SERHL: A Protein Involved in TGF-beta Signaling and Cellular Processes
SERHL: A Protein Involved in TGF-beta Signaling and Cellular Processes
SERHL (dJ222E13.1) is a protein that is expressed in various tissues throughout the body, including the brain, heart, and kidneys. Its full name is doublecortin receptor-like protein, and it is a member of the TGF-beta signaling pathway. This pathway is involved in the regulation of cell growth, differentiation, and survival, and it is a key factor in the development and maintenance of tissues.
SERHL is a 14 kDa protein that is expressed in the brain, heart, and kidneys, and it is also found in various other tissues throughout the body. It is a member of the TGF-beta signaling pathway, which is a well-established framework for the regulation of cellular processes in various tissues. This pathway is involved in the regulation of cell growth, differentiation, and survival, and it is a key factor in the development and maintenance of tissues.
One of the functions of SERHL is to regulate the activity of the TGF-beta signaling pathway. This is done by interacting with the transcription factor, SMAD, and by influencing the activity of the pathway's downstream targets, such as the enzymes, P0 and P40. These interactions between SERHL and SMAD play a crucial role in the regulation of cellular processes in various tissues.
In addition to its role in the TGF-beta pathway, SERHL is also involved in the regulation of cellular processes in various tissues. For example, it is has been shown to play a role in the regulation of neuronal excitability, and it is thought to influence the release of neurotransmitters, such as dopamine and GABA, from neurons.
Furthermore, SERHL is also involved in the regulation of the immune response. It is has been shown to play a role in the regulation of T cell development and function, and it is also involved in the regulation of the production of antibodies.
In conclusion, SERHL is a protein that is involved in the regulation of various cellular processes in the body. Its role in the TGF-beta pathway and its involvement in the regulation of neuronal excitability, immune response and the regulation of cell growth and differentiation make it a potential drug target and biomarker. Further studies are needed to fully understand the role of SERHL in the regulation of cellular processes and its potential as a drug target.
Protein Name: Serine Hydrolase Like (pseudogene)
Functions: Putative serine hydrolase
More Common Targets
SERINC1 | SERINC2 | SERINC3 | SERINC4 | SERINC5 | Serine (or cysteine) proteinase inhibitor clade F | Serine palmitoyltransferase | Serine protease | Serine protease inhibitor | Serine-aspartate repeat-containing protein I-like | SERP1 | SERP2 | SERPINA1 | SERPINA10 | SERPINA11 | SERPINA12 | SERPINA13P | SERPINA2 | SERPINA3 | SERPINA4 | SERPINA5 | SERPINA6 | SERPINA7 | SERPINA9 | SERPINB1 | SERPINB10 | SERPINB11 | SERPINB12 | SERPINB13 | SERPINB2 | SERPINB3 | SERPINB4 | SERPINB5 | SERPINB6 | SERPINB7 | SERPINB8 | SERPINB9 | SERPINB9-AS1 | SERPINB9P1 | SERPINC1 | SERPIND1 | SERPINE1 | SERPINE2 | SERPINE3 | SERPINF1 | SERPINF2 | SERPING1 | SERPINH1 | SERPINI1 | SERPINI2 | SERTAD1 | SERTAD2 | SERTAD3 | SERTAD4 | SERTAD4-AS1 | SERTM1 | SERTM2 | Serum amyloid protein | SESN1 | SESN2 | SESN3 | SESTD1 | Sestrin | SET | SET1 histone methyltransferase complex | SETBP1 | SETBP1-DT | SETD1A | SETD1B | SETD2 | SETD3 | SETD4 | SETD4-AS1 | SETD5 | SETD6 | SETD7 | SETD9 | SETDB1 | SETDB2 | SETMAR | SETP14 | SETP20 | SETP22 | SETX | SEZ6 | SEZ6L | SEZ6L2 | SF1 | SF3A1 | SF3A2 | SF3A3 | SF3A3P2 | SF3B1 | SF3B2 | SF3B3 | SF3B4 | SF3B5 | SF3B6 | SFI1 | SFMBT1
