Target Name: G3BP2
NCBI ID: G9908
Review Report on G3BP2 Target / Biomarker Content of Review Report on G3BP2 Target / Biomarker
G3BP2
Other Name(s): Ras GTPase-activating protein-binding protein 2 (isoform a) | G3BP2-a | G3BP-2 | GTPase activating protein (SH3 domain) binding protein 2 | OTTHUMP00000160587 | Ras GTPase-activating protein-binding protein 2 | KIAA0660 | G3BP stress granule assembly factor 2 | OTTHUMP00000160586 | Ras-GTPase activating protein SH3 domain-binding protein 2 | G3BP2_HUMAN | GAP SH3 domain-binding protein 2 | OTTHUMP00000160588 | G3BP stress granule assembly factor 2, transcript variant 1 | G3BP2 variant 1

G3BP2: A Protein That Regulates Cell Signaling and Cell Adhesion

G3BP2, also known as Ras GTPase-activating protein-binding protein 2 (isoform a), is a protein that plays a critical role in cell signaling pathways. It is a protein that is expressed in various tissues and cells throughout the body, including the brain, heart, and muscles. Its primary function is to bind to the protein RasGTP, which is a key regulator of cell signaling pathways.

G3BP2 is a protein that is composed of 254 amino acids. It has a molecular weight of 31.1 kDa and a pre-alpha-m region of 180 kDa. G3BP2 is a monomer and has a single transmembrane domain. It has been shown to have a number of different functions, including regulating cell signaling pathways, cell adhesion, and neurotransmitter release.

One of the main functions of G3BP2 is its ability to bind to the protein RasGTP. This protein is a key regulator of cell signaling pathways and is involved in many different processes in the cell. It is a protein that is expressed in various tissues and cells throughout the body, including the brain, heart, and muscles. It is thought to play a critical role in regulating the formation of neurotransmitters, which are important for communication between cells.

G3BP2 is also involved in regulating cell adhesion. Adhesion is the process by which cells stick together to form tissues and organs. G3BP2 is thought to be involved in regulating the stickiness of cells to the surface of other cells, which is important for the formation of tissues and organs.

In addition to its role in cell signaling pathways and cell adhesion, G3BP2 is also involved in neurotransmitter release. This is the process by which cells release chemical messengers, such as neurotransmitters, into the space around them. G3BP2 is thought to be involved in regulating the release of neurotransmitters from cells, which is important for the function of the nervous system.

G3BP2 is a protein that has been shown to have a number of different functions in the body. It is thought to play a critical role in regulating cell signaling pathways, cell adhesion, and neurotransmitter release. As a result, G3BP2 may be a drug target or biomarker for a variety of diseases. For example, it is possible that G3BP2 may be a drug target for conditions such as cancer, neurodegenerative diseases, and psychiatric disorders.

In conclusion, G3BP2 is a protein that plays a critical role in cell signaling pathways and cell adhesion. It is a protein that is expressed in various tissues and cells throughout the body and is thought to have a number of different functions, including regulating cell signaling pathways, cell adhesion, and neurotransmitter release. As a result, G3BP2 may be a drug target or biomarker for a variety of diseases. Further research is needed to fully understand the role of G3BP2 in the body and its potential as a drug.

Protein Name: G3BP Stress Granule Assembly Factor 2

Functions: Scaffold protein that plays an essential role in cytoplasmic stress granule formation which acts as a platform for antiviral signaling

The "G3BP2 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 G3BP2 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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