| New model in OGS2.0 | DPOGS206730 |
|---|---|
| Genomic Position | scaffold290:+ 13865-19193 |
| See gene structure | |
| CDS Length | 3756 |
| Paired RNAseq reads | 389 |
| Single RNAseq reads | 948 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002824 (5e-98) |
| Best Drosophila hit | CG11318 (9e-39) |
| Best Human hit | probable G-protein coupled receptor 112 (2e-31) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC009282 [Tribolium castaneum] (3e-52) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC009527 [Tribolium castaneum] (1e-50) |
| GeneOntology terms | GO:0016021 integral to membrane GO:0007186 G-protein coupled receptor protein signaling pathway GO:0004930 G-protein coupled receptor activity GO:0007218 neuropeptide signaling pathway GO:0016020 membrane |
| InterPro families | IPR000203 GPS domain IPR017981 GPCR, family 2-like IPR000832 GPCR, family 2, secretin-like |
| Orthology group | MCL17238 |
Nucleotide sequence:
ATGACTTCTTTATTTACGAAGTTTTTAAAACTCACTTTCCTTTTTTCGCTATGGATTTGT
GCAAATTTCGTTTCTGGAAAAGAGGTTTATGGTCCGAATTGTCCGATTGGTTTTACGCTG
CTGTTCAGGAAGGAAGGACCTCTTTGCTACAGACGGAAAGGTCCAGAATTATTTAACGAA
AAATACAGAGAATGCGCTGGAAACTTGTACTCATCAGAGTTAATACATGAGACAAATTTT
ACGAAACCAGATCATGCAGTCTGGACGCAGTACAAGTCCATGTACCCGAGTGGTTTCTTA
TACGACACCAGCTTCTCCAAAAACTACGGAAAGGTGATTAGCTTTGATTTGCACGGTATA
TCCACAAGCATAGAGTTGTTAGATAAAGATGAAGAACTTTGTCTTATACTAGACCCTGTA
AGTAACTACACATTGGTGAATTGTAATAAAAGATATTATAGCTACTGTGTCATAAGACCG
TACAAATCTGAAGAGTCCCTTGTAGGCTGTCAGGAATTGAAAGATTCAGTGCATTTCTGG
AGTCCTGATTCAACTTGTTTGACCTCTTTGATCGGAGTTGGAGGCGGTGCTATAAGAGCT
ACTTGGAACCAAGCTAAAGAACTTTGTTGGAAAAATGGCGCTTCGCTTTTACATCGGGGT
TGGAGATATTCCAACCATCCGGTATTTCGCGGATCTTTTATGAATCATACATATCCGTTA
GGAATCATTATGAGCAATGACCTTTCGTTGTTGAGATATGACGCTATACAGGACCATTCG
GAGATACCCCAAAGTGATTGGAATTTCGACGATACTATTGAAAACTCTGATACTTTACTG
GGTGGACTGCAAAATGATTTCTGGTCACTTGTCAACGGATCGTATATCTTTTATGAAGTT
ATCTGTGAGTTGCATTTAGGTGTTAGGAATGTCAGTCTACACTTGGCTATAGATGAGGAT
AATAGAATGACTCTCACTATAAACGCTTCATTGCATGATGATGATATTTCGTGCTACACG
