Stearyl Oleylm Phosphatidylcholine

Stearyl oleyl phosphatidylcholine (SOPC) is a phospholipid that is a major component of cell membranes. It is made up of a stearyl alcohol group, an oleic acid group, and a phosphate group. SOPC is important for cell membrane structure and function. It also plays a role in a variety of cellular processes, including cell signaling, metabolism, and inflammation.

MBS168279 | Phosphatidylcholine Assay Kit
MBS578289 | L-alpha-Phosphatidylcholine
MBS6078274 | Palmitoyleicosapentaenoyl Phosphatidylcholine
MBS6099194 | Palmitoyldocosahexaenoyl Phosphatidylcholine
MBS393184 | Phosphatidylcholine, PC (Egg)
MBS393185 | Phosphatidylcholine, PC (Soybean)
MBS393186 | Phosphatidylcholine, PC (Heart, Bovine)
MBS393187 | Phosphatidylcholine, PC (Brain, Bovine)
MBS393189 | Phosphatidylcholine, PC (Soybean, Hydrogenated)
MBS393212 | Phosphatidylcholine, PC (Rapeseed)
MBS393213 | Phosphatidylcholine, PC (Sunflower)
MBS393250 | Lyso-phosphatidylcholine, LPC (Egg)
MBS393262 | Lyso-phosphatidylcholine, LPC (Rapeseed)
MBS393263 | Lyso-phosphatidylcholine, LPC (Sunflower)
MBS2888929 | Phosphatidylcholine translocator ABCB4
MBS3804709 | Human Phosphatidylcholine ELISA Kit
MBS3806920 | Mouse Phosphatidylcholine ELISA Kit
MBS7269311 | Human phosphatidylcholine ELISA Kit
MBS7271343 | Porcine phosphatidylcholine ELISA Kit
MBS7272712 | Chicken phosphatidylcholine ELISA Kit

Here are some of the important functions of SOPC:

  • Cell membrane structure and function: SOPC is a major component of cell membranes. It helps to give cell membranes their flexibility and fluidity. SOPC also helps to protect cells from the environment.
  • Cell signaling: SOPC can act as a signaling molecule to trigger various cellular responses. For example, SOPC can activate protein kinases, which are enzymes that regulate cell growth, differentiation, and apoptosis.
  • Metabolism: SOPC is involved in the metabolism of fatty acids and cholesterol. It helps to transport fatty acids and cholesterol into cells and to convert them into energy.
  • Inflammation: SOPC can play a role in both acute and chronic inflammation. In acute inflammation, SOPC can help to recruit immune cells to the site of injury. In chronic inflammation, SOPC can contribute to the development of diseases such as atherosclerosis and cancer.

SOPC deficiency is rare, but it can occur in people with certain genetic disorders. SOPC deficiency can lead to a variety of health problems, including neurological problems, liver disease, and lung disease.

SOPC is a safe and effective ingredient in a variety of pharmaceutical and personal care products. It is used in liposomes, which are drug delivery systems that can be used to deliver drugs to specific cells or tissues. SOPC is also used in cosmetics and skin care products, where it helps to moisturize and protect the skin.


Accession Number : KLM0000350 This work is released into the public domain; please see our release statement.

stearyl-oleyl-phosphatidylcholine-3d.gif

Config Rule :

 

% 'stearyl-oleyl-phosphatidylcholine'


config('stearyl-oleyl-phosphatidylcholine',[
        substituent(stearyl),
        substituent(oleyl),
        substituent('L-glycerol-3-phosphocholine-1,2-di-yl'),
        linkage(from('L-glycerol-3-phosphocholine-1,2-di-yl',attach_to([oxy(1),car(1)])),
                to(stearyl,car(1)),
                nil,single),
        linkage(from('L-glycerol-3-phosphocholine-1,2-di-yl',attach_to([oxy(2),car(2)])),
                to(oleyl,car(1)),
                nil,single)]).

