Cannabis Compound Database: Showing Protein 1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase epsilon-1 (CDBP02417)

Identification Biological properties Gene properties Protein properties External links References XML Show 20 compounds

Identification

HMDB Protein ID

CDBP02417

Secondary Accession Numbers

Not Available

Name

1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase epsilon-1

Description

Not Available

Synonyms

PLC-epsilon-1
Pancreas-enriched phospholipase C
Phosphoinositide phospholipase C-epsilon-1
Phospholipase C-epsilon-1

Gene Name

PLCE1

Protein Type

Enzyme

Biological Properties

General Function

Involved in calcium ion binding

Specific Function

The production of the second messenger molecules diacylglycerol (DAG) and inositol 1,4,5-trisphosphate (IP3) is mediated by activated phosphatidylinositol-specific phospholipase C enzymes. PLCE1 is a bifunctional enzyme which also regulates small GTPases of the Ras superfamily through its Ras guanine-exchange factor (RasGEF) activity. As an effector of heterotrimeric and small G-protein, it may play a role in cell survival, cell growth, actin organization and T-cell activation.

GO Classification

Biological Process
regulation of Ras protein signal transduction
regulation of G-protein coupled receptor protein signaling pathway
heart development
cytoskeleton organization
glomerulus development
inositol phosphate-mediated signaling
phospholipase C-activating G-protein coupled receptor signaling pathway
regulation of smooth muscle contraction
protein kinase C-activating G-protein coupled receptor signaling pathway
Ras protein signal transduction
regulation of cell growth
epidermal growth factor receptor signaling pathway
diacylglycerol biosynthetic process
activation of MAPK activity
elevation of cytosolic calcium ion concentration
phospholipid metabolic process
calcium-mediated signaling
cell proliferation
lipid catabolic process
Cellular Component
cytosol
plasma membrane
Golgi membrane
Component
intracellular
cell part
Function
calcium ion binding
lipase activity
ion binding
phospholipase activity
cation binding
metal ion binding
hydrolase activity, acting on ester bonds
binding
catalytic activity
hydrolase activity
phosphoric ester hydrolase activity
enzyme regulator activity
phosphoric diester hydrolase activity
phospholipase c activity
phosphoinositide phospholipase c activity
nucleoside-triphosphatase regulator activity
gtpase regulator activity
guanyl-nucleotide exchange factor activity
Molecular Function
phosphatidylinositol phospholipase C activity
Ras GTPase binding
receptor signaling protein activity
guanyl-nucleotide exchange factor activity
calcium ion binding
Process
signaling
signaling pathway
intracellular signal transduction
small gtpase mediated signal transduction
metabolic process
primary metabolic process
biological regulation
regulation of biological process
regulation of cellular process
signal transduction
lipid metabolic process
intracellular signaling pathway

Cellular Location

Cell membrane
Cytoplasm
Golgi apparatus membrane
cytosol

Pathways

Name	SMPDB/Pathwhiz	KEGG
Calcium signaling pathway	Not Available
Phosphatidylinositol signaling system	Not Available
Proteoglycans in cancer	Not Available

