C2orf47 Activators
Chemical activators of C2orf47 play diverse roles in modulating the activity of the protein through various biochemical mechanisms. Magnesium sulfate and Zinc sulfate are both known to serve as essential cofactors for numerous enzymes. They can activate C2orf47 by enhancing the protein's structural stability or by directly participating in its catalytic actions, ensuring that the active site of C2orf47 is properly formed and functional. Similarly, Calcium chloride and Manganese(II) chloride can activate C2orf47 by contributing to the protein's conformational dynamics, potentially altering its state to one that is conducive to its enzymatic activity. They might also influence the protein's interactions with other cellular components, thereby modulating its function.
On the molecular level, Sodium fluoride and Adenosine triphosphate (ATP) activate C2orf47 by fostering phosphorylation events. Sodium fluoride can mimic the function of phosphates, potentially leading to a phosphorylation state that activates C2orf47, while ATP provides the necessary phosphate groups for such modifications, possibly resulting in conformational changes that enhance the protein's activity. Forskolin and Sodium orthovanadate can elevate the phosphorylation status of C2orf47 in different ways: Forskolin by raising cAMP levels that activate protein kinases which subsequently phosphorylate C2orf47, and Sodium orthovanadate by inhibiting phosphatases that would otherwise dephosphorylate and inactivate the protein. Pyridoxal phosphate, as a cofactor, can bind to C2orf47 and directly participate in the catalytic reaction, thereby activating the protein. Spermidine, by inducing autophagy, can lead to the degradation of proteins that may otherwise inhibit C2orf47 or help in recycling components necessary for the protein's function. Lithium chloride alters signaling pathways, potentially resulting in the upregulation of C2orf47's activity. Lastly, Nicotinamide adenine dinucleotide (NAD+) can activate C2orf47 by serving as a substrate for ADP-ribosylation, a modification that might alter the protein's function by changing its active conformation or interactions. Each chemical activator, through its unique mechanism, ensures that C2orf47 is maintained in an active state, ready to participate in its cellular role.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
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 | $46.00 $69.00 $163.00 $245.00 $418.00 | 3 | |
Magnesium is a cofactor for many enzymes. In the context of C2orf47, which may be involved in specific enzymatic reactions, Magnesium sulfate can activate C2orf47 by contributing to the proper folding and function of the protein's active site, thereby directly facilitating its enzymatic activity. | ||||||
Zinc | 7440-66-6 | sc-213177 | 100 g | $48.00 | ||
Zinc ions can act as essential cofactors for many proteins. Zinc sulfate can activate C2orf47 by binding to the protein and promoting a conformation that is more active or by directly participating in its catalytic mechanism. | ||||||
Calcium chloride anhydrous | 10043-52-4 | sc-207392 sc-207392A | 100 g 500 g | $66.00 $262.00 | 1 | |
Calcium ions play a significant role in signal transduction pathways. Calcium chloride can activate C2orf47 by altering the protein conformation to an active state or by influencing the interaction with other proteins or substrates that are essential for C2orf47's activity. | ||||||
Manganese(II) chloride beads | 7773-01-5 | sc-252989 sc-252989A | 100 g 500 g | $19.00 $31.00 | ||
Manganese ions serve as cofactors for a variety of enzymes. Manganese(II) chloride can activate C2orf47 by stabilizing the structure of the protein or by being directly involved in the catalytic process that C2orf47 may facilitate. | ||||||
Sodium Fluoride | 7681-49-4 | sc-24988A sc-24988 sc-24988B | 5 g 100 g 500 g | $40.00 $46.00 $100.00 | 26 | |
Sodium fluoride is an activator of several enzymes by mimicking the function of phosphate groups. In the case of C2orf47, it can activate the protein by promoting its phosphorylation state, which may be necessary for its activity. | ||||||
Adenosine 5′-Triphosphate, disodium salt | 987-65-5 | sc-202040 sc-202040A | 1 g 5 g | $39.00 $75.00 | 9 | |
ATP is a substrate for kinases and is required for phosphorylation. ATP can activate C2orf47 by serving as a phosphate donor for phosphorylation events that may control the protein's activity or by inducing a conformational change that increases the protein's activity. | ||||||
Sodium Orthovanadate | 13721-39-6 | sc-3540 sc-3540B sc-3540A | 5 g 10 g 50 g | $49.00 $57.00 $187.00 | 142 | |
Sodium orthovanadate is an inhibitor of tyrosine phosphatases, which can increase the phosphorylation state of proteins. For C2orf47, this chemical can activate the protein by preventing dephosphorylation, thereby maintaining the protein in an active phosphorylated state. | ||||||
Pyridoxal-5-phosphate | 54-47-7 | sc-205825 | 5 g | $104.00 | ||
Pyridoxal phosphate serves as a cofactor for various enzymatic reactions. It can activate C2orf47 by binding to the enzyme and facilitating the catalytic reaction that C2orf47 might be involved in, thereby directly contributing to its activity. | ||||||
Spermidine | 124-20-9 | sc-215900 sc-215900B sc-215900A | 1 g 25 g 5 g | $57.00 $607.00 $176.00 | ||
Spermidine can induce autophagy, which can affect the turnover and recycling of cellular components. Autophagy can activate C2orf47 by degrading inhibitory proteins or by recycling amino acids necessary for the synthesis of active C2orf47. | ||||||
Lithium | 7439-93-2 | sc-252954 | 50 g | $214.00 | ||
Lithium chloride influences several signaling pathways, including the inhibition of GSK-3. This inhibition can lead to the activation of proteins downstream or within the same pathway. For C2orf47, Lithium chloride can activate the protein by altering signaling pathways that result in the protein's enhanced activity. | ||||||