MRP-S5 Activators
Chemical activators of MRP-S5 engage in a variety of biochemical processes that can lead to the functional activation of the protein. Coenzyme Q10, being integral to the electron transport chain, can enhance mitochondrial membrane potential, which in turn necessitates increased protein synthesis by the mitochondrial ribosome, involving MRP-S5. Spermidine, by inducing autophagy and subsequent mitochondrial biogenesis, can result in a higher turnover of mitochondrial components, thereby requiring greater activity of MRP-S5 for new protein synthesis. NAD+, a coenzyme in redox reactions, can boost oxidative phosphorylation, a process critically dependent on the proper functioning of mitochondrial proteins, including MRP-S5, to meet the energy demands of the cell. Methylene Blue serves as an alternative electron carrier in the mitochondrial electron transport chain, possibly increasing the demand for robust protein synthesis where MRP-S5 plays a key role.
Further, Pyrroloquinoline quinone (PQQ) can influence mitochondrial biogenesis, which may induce a higher demand for the protein synthesis capabilities of MRP-S5. Retinoic Acid affects mitochondrial biogenesis through receptor-mediated signaling, thereby potentially raising the activity of mitochondrial proteins such as MRP-S5. Leucine's stimulation of mTOR signaling, a central regulator of protein synthesis, can also be linked to the increased activity of mitochondrial ribosomal proteins like MRP-S5. Alpha-lipoic acid is known to improve mitochondrial function, which may increase the activity of mitochondrial proteins, including MRP-S5, to boost protein synthesis. Resveratrol activates sirtuins that promote mitochondrial biogenesis, potentially enhancing MRP-S5 activity as part of the increased synthesis of mitochondrial proteins. Creatine, known for enhancing mitochondrial bioenergetics, can lead to a heightened activity of proteins such as MRP-S5, as they are crucial for protein assembly in the mitochondria. AICAR's activation of AMPK, which leads to mitochondrial biogenesis, can result in a greater requirement for the functional activity of mitochondrial ribosomal proteins like MRP-S5. Lastly, Sulforaphane activates NRF2, supporting mitochondrial function and biogenesis, which can lead to an upregulated activity of mitochondrial ribosome-associated proteins such as MRP-S5.
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Items 1 to 10 of 12 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 a component of the electron transport chain, Coenzyme Q10 can increase mitochondrial membrane potential, thereby potentially enhancing the activity of MRP-S5 in mitochondrial protein synthesis. | ||||||
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 which includes turnover and reformation of mitochondria, this process could indirectly increase the activity of mitochondrial ribosomal proteins like MRP-S5. | ||||||
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 | |
NAD+ is essential for oxidative phosphorylation. Increasing NAD+ levels can enhance mitochondrial function and indirectly increase the demand for MRP-S5 activity in mitochondrial protein synthesis. | ||||||
Methylene blue | 61-73-4 | sc-215381B sc-215381 sc-215381A | 25 g 100 g 500 g | $42.00 $102.00 $322.00 | 3 | |
Methylene Blue acts as an alternative electron carrier in the mitochondrial electron transport chain, potentially increasing the need for protein synthesis where MRP-S5 is involved. | ||||||
Pyrroloquinoline quinone | 72909-34-3 | sc-210178 | 1 mg | $238.00 | ||
PQQ can influence mitochondrial biogenesis, which could lead to increased demand for MRP-S5 activity to accommodate new mitochondrial protein synthesis requirements. | ||||||
Retinoic Acid, all trans | 302-79-4 | sc-200898 sc-200898A sc-200898B sc-200898C | 500 mg 5 g 10 g 100 g | $65.00 $319.00 $575.00 $998.00 | 28 | |
Retinoic Acid can influence mitochondrial biogenesis through its receptor signaling, potentially increasing the activity of MRP-S5 by upregulating mitochondrial protein synthesis. | ||||||
L-Leucine | 61-90-5 | sc-364173 sc-364173A | 25 g 100 g | $21.00 $61.00 | ||
Leucine can stimulate mTOR signaling, which is a key regulator of protein synthesis, potentially enhancing the activity of mitochondrial ribosomal proteins like MRP-S5. | ||||||
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 can improve mitochondrial function, potentially upregulating the activity of proteins like MRP-S5 that are essential for mitochondrial protein synthesis. | ||||||
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 activate sirtuins that promote mitochondrial biogenesis, potentially enhancing the activity of mitochondrial proteins such as MRP-S5. | ||||||
Creatine, anhydrous | 57-00-1 | sc-214774 sc-214774A | 10 mg 50 g | $27.00 $77.00 | 2 | |
Creatine can increase mitochondrial bioenergetics, potentially leading to increased activity of mitochondrial proteins including MRP-S5 for optimal protein synthesis. | ||||||