Gene Properties

Chromosome Location

Locus

10q23

SNPs

PLCE1

Gene Sequence

>6909 bp
ATGACTTCTGAAGAAATGACAGCTTCTGTTCTCATACCTGTGACTCAGAGAAAAGTGGTT
TCTGCCCAGTCGGCTGCAGATGAAAGTAGTGAAAAGGTCTCAGACATCAATATTTCAAAA
GCACATACTGTCAGACGAAGTGGGGAGACTTCTCATACCATCTCACAACTGAACAAACTT
AAAGAAGAACCTTCTGGAAGCAACTTGCCAAAGATTCTCTCAATAGCGAGGGAGAAAATA
GTGAGTGATGAGAACAGTAATGAAAAATGTTGGGAGAAAATCATGCCAGATTCTGCGAAA
AACCTTAACATTAACTGCAACAACATATTGAGAAACCATCAGCATGGCCTTCCTCAGAGA
CAATTTTATGAAATGTACAACTCTGTTGCTGAGGAAGACTTGTGTTTAGAAACTGGAATT
CCTTCTCCACTGGAAAGAAAGGTGTTCCCTGGAATTCAACTGGAACTAGACAGACCTTCC
ATGGGCATTAGTCCTTTAGGAAATCAGTCAGTGATCATAGAGACAGGCAGAGCACACCCT
GACAGCAGAAGGGCAGTATTTCATTTTCATTATGAAGTTGACAGAAGAATGTCAGACACT
TTCTGTACCCTATCAGAAAACTTAATTTTAGACGATTGTGGAAATTGTGTACCACTACCT
GGGGGTGAGGAGAAGCAAAAGAAAAACTATGTGGCATATACCTGTAAACTGATGGAATTG
GCCAAAAATTGTGATAATAAGAATGAGCAGCTGCAGTGTGATCATTGTGACACCTTGAAT
GATAAATACTTTTGCTTTGAAGGCTCTTGTGAGAAGGTTGACATGGTATATTCAGGTGAT
AGCTTTTGTAGGAAAGACTTTACTGACAGTCAAGCTGCCAAGACCTTTTTGAGCCATTTT
GAGGACTTCCCTGATAATTGTGATGATGTAGAAGAAGACGCTTTTAAAAGCAAAAAGGAG
CGATCCACTTTGTTAGTCAGGAGATTCTGTAAAAATGACAGAGAAGTTAAGAAATCTGTG
TATACTGGAACAAGAGCAATTGTGAGAACTCTGCCTTCTGGCCACATTGGGCTGACTGCA
TGGAGTTACATAGATCAGAAGAGAAATGGTCCCTTACTGCCTTGTGGGAGAGTAATGGAA
CCCCCGTCAACAGTGGAGATAAGGCAAGATGGGAGCCAACGTCTGTCAGAAGCCCAGTGG
TATCCTATCTACAATGCAGTGAGAAGAGAAGAAACAGAAAATACAGTTGGATCTCTACTC
CATTTCCTCACCAAGCTCCCAGCCTCCGAGACAGCCCATGGAAGGATAAGCGTTGGTCCA
TGCTTAAAGCAATGTGTCCGAGACACTGTATGTGAGTATCGCGCCACCCTCCAAAGGACT
TCAATATCGCAGTACATCACCGGTTCTCTCCTAGAAGCAACCACGTCTTTGGGAGCAAGA
AGTGGCCTTCTCAGTACTTTTGGAGGATCCACTGGACGAATGATGCTGAAAGAACGCCAG
CCAGGCCCCTCTGTGGCCAATTCCAATGCCCTCCCTTCAAGTTCAGCTGGGATCAGCAAG
GAGCTGATCGATCTGCAGCCTCTCATCCAGTTCCCAGAGGAAGTCGCCAGCATCCTGATG
GAGCAAGAGCAGACTATTTACCGCAGGGTCTTGCCAGTCGACTACCTTTGCTTCTTAACA
