RPL14 Activators
Chemical activators of RPL14 play a pivotal role in the processes that ensure the protein's optimal performance in protein synthesis. Magnesium chloride is one such chemical, where the magnesium ions are instrumental in ribosome assembly and function. As a critical component of the ribosomal machinery, RPL14 is thereby enabled to contribute effectively to the translation of RNA into proteins. Similarly, potassium chloride, through its potassium ions, maintains cellular ionic balance and turgor pressure, creating an environment conducive for RPL14's role within the ribosome. Sodium acetate's contribution is more indirect; the acetate ions can modify the chromatin structure by influencing histone acetylation, which can lead to the upregulation of ribosomal protein genes. This upregulation can result in an increased production of ribosomal proteins, including RPL14, which are then incorporated into new ribosomes.
Further down the line of chemical activators, zinc sulfate ensures the structural stability of ribosomal RNA and proteins, facilitating the assembly of ribosomes and the integration of RPL14 into these complex molecular machines. Manganese(II) chloride plays a similar role by serving as a cofactor for enzymes like RNA polymerase, which synthesizes the RNA backbone of ribosomes, thereby enabling the assembly of ribosomal proteins. Ammonium sulfate contributes to the biosynthesis of the fundamental building blocks of ribosomes-nucleotides and amino acids-thus supporting the entire structure in which RPL14 operates. Calcium chloride, through its role in cellular signaling, can influence the nucleolar activities that lead to the production of ribosomes. In this enhanced production line, RPL14 is activated as a key participant in protein synthesis. Other metals, such as copper(II) sulfate, nickel(II) chloride, cobalt(II) chloride, iron(II) sulfate, and chromium(III) chloride, contribute to the activation of RPL14 by stabilizing its structure, facilitating RNA interactions, and ensuring energetic support for its activities in protein synthesis, respectively. Each of these chemical activators, through their distinct mechanisms, ensures that RPL14 is not only structurally competent but also functionally primed to partake in the critical task of translating genetic information into the functional proteins necessary for life.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Magnesium chloride | 7786-30-3 | sc-255260C sc-255260B sc-255260 sc-255260A | 10 g 25 g 100 g 500 g | $28.00 $35.00 $48.00 $125.00 | 2 | |
Magnesium ions can activate RPL14 by supporting ribosome assembly and function, which is a critical process for protein synthesis. By doing so, magnesium chloride ensures that RPL14 is part of fully functional ribosomes and can thus actively participate in protein synthesis. | ||||||
Potassium Chloride | 7447-40-7 | sc-203207 sc-203207A sc-203207B sc-203207C | 500 g 2 kg 5 kg 10 kg | $55.00 $155.00 $285.00 $455.00 | 5 | |
Potassium ions are crucial for maintaining the ionic balance and turgor pressure within the cell, which contributes to the optimal environment for ribosome activity. This can enhance the functional engagement of RPL14 in protein synthesis as part of the ribosome. | ||||||
Zinc | 7440-66-6 | sc-213177 | 100 g | $48.00 | ||
Zinc ions are known to be important for the structural integrity of proteins and nucleic acids. By stabilizing RNA structure, zinc sulfate can support the proper assembly of ribosomes, thereby facilitating the functional role of RPL14 in protein translation. | ||||||
Manganese(II) chloride beads | 7773-01-5 | sc-252989 sc-252989A | 100 g 500 g | $19.00 $31.00 | ||
Manganese ions can act as cofactors for RNA polymerase, which transcribes ribosomal RNA. An increase in ribosomal RNA production can lead to more ribosome assembly wherein RPL14 is functionally active in the translation process. | ||||||
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 | $11.00 $21.00 $31.00 $41.00 $61.00 $102.00 | 9 | |
Ammonium ions can contribute to the cellular nitrogen pool, which is critical for synthesizing nucleotides and amino acids. This can indirectly support the function of RPL14 by promoting ribosome assembly and the protein synthesis in which RPL14 is actively involved. | ||||||
Calcium chloride anhydrous | 10043-52-4 | sc-207392 sc-207392A | 100 g 500 g | $66.00 $262.00 | 1 | |
Calcium ions are essential for cellular signaling and can influence pathways that lead to the activation of nucleolar functions, including ribosome biogenesis. As a ribosomal protein, RPL14 would be activated as it becomes part of these newly formed ribosomes. | ||||||
Copper(II) sulfate | 7758-98-7 | sc-211133 sc-211133A sc-211133B | 100 g 500 g 1 kg | $46.00 $122.00 $189.00 | 3 | |
Copper ions serve as cofactors in various enzymatic reactions that can influence gene expression and protein function. The presence of copper can stabilize ribosomal proteins, such as RPL14, ensuring their active participation in translational processes. | ||||||
Nickel(II) chloride | 7718-54-9 | sc-236169 sc-236169A | 100 g 500 g | $68.00 $188.00 | ||
Nickel ions can interact with nucleic acids and proteins, potentially influencing the ribosome assembly process. This interaction may stabilize the structure of ribosomal proteins like RPL14, leading to its activation within the ribosome during protein synthesis. | ||||||
Cobalt(II) chloride | 7646-79-9 | sc-252623 sc-252623A | 5 g 100 g | $64.00 $176.00 | 7 | |
Cobalt ions are involved in the stabilization of RNA molecules and can facilitate the assembly of ribosomes. This stabilization effect can enhance the function of ribosomal proteins such as RPL14, activating it as it takes part in the protein synthesis machinery. | ||||||
Ferrous Sulfate (Iron II Sulfate) Heptahydrate | 7782-63-0 | sc-211505 sc-211505A | 250 g 500 g | $73.00 $109.00 | ||
Iron is an essential element for the biological activity of a range of proteins. Its presence can influence the assembly of ribosomal proteins and enhance their structural integrity. In this way, iron sulfate can activate RPL14 through its role in ribosomal function. | ||||||