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Name | Aprotinin BioChemica |
Type | Protein |
Source | Bovine lung |
Purity | ≥98% |
Form | Powder |
Solubility | Soluble in water |
Storage | Store at -20°C |
Molecular Weight | 6.5 kDa |
CAS Number | 9087-70-1 |
Usage | Protease inhibitor |
Applications | Used in biochemical research and biopharmaceutical production |
FAQ
What is Aprotinin BioChemica and how does it work in biochemical
applications?
Aprotinin BioChemica is a protease inhibitor that is commonly used in biochemical research and applications. It works by inhibiting a wide range of proteolytic enzymes, including trypsin, chymotrypsin, and plasmin, which are involved in the breakdown of proteins. By inhibiting these enzymes, aprotinin can help preserve proteins and prevent their degradation in various biochemical processes.
What are the main benefits of using Aprotinin BioChemica in biochemical research?
One of the main benefits of using Aprotinin BioChemica is its ability to protect proteins from degradation, which is especially important when working with sensitive proteins or enzymes. This can help improve the yield and quality of proteins in various biochemical applications. Additionally, aprotinin has been shown to be stable and effective in a wide range of pH and temperature conditions, making it a versatile option for researchers.
How is Aprotinin BioChemica typically used in biochemical research?
Aprotinin BioChemica is commonly used as an additive in protein purification and isolation processes to prevent protein degradation. It can also be used to stabilize enzymes and other proteins in biochemical assays and experiments. Researchers often add aprotinin directly to their samples or buffers at a specific concentration to achieve the desired inhibitory effect on proteolytic enzymes.
Are there any specific considerations or precautions to keep in mind when using Aprotinin BioChemica in biochemical applications?
While Aprotinin BioChemica is generally considered safe for use in biochemical research, researchers should always follow recommended guidelines and protocols for handling and storing the product. It is important to use aprotinin at the appropriate concentration for specific applications, as using too much can inhibit other enzymes and affect experimental results. Additionally, researchers should be aware of any potential interactions with other compounds or reagents in their experiments.
In conclusion, Aprotinin BioChemica is a valuable tool for researchers working in biochemical applications. Its ability to inhibit proteolytic enzymes and protect proteins from degradation makes it a versatile and effective option for various research needs. By following recommended protocols and guidelines, researchers can make the most of aprotinin in their experiments and achieve reliable and consistent results.
Aprotinin BioChemica is a protease inhibitor that is commonly used in biochemical research and applications. It works by inhibiting a wide range of proteolytic enzymes, including trypsin, chymotrypsin, and plasmin, which are involved in the breakdown of proteins. By inhibiting these enzymes, aprotinin can help preserve proteins and prevent their degradation in various biochemical processes.
What are the main benefits of using Aprotinin BioChemica in biochemical research?
One of the main benefits of using Aprotinin BioChemica is its ability to protect proteins from degradation, which is especially important when working with sensitive proteins or enzymes. This can help improve the yield and quality of proteins in various biochemical applications. Additionally, aprotinin has been shown to be stable and effective in a wide range of pH and temperature conditions, making it a versatile option for researchers.
How is Aprotinin BioChemica typically used in biochemical research?
Aprotinin BioChemica is commonly used as an additive in protein purification and isolation processes to prevent protein degradation. It can also be used to stabilize enzymes and other proteins in biochemical assays and experiments. Researchers often add aprotinin directly to their samples or buffers at a specific concentration to achieve the desired inhibitory effect on proteolytic enzymes.
Are there any specific considerations or precautions to keep in mind when using Aprotinin BioChemica in biochemical applications?
While Aprotinin BioChemica is generally considered safe for use in biochemical research, researchers should always follow recommended guidelines and protocols for handling and storing the product. It is important to use aprotinin at the appropriate concentration for specific applications, as using too much can inhibit other enzymes and affect experimental results. Additionally, researchers should be aware of any potential interactions with other compounds or reagents in their experiments.
In conclusion, Aprotinin BioChemica is a valuable tool for researchers working in biochemical applications. Its ability to inhibit proteolytic enzymes and protect proteins from degradation makes it a versatile and effective option for various research needs. By following recommended protocols and guidelines, researchers can make the most of aprotinin in their experiments and achieve reliable and consistent results.