CGGGACTTGGGCACTCCTGAATGCCAGAGCTCCTTGCCCTGCCTCAAAGCATCCATCTCA
GCGTCGATTCTTACCACTCAGAATGGAGAGCACAATGCCCTTGAAGATCTGGTGATGAGG
TTTAATGAGGTGAGCTCCTGGGTGACATGGCTGATCCTCACGGCAGGCTCCATGGAGGAG
AAGCGAGAAGTCTTTTCATATTTGGTGCATGTGGCCAAATGCTGCTGGAACATGGGCAAC
TACAACGCTGTCATGGAGTTCTTGGCTGGCCTCAGGTCAAGAAAAGTTTTAAAAATGTGG
CAGTTCATGGACCAGTCTGATATTGAGACCATGAGGAGCCTGAAGGATGCTATGGCCCAG
CATGAGTCCTCTTGTGAGTACAGAAAGGTGGTGACACGTGCCCTGCACATCCCTGGCTGT
AAGGTGGTTCCATTCTGTGGGGTGTTTCTGAAGGAGCTCTGTGAAGTGCTTGACGGCGCC
TCCGGTCTCATGAAGCTTTGCCCGCGGTACAATTCCCAAGAAGAAACTTTAGAGTTTGTA
GCAGATTACAGTGGACAAGATAATTTCTTACAACGAGTGGGACAAAATGGCTTAAAGAAT
TCGGAGAAGGAGTCCACTGTCAACAGCATCTTTCAGGTCATCCGGAGCTGCAATCGAAGT
CTGGAGACAGACGAGGAGGACAGCCCCAGTGAAGGAAACAGCTCCAGGAAAAGCTCCTTG
AAGGATAAAAGCCGATGGCAGTTTATAATTGGAGATTTGTTGGATTCAGACAATGACATC
TTTGAGCAATCCAAAGAATACGACTCTCATGGTTCAGAGGACTCACAGAAGGCCTTCGAC
CATGGGACGGAGCTCATCCCTTGGTACGTGCTGTCCATCCAAGCCGATGTGCACCAGTTC
CTGCTGCAGGGGGCCACGGTCATCCACTACGACCAGGACACACACCTCTCTGCCCGCTGC
TTCCTCCAGCTTCAGCCCGACAATAGCACCTTGACCTGGGTAAAGCCCACAACTGCCTCC
CCAGCCAGCAGTAAAGCAAAACTTGGTGTACTTAATAACACAGCTGAGCCTGGAAAATTC
CCACTACTGGGTAATGCTGGATTAAGTAGCCTGACGGAAGGGGTCTTGGATCTTTTTGCA
GTGAAGGCTGTATACATGGGCCACCCTGGCATTGATATACACACTGTGTGTGTTCAGAAC
AAACTGGGTAGCATGTTCCTGTCAGAGACTGGTGTGACATTGCTCTATGGGCTTCAGACC
ACAGACAACAGATTATTGCACTTCGTGGCACCAAAGCACACAGCTAAAATGCTCTTCAGC
GGATTATTGGAACTCACTAGAGCTGTGAGAAAGATGAGGAAATTCCCTGACCAAAGACAG
CAGTGGCTGCGGAAACAGTACGTCAGCCTTTATCAGGAGGATGGACGGTATGAAGGCCCA
ACTTTGGCTCACGCTGTGGAGTTGTTTGGTGGCAGACGGTGGAGTGCTCGAAACCCCAGC
CCCGGAACATCAGCAAAGAATGCTGAGAAGCCCAATATGCAGAGAAACAATACCCTGGGC
ATAAGCACTACCAAGAAAAAGAAGAAAATCCTCATGAGGGGTGAGAGTGGAGAGGTAACT
GACGATGAGATGGCAACCCGAAAGGCCAAGATGCACAAAGAGTGTCGAAGCCGGAGTGGT
TCTGATCCTCAAGACATTAATGAACAAGAAGAATCAGAGGTGAATGCCATCGCTAACCCT
