CKMT1A Activators
Chemical activators of CKMT1A include a variety of compounds that contribute to its function in cellular energy metabolism. Creatine is directly involved in the functional activity of CKMT1A; it donates a phosphate group to ADP to form ATP, which CKMT1A then uses to catalyze the conversion of creatine to phosphocreatine, an essential energy storage molecule in muscle cells. Magnesium chloride provides magnesium ions, which are essential cofactors that assist in the catalytic activity of CKMT1A, ensuring the proper orientation of ADP for efficient phosphorylation. Additionally, ADP itself is a substrate for CKMT1A, and its presence is critical for the enzyme's activity, as it accepts the phosphate from phosphocreatine to regenerate ATP, illustrating a direct activation mechanism. Bicarbonate serves to maintain a favorable pH environment for CKMT1A activity, preventing acidosis which can inhibit enzymatic functions.
D-Ribose contributes to ATP synthesis by providing the sugar backbone for nucleotide formation, which is necessary for CKMT1A to perform its role in energy transfer. Sodium fluoride, acting as a phosphatase inhibitor, prevents dephosphorylation of ADP, thereby ensuring a consistent supply of substrate for CKMT1A to act upon. Potassium chloride is involved in maintaining the cellular membrane potential, which in turn influences the intracellular distribution of ions and substrates that are critical for CKMT1A activity. Zinc sulfate can stabilize the CKMT1A structure, enhancing its activity by ensuring the enzyme maintains its active form. Ammonium sulfate may have a role in stabilizing the protein structure of CKMT1A, potentially leading to an optimized conformation for enzymatic action. L-Arginine, through its role in nitric oxide production, can indirectly influence mitochondrial efficiency and ATP generation, which is beneficial for the energy transfer reactions catalyzed by CKMT1A. Coenzyme Q10, as part of the mitochondrial electron transport chain, can raise the levels of ATP, providing CKMT1A with more substrate to form phosphocreatine. Lastly, Alpha-ketoglutarate participates in the Krebs cycle, which can lead to an increase in ADP availability, thereby enhancing the activity of CKMT1A in its crucial role of maintaining cellular energy reserves.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Creatine, anhydrous | 57-00-1 | sc-214774 sc-214774A | 10 mg 50 g | $27.00 $77.00 | 2 | |
Creatine provides a phosphate group to CKMT1A, which it uses to convert ADP to ATP, thereby directly increasing the enzyme's functional activity in generating phosphocreatine. | ||||||
Magnesium chloride | 7786-30-3 | sc-255260C sc-255260B sc-255260 sc-255260A | 10 g 25 g 100 g 500 g | $27.00 $34.00 $47.00 $123.00 | 2 | |
Magnesium ions are required cofactors for CKMT1A enzymatic activity, facilitating the proper positioning of substrates for phosphoryl transfer. | ||||||
ATP | 56-65-5 | sc-507511 | 5 g | $17.00 | ||
ADP serves as a substrate for CKMT1A, which upon phosphorylation to ATP, reflects direct enhancement of the enzyme's activity. | ||||||
Sodium bicarbonate | 144-55-8 | sc-203271 sc-203271A sc-203271B sc-203271C sc-203271D | 25 g 500 g 1 kg 5 kg 25 kg | $20.00 $28.00 $42.00 $82.00 $683.00 | 1 | |
Bicarbonate can affect the buffering capacity of the cellular environment in which CKMT1A operates, potentially optimizing the enzyme's activity by maintaining pH levels conducive for its function. | ||||||
Sodium Fluoride | 7681-49-4 | sc-24988A sc-24988 sc-24988B | 5 g 100 g 500 g | $39.00 $45.00 $98.00 | 26 | |
Sodium fluoride can act as a phosphatase inhibitor, and by preventing the dephosphorylation of ADP, it can indirectly increase the availability of substrate for CKMT1A activation. | ||||||
Potassium Chloride | 7447-40-7 | sc-203207 sc-203207A sc-203207B sc-203207C | 500 g 2 kg 5 kg 10 kg | $25.00 $56.00 $104.00 $183.00 | 5 | |
Potassium ions may influence cellular membrane potential and indirectly enhance the activity of CKMT1A by affecting the distribution of substrates and products of the enzyme. | ||||||
Zinc | 7440-66-6 | sc-213177 | 100 g | $47.00 | ||
Zinc ions can serve as a cofactor for many enzymes and may promote the structural integrity of CKMT1A, thereby enhancing its enzymatic activity. | ||||||
Ammonium Sulfate | 7783-20-2 | sc-29085A sc-29085 sc-29085B sc-29085C sc-29085D sc-29085E | 500 g 1 kg 2 kg 5 kg 10 kg 22.95 kg | $10.00 $20.00 $30.00 $40.00 $60.00 $100.00 | 9 | |
Ammonium ions can influence the protein folding and stability, potentially optimizing the active conformation of CKMT1A and thus its functional activation. | ||||||
L-Arginine | 74-79-3 | sc-391657B sc-391657 sc-391657A sc-391657C sc-391657D | 5 g 25 g 100 g 500 g 1 kg | $20.00 $30.00 $60.00 $215.00 $345.00 | 2 | |
L-Arginine can be a substrate for nitric oxide synthase, which produces nitric oxide that can modulate mitochondrial function and indirectly enhance CKMT1A activity by affecting cellular energy states. | ||||||
Coenzyme Q10 | 303-98-0 | sc-205262 sc-205262A | 1 g 5 g | $70.00 $180.00 | 1 | |
Coenzyme Q10 is involved in the mitochondrial electron transport chain, which can increase ATP synthesis, providing more substrate for CKMT1A to generate phosphocreatine. | ||||||