config('L-glycerol-3-phosphocholine-1,2-di-yl',[
        substituent('L-glycerol-3-phosphate-1,2-di-yl-O6-yl'),
        substituent(cholyl),
        linkage(from('L-glycerol-3-phosphate-1,2-di-yl-O6-yl',oxy(6)),
                to(cholyl,car(1)),
                nil,single)]).

config('L-glycerol-3-phosphocholine-1,2-di-yl',[
        substituent('L-glycerol-3-phosphate-1,2-di-yl-O6-yl'),
        substituent(cholyl),
        linkage(from('L-glycerol-3-phosphate-1,2-di-yl-O6-yl',oxy(6)),
                to(cholyl,car(1)),
                nil,single)]).

config('L-glycerol-3-phosphate-1,2-di-yl-O6-yl',[
        chain([
                oxymethyl,
                car(2,(oxy~)&&hyd;),
                methandiyl,
                oxy,
                phosphodiyl,
                oxy])]).

config('L-glycerol-3-phosphate-1,2-di-yl-O6-yl',[
        chain([
                oxymethyl,
                car(2,(oxy~)&&hyd;),
                methandiyl,
                oxy,
                phosphodiyl,
                oxy])]).

config(cholyl,[
        chain([
                car(1,hyd&&hyd;),
                methandiyl,
                nit(1,methyl&&methyl;&&methyl;)])]).

config(cholyl,[
        chain([
                car(1,hyd&&hyd;),
                methandiyl,
                nit(1,methyl&&methyl;&&methyl;)])]).

config('L-glycerol-3-phosphate-1,2-di-yl-O6-yl',[
        chain([
                oxymethyl,
                car(2,(oxy~)&&hyd;),
                methandiyl,
                oxy,
                phosphodiyl,
                oxy])]).

config('L-glycerol-3-phosphate-1,2-di-yl-O6-yl',[
        chain([
                oxymethyl,
                car(2,(oxy~)&&hyd;),
                methandiyl,
                oxy,
                phosphodiyl,
                oxy])]).

config(cholyl,[
        chain([
                car(1,hyd&&hyd;),
                methandiyl,
                nit(1,methyl&&methyl;&&methyl;)])]).

config(cholyl,[
        chain([
                car(1,hyd&&hyd;),
                methandiyl,
                nit(1,methyl&&methyl;&&methyl;)])]).

config(oleyl,[
        chain([
                ketyl(1),
                num(methandiyl,7),
                car(9,hyd)~~,
                car(10,hyd),
                num(methandiyl,7),
                methyl]),
        cis(car(8),car(11),bond(car(9),car(10)))]).

config(stearyl,[
        chain([
                ketyl(1),
                num(methandiyl,16),
                methyl])]).

Smiles String :

 

[C@2H2]([O][C]([C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][_
C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][CH3])=[O])[C@2H]([O][C]([C@2H2_
][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2][C@2H2]\[CH]=[CH]/[C@2H2][C@2H2][C@2H2][C@2_
H2][C@2H2][C@2H2][C@2H2][CH3])=[O])[C@2H2][O][P@2](=[O])([O-])[O][C@2H2][C@2H2]_
[N@2+]([CH3])([CH3])[CH3]

'stearyl-oleyl-phosphatidylcholine'

Fischer Diagram :

 

Terminal :

% 'stearyl-oleyl-phosphatidylcholine'