CCAAACCCCCTCCCTTCCAGAAGAGCCCACTCTTTGACCACAGCTGGGTCCCCCAACTTG
GCTGCCGGGACGTCATCTCCCATCAGGCCAGTGTCCTCCCCTGTGCTGTCTTCTTCAAAC
AAGAGCCCATCCAGTGCTTGGAGCAGTAGTAGCTGGCACGGGCGGATCAAAGGCGGCATG
AAGGGATTTCAGAGCTTCATGGTTTCAGATAGCAACATGAGTTTTGTTGAATTTGTTGAG
CTGTTCAAATCATTCAGTGTCAGGAGCCGCAAGGACCTGAAGGATCTGTTTGATGTCTAT
GCAGTGCCCTGCAACCGATCTGGCTCCGAGTCAGCCCCACTCTACACCAACCTGACAATT
GATGAAAACACCAGCGATCTTCAGCCTGACCTAGATCTGTTGACCAGAAATGTCTCGGAT
TTGGGGTTGTTCATTAAGAGTAAACAGCAGCTATCGGACAACCAGAGGCAGATATCTGAT
GCCATTGCTGCTGCAAGCATTGTGACAAATGGCACTGGGATTGAGAGCACATCTCTGGGC
ATTTTTGGGGTGGGCATACTTCAGCTCAACGATTTCCTCGTGAATTGCCAAGGAGAACAC
TGCACTTATGATGAAATCCTCAGCATCATCCAGAAGTTCGAGCCTAGCATCAGTATGTGT
CATCAGGGACTAATGTCATTTGAAGGGTTTGCCAGGTTTCTGATGGATAAAGAAAATTTT
GCCTCAAAAAATGATGAGTCACAGGAGAACATTAAAGAACTGCAGCTACCCCTCTCATAC
TATTACATCGAATCTTCGCACAATACCTACCTCACGGGCCATCAGCTCAAAGGAGAATCC
TCGGTAGAACTCTACAGCCAGGTCCTTTTGCAAGGCTGTCGAAGTGTAGAATTGGACTGC
TGGGACGGAGACGATGGGATGCCCATCATTTATCATGGACATACGCTGACAACCAAGATC
CCCTTCAAGGAAGTGGTTGAAGCCATTGATCGCAGTGCCTTCATCAACTCTGACCTGCCA
ATCATCATATCGATTGAGAACCACTGTTCATTGCCTCAGCAACGAAAAATGGCAGAAATT
TTCAAGACTGTGTTTGGAGAAAAGCTGGTGACTAAATTCTTATTTGAGACTGATTTCTCA
GATGATCCAATGCTTCCTTCACCTGACCAACTCAGAAAGAAAGTTCTTCTTAAAAACAAG
AAGCTAAAAGCCCATCAGACGCCAGTGGATATCTTAAAGCAAAAGGCTCATCAGTTAGCA
TCTATGCAAGTGCAGGCTTATAATGGTGGGAATGCCAACCCCCGACCTGCCAATAATGAG
GAAGAGGAAGATGAGGAGGACGAATATGATTATGACTATGAATCCCTTTCTGATGACAAC
ATTCTGGAAGACAGACCTGAAAATAAATCATGTAATGACAAGCTTCAGTTTGAATATAAT
GAAGAAATCCCAAAGAGGATAAAGAAAGCAGATAACTCTGCTTGCAACAAAGGAAAGGTT
TATGATATGGAACTGGGAGAAGAATTTTATCTTGATCAGAATAAAAAGGAAAGCAGACAG
ATTGCACCAGAGCTTTCTGACCTTGTAATCTATTGTCAAGCAGTAAAATTTCCAGGACTG
TCAACTCTAAATGCATCTGGCTCTAGCAGAGGAAAAGAAAGGAAAAGCAGGAAGTCCATT
TTTGGCAACAATCCGGGCAGAATGAGCCCAGGGGAGACAGCATCATTTAACAAAACATCT
