creatine kinase-B Activators
Creatine kinase-B activators, as categorized in the context of the above table, encompass a range of compounds that enhance the activity of CK-B indirectly by influencing cellular processes or pathways related to energy metabolism. These chemicals do not activate CK-B directly but modulate its activity through alterations in substrate availability, cofactor optimization, or the enhancement of cellular energy states. The primary method by which these chemicals can influence CK-B involves the enhancement of substrate availability or the optimization of the enzymatic environment. Compounds such as Creatine, Magnesium Sulphate, Adenosine Diphosphate (ADP), D-Ribose, Pyruvate, and L-Carnitine increase the availability of substrates or cofactors necessary for CK-B's enzymatic reactions. For example, Creatine supplementation increases creatine phosphate levels, directly providing CK-B with more substrate for conversion to phosphocreatine. Similarly, Magnesium Sulphate enhances CK-B activity by increasing magnesium levels, which is a crucial cofactor for CK-B.
Additionally, other compounds listed such as Coenzyme Q10, Alpha-Lipoic Acid, Caffeine, Nicotinamide Adenine Dinucleotide (NADH), Zinc Sulphate, and Bicarbonate indirectly stimulate CK-B activity by enhancing overall cellular energy metabolism or maintaining optimal cellular conditions for enzyme function. Enhancements in energy metabolism lead to increased production of ATP and ADP, which are substrates for CK-B, thereby increasing its activity. For instance, Coenzyme Q10, involved in ATP synthesis, can increase ATP levels, indirectly stimulating CK-B activity. In summary, CK-B activators, as classified here, are compounds that impact the activity of CK-B through indirect mechanisms by modulating cellular energy states, substrate availability, cofactor levels, or the cellular environment. Their influence on CK-B is rooted in their ability to create favorable conditions for CK-B activity, either by enhancing the availability of substrates and cofactors or by optimizing the cellular metabolic state. These activators showcase the complex interplay between cellular metabolism and the functional modulation of key metabolic enzymes like CK-B.
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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 supplementation can increase the availability of creatine phosphate, which is a direct substrate of CK-B. Elevated levels of creatine can enhance CK-B activity by providing more substrate for the enzyme to convert to phosphocreatine. | ||||||
Magnesium sulfate anhydrous | 7487-88-9 | sc-211764 sc-211764A sc-211764B sc-211764C sc-211764D | 500 g 1 kg 2.5 kg 5 kg 10 kg | $45.00 $68.00 $160.00 $240.00 $410.00 | 3 | |
Magnesium acts as a cofactor for CK-B. Magnesium Sulphate can increase intracellular magnesium levels, potentially enhancing CK-B activity by optimizing the enzyme's microenvironment for its catalytic action. | ||||||
Adenosine-5′-Diphosphate, free acid | 58-64-0 | sc-291846 sc-291846A sc-291846B sc-291846C sc-291846D sc-291846E | 100 mg 500 mg 1 g 10 g 100 g 500 g | $77.00 $180.00 $312.00 $924.00 $4596.00 $9186.00 | 1 | |
ADP is a product of ATP hydrolysis and can act as a substrate for CK-B in the reverse reaction, converting phosphocreatine back to creatine and producing ATP. Elevated ADP levels can enhance CK-B activity by providing substrate for this reverse reaction. | ||||||
D-(−)-Ribose | 50-69-1 | sc-221458 sc-221458A sc-221458B sc-221458C sc-221458D sc-221458E sc-221458F | 5 g 25 g 100 g 250 g 1 kg 5 kg 10 kg | $25.00 $57.00 $110.00 $230.00 $600.00 $1200.00 $2000.00 | 1 | |
D-Ribose can enhance ATP synthesis. Increased ATP levels can indirectly activate CK-B by increasing the availability of ADP and phosphocreatine, both substrates for CK-B's enzymatic reactions. | ||||||
Pyruvic acid | 127-17-3 | sc-208191 sc-208191A | 25 g 100 g | $40.00 $94.00 | ||
Pyruvate, a key glycolytic intermediate, can enhance overall energy metabolism. Enhanced energy metabolism may indirectly increase CK-B activity by increasing ATP and ADP levels, thereby providing substrates for CK-B. | ||||||
L-Carnitine | 541-15-1 | sc-205727 sc-205727A sc-205727B sc-205727C | 1 g 5 g 100 g 250 g | $23.00 $33.00 $77.00 $175.00 | 3 | |
L-Carnitine enhances fatty acid oxidation, a major source of ATP in muscle cells. Increased ATP production can indirectly activate CK-B by elevating ADP levels, which serve as substrates for CK-B. | ||||||
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 and can enhance ATP synthesis. Increased ATP levels can indirectly stimulate CK-B activity. | ||||||
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 | |
Alpha-Lipoic Acid is an antioxidant that can also enhance cellular energy metabolism. Enhanced energy metabolism may lead to increased CK-B activity by increasing the availability of its substrates. | ||||||
Caffeine | 58-08-2 | sc-202514 sc-202514A sc-202514B sc-202514C sc-202514D | 5 g 100 g 250 g 1 kg 5 kg | $32.00 $66.00 $95.00 $188.00 $760.00 | 13 | |
Caffeine can increase metabolic rate and enhance fatty acid oxidation, potentially leading to increased ATP production. This increase in ATP can indirectly stimulate CK-B activity. | ||||||
NADH disodium salt | 606-68-8 | sc-205762 sc-205762A | 500 mg 1 g | $89.00 $127.00 | 3 | |
NADH is a key molecule in cellular energy metabolism. Increased NADH can enhance oxidative phosphorylation, leading to increased ATP production and indirectly stimulating CK-B activity. | ||||||