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Name | Putrescine dihydrochloride |
Cas Number | 333-93-7 |
Molecular Formula | C4H14Cl2N2 |
Molecular Weight | 154.07 g/mol |
Appearance | White crystalline powder |
Solubility | Soluble in water |
Storage Conditions | Store at room temperature |
Purity | Min. 98% |
Usage | Commonly used in research and laboratory settings |
Melting Point | 205-209°C |
Boiling Point | 310°C |
Density | 1.40 g/cm3 |
FAQ
What is Putrescine dihydrochloride?
Putrescine dihydrochloride is a compound that plays a crucial role in the biological process known as polyamine metabolism. It is a polyamine that is naturally found in all living cells and is involved in various cellular functions.
How does Putrescine dihydrochloride work?
Putrescine dihydrochloride works by regulating the levels of polyamines in the body. Polyamines are essential for cell growth, proliferation, and differentiation. By modulating the levels of polyamines, Putrescine dihydrochloride can impact various cellular processes and functions.
What are the potential benefits of using Putrescine dihydrochloride?
There are several potential benefits of using Putrescine dihydrochloride. It can be used in scientific research to study polyamine metabolism and its role in cellular processes. Additionally, it may have therapeutic applications in treating conditions associated with dysregulated polyamine metabolism.
How is Putrescine dihydrochloride typically used in research?
In research settings, Putrescine dihydrochloride is commonly used as a reagent to study polyamine metabolism. It can be added to cell cultures to assess its effects on cell growth, proliferation, and differentiation. Researchers may also use Putrescine dihydrochloride to investigate the mechanisms by which polyamines regulate cellular functions.
Are there any considerations to keep in mind when using Putrescine dihydrochloride in research?
Researchers should be aware of the potential interactions and side effects of Putrescine dihydrochloride when using it in their studies. It is important to carefully follow the recommended guidelines for handling and storing this compound to ensure its stability and effectiveness. Additionally, researchers should consult the relevant literature to understand the latest findings on the role of polyamines in cellular processes.
Putrescine dihydrochloride is a compound that plays a crucial role in the biological process known as polyamine metabolism. It is a polyamine that is naturally found in all living cells and is involved in various cellular functions.
How does Putrescine dihydrochloride work?
Putrescine dihydrochloride works by regulating the levels of polyamines in the body. Polyamines are essential for cell growth, proliferation, and differentiation. By modulating the levels of polyamines, Putrescine dihydrochloride can impact various cellular processes and functions.
What are the potential benefits of using Putrescine dihydrochloride?
There are several potential benefits of using Putrescine dihydrochloride. It can be used in scientific research to study polyamine metabolism and its role in cellular processes. Additionally, it may have therapeutic applications in treating conditions associated with dysregulated polyamine metabolism.
How is Putrescine dihydrochloride typically used in research?
In research settings, Putrescine dihydrochloride is commonly used as a reagent to study polyamine metabolism. It can be added to cell cultures to assess its effects on cell growth, proliferation, and differentiation. Researchers may also use Putrescine dihydrochloride to investigate the mechanisms by which polyamines regulate cellular functions.
Are there any considerations to keep in mind when using Putrescine dihydrochloride in research?
Researchers should be aware of the potential interactions and side effects of Putrescine dihydrochloride when using it in their studies. It is important to carefully follow the recommended guidelines for handling and storing this compound to ensure its stability and effectiveness. Additionally, researchers should consult the relevant literature to understand the latest findings on the role of polyamines in cellular processes.