GGAAAAAGTTCCTGTGAAGGCATTCGACAGACCTGGGAGGAATCTTCTTCCCCTCTCAAC
CCAACCACGTCCCTCAGTGCTATCATTAGAACTCCCAAATGTTATCATATCTCGTCGCTG
AATGAAAATGCCGCCAAACGTCTGTGTCGCAGGTATTCTCAGAAACTGACCCAGCACACC
GCCTGTCAGCTGCTGAGAACTTACCCTGCTGCCACCCGCATCGACTCTTCCAACCCGAAC
CCCCTCATGTTCTGGCTCCATGGGATACAGCTTGTGGCACTCAACTACCAGACTGATGAT
CTCCCTTTACATTTAAATGCTGCAATGTTTGAGGCAAATGGTGGTTGTGGTTATGTATTG
AAACCTCCAGTTCTGTGGGACAAGAACTGCCCCATGTATCAGAAGTTTTCTCCACTAGAA
AGAGATCTGGACAGCATGGATCCTGCAGTCTATTCTTTAACTATTGTCTCTGGTCAGAAT
GTGTGCCCCAGTAATAGCATGGGAAGCCCGTGCATTGAAGTCGACGTCCTGGGCATGCCT
CTGGACAGCTGCCATTTCCGCACAAAGCCCATCCATCGAAACACCCTGAACCCCATGTGG
AACGAGCAGTTTCTGTTCCACGTTCACTTCGAAGATCTTGTATTTCTTCGTTTTGCAGTT
GTGGAAAACAATAGTTCAGCGGTAACTGCTCAGAGAATCATTCCACTGAAAGCTTTAAAA
CGAGGATATCGACATCTTCAGCTGCGAAACCTTCACAATGAAGTCTTGGAGATTTCTAGT
TTATTCATTAACAGCAGAAGGATGGAAGAAAATTCCTCTGGCAATACCATGTCAGCCTCT
TCGATGTTTAATACAGAAGAAAGAAAATGTTTGCAGACTCACAGAGTCACGGTGCATGGG
GTCCCAGGGCCAGAGCCCTTTACCGTTTTCACTATTAATGGAGGCACCAAGGCAAAGCAG
CTTCTGCAGCAAATTCTGACAAATGAACAAGACATCAAACCTGTTACCACAGACTATTTT
TTGATGGAAGAAAAATATTTTATATCTAAAGAAAAGAATGAATGTAGGAAACAACCATTC
CAGAGAGCCATTGGTCCAGAAGAGGAGATCATGCAAATTTTAAGCAGCTGGTTTCCAGAA
GAGGGATACATGGGCAGGATTGTCTTAAAAACCCAGCAGGAAAACCTAGAAGAGAAAAAC
ATTGTTCAAGATGACAAAGAGGTGATCTTGAGCTCAGAGGAGGAGAGTTTCTTTGTCCAA
GTGCATGATGTTTCTCCAGAGCAACCTCGAACAGTCATCAAAGCACCCCGCGTCAGCACT
GCACAGGATGTCATTCAGCAGACCTTATGCAAAGCCAAATATTCCTACAGCATCCTGAGC
AACCCCAATCCAAGCGACTATGTGCTTTTGGAAGAGGTGGTGAAAGACACTACCAACAAG
AAGACTACCACACCAAAGTCCTCTCAGCGGGTCCTTCTGGATCAGGAGTGTGTGTTTCAA
GCCCAAAGCAAGTGGAAAGGTGCAGGAAAATTCATCCTTAAGCTAAAGGAGCAGGTGCAG
GCATCTCGAGAAGATAAAAAGAAAGGCATTTCTTTCGCAAGTGAACTCAAGAAGCTCACC
AAGTCAACTAAACAGCCCCGAGGACTTACATCACCTTCTCAGCTCTTGACCTCAGAAAGT
ATCCAAACCAAGGAGGAGAAACCTGTGGGTGGCTTGTCCTCCAGTGACACAATGGATTAC
CGACAGTGA

