DMAC2L: A Protein Involved in ATP Synthesis and Cellular Processes

Target Name: DMAC2L

NCBI ID: G27109

DMAC2L

Other Name(s): ATP synthase-coupling factor B | ATP synthase subunit s, mitochondrial (isoform a) | FB | ATP synthase, H+ transporting, mitochondrial F0 complex, subunit s (factor B) | Distal membrane arm assembly complex 2-like protein | HSU79253 | distal membrane arm assembly component 2 like | ATPW | ATP5S_HUMAN | ATP5S variant 1 | ATP synthase, H+ transporting, mitochondrial Fo complex, subunit s (factor B), transcript variant 1 | distal membrane arm assembly complex 2 like | Mitochondrial ATP synthase regulatory component factor B | ATP synthase subunit s, mitochondrial | ATP synthase coupling factor B-like 1 | ATP Synthase, H+ transporting, mitochondrial F0 complex, subunit s (ATP5S) | distal membrane arm assembly complex 2-like protein | ATP synthase coupling factor B, mitochondrial | ATP5S | mitochondrial ATP synthase regulatory component factor B | ATP synthase, H+ transporting, mitochondrial Fo complex subunit s (factor B)

DMAC2L: A Protein Involved in ATP Synthesis and Cellular Processes

DMAC2L (ATP synthase-coupling factor B) is a protein that plays a crucial role in the production of ATP, a vital energy compound in all living organisms. It is a key player in the ATP synthase, a protein complex that generates ATP through a high-energy reaction. DMAC2L is a protein that is often targeted by drug developers due to its unique structure and its involvement in cellular processes that are often targeted by drugs.

DMAC2L is a 21-kDa protein that is expressed in most tissues of the body. It is a member of the protein family B, which includes proteins that are involved in various cellular processes, including the production of ATP. DMAC2L is characterized by a unique structure that includes a long N-terminus that is rich in amino acids, as well as a C-terminus that is involved in protein-protein interactions.

DMAC2L is involved in the production of ATP through its role in the ATP synthase. ATP synthase is a protein complex that consists of several subunits that are involved in the production of ATP through a high-energy reaction. The ATP synthase consists of four subunits: E, F, G, and H. E and F are the ATP synthase subunits, which contain the ATP synthase active site and the F1 subunit, which contains the ATP synthase regulatory subunit. ATP synthase active site and the C1 subunit, respectively.

DMAC2L is a key player in the ATP synthase due to its involvement in the production of ATP. It is research showing that DMAC2L plays a crucial role in the production of ATP by interacting with the ATP synthase subunits E, F, G, and H. DMAC2L has been shown to interact with the ATP synthase subunits through its N-terminus, which is rich in amino acids. This interaction between DMAC2L and the ATP synthase subunits allows DMAC2L to influence the production of ATP.

In addition to its role in the ATP synthase, DMAC2L is also involved in the regulation of cellular processes. Studies have shown that DMAC2L is involved in the regulation of cell growth, differentiation, and survival. For example, DMAC2L has been shown to play a role in the regulation of cell proliferation and has been shown to inhibit the growth of cancer cells.

DMAC2L is also a potential drug target due to its involvement in cellular processes that are often targeted by drugs. For example, DMAC2L has been shown to be involved in the regulation of cell death, which is a critical process that is regulated by various signaling pathways . This suggests that targeting DMAC2L may be a promising strategy for the development of new drugs that are designed to inhibit cell death.

In conclusion, DMAC2L is a protein that is involved in the production of ATP through its role in the ATP synthase. It is a key player in the regulation of cellular processes and has been shown to be involved in the regulation of cell growth, differentiation, and survival. As a result, DMAC2L is a protein that is often targeted by drug developers due to its unique structure and its involvement in cellular processes that are often targeted by drugs. Further research is needed to fully understand the role of DMAC2L in cellular processes and to develop new drugs that can inhibit its activity.

Protein Name: Distal Membrane Arm Assembly Component 2 Like

Functions: Involved in regulation of mitochondrial membrane ATP synthase. Necessary for H(+) conduction of ATP synthase. Facilitates energy-driven catalysis of ATP synthesis by blocking a proton leak through an alternative proton exit pathway

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•   general information;
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•   protein biological mechanisms;
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•   expression level;
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