GATTCTGTTAAACCAATTATAACGAAAGTTAACAAACGGAGGATTGATGGTAAAAATATG
TTCATAATCTCACCCAAACAGGACGGCTATTACTGGTGTATCCACACCAACACGAGGAAC
TTTAAGCCAGCAGCGTCCAATAAAGTACTATTTTTACGTGCCAAAGAGGCACTCATTAAC
ACATACTCTATAAAATTTCAATTAGATCATTACGTACGATTAACTGGAAAGGACTGGGAG
GTTTATTTGCACGAAGTCTGTGAGAACAAAATTAAAGAATACATATTCTATCGAACAAAG
TACGAACAGATATTTGGGGAGTTGAATACAAATTTGACGGAGGACACTTTGAAAGTTTTT
AAACATTCAAATCCTAGTTTGAAAGGAAAAGATAAAGCGATCTTGAACATAAAATTGAAG
AGGCTGTATCCGGATGTTCGAAAAGTTTTAGTGCATGTAGAATTAAATCCAGATATGAAA
CCTGTACCTCCAGGGTATTGGGAAGGCTTGAAGATCTTCTATATGAAGTCTGTTTATTAT
TGCAGGGGGTTTGATACTGTTGCAGATGGGACTTTAGGAGAAACAAAATTGTCTGGATGC
CATAATCATACTTGTATAGGCAATTTCAACGAAGGTGTTCAATGGGTGACCACGGCGAGG
ACTGACTGTAGGAATGCTGGTCATAGGGCCCTCAGCATTGATGACGTCACCATGGTTATG
CCATCAGTAGTAATAACTTCAACCCAGTCATCAAGCTCTGGCAAGGAAGAAACAAGCGAG
AGTTCAGAGGAGAGTGATAACTATTTCACTGGGAAGCAAACATCTCGCTTTATCCCAGAC
CGAAATACTCCTGAAGTTACCACAGATGGTACCGTTACCGCAGAGACTACGCTCACAGTT
GACAATGTCAATAATTTCACCACTGAAAGTGTTCTAACAACCGATCTTACCTTCCCTGAT
ACCACCGTAACTACCACCACTTACCCTCCTACTACCACCAGCGTTACCACAACTGAGGAA
GCTGTTACTGTGCCGCCGGAGGTACTTCTGGATCGAGTGATAGAAGATCTGGATAATCTT
GTCAACAACACAGAACCTGTTATGGTAAAGGACATTGACAACGTATTTAATCAGATAGAC
AATATTCTCGAATCACGGGGAAGTCTCGAAATACCAAGCCAATTCCTACATTTACTAGAT
ACTTTAGGTACGACGGTGAATTTAAATGGATCTCTAACAGCTACTGCCGTCCGAAACAAC
ATAGCTTTGGTACTAGCGGACGCTGAACCCAGTCATCCCGTTAGAGGCATGAAGATAGCT
GCCAGAGACAGCGACATGTTCACTAATGACGCGTTCCAAATTTTTAATGGTGATCTCAAT
TCAACAGATCTTGAAACTGATCGCAACGAAGTAGTTGTTCACCTGCCTTCATCCTTGTCG
GAGACGTCACGTCGAGTGTCTTTCGTGGTGTTTCGGAACGACCGTGCCTTTACATCGAAC
TCTAACGTGTACTCCGTTAATAGTAGAGTTCTAAGCGTGAAAATAGAAAATATAACGACG
TTCGATAACGACGAGGTCATAGATATACACGTTAGTCCCATCACAATTGATGTAAACAGA
AATGAGAGTCGTGCGTGTGCGTATTGGCAGTTCACGGGAAATGGGACCGGATATTGGTCA
CAGGATGGTTGTAAATTAATTCCTGCCACACAACCGGGAATGTTAAGTACATGTCGATGT
ACACACCTGACACATTTCGCAGAAGTTTTGTTCCCTCGAACAGTTTTTACTCTAAGAGAT
GAAGATATGTTAGAGCTTTTAACAATCATAGGATGTTGCTTGTCCATTTTCGGTTTAGCT
TTTGTGGGGGTGACGGCAGCTATGTTCAGATCATGGCGTCGAGATTTCAGCAACAAAATA
TGGTTACAGTTATGCATTGCTATATTTATATCTGTTCTCAGTTTTTTGGTCGTAATTTTT
GCAAAATTCCAAGAATACAACGTACCGTGTATGTTAATGGGCGTTGTTCTTCATTATTCT
