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Product Name | Chloroform : Isoamyl alcohol 24 : 1 BioChemica |
Product Type | Chemical reagent |
Chemical Formula | CHCl3 : C5H12O |
CAS Number | 67-66-3 : 123-51-3 |
Appearance | Clear liquid |
Purity | Greater than or equal to 99% |
Solubility | Soluble in most organic solvents |
Storage Condition | Store in a cool, dry place away from heat and light |
Melting Point | -63.5°C : -118°C |
Boiling Point | 61.2°C : 131°C |
Hazards | Highly flammable, harmful if swallowed or inhaled |
Applications | Commonly used as a solvent in various laboratory procedures |
Package Size | 1 liter |
Manufacturer | BioChemica |
FAQ
What is BioChemica Chloroform : Isoamyl alcohol 24 : 1?
BioChemica Chloroform : Isoamyl alcohol 24 : 1 is a unique solution used in various laboratory procedures. It is a mixture of chloroform and isoamyl alcohol in a ratio of 24:1, which is commonly used in molecular biology and biochemistry.
What are the applications of BioChemica Chloroform : Isoamyl alcohol 24 : 1?
BioChemica Chloroform : Isoamyl alcohol 24 : 1 is commonly used in phenol-chloroform extractions to isolate DNA, RNA, and proteins from biological samples. It is also used in molecular biology protocols for the separation of nucleic acids and other biomolecules.
How is BioChemica Chloroform : Isoamyl alcohol 24 : 1 used in phenol-chloroform extractions?
In phenol-chloroform extractions, BioChemica Chloroform : Isoamyl alcohol 24 : 1 is used to separate nucleic acids and proteins from other cellular components. The mixture is added to the sample to break the cell membranes and denature proteins, allowing for the separation of different biomolecules.
What are the advantages of using BioChemica Chloroform : Isoamyl alcohol 24 : 1 in molecular biology experiments?
BioChemica Chloroform : Isoamyl alcohol 24 : 1 provides a reliable and efficient way to isolate nucleic acids and proteins from biological samples. It offers high purity and yield, making it an essential reagent for various molecular biology experiments.
Can BioChemica Chloroform : Isoamyl alcohol 24 : 1 be used in other applications besides phenol-chloroform extractions?
Yes, BioChemica Chloroform : Isoamyl alcohol 24 : 1 can also be used in other laboratory procedures that require the separation of biomolecules. It is a versatile solution that can be adapted to different protocols in molecular biology and biochemistry.
BioChemica Chloroform : Isoamyl alcohol 24 : 1 is a unique solution used in various laboratory procedures. It is a mixture of chloroform and isoamyl alcohol in a ratio of 24:1, which is commonly used in molecular biology and biochemistry.
What are the applications of BioChemica Chloroform : Isoamyl alcohol 24 : 1?
BioChemica Chloroform : Isoamyl alcohol 24 : 1 is commonly used in phenol-chloroform extractions to isolate DNA, RNA, and proteins from biological samples. It is also used in molecular biology protocols for the separation of nucleic acids and other biomolecules.
How is BioChemica Chloroform : Isoamyl alcohol 24 : 1 used in phenol-chloroform extractions?
In phenol-chloroform extractions, BioChemica Chloroform : Isoamyl alcohol 24 : 1 is used to separate nucleic acids and proteins from other cellular components. The mixture is added to the sample to break the cell membranes and denature proteins, allowing for the separation of different biomolecules.
What are the advantages of using BioChemica Chloroform : Isoamyl alcohol 24 : 1 in molecular biology experiments?
BioChemica Chloroform : Isoamyl alcohol 24 : 1 provides a reliable and efficient way to isolate nucleic acids and proteins from biological samples. It offers high purity and yield, making it an essential reagent for various molecular biology experiments.
Can BioChemica Chloroform : Isoamyl alcohol 24 : 1 be used in other applications besides phenol-chloroform extractions?
Yes, BioChemica Chloroform : Isoamyl alcohol 24 : 1 can also be used in other laboratory procedures that require the separation of biomolecules. It is a versatile solution that can be adapted to different protocols in molecular biology and biochemistry.