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Name | Sodium Chloride 5 mol/L (5 M) |
Product Type | Molecular Biology |
Concentration | 5 mol/L |
Molarity | 5 M |
Formula | NaCl |
Molecular Weight | 58.44 g/mol |
Purity | ≥ 99% |
Solubility | Soluble in water |
Storage Conditions | Store at room temperature |
Appearance | Clear solution |
Color | Colorless |
PH | Neutral |
Usage | Commonly used in molecular biology applications |
Applications | Used in DNA and RNA extraction, protein crystallization, and cell culture |
Stability | Stable for long-term storage |
Shelf Life | 2 years |
Manufacturing Process | Manufactured under strict quality control standards |
Sterility | Non-sterile |
Packaging | Available in various sizes |
Shipping Restrictions | May be subject to special shipping considerations |
FAQ
What is the concentration of Sodium Chloride 5 mol/L (5 M) and how is it used in molecular
biology research?
Sodium Chloride at a concentration of 5 mol/L (5 M) is a commonly used salt solution in molecular biology research. It is used in a variety of applications such as DNA isolation, protein purification, and cell culture.
How is Sodium Chloride 5 M prepared for use in molecular biology experiments?
To prepare a 5 M solution of Sodium Chloride, one must weigh out the appropriate amount of NaCl and dissolve it in distilled water to achieve the desired concentration. The final volume can be adjusted as needed for the specific experiment being conducted.
What are the benefits of using a 5 M solution of Sodium Chloride in molecular biology experiments?
The use of a 5 M solution of Sodium Chloride provides researchers with a highly concentrated salt solution that is ideal for various applications in molecular biology. It can help facilitate DNA precipitation, protein crystallization, and cell lysis, among other functions.
Are there any precautions that should be taken when working with a 5 M solution of Sodium Chloride in the laboratory?
When working with a 5 M solution of Sodium Chloride, it is important to handle the solution with care to avoid any potential hazards. Protective equipment such as gloves and goggles should be worn, and proper ventilation should be maintained to prevent inhalation of fumes.
In what ways can researchers benefit from incorporating Sodium Chloride 5 M into their molecular biology experiments?
By incorporating Sodium Chloride 5 M into their molecular biology experiments, researchers can achieve more efficient and reliable results due to the high concentration of salt in the solution. This can help improve the yield and quality of DNA, proteins, and other biological molecules being studied.
Sodium Chloride at a concentration of 5 mol/L (5 M) is a commonly used salt solution in molecular biology research. It is used in a variety of applications such as DNA isolation, protein purification, and cell culture.
How is Sodium Chloride 5 M prepared for use in molecular biology experiments?
To prepare a 5 M solution of Sodium Chloride, one must weigh out the appropriate amount of NaCl and dissolve it in distilled water to achieve the desired concentration. The final volume can be adjusted as needed for the specific experiment being conducted.
What are the benefits of using a 5 M solution of Sodium Chloride in molecular biology experiments?
The use of a 5 M solution of Sodium Chloride provides researchers with a highly concentrated salt solution that is ideal for various applications in molecular biology. It can help facilitate DNA precipitation, protein crystallization, and cell lysis, among other functions.
Are there any precautions that should be taken when working with a 5 M solution of Sodium Chloride in the laboratory?
When working with a 5 M solution of Sodium Chloride, it is important to handle the solution with care to avoid any potential hazards. Protective equipment such as gloves and goggles should be worn, and proper ventilation should be maintained to prevent inhalation of fumes.
In what ways can researchers benefit from incorporating Sodium Chloride 5 M into their molecular biology experiments?
By incorporating Sodium Chloride 5 M into their molecular biology experiments, researchers can achieve more efficient and reliable results due to the high concentration of salt in the solution. This can help improve the yield and quality of DNA, proteins, and other biological molecules being studied.