GTTTTATCTTCATTTTGCTGGATGTTAGTAGCAGCTATTCTCTCGTATCGGCGATTAGTC
GTTGTTTTTACAAGAGATGCTTCTCACAAATTACTTAGAGCATCTGCTTTTGCCTGGGGT
ACACCCTGTGCAATAATTGGTATACTTCTATCAGTATCCCCGCAATCATATTCCAATCGT
TTCGAAGAAATATCACCAAGTGGTTCATTCTGCTATCCTTCAGGTCTAGCTCTATGGATC
TCAGTCTATGCTCCTATTGCTATTATACTTGTGATAAACTGGATACTATTCGCTTTAATA
GTAAGATCCGTGTTTGCATCACGAGGTATCCAACGACACGGAGATTCAAACGAAGCGTTA
CGTTGCGCATCAGTGAGTTGTCTGTTGGTATTTCTGTTTGGTTTGCCTTGGATTTTCGGT
CTCTTTGCATTTAACGTCGTATTTGCCTATCTGTTTACGCTAACGGCAACATATCAGGGC
TTGATTTTGTTTCTATTTTTCGTTGTCGGTAACAAAAAGACGAGAGATTTGTGGTTAAAT
AAACTGAAGATCAAACAAACTCGTAAAGTGCCGGTTACATCATCGACTTACTCTAACAGA
AGTTCGGGTTGGAGGGGAGGAACTCATCCCATGACTATCGAATCAAAAACTTCCAAACCT
AAATCTCTCGAGCAAGATGACTCCAGATTTTCTTGA
Protein sequence:
MTSLFTKFLKLTFLFSLWICANFVSGKEVYGPNCPIGFTLLFRKEGPLCYRRKGPELFNE
KYRECAGNLYSSELIHETNFTKPDHAVWTQYKSMYPSGFLYDTSFSKNYGKVISFDLHGI
STSIELLDKDEELCLILDPVSNYTLVNCNKRYYSYCVIRPYKSEESLVGCQELKDSVHFW
SPDSTCLTSLIGVGGGAIRATWNQAKELCWKNGASLLHRGWRYSNHPVFRGSFMNHTYPL
GIIMSNDLSLLRYDAIQDHSEIPQSDWNFDDTIENSDTLLGGLQNDFWSLVNGSYIFYEV
ICELHLGVRNVSLHLAIDEDNRMTLTINASLHDDDISCYTDSVKPIITKVNKRRIDGKNM
FIISPKQDGYYWCIHTNTRNFKPAASNKVLFLRAKEALINTYSIKFQLDHYVRLTGKDWE
VYLHEVCENKIKEYIFYRTKYEQIFGELNTNLTEDTLKVFKHSNPSLKGKDKAILNIKLK
RLYPDVRKVLVHVELNPDMKPVPPGYWEGLKIFYMKSVYYCRGFDTVADGTLGETKLSGC
HNHTCIGNFNEGVQWVTTARTDCRNAGHRALSIDDVTMVMPSVVITSTQSSSSGKEETSE
SSEESDNYFTGKQTSRFIPDRNTPEVTTDGTVTAETTLTVDNVNNFTTESVLTTDLTFPD
TTVTTTTYPPTTTSVTTTEEAVTVPPEVLLDRVIEDLDNLVNNTEPVMVKDIDNVFNQID
NILESRGSLEIPSQFLHLLDTLGTTVNLNGSLTATAVRNNIALVLADAEPSHPVRGMKIA
ARDSDMFTNDAFQIFNGDLNSTDLETDRNEVVVHLPSSLSETSRRVSFVVFRNDRAFTSN
SNVYSVNSRVLSVKIENITTFDNDEVIDIHVSPITIDVNRNESRACAYWQFTGNGTGYWS
QDGCKLIPATQPGMLSTCRCTHLTHFAEVLFPRTVFTLRDEDMLELLTIIGCCLSIFGLA
FVGVTAAMFRSWRRDFSNKIWLQLCIAIFISVLSFLVVIFAKFQEYNVPCMLMGVVLHYS
VLSSFCWMLVAAILSYRRLVVVFTRDASHKLLRASAFAWGTPCAIIGILLSVSPQSYSNR
FEEISPSGSFCYPSGLALWISVYAPIAIILVINWILFALIVRSVFASRGIQRHGDSNEAL
RCASVSCLLVFLFGLPWIFGLFAFNVVFAYLFTLTATYQGLILFLFFVVGNKKTRDLWLN
KLKIKQTRKVPVTSSTYSNRSSGWRGGTHPMTIESKTSKPKSLEQDDSRFS