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Product Name | Cesium Chloride 99.999% |
Purity | 99.999% |
Grade | Molecular biology grade |
Form | Powder |
Appearance | White crystalline solid |
Molecular Formula | CsCl |
Molecular Weight | 168.36 g/mol |
CAS Number | 7647-17-8 |
Usage | Used in molecular biology applications such as density gradient centrifugation |
Storage Conditions | Store in a cool, dry place away from light |
Shelf Life | 2 years |
Packaging | Comes in various sizes ranging from grams to kilograms |
Manufacturer | Various manufacturers produce Cesium Chloride 99.999% for molecular biology purposes |
FAQ
What is Cesium Chloride 99.999% used for in molecular biology?
Cesium Chloride is commonly used for plasmid DNA purification and separation of DNA fragments by density gradient ultracentrifugation. Its high purity ensures accurate and reliable results in molecular biology experiments.
How does Cesium Chloride 99.999% contribute to DNA purification?
Cesium Chloride is used in the DNA purification process to separate DNA molecules based on their density. When a sample containing DNA is centrifuged in a CsCl solution, the DNA molecules form bands at specific densities, allowing for their isolation and purification.
What are the benefits of using Cesium Chloride 99.999% for DNA purification over other methods?
Cesium Chloride purification is known for its high purity and effectiveness in isolating DNA molecules. It provides researchers with highly concentrated and pure DNA samples, free from contaminants and impurities that may interfere with downstream applications.
How should Cesium Chloride 99.999% be stored to maintain its quality?
Cesium Chloride should be stored in a dry and cool environment, away from light and moisture, to prevent degradation and maintain its purity. Proper storage conditions will ensure the longevity and efficacy of the reagent for molecular biology applications.
Are there any safety precautions to consider when handling Cesium Chloride 99.999% in the laboratory?
As with any chemical reagent, precautions should be taken when handling Cesium Chloride to avoid exposure to skin, eyes, and inhalation. Proper personal protective equipment should be worn, and the reagent should be used in a well-ventilated area to minimize risks associated with its handling.
Cesium Chloride is commonly used for plasmid DNA purification and separation of DNA fragments by density gradient ultracentrifugation. Its high purity ensures accurate and reliable results in molecular biology experiments.
How does Cesium Chloride 99.999% contribute to DNA purification?
Cesium Chloride is used in the DNA purification process to separate DNA molecules based on their density. When a sample containing DNA is centrifuged in a CsCl solution, the DNA molecules form bands at specific densities, allowing for their isolation and purification.
What are the benefits of using Cesium Chloride 99.999% for DNA purification over other methods?
Cesium Chloride purification is known for its high purity and effectiveness in isolating DNA molecules. It provides researchers with highly concentrated and pure DNA samples, free from contaminants and impurities that may interfere with downstream applications.
How should Cesium Chloride 99.999% be stored to maintain its quality?
Cesium Chloride should be stored in a dry and cool environment, away from light and moisture, to prevent degradation and maintain its purity. Proper storage conditions will ensure the longevity and efficacy of the reagent for molecular biology applications.
Are there any safety precautions to consider when handling Cesium Chloride 99.999% in the laboratory?
As with any chemical reagent, precautions should be taken when handling Cesium Chloride to avoid exposure to skin, eyes, and inhalation. Proper personal protective equipment should be worn, and the reagent should be used in a well-ventilated area to minimize risks associated with its handling.