Description
Specifications Table
Product Name – Spermine (Free base) Cell Culture Tested 96%
Quantity/Pack Size – 1 gm
Form – Free base
Grade – 96%
Application – Cell culture, research
Product Overview
Spermine Free Base 96% is a high-purity polyamine essential for cellular processes, including growth, differentiation, and apoptosis. This cell culture-tested compound ensures consistent performance in biological research, making it ideal for academic and professional laboratories. Derived from natural sources, it undergoes rigorous purification to meet stringent quality standards. Its free base form enhances solubility and bioavailability, ensuring optimal results in cell culture applications. Researchers and educators rely on this compound for its reliability and purity, supporting a wide range of experimental protocols. The 96% purity grade guarantees minimal impurities, reducing variability in experimental outcomes. Whether for cell proliferation studies or molecular biology research, this Spermine Free Base provides the precision and consistency required for high-impact scientific work.
FAQs
1. What is Spermine Free Base used for in cell culture?
Spermine Free Base is used to support cell growth, differentiation, and apoptosis in cell culture applications. It plays a crucial role in maintaining cellular integrity and function.
2. Is this Spermine Free Base suitable for academic research?
Yes, this Spermine Free Base is cell culture tested and meets the high-quality standards required for academic and professional research applications.
3. What is the purity level of this Spermine Free Base?
The purity level of this Spermine Free Base is 96%, ensuring minimal impurities and reliable performance in experiments.
4. How should Spermine Free Base be stored for optimal stability?
Spermine Free Base should be stored in a cool, dry place away from direct sunlight and moisture to maintain its stability and potency.
5. Can Spermine Free Base be used in molecular biology experiments?
Yes, Spermine Free Base is commonly used in molecular biology experiments, particularly those involving DNA and RNA research.
