Target Name: GATM
NCBI ID: G2628
Other Name(s): GATM variant 1 | glycine amidinotransferase | Transamidinase | FRTS1 | GATM variant 2 | Glycine amidinotransferase, transcript variant 2 | L-arginine:glycine amidinotransferase | Glycine amidinotransferase (L-arginine:glycine amidinotransferase) | Glycine amidinotransferase, mitochondrial (isoform 1) | AGAT | testicular secretory protein Li 19 | Testicular secretory protein Li 19 | Glycine amidinotransferase, mitochondrial | GATM_HUMAN | transamidinase | AT | glycine amidinotransferase (L-arginine:glycine amidinotransferase) | Glycine amidinotransferase, transcript variant 1 | CCDS3 | L-arginine:glycine amidinotransferase precursor | Glycine amidinotransferase, mitochondrial isoform 2

GATM: A Protein Involved in Various Cellular Processes

GATM (GATA-conserved transmembrane protein) is a gene that encodes a protein that is expressed in various tissues and cells throughout the body. The protein is involved in a variety of cellular processes, including cell signaling, chromosome structure, and DNA replication. GATM is also known as GATM variant 1, and it is a protein that is expressed in many tissues and cells throughout the body, including the brain, heart, liver, and muscle.

GATM is a transmembrane protein, which means that it spans the cell membrane and is expressed in the cell's membrane. This allows the protein to interact with other proteins and molecules that are on the outside of the cell. GATM is also a G protein-coupled receptor, which means that it is a protein that is involved in a signaling pathway that involves the interaction between proteins and other molecules.

GATM is involved in a variety of cellular processes that are important for the proper functioning of the body. For example, GATM is involved in the regulation of cell signaling, which is important for the development and maintenance of tissues and organs. GATM is also involved in the regulation of cell growth and differentiation, which is important for the development and maintenance of tissues and organs.

GATM is also involved in the regulation of DNA replication, which is important for the proper functioning of the immune system. GATM is involved in the regulation of DNA replication in order to ensure that the DNA of the cell is replicated accurately and completely. This is important for the development and maintenance of tissues and organs, as well as for the proper functioning of the immune system.

In addition to its role in cell signaling and DNA replication, GATM is also involved in the regulation of cell adhesion. GATM helps to regulate the stickiness of cells to other cells, which is important for the development and maintenance of tissues and organs. GATM is also involved in the regulation of cell migration, which is important for the formation of tissues and organs during development.

GATM is also involved in the regulation of the release of neurotransmitters, which is important for the proper functioning of the nervous system. GATM is involved in the regulation of the release of neurotransmitters, which are important for transmitting signals between neurons.

GATM is also involved in the regulation of pain perception, which is important for the proper functioning of the endocervical nervous system. GATM is involved in the regulation of pain perception, which is important for the development and maintenance of tissues and organs.

In conclusion, GATM is a protein that is involved in a variety of cellular processes that are important for the proper functioning of the body. GATM is a transmembrane protein that is expressed in many tissues and cells throughout the body, including the brain, heart, liver, and muscle. GATM is also a G protein-coupled receptor and is involved in the regulation of cell signaling, cell growth and differentiation, DNA replication, cell adhesion, neurotransmitter release, and pain perception. Therefore, GATM is a potential drug target and may be useful for the development of new treatments for a variety of diseases.

Protein Name: Glycine Amidinotransferase

Functions: Catalyzes the biosynthesis of guanidinoacetate, the immediate precursor of creatine. Creatine plays a vital role in energy metabolism in muscle tissues. May play a role in embryonic and central nervous system development. May be involved in the response to heart failure by elevating local creatine synthesis

More Common Targets

GATOR1 Complex | GAU1 | GBA1 | GBA2 | GBA3 | GBAP1 | GBE1 | GBF1 | GBGT1 | GBP1 | GBP1P1 | GBP2 | GBP3 | GBP4 | GBP5 | GBP6 | GBP7 | GBX1 | GBX2 | GC | GCA | GCAT | GCC1 | GCC2 | GCC2-AS1 | GCDH | GCFC2 | GCG | GCGR | GCH1 | GCHFR | GCK | GCKR | GCLC | GCLM | GCM1 | GCM2 | GCN1 | GCNA | GCNT1 | GCNT1P3 | GCNT2 | GCNT3 | GCNT4 | GCNT7 | GCOM1 | GCSAM | GCSAML | GCSAML-AS1 | GCSH | GCSHP3 | GCSIR | GDA | GDAP1 | GDAP1L1 | GDAP2 | GDE1 | GDF1 | GDF10 | GDF11 | GDF15 | GDF2 | GDF3 | GDF5 | GDF6 | GDF7 | GDF9 | GDI1 | GDI2 | GDI2P1 | GDNF | GDNF Family Receptor alpha | GDNF-AS1 | GDPD1 | GDPD2 | GDPD3 | GDPD4 | GDPD5 | GDPGP1 | GEM | GEMIN2 | GEMIN4 | GEMIN5 | GEMIN6 | GEMIN7 | GEMIN8 | GEMIN8P1 | GEMIN8P4 | GEN1 | general transcription factor IIF (TFIIF) | General transcription factor IIH | Geranylgeranyl transferase | Geranylgeranyl transferase type-1 | GET1 | GET3 | GET4 | GFAP | GFER | GFI1 | GFI1B