Mylk3: Unlocking The Protein's Multiple Functions (G91807)
Mylk3: Unlocking The Protein's Multiple Functions
Mylk3, also known as MGC126320, is a protein that is expressed in a variety of tissues throughout the body, including the nervous system, muscle system, and blood vessels. It is a member of the myosin heavy chain (MHC) family, which is a group of proteins that are involved in the structure and function of muscle cells.
One of the things that makes Mylk3 such an interesting protein is its role in the regulation of muscle growth and maintenance. Mylk3 has been shown to play a key role in the regulation of muscle cell size and function, as well as in the maintenance of muscle mass in aging animals.
Another function of Mylk3 is its role in the regulation of angiogenesis, which is the process by which new blood vessels are formed in the body. Mylk3 has been shown to be involved in the regulation of angiogenesis in a variety of tissues, including the skin and the blood vessels.
In addition to its role in muscle growth and maintenance, Mylk3 is also thought to be involved in the regulation of a variety of other processes in the body, including the immune system, the nervous system, and the endocrine system.
Despite its many functions, however, Mylk3 is still an relatively well-studied protein. Only a small number of studies have been conducted on this protein, and much of what is known about its functions comes from these studies.
One of the challenges in studying Mylk3 is its tendency to be expressed in a variety of different tissues, which makes it difficult to study its functions in specific contexts. Additionally, the structure of Mylk3 is not well understood, which can make it difficult to predict its functions.
Despite these challenges, however, research on Mylk3 is ongoing, and it is an area of active research in the field of molecular biology. As more studies are conducted on this protein, it is likely that its functions will become better understood, and new potential drug targets or biomarkers may be identified.
In conclusion, Mylk3 is a protein that is expressed in a variety of tissues throughout the body and is involved in a number of important functions, including muscle growth and maintenance, angiogenesis, and the regulation of a variety of other processes in the body. While more studies are needed to fully understand its functions, research on Mylk3 is an area of active research that has the potential to lead to new drug targets and biomarkers.
Protein Name: Myosin Light Chain Kinase 3
Functions: Kinase that phosphorylates MYL2 in vitro. Promotes sarcomere formation in cardiomyocytes and increases cardiomyocyte contractility (By similarity)
More Common Targets
MYLK4 | MYLKP1 | MYMK | MYMX | MYNN | MYO10 | MYO15A | MYO15B | MYO16 | MYO16-AS1 | MYO16-AS2 | MYO18A | MYO18B | MYO19 | MYO1A | MYO1B | MYO1C | MYO1D | MYO1E | MYO1F | MYO1G | MYO1H | MYO3A | MYO3B | MYO3B-AS1 | MYO5A | MYO5B | MYO5C | MYO6 | MYO7A | MYO7B | MYO9A | MYO9B | MYOC | MYOCD | MYOD1 | MYOF | MYOG | MYOM1 | MYOM2 | MYOM3 | MYORG | Myosin | Myosin class II | Myosin light-chain phosphatase | MYOSLID | MYOSLID-AS1 | MYOT | MYOZ1 | MYOZ2 | MYOZ3 | MYPN | MYPOP | MYRF | MYRF-AS1 | MYRFL | MYRIP | MYSM1 | MYT1 | MYT1L | MYT1L-AS1 | MYZAP | MZB1 | MZF1 | MZF1-AS1 | MZT1 | MZT2A | MZT2B | N-acetylglucosamine-1-phosphotransferase | N-CoR deacetylase complex | N-Terminal Acetyltransferase A (NatA) Complex | N-Terminal Acetyltransferase C (NatC) Complex | N-Type Calcium Channel | N4BP1 | N4BP2 | N4BP2L1 | N4BP2L2 | N4BP2L2-IT2 | N4BP3 | N6AMT1 | NAA10 | NAA11 | NAA15 | NAA16 | NAA20 | NAA25 | NAA30 | NAA35 | NAA38 | NAA40 | NAA50 | NAA60 | NAA80 | NAAA | NAALAD2 | NAALADL1 | NAALADL2 | NAALADL2-AS3 | NAB1 | NAB2
