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Name | NADPH Tetrasodium Salt |
Cas Number | 2646-71-1 |
Molecular Formula | C21H26N7Na4O17P3 |
Molecular Weight | 833.35 g/mol |
Appearance | White to off-white powder |
Solubility | Soluble in water |
Storage Condition | Store at -20°C |
Purity | ≥ 95% |
Specific Activity | ≥ 1200 nmol/min/mg |
Usage | Commonly used as a cofactor in various enzymatic reactions |
Supplier | Sigma-Aldrich |
Shipping Handling | Shipped at room temperature |
Storage Temp | -20°C |
FAQ
What is NADPH Tetrasodium Salt and how is it used in research?
NADPH Tetrasodium Salt is a coenzyme that plays a crucial role in cellular metabolism as a supplier of reducing equivalents in biosynthetic reactions. In research, it is commonly used in experiments involving enzymatic reactions that require reducing power. By providing electrons for the conversion of substrates, NADPH is essential for the synthesis of nucleic acids, lipids, and other important molecules in the cell.
What are the advantages of using NADPH Tetrasodium Salt in research?
One of the main advantages of using NADPH Tetrasodium Salt in research is its stability and solubility in aqueous solutions, making it easy to work with in experimental settings. Additionally, NADPH is a versatile coenzyme that is involved in a wide range of metabolic pathways, allowing researchers to investigate various cellular processes with its use. Its availability in a convenient tetrasodium salt form ensures ease of storage and handling for laboratory use.
How can researchers optimize the use of NADPH Tetrasodium Salt in their experiments?
To optimize the use of NADPH Tetrasodium Salt in experiments, researchers should ensure proper storage conditions to maintain its stability and activity. It is recommended to aliquot the stock solution to prevent multiple freeze-thaw cycles, which can lead to degradation of the coenzyme. Additionally, researchers should carefully follow the protocols provided by suppliers for the reconstitution and use of NADPH Tetrasodium Salt in specific enzymatic assays or biochemical studies.
Are there any specific applications or experimental techniques where NADPH Tetrasodium Salt is commonly used?
NADPH Tetrasodium Salt is commonly used in various experimental techniques and applications, including enzyme assays, metabolic studies, and drug metabolism research. It is an essential cofactor for dehydrogenase enzymes that catalyze oxidation-reduction reactions, making it a valuable tool for investigating cellular processes that require reducing power. Researchers in the fields of biochemistry, molecular biology, and pharmacology frequently utilize NADPH Tetrasodium Salt to study specific pathways or metabolic pathways.
What are some key considerations for purchasing NADPH Tetrasodium Salt for research purposes?
When purchasing NADPH Tetrasodium Salt for research purposes, researchers should consider the purity and quality of the product to ensure reliable results in their experiments. It is important to verify the authenticity of the supplier and inquire about the source and handling of the coenzyme to guarantee its effectiveness. Additionally, researchers should assess the quantity provided and the storage recommendations to determine the suitability of the product for their specific experimental needs.
NADPH Tetrasodium Salt is a coenzyme that plays a crucial role in cellular metabolism as a supplier of reducing equivalents in biosynthetic reactions. In research, it is commonly used in experiments involving enzymatic reactions that require reducing power. By providing electrons for the conversion of substrates, NADPH is essential for the synthesis of nucleic acids, lipids, and other important molecules in the cell.
What are the advantages of using NADPH Tetrasodium Salt in research?
One of the main advantages of using NADPH Tetrasodium Salt in research is its stability and solubility in aqueous solutions, making it easy to work with in experimental settings. Additionally, NADPH is a versatile coenzyme that is involved in a wide range of metabolic pathways, allowing researchers to investigate various cellular processes with its use. Its availability in a convenient tetrasodium salt form ensures ease of storage and handling for laboratory use.
How can researchers optimize the use of NADPH Tetrasodium Salt in their experiments?
To optimize the use of NADPH Tetrasodium Salt in experiments, researchers should ensure proper storage conditions to maintain its stability and activity. It is recommended to aliquot the stock solution to prevent multiple freeze-thaw cycles, which can lead to degradation of the coenzyme. Additionally, researchers should carefully follow the protocols provided by suppliers for the reconstitution and use of NADPH Tetrasodium Salt in specific enzymatic assays or biochemical studies.
Are there any specific applications or experimental techniques where NADPH Tetrasodium Salt is commonly used?
NADPH Tetrasodium Salt is commonly used in various experimental techniques and applications, including enzyme assays, metabolic studies, and drug metabolism research. It is an essential cofactor for dehydrogenase enzymes that catalyze oxidation-reduction reactions, making it a valuable tool for investigating cellular processes that require reducing power. Researchers in the fields of biochemistry, molecular biology, and pharmacology frequently utilize NADPH Tetrasodium Salt to study specific pathways or metabolic pathways.
What are some key considerations for purchasing NADPH Tetrasodium Salt for research purposes?
When purchasing NADPH Tetrasodium Salt for research purposes, researchers should consider the purity and quality of the product to ensure reliable results in their experiments. It is important to verify the authenticity of the supplier and inquire about the source and handling of the coenzyme to guarantee its effectiveness. Additionally, researchers should assess the quantity provided and the storage recommendations to determine the suitability of the product for their specific experimental needs.