isoform 1 (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC004757 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC004757 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0045762 positive regulation of adenylate cyclase activity GO:0019933 cAMP-mediated signaling GO:0005099 Ras GTPase activator activity GO:0040014 regulation of multicellular organism growth GO:0008355 olfactory learning GO:0007614 short-term memory GO:0042066 perineurial glial growth GO:0007265 Ras protein signal transduction GO:0045475 locomotor rhythm GO:0005622 intracellular GO:0040018 positive regulation of multicellular organism growth GO:0046578 regulation of Ras protein signal transduction GO:0006979 response to oxidative stress GO:0009408 response to heat GO:0008340 determination of adult lifespan |
| InterPro families | IPR008936 Rho GTPase activation protein IPR001936 Ras GTPase-activating protein |
| Orthology group | MCL11055 |
Nucleotide sequence:
ATGTTGCCCGAGCGCAACACCGTGCTCAGTAAGAGATTCGTTCAGTTCCCACAGACCAGC
GTGGGCGCTGTCGGCACTGTGTTGTTCCTGAGATACATCAACCCAGCTATAGTGTCTCCC
CAGGAGATGGGCATAGTGTCGCGGCCTATCCCGGCGCACATCAAGCGAGGTCTGATGCTG
ATGTCAAAGATCCTCCAGAACATCGCCAACCACGTGGAGTTCTCCAAGGAGCAGCACATG
CTGCCGTTCAACGACTTCCTCAGGGAGCATTTCGAAGCCGGCAGGAAATTCTTCATAGAG
ATAGCGTCTGACTGCGAGACCGTTGACCAAACCGCCCACAACCTGTCCTTCATCAGCGAC
GCCAATGTGCTGGCGTTACATCGTCTGCTGTGGAACCACCAGGAAAAGATCGGGGATTAC
TTGTCCTGTTCCCGGGACCATAAGGCTGTGGGCAGAAGACCCTTCGACAAGATGGCGACA
CTGCTTGCTTACTTGGGACCTCCCGAACATAAGCCTGTGGAGTCCACATCCGGTCTGTTG
TTTTCGTCGTACGCTCGCTGGTCGTCCATAGACATGTCGTCGACTAACTTCGAGGAGTTC
ATCGTGAAGCACAACATGCACCAGAAGGAGGAGTTCAAGAGCATCAAGAGTCTGAACATC
TTCTACCAGGCGGGGACCAGCAAGCTGGGCAACCCAGTGTTCTACTTCATATCCAGGAGA
TACAAGATAAGTGAGGTGAATGCGGATCTTCTGATATACCACGTCATCCTGACGTTAAAA
CCTTTCTGCCAGCAACCCTTCGAGCTGATTGTGGACTTCACCCACACTAACTCAGATAAC
CGCTTCAGGACGGATTTCCTTCAGAAGTGGTTCACGGTGCTCCCCGAGGTGGCCTACAAC
AGCGTGCACGCCTGCTACATATACAACTGTAACGGCTGGGTCCGGGAGTACACCAAGTTC
CACGAGATCATACTGGCGCCGCTCAGGGTTGGTCCGACCGCCCTGCAGATCACCTCCACC
GAGAAGACGAAGGTCCTGGGTCTGCCTGTCATGTTGAATGATGTGTACTATGCATCGGAG
GTGGATGAGGTTTGTCTGGTGGACGACAACCAGTTCTCGCTGTCCATCATCAACGAGGCG
ACACCTCTCAGCTTCATACACAACGACTGTGACAACATTGTACAGGCCATTATACACATA
AGGAACAGATGGGAGCTGAGCCAACCGGACTCAGTGACAGTTCATCAGAAGATTCGTCCC
AAGGATGTGCCCGGGACTCTCCTCAACATGGCGCTCCTCAACCTGGGCTCGTGTGACCCC
ACGTTGCGGACGGCGGCTTACAACCAGCTCTGCGCCCTCACAGCCACCTTCCACCTGAAG
ATTGAGGGACAGCTTTTGGAGACCTCTGGTCTCTGCATACCCTCGAATAACACGATTTTC
ATAAAGTCTGTCAGCGAGAAGCTCGCCCACAACGAACCGCATTTGACCCTGGAGTTTCTT
GAAGAATGTATACAGGGCTTCGGTAAGTCCACCATAGAACTGAAGCATTTGTGTCTAGAG
TACATGACGCCTTGGTTGGCCAACTTAGTGAGATTCTGTAAGCCGTCGGACGAATCTCGC
CGTCAGAAGCAAGTGGCTGGTATACTGGAGAAGCTGGTGACTCTCACCATAGAGGAAACT
CAGATGTATCCATCGGTCCAGGCCAAGATATGGGGATCCATAGGGCAGGTCCCGGAACTG