c(1,12,(0,nonchiral))-[o(1,left)~,h(1,right)~,h(2,up)~,c(2,down)~],
c(2,12,(0,chiral))-[o(2,left)~,h(3,right)~,c(1,up)~,c(3,down)~],
c(3,12,(0,nonchiral))-[h(4,left)~,h(5,right)~,c(2,up)~,o(3,down)~],
c(4,12,(0,nonchiral))-[c(5,left)~,h(6,right)~,h(7,up)~,o(6,down)~],
c(5,12,(0,nonchiral))-[h(8,left)~,c(4,right)~,h(9,up)~,n(1,down)~],
c(6,12,(0,nonchiral))-[h(10,left)~,n(1,right)~,h(11,up)~,h(12,down)~],
c(7,12,(0,nonchiral))-[n(1,left)~,h(13,right)~,h(15,up)~,h(14,down)~],
c(8,12,(0,nonchiral))-[h(16,left)~,h(18,right)~,n(1,up)~,h(17,down)~],
c(9,12,(0,nonchiral))-[o(7,nil)~~,c(10,right)~,o(1,nil)~],
c(10,12,(0,nonchiral))-[c(9,left)~,c(11,right)~,h(20,up)~,h(19,down)~],
c(11,12,(0,nonchiral))-[c(10,left)~,c(12,right)~,h(22,up)~,h(21,down)~],
c(12,12,(0,nonchiral))-[c(11,left)~,c(13,right)~,h(24,up)~,h(23,down)~],
c(13,12,(0,nonchiral))-[c(12,left)~,c(14,right)~,h(26,up)~,h(25,down)~],
c(14,12,(0,nonchiral))-[c(13,left)~,c(15,right)~,h(28,up)~,h(27,down)~],
c(15,12,(0,nonchiral))-[c(14,left)~,c(16,right)~,h(30,up)~,h(29,down)~],
c(16,12,(0,nonchiral))-[c(15,left)~,c(17,right)~,h(32,up)~,h(31,down)~],
c(17,12,(0,nonchiral))-[c(16,left)~,c(18,right)~,h(34,up)~,h(33,down)~],
c(18,12,(0,nonchiral))-[c(17,left)~,c(19,right)~,h(36,up)~,h(35,down)~],
c(19,12,(0,nonchiral))-[c(18,left)~,c(20,right)~,h(38,up)~,h(37,down)~],
c(20,12,(0,nonchiral))-[c(19,left)~,c(21,right)~,h(40,up)~,h(39,down)~],
c(21,12,(0,nonchiral))-[c(20,left)~,c(22,right)~,h(42,up)~,h(41,down)~],
c(22,12,(0,nonchiral))-[c(21,left)~,c(23,right)~,h(44,up)~,h(43,down)~],
c(23,12,(0,nonchiral))-[c(22,left)~,c(24,right)~,h(46,up)~,h(45,down)~],
c(24,12,(0,nonchiral))-[c(23,left)~,c(25,right)~,h(48,up)~,h(47,down)~],
c(25,12,(0,nonchiral))-[c(24,left)~,c(26,right)~,h(50,up)~,h(49,down)~],
c(26,12,(0,nonchiral))-[c(25,left)~,h(51,right)~,h(53,up)~,h(52,down)~],
c(27,12,(0,nonchiral))-[o(8,nil)~~,c(28,right)~,o(2,nil)~],
c(28,12,(0,nonchiral))-[c(27,left)~,c(29,right)~,h(55,up)~,h(54,down)~],
c(29,12,(0,nonchiral))-[c(28,left)~,c(30,right)~,h(57,up)~,h(56,down)~],
c(30,12,(0,nonchiral))-[c(29,left)~,c(31,right)~,h(59,up)~,h(58,down)~],
c(31,12,(0,nonchiral))-[c(30,left)~,c(32,right)~,h(61,up)~,h(60,down)~],
c(32,12,(0,nonchiral))-[c(31,left)~,c(33,right)~,h(63,up)~,h(62,down)~],
c(33,12,(0,nonchiral))-[c(32,left)~,c(34,right)~,h(65,up)~,h(64,down)~],
