Target Name: ESRRG
NCBI ID: G2104
Other Name(s): ERRG2 | ERR gamma-2 | nuclear receptor subfamily 3 group B member 3 | estrogen related receptor gamma | NR3B3 | KIAA0832 | estrogen receptor-related protein 3 | FLJ16023 | Estrogen receptor-related protein 3 | Estrogen-related receptor gamma (isoform 1) | Estrogen-related receptor gamma | Nuclear receptor subfamily 3 group B member 3 | Estrogen related receptor gamma, transcript variant 16 | Estrogen receptor related protein 3 | ERR3 | Estrogen related receptor gamma, transcript variant 1 | ERRg | ERRgamma | ERR3_HUMAN | ERR-gamma | ESRRG variant 4 | DKFZp781L1617 | Estrogen-related receptor gamma (isoform 2) | Estrogen-related receptor gamma (isoform 6) | ESRRG variant 1 | Estrogen related receptor gamma, transcript variant 4 | ESRRG variant 16

ESRRG: A Potential Drug Target for Neurological Diseases

ESRRG (Ergonomic Stress Response Gene) is a gene that has been identified as a potential drug target in the field of neurological diseases. ESRRG is a stress-responsive gene that is expressed in response to physical stress, such as exercise or injury, and has been shown to play a role in the regulation of cellular stress responses.

ESRRG is a protein that is synthesized in response to stress and has been shown to have a number of different functions in the body, including the regulation of inflammation, cell death, and the immune response. ESRRG has also been shown to play a role in the development and progression of a number of neurological diseases, including Alzheimer's disease, Parkinson's disease, and multiple sclerosis.

One of the key reasons why ESRRG has been identified as a potential drug target is its involvement in the regulation of cellular stress responses. Chronic stress has been shown to have a number of negative effects on the body, including the development of chronic pain, anxiety and depression, and immune system dysfunction. ESRRG has been shown to be involved in the regulation of these stress responses and has been shown to play a role in the regulation of inflammation and cellular stress.

Another reason why ESRRG has been identified as a potential drug target is its involvement in the development and progression of neurological diseases. ESRRG has been shown to be involved in the development and progression of a number of neurological diseases, including Alzheimer's disease, Parkinson's disease, and multiple sclerosis. By targeting ESRRG with drugs, researchers may be able to develop new treatments for these diseases.

ESRRG is also a potential biomarker for assessing the effectiveness of drugs in the treatment of neurological diseases. By measuring the levels of ESRRG in brain tissue or blood samples, researchers may be able to determine the effectiveness of drugs in the treatment of neurological diseases. This could help to improve the accuracy and effectiveness of drug treatments.

In conclusion, ESRRG is a gene that has been identified as a potential drug target in the field of neurological diseases. ESRRG is involved in the regulation of cellular stress responses and has been shown to play a role in the development and progression of a number of neurological diseases. Targeting ESRRG with drugs may be an effective way to develop new treatments for these diseases. Additionally, ESRRG can be used as a biomarker to assess the effectiveness of drugs in the treatment of neurological diseases. Further research is needed to fully understand the role of ESRRG in the development and treatment of neurological diseases.

Protein Name: Estrogen Related Receptor Gamma

Functions: Orphan receptor that acts as transcription activator in the absence of bound ligand. Binds specifically to an estrogen response element and activates reporter genes controlled by estrogen response elements (By similarity). Induces the expression of PERM1 in the skeletal muscle

More Common Targets

ESS2 | Estrogen receptor | Estrogen-related receptor (ERR) (nonspecifed subtype) | ESX1 | ESYT1 | ESYT2 | ESYT3 | ETAA1 | ETF1 | ETFA | ETFB | ETFBKMT | ETFDH | ETFRF1 | ETHE1 | ETNK1 | ETNK2 | ETNPPL | ETS1 | ETS2 | ETS2-AS1 | ETV1 | ETV2 | ETV3 | ETV3L | ETV4 | ETV5 | ETV6 | ETV7 | Eukaryotic translation initiation factor 2-alpha kinase | Eukaryotic translation initiation factor 2B | Eukaryotic translation initiation factor 3 (eIF-3) complex | Eukaryotic Translation Initiation Factor 4A (eIF-4A) | Eukaryotic Translation Initiation Factor 4E Binding Protein | EVA1A | EVA1A-AS | EVA1B | EVA1C | EVC | EVC2 | EVI2A | EVI2B | EVI5 | EVI5L | EVL | EVPL | EVPLL | EVX1 | EVX1-AS | EVX2 | EWSAT1 | EWSR1 | EXD1 | EXD2 | EXD3 | EXO1 | EXO5 | EXOC1 | EXOC1L | EXOC2 | EXOC3 | EXOC3-AS1 | EXOC3L1 | EXOC3L2 | EXOC3L4 | EXOC4 | EXOC5 | EXOC5P1 | EXOC6 | EXOC6B | EXOC7 | EXOC8 | Exocyst complex | EXOG | EXOGP1 | Exon junction complex | EXOSC1 | EXOSC10 | EXOSC10-AS1 | EXOSC2 | EXOSC3 | EXOSC4 | EXOSC5 | EXOSC6 | EXOSC7 | EXOSC8 | EXOSC9 | Exosome Complex | EXPH5 | EXT1 | EXT2 | EXTL1 | EXTL2 | EXTL2P1 | EXTL3 | EXTL3-AS1 | EYA1 | EYA2 | EYA3 | EYA4