| New model in OGS2.0 | DPOGS212588 |
|---|---|
| Genomic Position | scaffold1031:- 17755-44812 |
| See gene structure | |
| CDS Length | 2991 |
| Paired RNAseq reads | 1137 |
| Single RNAseq reads | 2877 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005190 (0.0) |
| Best Drosophila hit | phospholipase C at 21C, isoform C (5e-147) |
| Best Human hit | 1-phosphatidylinositol-4,5-bisphosphate phosphodiesterase beta-2 (9e-155) |
| Best NR hit (blastp) | phospholipase C beta 1 [Bombyx mori] (0.0) |
| Best NR hit (blastx) | phospholipase C beta 1 [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0007202 activation of phospholipase C activity GO:0005829 cytosol GO:0005515 protein binding GO:0005543 phospholipid binding GO:0005886 plasma membrane GO:0004435 phosphoinositide phospholipase C activity GO:0004629 phospholipase C activity GO:0016787 hydrolase activity GO:0001580 detection of chemical stimulus involved in sensory perception of bitter taste GO:0016042 lipid catabolic process GO:0005509 calcium ion binding GO:0006644 phospholipid metabolic process GO:0004871 signal transducer activity GO:0005794 Golgi apparatus |
| InterPro families | IPR017946 PLC-like phosphodiesterase, TIM beta/alpha-barrel domain IPR008973 C2 calcium/lipid-binding domain, CaLB IPR000909 Phospholipase C, phosphatidylinositol-specific , X domain IPR001711 Phospholipase C, phosphatidylinositol-specific, Y domain IPR015359 Phospholipase C, phosphoinositol-specific, EF-hand-like IPR011992 EF-hand-like domain IPR018029 C2 membrane targeting protein IPR000008 C2 calcium-dependent membrane targeting IPR001192 Phosphoinositide phospholipase C |
| Orthology group | MCL10137 |
Nucleotide sequence:
ATGTGGACCGATGAGTTGTTCGCGTTAGCGTACAATCTGAACCAGTTCAACAATCCCACC
ATCAAGTTCCTGGAGAAACTGCACACCAAGATAGTCTTGAAGGCTGATAAGTCTGGCAAG
ATACTTGTCAAAAACATTGTCCGTCTGTTCGCACAAAACAAAGAAGACAAGAAGAGAGTG
GAGAAGGCGCTCAGCGAATCCGGTCTGCCGACTGGTAAGAACGACACCATCAGTCAAACA
AAGTTCCAGTTCGAGGATTTCTTCTCTTTCTACAAGAGTCTCACCCAACGAACCGAGGTC
CAGAAGATTTTTAATAATCTCACCGGTGGTAAAGCCCACTTGTCGGCCAACCAGTTGGTA
GATTTCTTGAACGAGGTCCAAAGGGATCCCAGGCTGAACGAGATCCTTCATCCATACGCC
GACATCCAAAGAGCCAAAGACCTTATAAAGGTCCACGAGTATAATAAATATCATCAGCAG
AGGTCGCAATTGACTTTTGATGGGTTTTTAAGGTTCCTCATGTCGGAGGACAATCCTATA
GTGGCTCCGAATAAATTGGACCTCTGCGATGACATGGACCAACCCTTGGCGCACTACTTC
ATCAACAGTTCCCATAACACGTACCTCACTGGACACCAGATAACTGGCAAATCCAGCGTT
GAGATCTATCGCCAGGGACTCTTGGCTGGGTGCAGGTGTGTAGAGCTGGACTTCTGGAAC
GGTAGGACGGAGGAGCCGGTGATCGTTCACGGTTATACATTCGTACCTGACATAAGTGCG
AAGGAGGTGCTGGAGGCTATAGCGGAGAGCGCTTTCAAGACCTCCGACTATCCTGTGATA
CTCAGCTTCGAGAACCACTGTAACCCTCGCCAGCAGGCCAAGATAGCCAACTACTGCAGA
GACATCTTCGGTGACATGCTGCTCGATAAACCCTTAGATTCACACCAATTGGAACCAGGA
GGAGAGCTCCCGCCACCGAATCTGTTGAAGAATAAGATTATAATAAAGAACAAGAAGAAA
CATCATCATCATCACAAGAAGGAAGATGCGAGGGGTTCAGAGAAAGACGCGCTGCCTCAG
GGCAACGGAGAGGTGGCTCATGTGTCGGTGTGTAAGGAATCTTCGTCCTCGGAGTCATCA
