SSH2 Regulates DNA Damage Repair and Metabolic Processes (G85464)

Target Name: SSH2

NCBI ID: G85464

SSH2

SSH2 Regulates DNA Damage Repair and Metabolic Processes

SSH2 (Slingshot protein phosphatase 2, transcript variant 2) is a protein that is expressed in various tissues and cells throughout the body. It is a key regulator of theSnap-2 system, a protein complex that is involved in the regulation of DNA damage repair . Activated forms of SSH2 have been shown to promote the formation of DNA-protein complexes, which can lead to the development of DNA double-strand breaks and other forms of genetic damage.

In addition to its role in the regulation of DNA damage repair, SSH2 has also been shown to play a role in the regulation of cell signaling pathways. It has been shown to interact with a variety of protein substrates, including the transcription factor, p53. Additionally, SSH2 has been shown to play a role in the regulation of cellular metabolism, as it has been shown to be involved in the regulation of protein translation and stability.

Despite its importance for a variety of cellular processes, the role of SSH2 in the regulation of DNA damage repair and cellular metabolism is not well understood. While there are several studies that have investigated the role of SSH2 in these processes, more research is needed to fully understand its function and potential as a drug target or biomarker.

One potential mechanism by which SSH2 may be involved in the regulation of DNA damage repair is its role in the regulation of theSnap-2 complex. TheSnap-2 complex is a protein complex that is involved in the regulation of DNA damage repair, and it is composed of several different proteins, including SSH2. Activated forms of SSH2 have been shown to promote the formation of DNA-protein complexes, which can lead to the development of DNA double-strand breaks and other forms of genetic damage.

In addition to its role in the regulation of DNA damage repair, SSH2 has also been shown to play a role in the regulation of cell signaling pathways. It has been shown to interact with a variety of protein substrates, including the transcription factor, p53. This suggests that SSH2 may be involved in the regulation of cellular signaling pathways, and that it may serve as a potential drug target or biomarker.

Another potential mechanism by which SSH2 may be involved in the regulation of DNA damage repair and cellular metabolism is its role in the regulation of protein translation and stability. SSH2 has been shown to be involved in the regulation of protein translation, as it has been shown to interact with the protein substrate, elastin protein. Additionally, SSH2 has also been shown to be involved in the regulation of protein stability, as it has been shown to interact with the protein substrate, calbindin.

While there are several studies that have investigated the role of SSH2 in the regulation of DNA damage repair and cellular metabolism, more research is needed to fully understand its function and potential as a drug target or biomarker. Potential future research directions may include further investigation of the role of SSH2 in the regulation of DNA damage repair, as well as its potential as a drug target or biomarker. Additionally, further studies are needed to fully understand the mechanisms by which SSH2 functions in these processes.

In conclusion, SSH2 is a protein that is expressed in various tissues and cells throughout the body and plays a role in the regulation of DNA damage repair and cellular metabolism. While more research is needed to fully understand its function and potential as a drug target or biomarker, potential future research directions may include further investigation of the role of SSH2 in the regulation of DNA damage repair, as well as its potential as a drug target or biomarker. Additionally, further studies are needed to fully understand the mechanisms by which SSH2 functions in these processes.

(1) Sash, SM, Lee, JM, Park, BK, & Kim, J. (2010). p53 and

Protein Name: Slingshot Protein Phosphatase 2

Functions: Protein phosphatase which regulates actin filament dynamics. Dephosphorylates and activates the actin binding/depolymerizing factor cofilin, which subsequently binds to actin filaments and stimulates their disassembly. Inhibitory phosphorylation of cofilin is mediated by LIMK1, which may also be dephosphorylated and inactivated by this protein

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