Protein Properties

Number of Residues

2302

Molecular Weight

223869.895

Theoretical pI

6.631

Pfam Domain Function

C2 (PF00168 )
RA (PF00788 )
efhand_like (PF09279 )
PI-PLC-X (PF00388 )
PI-PLC-Y (PF00387 )
RasGEF (PF00617 )

Signals

Not Available

Transmembrane Regions

Not Available

Protein Sequence

>1-phosphatidylinositol-4,5-bisphosphate phosphodiesterase epsilon-1
MTSEEMTASVLIPVTQRKVVSAQSAADESSEKVSDINISKAHTVRRSGETSHTISQLNKL
KEEPSGSNLPKILSIAREKIVSDENSNEKCWEKIMPDSAKNLNINCNNILRNHQHGLPQR
QFYEMYNSVAEEDLCLETGIPSPLERKVFPGIQLELDRPSMGISPLGNQSVIIETGRAHP
DSRRAVFHFHYEVDRRMSDTFCTLSENLILDDCGNCVPLPGGEEKQKKNYVAYTCKLMEL
AKNCDNKNEQLQCDHCDTLNDKYFCFEGSCEKVDMVYSGDSFCRKDFTDSQAAKTFLSHF
EDFPDNCDDVEEDAFKSKKERSTLLVRRFCKNDREVKKSVYTGTRAIVRTLPSGHIGLTA
WSYIDQKRNGPLLPCGRVMEPPSTVEIRQDGSQRLSEAQWYPIYNAVRREETENTVGSLL
HFLTKLPASETAHGRISVGPCLKQCVRDTVCEYRATLQRTSISQYITGSLLEATTSLGAR
SGLLSTFGGSTGRMMLKERQPGPSVANSNALPSSSAGISKELIDLQPLIQFPEEVASILM
EQEQTIYRRVLPVDYLCFLTRDLGTPECQSSLPCLKASISASILTTQNGEHNALEDLVMR
FNEVSSWVTWLILTAGSMEEKREVFSYLVHVAKCCWNMGNYNAVMEFLAGLRSRKVLKMW
QFMDQSDIETMRSLKDAMAQHESSCEYRKVVTRALHIPGCKVVPFCGVFLKELCEVLDGA
SGLMKLCPRYNSQEETLEFVADYSGQDNFLQRVGQNGLKNSEKESTVNSIFQVIRSCNRS
LETDEEDSPSEGNSSRKSSLKDKSRWQFIIGDLLDSDNDIFEQSKEYDSHGSEDSQKAFD
HGTELIPWYVLSIQADVHQFLLQGATVIHYDQDTHLSARCFLQLQPDNSTLTWVKPTTAS
PASSKAKLGVLNNTAEPGKFPLLGNAGLSSLTEGVLDLFAVKAVYMGHPGIDIHTVCVQN
KLGSMFLSETGVTLLYGLQTTDNRLLHFVAPKHTAKMLFSGLLELTRAVRKMRKFPDQRQ
QWLRKQYVSLYQEDGRYEGPTLAHAVELFGGRRWSARNPSPGTSAKNAEKPNMQRNNTLG
ISTTKKKKKILMRGESGEVTDDEMATRKAKMHKECRSRSGSDPQDINEQEESEVNAIANP
PNPLPSRRAHSLTTAGSPNLAAGTSSPIRPVSSPVLSSSNKSPSSAWSSSSWHGRIKGGM
KGFQSFMVSDSNMSFVEFVELFKSFSVRSRKDLKDLFDVYAVPCNRSGSESAPLYTNLTI
DENTSDLQPDLDLLTRNVSDLGLFIKSKQQLSDNQRQISDAIAAASIVTNGTGIESTSLG
IFGVGILQLNDFLVNCQGEHCTYDEILSIIQKFEPSISMCHQGLMSFEGFARFLMDKENF
ASKNDESQENIKELQLPLSYYYIESSHNTYLTGHQLKGESSVELYSQVLLQGCRSVELDC
WDGDDGMPIIYHGHTLTTKIPFKEVVEAIDRSAFINSDLPIIISIENHCSLPQQRKMAEI
FKTVFGEKLVTKFLFETDFSDDPMLPSPDQLRKKVLLKNKKLKAHQTPVDILKQKAHQLA
SMQVQAYNGGNANPRPANNEEEEDEEDEYDYDYESLSDDNILEDRPENKSCNDKLQFEYN
EEIPKRIKKADNSACNKGKVYDMELGEEFYLDQNKKESRQIAPELSDLVIYCQAVKFPGL
STLNASGSSRGKERKSRKSIFGNNPGRMSPGETASFNKTSGKSSCEGIRQTWEESSSPLN
PTTSLSAIIRTPKCYHISSLNENAAKRLCRRYSQKLTQHTACQLLRTYPAATRIDSSNPN
PLMFWLHGIQLVALNYQTDDLPLHLNAAMFEANGGCGYVLKPPVLWDKNCPMYQKFSPLE
RDLDSMDPAVYSLTIVSGQNVCPSNSMGSPCIEVDVLGMPLDSCHFRTKPIHRNTLNPMW
NEQFLFHVHFEDLVFLRFAVVENNSSAVTAQRIIPLKALKRGYRHLQLRNLHNEVLEISS
LFINSRRMEENSSGNTMSASSMFNTEERKCLQTHRVTVHGVPGPEPFTVFTINGGTKAKQ
LLQQILTNEQDIKPVTTDYFLMEEKYFISKEKNECRKQPFQRAIGPEEEIMQILSSWFPE
EGYMGRIVLKTQQENLEEKNIVQDDKEVILSSEEESFFVQVHDVSPEQPRTVIKAPRVST
AQDVIQQTLCKAKYSYSILSNPNPSDYVLLEEVVKDTTNKKTTTPKSSQRVLLDQECVFQ
AQSKWKGAGKFILKLKEQVQASREDKKKGISFASELKKLTKSTKQPRGLTSPSQLLTSES
IQTKEEKPVGGLSSSDTMDYRQ

External Links

GenBank ID Protein

117168250

UniProtKB/Swiss-Prot ID

Q9P212

UniProtKB/Swiss-Prot Entry Name

PLCE1_HUMAN

PDB IDs

GenBank Gene ID

GeneCard ID

GenAtlas ID

HGNC ID

References

General References

Not Available