c(34,12,(0,nonchiral))-[c(33,left)~,h(66,right)~,h(67,up)~,c(35,(down,isomeric(down)))~],
c(35,12,(0,nonchiral))-[h(68,(nil,isomeric(down)))~,c(34,(up,isomeric(up)))~,c(36,cis)~~],
c(36,12,(0,nonchiral))-[c(37,(right,isomeric(up)))~,h(69,(nil,isomeric(down)))~,c(35,cis)~~],
c(37,12,(0,nonchiral))-[c(36,(left,isomeric(down)))~,c(38,right)~,h(71,up)~,h(70,down)~],
c(38,12,(0,nonchiral))-[c(37,left)~,c(39,right)~,h(73,up)~,h(72,down)~],
c(39,12,(0,nonchiral))-[c(38,left)~,c(40,right)~,h(75,up)~,h(74,down)~],
c(40,12,(0,nonchiral))-[c(39,left)~,c(41,right)~,h(77,up)~,h(76,down)~],
c(41,12,(0,nonchiral))-[c(40,left)~,c(42,right)~,h(79,up)~,h(78,down)~],
c(42,12,(0,nonchiral))-[c(41,left)~,c(43,right)~,h(81,up)~,h(80,down)~],
c(43,12,(0,nonchiral))-[c(42,left)~,c(44,right)~,h(83,up)~,h(82,down)~],
c(44,12,(0,nonchiral))-[c(43,left)~,h(84,right)~,h(86,up)~,h(85,down)~],
h(1,1,(0,nonchiral))-[c(1,left)~],
h(2,1,(0,nonchiral))-[c(1,down)~],
h(3,1,(0,nonchiral))-[c(2,left)~],
h(4,1,(0,nonchiral))-[c(3,right)~],
h(5,1,(0,nonchiral))-[c(3,left)~],
h(6,1,(0,nonchiral))-[c(4,left)~],
h(7,1,(0,nonchiral))-[c(4,down)~],
h(8,1,(0,nonchiral))-[c(5,right)~],
h(9,1,(0,nonchiral))-[c(5,down)~],
h(10,1,(0,nonchiral))-[c(6,right)~],
h(11,1,(0,nonchiral))-[c(6,down)~],
h(12,1,(0,nonchiral))-[c(6,up)~],
h(13,1,(0,nonchiral))-[c(7,left)~],
h(14,1,(0,nonchiral))-[c(7,up)~],
h(15,1,(0,nonchiral))-[c(7,down)~],
h(16,1,(0,nonchiral))-[c(8,right)~],
h(17,1,(0,nonchiral))-[c(8,up)~],
h(18,1,(0,nonchiral))-[c(8,left)~],
h(19,1,(0,nonchiral))-[c(10,up)~],
h(20,1,(0,nonchiral))-[c(10,down)~],
h(21,1,(0,nonchiral))-[c(11,up)~],
h(22,1,(0,nonchiral))-[c(11,down)~],
h(23,1,(0,nonchiral))-[c(12,up)~],
h(24,1,(0,nonchiral))-[c(12,down)~],
h(25,1,(0,nonchiral))-[c(13,up)~],
h(26,1,(0,nonchiral))-[c(13,down)~],
h(27,1,(0,nonchiral))-[c(14,up)~],
h(28,1,(0,nonchiral))-[c(14,down)~],
h(29,1,(0,nonchiral))-[c(15,up)~],
h(30,1,(0,nonchiral))-[c(15,down)~],
h(31,1,(0,nonchiral))-[c(16,up)~],
h(32,1,(0,nonchiral))-[c(16,down)~],
h(33,1,(0,nonchiral))-[c(17,up)~],
h(34,1,(0,nonchiral))-[c(17,down)~],
h(35,1,(0,nonchiral))-[c(18,up)~],
h(36,1,(0,nonchiral))-[c(18,down)~],
h(37,1,(0,nonchiral))-[c(19,up)~],
h(38,1,(0,nonchiral))-[c(19,down)~],
h(39,1,(0,nonchiral))-[c(20,up)~],
h(40,1,(0,nonchiral))-[c(20,down)~],
