Mitochondrial Small Ribosomal Subunit Protein (mS34) Crucial in Energy Production and Fission
Mitochondrial Small Ribosomal Subunit Protein (mS34) Crucial in Energy Production and Fission
Mitochondrial small ribosomal subunit protein (mS34) is a protein that plays a crucial role in the function of the mitochondria, which are organelles found in the cells that power our bodies. Mitochondria are responsible for generating the energy that our cells need to function, and they are also involved in the production of a variety of molecules that are essential for life.
One of the key functions of mS34 is its role in the production of the protein tRNA, which is a molecule that carries amino acids from the cell's amino acid pool to the ribosome, where they are used to synthesize proteins. mS34 is a key component of the tRNA synthase complex, which is responsible for producing tRNA from the amino acids that are stored in the cell's amino acid pool.
In addition to its role in tRNA synthesis, mS34 is also involved in the regulation of mitochondrial fission, which is the process by which the mitochondria divide. mS34 has been shown to play a key role in regulating the fission that occurs when a mitochondria divides, and it has been suggested as a potential drug target for a variety of diseases.
One of the ways that mS34 is involved in fission is by its role in the production of the protein mitofusin, which is a protein that helps to keep the mitochondria fused together during the fission process. Mitofusin is produced by mS34 and is essential for the proper functioning of the mitochondria.
Another way that mS34 is involved in fission is by its role in the regulation of the fusion of the mitochondrial cytoplasm with the cell membrane during the fission process. This process is called mitochondrial fission fragments and is critical for the formation of new mitochondria that can take over the function of the old ones.
In addition to its role in fission, mS34 is also involved in the regulation of mitochondrial dynamics, which is the movement of mitochondria within the cell. This includes the movement of mitochondria to the cell's center, where they are involved in the production of energy.
Mitochondria are also involved in the production of a variety of molecules, including proteins, nucleic acids, and lipids. These molecules are crucial for the proper functioning of the cell, and mS34 plays a key role in their production.
Given its involvement in so many important cellular processes, it is not surprising that mS34 has been identified as a potential drug target. Many diseases are caused by problems with the function of mitochondria, and drugs that can modulate the activity of mS34 may have a wide range of therapeutic applications.
One of the potential benefits of targeting mS34 is its potential to treat a variety of neurodegenerative diseases, such as Alzheimer's disease, Parkinson's disease, and Huntington's disease. These conditions are caused by problems with the functioning of the mitochondria, and mS34 has been shown to play a key role in their development.
Another potential benefit of targeting mS34 is its potential to treat a variety of metabolic disorders, such as diabetes and obesity. These conditions are often caused by problems with the function of the mitochondria, and mS34 has been shown to play a key role in their development.
In addition to its potential therapeutic applications, mS34 is also an attractive biomarker for a variety of diseases. Its production is often affected by changes in the levels of certain amino acids, which can be used as a marker for a variety of diseases. For example, mS34 levels have been shown to be affected by changes in the levels of protein synthesis, which can be used as a marker for a variety of diseases, such as cancer.
Overall, mS34 is a protein that plays a crucial role in the function
Protein Name: Mitochondrial Ribosomal Protein S34
Functions: Required for mitochondrial translation, plays a role in maintaining the stability of the small ribosomal subunit and the 12S rRNA that are required for mitoribosome formation
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More Common Targets
MRPS35 | MRPS35-DT | MRPS36 | MRPS36P4 | MRPS5 | MRPS6 | MRPS7 | MRPS9 | MRRF | MRS2 | MRS2P2 | MRTFA | MRTFB | MRTO4 | MS4A1 | MS4A10 | MS4A12 | MS4A13 | MS4A14 | MS4A15 | MS4A18 | MS4A2 | MS4A3 | MS4A4A | MS4A4E | MS4A5 | MS4A6A | MS4A6E | MS4A7 | MS4A8 | MSANTD1 | MSANTD2 | MSANTD3 | MSANTD4 | MSC | MSC-AS1 | MSGN1 | MSH2 | MSH3 | MSH4 | MSH5 | MSH5-SAPCD1 | MSH6 | MSI1 | MSI2 | MSL1 | MSL2 | MSL3 | MSL3P1 | MSLN | MSLNL | MSMB | MSMO1 | MSMP | MSN | MSNP1 | MSR1 | MSRA | MSRA-DT | MSRB1 | MSRB1P1 | MSRB2 | MSRB3 | MSRB3-AS1 | MSS51 | MST1 | MST1L | MST1P2 | MST1R | MSTN | MSTO1 | MSTO2P | MSX1 | MSX2 | MSX2P1 | MT1A | MT1B | MT1DP | MT1E | MT1F | MT1G | MT1H | MT1HL1 | MT1IP | MT1JP | MT1L | MT1M | MT1P1 | MT1P3 | MT1X | MT1XP1 | MT2A | MT3 | MT4 | MTA1 | MTA1-DT | MTA2 | MTA3 | MTAP | MTARC1
