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Product Name | NADPH Tetrasodium Salt |
Chemical Formula | C21H26N7Na4O17P3 |
Molecular Weight | 887.32 g/mol |
Appearance | White to off-white powder |
Solubility | Soluble in water |
Purity | ≥98% (HPLC) |
Storage Conditions | Store at -20°C, protect from light |
Usage | Research chemical, cofactor in enzymatic reactions |
Cas Number | 2646-71-1 |
PubChem CID | 24890299 |
FAQ
What is NADPH Tetrasodium Salt and what are its benefits?
NADPH Tetrasodium Salt is a form of Nicotinamide Adenine Dinucleotide Phosphate (NADPH) that is commonly used in various biochemical and biotechnological applications. This molecule plays a crucial role in cellular metabolism, serving as a cofactor for many enzymes involved in biosynthetic pathways. NADPH Tetrasodium Salt is particularly important in redox reactions, where it acts as an electron donor, helping to reduce other molecules. This can be beneficial in a wide range of research areas, including cancer research, neurobiology, and studies on oxidative stress.
How can NADPH Tetrasodium Salt be used in laboratory research?
NADPH Tetrasodium Salt is a versatile tool for researchers working in fields such as biochemistry, cell biology, and molecular biology. It can be used to study various metabolic pathways, including those involved in fatty acid synthesis, cholesterol biosynthesis, and the pentose phosphate pathway. Additionally, NADPH Tetrasodium Salt is commonly used in enzyme assays to determine the activity of NADPH-dependent enzymes. Its ability to donate electrons makes it an essential component in studying oxidative stress and cellular redox balance.
What are some common applications of NADPH Tetrasodium Salt?
NADPH Tetrasodium Salt is used in a wide range of research applications due to its importance in cellular metabolism and redox reactions. Some common uses of NADPH Tetrasodium Salt include:
- Studies on oxidative stress and antioxidant responses
- Investigations into cancer metabolism and potential therapeutic targets
- Evaluation of NADPH-dependent enzyme activity
- Analysis of redox signaling pathways in cells
- Assessing the impact of metabolic changes on cellular function
Overall, NADPH Tetrasodium Salt is a valuable tool for researchers looking to better understand the complex interplay of metabolic pathways in living organisms.
How should NADPH Tetrasodium Salt be stored and handled in the laboratory?
NADPH Tetrasodium Salt should be stored in a cool, dry place away from light and moisture. It is important to handle this compound with care, as it is sensitive to air and can degrade rapidly if not stored properly. Researchers working with NADPH Tetrasodium Salt should wear appropriate personal protective equipment, such as lab coats and gloves, to prevent skin contact. Additionally, it is recommended to use NADPH Tetrasodium Salt in a well-ventilated area and to avoid inhaling dust or vapors. By following these guidelines, researchers can ensure the stability and efficacy of NADPH Tetrasodium Salt in their experiments.
Are there any safety considerations when working with NADPH Tetrasodium Salt in the laboratory?
When working with NADPH Tetrasodium Salt, researchers should be aware of potential safety hazards associated with this compound. While NADPH Tetrasodium Salt itself is not considered highly toxic, it is important to handle it with care to avoid accidental exposure. In case of contact with skin or eyes, it is recommended to rinse thoroughly with water and seek medical attention if irritation persists. NADPH Tetrasodium Salt should be handled in a fume hood or with adequate ventilation to minimize the risk of inhalation. Researchers should also be mindful of proper waste disposal procedures for NADPH Tetrasodium Salt and any contaminated materials. By following these safety considerations, researchers can work with NADPH Tetrasodium Salt safely and effectively in the laboratory.
NADPH Tetrasodium Salt is a form of Nicotinamide Adenine Dinucleotide Phosphate (NADPH) that is commonly used in various biochemical and biotechnological applications. This molecule plays a crucial role in cellular metabolism, serving as a cofactor for many enzymes involved in biosynthetic pathways. NADPH Tetrasodium Salt is particularly important in redox reactions, where it acts as an electron donor, helping to reduce other molecules. This can be beneficial in a wide range of research areas, including cancer research, neurobiology, and studies on oxidative stress.
How can NADPH Tetrasodium Salt be used in laboratory research?
NADPH Tetrasodium Salt is a versatile tool for researchers working in fields such as biochemistry, cell biology, and molecular biology. It can be used to study various metabolic pathways, including those involved in fatty acid synthesis, cholesterol biosynthesis, and the pentose phosphate pathway. Additionally, NADPH Tetrasodium Salt is commonly used in enzyme assays to determine the activity of NADPH-dependent enzymes. Its ability to donate electrons makes it an essential component in studying oxidative stress and cellular redox balance.
What are some common applications of NADPH Tetrasodium Salt?
NADPH Tetrasodium Salt is used in a wide range of research applications due to its importance in cellular metabolism and redox reactions. Some common uses of NADPH Tetrasodium Salt include:
- Studies on oxidative stress and antioxidant responses
- Investigations into cancer metabolism and potential therapeutic targets
- Evaluation of NADPH-dependent enzyme activity
- Analysis of redox signaling pathways in cells
- Assessing the impact of metabolic changes on cellular function
Overall, NADPH Tetrasodium Salt is a valuable tool for researchers looking to better understand the complex interplay of metabolic pathways in living organisms.
How should NADPH Tetrasodium Salt be stored and handled in the laboratory?
NADPH Tetrasodium Salt should be stored in a cool, dry place away from light and moisture. It is important to handle this compound with care, as it is sensitive to air and can degrade rapidly if not stored properly. Researchers working with NADPH Tetrasodium Salt should wear appropriate personal protective equipment, such as lab coats and gloves, to prevent skin contact. Additionally, it is recommended to use NADPH Tetrasodium Salt in a well-ventilated area and to avoid inhaling dust or vapors. By following these guidelines, researchers can ensure the stability and efficacy of NADPH Tetrasodium Salt in their experiments.
Are there any safety considerations when working with NADPH Tetrasodium Salt in the laboratory?
When working with NADPH Tetrasodium Salt, researchers should be aware of potential safety hazards associated with this compound. While NADPH Tetrasodium Salt itself is not considered highly toxic, it is important to handle it with care to avoid accidental exposure. In case of contact with skin or eyes, it is recommended to rinse thoroughly with water and seek medical attention if irritation persists. NADPH Tetrasodium Salt should be handled in a fume hood or with adequate ventilation to minimize the risk of inhalation. Researchers should also be mindful of proper waste disposal procedures for NADPH Tetrasodium Salt and any contaminated materials. By following these safety considerations, researchers can work with NADPH Tetrasodium Salt safely and effectively in the laboratory.