ATAGACATGGTGCTAGATAGCTTCTTACAGAGAAGTGTCAAATCTGGTCTCGGGTCGCCC
ATGATCGAGATAATGGCGGACACAGCTGTGGCTCTCGCCTCCGCCAACGTGCAGCTGGTG
TCGAGGAAGGTCATCGGCCGAATGTGTCGGGCCCTTTCGAAACTCCCAAATAACGCGCTG
GGCCCAGTAACGCCGGCTACCGTGGTCGACAAGACCTGTCACTCGCCCACGGCTATGCTG
GAGCAGCACATGATGTGGGCGGACATAGCCATCCTCGCCAGATATCTGCTGATGCTGTCG
TTCAACAACTGCCTGGACGTGATCCGTCACCTGCCGTACTTGTTCCACACGGTGTCGTTC
CTCGTGTACTCCGGCTCGGTGTCGATGAGGGCGGCCACTCACGGCCTCGTCATCAATATC
ATACACTCGCTCTGCACCTGCAACTCGCCCAGCTTCTCCGAGGACACCCAGCGTGTGTTG
ATGCTGTCGCTGGATGAGTTCGCTCTGCCTAAATTCTACCAGATGTTCGGCATATCCAAG
GTCAAGTCTGCAGCGGTCACGGCCTTCAGGAGTCCGCACAGGCATATAGGAGACTGGTAC
TCGGAGCATTCGTACTCGGAGTGCACGGTAGCCTCGGGCTGCGCCGCGGGCCCGCAGGCC
GAGCGGGAGCGTCTGCCCCTGCAGTCGTTGGAAACCATCGCCGACGCCCTGCTCGAGATT
ATGGAGGCCTGCATGAGGGACATACCCGACTGCGACTGGCTCGATACATGGACGTCTTTG
GCTAAAAGCTTTGCGTTTTGCTTCAACCCTGCGCTGCAACCTCGAGCCCTCATAGTATTC
GGTTGTATTAGTAAAAACGTGACAGACGATGACATGAAGCAGTTACTGAGGATATTGGTG
AAGGCTTTGGAGGTGTTCAACGACCTGGCGCTGCTGGAGGCTCTCATCATGTGCCTCACC
AGGCTACAGCCGTTACTGCATCCGGAGTCTCCAATCCACGCAGCCTTATTCTGGGTGTCA
CTGTCAGTACTTCAGCTAGACGAGACCGCGCTCTACGCAGCTGGGTTGGCGCTCATGGAG
CAGAACCTCCACACACTCGACTCACAAGGAGCCTTTGATAATAAGACTTTGGAGCAAGTT
ATGATGGAGACGAGAGAGCCTCTGGAGTGGCATTTCAAACAATTGGACCATGCTGTGGGG
CTCAGTTTCCGTTCTAACTTCCACTTCGCCCTGGTCGGACACCTGTTGAAGGGCTTCCGT
CATCCAGCAGCTGGAACTGTCTCCAGGACTTGCAGAGTGCTGGCAGCTCTGCTAGCGCTC
GCCGCTAGACCTAACAGGGACAAGTTTCAGCTGACACATCGCACTGTCGCATACCTTACG
GCGCTGGTGTGCGTGTCTGAGGAGGTTCGTTCTCGTTGTCACGTCAAGCACTCTCTCCCC
AAGTGGCTTCCTGACAACTGTGACCATTACTGTCCATCATCGGATCATCCTCAGTCCTCG
ATGCTGATACAGCCAACAACTCACTCCTGTAGCGGTAGGCGGAAAACAGAAGAACACAGC
ACTGGTGAGCTAGGGATAGATATGTGGAGATAG
Protein sequence:
MLPERNTVLSKRFVQFPQTSVGAVGTVLFLRYINPAIVSPQEMGIVSRPIPAHIKRGLML
MSKILQNIANHVEFSKEQHMLPFNDFLREHFEAGRKFFIEIASDCETVDQTAHNLSFISD
ANVLALHRLLWNHQEKIGDYLSCSRDHKAVGRRPFDKMATLLAYLGPPEHKPVESTSGLL
FSSYARWSSIDMSSTNFEEFIVKHNMHQKEEFKSIKSLNIFYQAGTSKLGNPVFYFISRR
YKISEVNADLLIYHVILTLKPFCQQPFELIVDFTHTNSDNRFRTDFLQKWFTVLPEVAYN
SVHACYIYNCNGWVREYTKFHEIILAPLRVGPTALQITSTEKTKVLGLPVMLNDVYYASE
VDEVCLVDDNQFSLSIINEATPLSFIHNDCDNIVQAIIHIRNRWELSQPDSVTVHQKIRP
KDVPGTLLNMALLNLGSCDPTLRTAAYNQLCALTATFHLKIEGQLLETSGLCIPSNNTIF
IKSVSEKLAHNEPHLTLEFLEECIQGFGKSTIELKHLCLEYMTPWLANLVRFCKPSDESR
RQKQVAGILEKLVTLTIEETQMYPSVQAKIWGSIGQVPELIDMVLDSFLQRSVKSGLGSP
MIEIMADTAVALASANVQLVSRKVIGRMCRALSKLPNNALGPVTPATVVDKTCHSPTAML
EQHMMWADIAILARYLLMLSFNNCLDVIRHLPYLFHTVSFLVYSGSVSMRAATHGLVINI
IHSLCTCNSPSFSEDTQRVLMLSLDEFALPKFYQMFGISKVKSAAVTAFRSPHRHIGDWY
SEHSYSECTVASGCAAGPQAERERLPLQSLETIADALLEIMEACMRDIPDCDWLDTWTSL
AKSFAFCFNPALQPRALIVFGCISKNVTDDDMKQLLRILVKALEVFNDLALLEALIMCLT
RLQPLLHPESPIHAALFWVSLSVLQLDETALYAAGLALMEQNLHTLDSQGAFDNKTLEQV
MMETREPLEWHFKQLDHAVGLSFRSNFHFALVGHLLKGFRHPAAGTVSRTCRVLAALLAL
AARPNRDKFQLTHRTVAYLTALVCVSEEVRSRCHVKHSLPKWLPDNCDHYCPSSDHPQSS
MLIQPTTHSCSGRRKTEEHSTGELGIDMWR