ATPAF2 Activators
Compounds such as Coenzyme Q10 and NAD+ are integral to the electron transport chain, ensuring the necessary flow of electrons for ATP synthesis, in which ATPAF2 is intricately involved. Others, such as resveratrol and AICAR, operate through the activation of sirtuins and AMPK, respectively, both of which are known to promote mitochondrial biogenesis and enhance the overall energy capacity of the cell. This, in turn, can provide a more favorable environment for the function of ATPAF2 in ATP synthase assembly.
Moreover, compounds like alpha-lipoic acid and spermidine provide broad support to mitochondrial health, the former through its antioxidant capacity and the latter through the promotion of autophagy, which can lead to the turnover of damaged mitochondria and the formation of new ones. Creatine monohydrate and sodium pyruvate function as energy buffers and substrates, supporting the energetic demands of the cell and, by extension, the activities of mitochondrial proteins such as ATPAF2. Agents such as Pioglitazone, Dichloroacetic acid, Bezafibrate, and 1,1-Dimethylbiguanide, Hydrochloride, while commonly associated with metabolic regulation, can also influence mitochondrial dynamics. By activating various aspects of the cellular machinery that governs the production and maintenance of mitochondria, thesecompounds can create an internal milieu that fosters the activity of ATP synthase assembly factors, including ATPAF2.
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Items 1 to 10 of 11 total
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Coenzyme Q10 | 303-98-0 | sc-205262 sc-205262A | 1 g 5 g | $70.00 $180.00 | 1 | |
As an essential electron transporter in the mitochondrial respiratory chain, Coenzyme Q10 can support ATPAF2 activity by maintaining optimal mitochondrial function. | ||||||
Resveratrol | 501-36-0 | sc-200808 sc-200808A sc-200808B | 100 mg 500 mg 5 g | $60.00 $185.00 $365.00 | 64 | |
Resveratrol can enhance mitochondrial biogenesis via SIRT1 activation, potentially upregulating ATPAF2's role in ATP synthase assembly. | ||||||
NAD+, Free Acid | 53-84-9 | sc-208084B sc-208084 sc-208084A sc-208084C sc-208084D sc-208084E sc-208084F | 1 g 5 g 10 g 25 g 100 g 1 kg 5 kg | $56.00 $186.00 $296.00 $655.00 $2550.00 $3500.00 $10500.00 | 4 | |
NADH, as a key electron donor in the respiratory chain, can support the function of mitochondrial proteins like ATPAF2 by ensuring efficient energy metabolism. | ||||||
Spermidine | 124-20-9 | sc-215900 sc-215900B sc-215900A | 1 g 25 g 5 g | $56.00 $595.00 $173.00 | ||
Spermidine can induce autophagy and improve mitochondrial function, which may lead to enhanced activity of ATPAF2 for ATP synthase assembly. | ||||||
α-Lipoic Acid | 1077-28-7 | sc-202032 sc-202032A sc-202032B sc-202032C sc-202032D | 5 g 10 g 250 g 500 g 1 kg | $68.00 $120.00 $208.00 $373.00 $702.00 | 3 | |
An antioxidant that can help to maintain mitochondrial health, possibly supporting ATPAF2's role in ATP synthase assembly. | ||||||
Creatine monohydrate | 6020-87-7 | sc-257262 sc-257262A | 100 g 1 kg | $43.00 $122.00 | ||
Creatine can enhance mitochondrial energy metabolism, which in turn can support ATPAF2 function. | ||||||
AICAR | 2627-69-2 | sc-200659 sc-200659A sc-200659B | 50 mg 250 mg 1 g | $60.00 $270.00 $350.00 | 48 | |
AICAR can activate AMPK, leading to increased mitochondrial biogenesis and possibly enhancing ATPAF2 activity. | ||||||
Pioglitazone | 111025-46-8 | sc-202289 sc-202289A | 1 mg 5 mg | $54.00 $123.00 | 13 | |
As a PPAR-gamma agonist, Pioglitazone can influence mitochondrial biogenesis, potentially affecting ATPAF2 activity. | ||||||
Dichloroacetic acid | 79-43-6 | sc-214877 sc-214877A | 25 g 100 g | $60.00 $125.00 | 5 | |
DCA can stimulate mitochondrial activity by promoting pyruvate dehydrogenase activity, which may enhance ATPAF2 function. | ||||||
Bezafibrate | 41859-67-0 | sc-204650B sc-204650 sc-204650A sc-204650C | 500 mg 1 g 5 g 10 g | $30.00 $45.00 $120.00 $200.00 | 5 | |
By activating PPARs, Bezafibrate can have a role in mitochondrial biogenesis and function, potentially supporting ATPAF2. | ||||||