GAGTCTTCCTCGGAGGAGGAGGGCGGGGAGGAGGCTTGCGAGCCGGGGGGTGAAGGGGAG
GGGGCTGGAGGGGAACCGGCCAGGGAGACCCACGCGGCGGCTGAGATATCAGCGCTCGTG
AACTACGTACAGCCAGTGCATTTCTCATCATTTGAAAATGCTGAGAAAAAGAATCGTTTC
TACGAGATGTCGTCGTTCGACGAGAAACAAGCCACGACCCTGCTGAAGGAGAAGCCGATA
GAGTTCGTCAACTACAACAAGCACCAGCTGTCCCGCGTGTACCCGGCCGGCACGCGCTTC
GACTCGTCTAACTTTATGCCGCAGGTGTTCTGGAACGCTGGCTGCCAGCTGGTCGCTCTC
AACTATCAGACCTTAGACCTGGCGATGCAGCTGAATCTTGGCACCTTCGAGTACAATAGA
CGCTGTGGATATCTCCTGAAGCCTGAGTTTATGAGGAGGAAGGATCGGCGCTTGGACCCG
TTCGCTGAGAGTACAGTGGATGGCATCATAGCGGGTTCCCTGTCCGTGGCCGTGATCTCC
GGCCAGCTGCTGACTGAACGTCGCACGGGGACCTACGTGGAGGTGGACATGTTCGGACTG
CCGGCGGACACCGTGAGGAAGAAGTACAGGACGAGGACGGTCCCCAACAACGGCATCAAT
CCCGTCTATGATGACGAGCCGTTCGTCTTCAAGAAGGTGGTACTGCCTGAGCTGGCGATG
GTACGTATCGCGGCTCACGAGGAAGGCGGTAGGCTCGTGGGACATCGCGTCCTGCCTGTG
TTGGGGCTTTGCCCTGGATATAGACACGTAGGGCTTCGGACCGAGCTAGGGCTGCCGCTA
CCCGCCAGTCTGTTGTTGCATGTGCAAGTAAAGGATTATGTTCCCGGTCGTCACAGCGAG
CTCGCGAAGGCTTTAGAGAATCCAATCAAGTATCAGACGGATATGGAACGACGAGCTCAC
CAGCTGGCCGTACTCACAGATGACACGGAAGAACCGCGAGCGGAGGCGCCGCCCCCGCGA
CCGACACGCGTGAGTATAACAACACACACAGCCATGAAGAGCGTTCTCGGCATCGGAAAC
AAAAATGTCGATGGTAGTCCCATCAAAACTGCTGTCGAGAAAAAGGACAATGAAATAGCG
ACTGTAGCGACGGAACCCGAAAAAATACTACCAGAGGAGAGCGAAAGTAAATTCAACGGC
GGCAACGAAACACAGGAAGATATAAACAAGACGTTGGAGGAGTTGCTGAACAGCAAGATA
GTTAAGGAGAAGAAGGCGGACTTAGCGAGGAAACTGGACGCGCTGAGGAGGAAGAACACC
AAGCCTCGACCAGTCGCCGCCAAGTTCTTTGTGAAGAGACTATCCACGAGGAACATGGCG
GAGGAGACGGAGGATGGTGGCGGAGCTGAAGCGGAAAGAGAGCTGCGGCTGCGCTACCAC
CACGCCATATACGCTGCTCTGGACAAACAGCTGAGGCTGGATCACCACCACCAGATGAAA
CACCTCACCGAGTCGTTGGACCTCCAAAAGAAGGAGATATTGAATCGGTTGGCGAGCTCC
AGGAGGGAGGATGTGAAGACACTGGCGAAGAGTGCGCGGGACAAGGACGAACTACTGAGG
AGGAAGAGGGAGATAGACTCAGAGTCCGTGAACCGCGGCGTGACGGAATGCTCCCGACTG
GAGAAAGCACACAAGCTGAGCTGCGAACAGCTCTTACACGCACACGAGAGACTGCGAGCT
GCGCTGCTCAAACATCGCGACCAGGTACGAACACTTACTGACGATATACACACACACACA
GACACATCCACACACACACGCACACATTCAAGTATCCATACATATCCCTAG
Protein sequence:
MWTDELFALAYNLNQFNNPTIKFLEKLHTKIVLKADKSGKILVKNIVRLFAQNKEDKKRV
EKALSESGLPTGKNDTISQTKFQFEDFFSFYKSLTQRTEVQKIFNNLTGGKAHLSANQLV
DFLNEVQRDPRLNEILHPYADIQRAKDLIKVHEYNKYHQQRSQLTFDGFLRFLMSEDNPI
VAPNKLDLCDDMDQPLAHYFINSSHNTYLTGHQITGKSSVEIYRQGLLAGCRCVELDFWN
GRTEEPVIVHGYTFVPDISAKEVLEAIAESAFKTSDYPVILSFENHCNPRQQAKIANYCR
DIFGDMLLDKPLDSHQLEPGGELPPPNLLKNKIIIKNKKKHHHHHKKEDARGSEKDALPQ
GNGEVAHVSVCKESSSSESSESSSEEEGGEEACEPGGEGEGAGGEPARETHAAAEISALV
NYVQPVHFSSFENAEKKNRFYEMSSFDEKQATTLLKEKPIEFVNYNKHQLSRVYPAGTRF
DSSNFMPQVFWNAGCQLVALNYQTLDLAMQLNLGTFEYNRRCGYLLKPEFMRRKDRRLDP
FAESTVDGIIAGSLSVAVISGQLLTERRTGTYVEVDMFGLPADTVRKKYRTRTVPNNGIN
PVYDDEPFVFKKVVLPELAMVRIAAHEEGGRLVGHRVLPVLGLCPGYRHVGLRTELGLPL
PASLLLHVQVKDYVPGRHSELAKALENPIKYQTDMERRAHQLAVLTDDTEEPRAEAPPPR
PTRVSITTHTAMKSVLGIGNKNVDGSPIKTAVEKKDNEIATVATEPEKILPEESESKFNG
GNETQEDINKTLEELLNSKIVKEKKADLARKLDALRRKNTKPRPVAAKFFVKRLSTRNMA
EETEDGGGAEAERELRLRYHHAIYAALDKQLRLDHHHQMKHLTESLDLQKKEILNRLASS
RREDVKTLAKSARDKDELLRRKREIDSESVNRGVTECSRLEKAHKLSCEQLLHAHERLRA
ALLKHRDQVRTLTDDIHTHTDTSTHTRTHSSIHTYP