Target Name: GNPAT
NCBI ID: G8443
Review Report on GNPAT Target / Biomarker Content of Review Report on GNPAT Target / Biomarker
GNPAT
Other Name(s): glyceronephosphate O-acyltransferase | DHAPAT | acyl-CoA:dihydroxyacetonephosphateacyltransferase | Dihydroxyacetone phosphate acyltransferase (isoform 1) | glycerone-phosphate O-acyltransferase | Glyceronephosphate O-acyltransferase, transcript variant 1 | DAP-AT | GNPAT variant 1 | DHAP-AT | Dihydroxyacetone phosphate acyltransferase | GNPAT_HUMAN | Glycerone-phosphate O-acyltransferase | RCDP2 | DAPAT | Acyl-CoA:dihydroxyacetonephosphateacyltransferase

GNPAT: Key Enzyme in The Glyceronephosphate Pathway

GNPAT (Glyceronephosphate O-acyltransferase) is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. GNPAT is responsible for the O-acyl transfer of glyceronephosphate (GNP) to various targets, including fatty acids, ceramides, and linear alkylated lipids.

GNPAT is a transmembrane protein that is expressed in most tissues of the body, including the brain, heart, liver, and muscle. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

One of the key functions of GNPAT is its role in the O-acyl transfer of GNP to various targets, including fatty acids, ceramides, and linear alkylated lipids. The O-acyl transfer reaction is a critical step in the glyceronephosphate pathway, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

In addition to its role in the O-acyl transfer of GNP, GNPAT is also involved in the regulation of various cellular processes in the body. For example, GNPAT has been shown to be involved in the regulation of inflammation, cellular signaling, and metabolism.

GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function.

In conclusion, GNPAT is a protein that is expressed in most tissues of the body. It is a key enzyme in the glyceronephosphate pathway, which is a conserved metabolic pathway that is involved in the transport and metabolism of various lipids in the body. The glyceronephosphate pathway is a critical pathway for the transport of lipids in the body, as it is involved in the production of the fatty acids that are essential for brain and muscle function. GNPAT plays a key role in the O-acyl transfer of GNP to various targets, including fatty acids, ceramides, and linear alkylated lipids. It is also involved in the regulation of various cellular processes in the body, including inflammation, cellular signaling, and metabolism. As a drug target or biomarker, GNPAT may be a valuable target for the development of new therapies for various diseases.

Protein Name: Glyceronephosphate O-acyltransferase

Functions: Dihydroxyacetonephosphate acyltransferase involved in plasmalogen biosynthesis

The "GNPAT Target / Biomarker Review Report" is a customizable review of hundreds up to thousends of related scientific research literature by AI technology, covering specific information about GNPAT comprehensively, including but not limited to:
•   general information;
•   protein structure and compound binding;
•   protein biological mechanisms;
•   its importance;
•   the target screening and validation;
•   expression level;
•   disease relevance;
•   drug resistance;
•   related combination drugs;
•   pharmacochemistry experiments;
•   related patent analysis;
•   advantages and risks of development, etc.
The report is helpful for project application, drug molecule design, research progress updates, publication of research papers, patent applications, etc. If you are interested to get a full version of this report, please feel free to contact us at BD@silexon.ai

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GNPDA1 | GNPDA2 | GNPNAT1 | GNPTAB | GNPTG | GNRH1 | GNRH2 | GNRHR | GNRHR2 | GNS | GOLGA1 | GOLGA2 | GOLGA2P10 | GOLGA2P11 | GOLGA2P2Y | GOLGA2P5 | GOLGA2P7 | GOLGA3 | GOLGA4 | GOLGA5 | GOLGA6A | GOLGA6B | GOLGA6C | GOLGA6D | GOLGA6EP | GOLGA6FP | GOLGA6L1 | GOLGA6L10 | GOLGA6L2 | GOLGA6L22 | GOLGA6L3P | GOLGA6L4 | GOLGA6L5P | GOLGA6L6 | GOLGA6L9 | GOLGA7 | GOLGA7B | GOLGA8A | GOLGA8B | GOLGA8CP | GOLGA8DP | GOLGA8EP | GOLGA8F | GOLGA8G | GOLGA8H | GOLGA8IP | GOLGA8J | GOLGA8K | GOLGA8M | GOLGA8N | GOLGA8O | GOLGA8Q | GOLGA8R | GOLGA8S | GOLGA8UP | GOLGB1 | Golgi-associated retrograde protein (GARP) complex | GOLIM4 | GOLM1 | GOLM2 | GOLPH3 | GOLPH3L | GOLT1A | GOLT1B | GON4L | GON7 | GOPC | GORAB | GORASP1 | GORASP2 | GOSR1 | GOSR2 | GOT1 | GOT1-DT | GOT1L1 | GOT2 | GOT2P1 | GP1BA | GP1BB | GP2 | GP5 | GP6 | GP9 | GPA33 | GPAA1 | GPALPP1 | GPAM | GPANK1 | GPAT2 | GPAT3 | GPAT4 | GPATCH1 | GPATCH11 | GPATCH2 | GPATCH2L | GPATCH3 | GPATCH4 | GPATCH8 | GPBAR1 | GPBP1