Biosynthesis of PhosphatidylSerine (G9488)

Biosynthesis of PhosphatidylSerine

Phosphatidylinositol glycan (PIG) 鈥嬧?媋nchor biosynthesis class B (Biosynthesis class II) is a crucial step in the production of one of the main components of cell membrane-phosphatidylserine (phosphatidylinositol). The cell membrane is composed of a lipid bilayer, and phosphatidylserine is the basic skeleton of the cell membrane. Therefore, the biosynthesis of phosphatidylserine is the basis of cell membrane structure and function.

PIGB biosynthesis class B is a complex biosynthetic pathway involving the participation of multiple enzymes and complex metabolic pathways. In PIGB biosynthesis class B, the biosynthesis of phosphatidylserine begins with acetyl-coenzyme A (Acetyl-CoA), an important metabolite and the main acetyl-CoA produced in cells. Acetyl-CoA is further converted into acetyl-CoA thiokinase, which is involved in the sulfur metabolism of acetyl-CoA.

Another key step in PIGB biosynthesis class B is the synthesis of phosphatidyl acetyl coenzyme A (Phosphatidyl-CoA). Phosphatidyl acetyl-CoA is the precursor molecule of phosphatidylserine, and its synthesis requires the participation of acetyl-CoA and phosphatidyl-CoA. Acetyl-CoA is converted into phosphatidyl-CoA through a series of metabolic reactions, which is further synthesized into phosphatidylserine.

PIGB biosynthesis class B also involves the participation of a variety of coenzymes, including thioacetyl coenzyme A (Thiokinase), thioacetyl coenzyme A (Sphingomyelinase), and disulfide phosphatidyltransferase (Dipeptidyltransferase). These coenzymes play an important role in PIGB biosynthesis class B, participating in substrate conversion, S-adenylation and other reactions, thereby completing the biosynthesis of phosphatidylserine.

The research results of PIGB biosynthesis class B show that PIG is an important cell signaling molecule, and its biosynthesis process is regulated by a variety of enzymes. In addition, PIG also has a variety of biological functions, such as regulating immune responses and participating in cell proliferation. Therefore, PIGB biosynthesis class B is a promising research field and one of the targets for future drug development.

In drug research and development, PIGB biosynthesis class B has attracted widespread research interest as an important research object. Many researchers are committed to in-depth study of the molecular mechanism of PIGB biosynthesis class B and the application value of this biosynthesis pathway in drugs. With the continuous development of science and technology, PIGB biosynthesis class B, as a new drug target, is expected to bring more help to human health.

Protein Name: Phosphatidylinositol Glycan Anchor Biosynthesis Class B

Functions: Mannosyltransferase involved in glycosylphosphatidylinositol-anchor biosynthesis. Transfers the third alpha-1,2-mannose to Man2-GlcN-acyl-PI during GPI precursor assembly

More Common Targets

PIGBOS1 | PIGC | PIGF | PIGG | PIGH | PIGK | PIGL | PIGM | PIGN | PIGO | PIGP | PIGQ | PIGR | PIGS | PIGT | PIGU | PIGV | PIGW | PIGX | PIGY | PIGZ | PIH1D1 | PIH1D2 | PIK3AP1 | PIK3C2A | PIK3C2B | PIK3C2G | PIK3C3 | PIK3CA | PIK3CA-DT | PIK3CB | PIK3CD | PIK3CD-AS1 | PIK3CD-AS2 | PIK3CG | PIK3IP1 | PIK3IP1-DT | PIK3R1 | PIK3R2 | PIK3R3 | PIK3R4 | PIK3R5 | PIK3R6 | PIKFYVE | PILRA | PILRB | Pim Kinase | PIM1 | PIM2 | PIM3 | PIMREG | PIN1 | PIN1-DT | PIN1P1 | PIN4 | PINCR | PINK1 | PINK1-AS | PINLYP | PINX1 | PIP | PIP4K2A | PIP4K2B | PIP4K2C | PIP4P1 | PIP4P2 | PIP5K1A | PIP5K1B | PIP5K1C | PIP5K1P1 | PIP5KL1 | PIPOX | PIPSL | PIR | PIR-FIGF | PIRAT1 | PIRT | PISD | PISRT1 | PITHD1 | PITPNA | PITPNA-AS1 | PITPNB | PITPNC1 | PITPNM1 | PITPNM2 | PITPNM2-AS1 | PITPNM3 | PITRM1 | PITRM1-AS1 | PITX1 | PITX1-AS1 | PITX2 | PITX3 | PIWIL1 | PIWIL2 | PIWIL2-DT | PIWIL3 | PIWIL4 | PIWIL4-AS1