h(41,1,(0,nonchiral))-[c(21,up)~],
h(42,1,(0,nonchiral))-[c(21,down)~],
h(43,1,(0,nonchiral))-[c(22,up)~],
h(44,1,(0,nonchiral))-[c(22,down)~],
h(45,1,(0,nonchiral))-[c(23,up)~],
h(46,1,(0,nonchiral))-[c(23,down)~],
h(47,1,(0,nonchiral))-[c(24,up)~],
h(48,1,(0,nonchiral))-[c(24,down)~],
h(49,1,(0,nonchiral))-[c(25,up)~],
h(50,1,(0,nonchiral))-[c(25,down)~],
h(51,1,(0,nonchiral))-[c(26,left)~],
h(52,1,(0,nonchiral))-[c(26,up)~],
h(53,1,(0,nonchiral))-[c(26,down)~],
h(54,1,(0,nonchiral))-[c(28,up)~],
h(55,1,(0,nonchiral))-[c(28,down)~],
h(56,1,(0,nonchiral))-[c(29,up)~],
h(57,1,(0,nonchiral))-[c(29,down)~],
h(58,1,(0,nonchiral))-[c(30,up)~],
h(59,1,(0,nonchiral))-[c(30,down)~],
h(60,1,(0,nonchiral))-[c(31,up)~],
h(61,1,(0,nonchiral))-[c(31,down)~],
h(62,1,(0,nonchiral))-[c(32,up)~],
h(63,1,(0,nonchiral))-[c(32,down)~],
h(64,1,(0,nonchiral))-[c(33,up)~],
h(65,1,(0,nonchiral))-[c(33,down)~],
h(66,1,(0,nonchiral))-[c(34,left)~],
h(67,1,(0,nonchiral))-[c(34,down)~],
h(68,1,(0,nonchiral))-[c(35,(nil,isomeric(up)))~],
h(69,1,(0,nonchiral))-[c(36,(nil,isomeric(up)))~],
h(70,1,(0,nonchiral))-[c(37,up)~],
h(71,1,(0,nonchiral))-[c(37,down)~],
h(72,1,(0,nonchiral))-[c(38,up)~],
h(73,1,(0,nonchiral))-[c(38,down)~],
h(74,1,(0,nonchiral))-[c(39,up)~],
h(75,1,(0,nonchiral))-[c(39,down)~],
h(76,1,(0,nonchiral))-[c(40,up)~],
h(77,1,(0,nonchiral))-[c(40,down)~],
h(78,1,(0,nonchiral))-[c(41,up)~],
h(79,1,(0,nonchiral))-[c(41,down)~],
h(80,1,(0,nonchiral))-[c(42,up)~],
h(81,1,(0,nonchiral))-[c(42,down)~],
h(82,1,(0,nonchiral))-[c(43,up)~],
h(83,1,(0,nonchiral))-[c(43,down)~],
h(84,1,(0,nonchiral))-[c(44,left)~],
h(85,1,(0,nonchiral))-[c(44,up)~],
h(86,1,(0,nonchiral))-[c(44,down)~],
n(1,14,(1,nonchiral))-[c(6,left)~,c(7,right)~,c(5,up)~,c(8,down)~],
o(1,16,(0,nonchiral))-[c(9,nil)~,c(1,right)~],
o(2,16,(0,nonchiral))-[c(27,nil)~,c(2,right)~],
o(3,16,(0,nonchiral))-[p(1,right)~,c(3,up)~],
o(4,16,(-5.0E-01,nonchiral))-[p(1,left)?],
o(5,16,(-5.0E-01,nonchiral))-[p(1,up)?],
o(6,16,(0,nonchiral))-[c(4,up)~,p(1,down)~],
o(7,16,(0,nonchiral))-[c(9,nil)~~],
o(8,16,(0,nonchiral))-[c(27,nil)~~],
p(1,31,(0,nonchiral))-[o(3,left)~,o(4,right)?,o(6,up)~,o(5,down)?]

The Terminals for all the Config Rules are in Prolog Definite Clause Grammar (DCG) form.They can be checked in the Manual here.

The compound's PDB file can be seen here.