The advancement of stem cell research hinges on meticulous control over the cellular environment, and the components of cell culture media play a pivotal role. Among these, 1,4-Diaminobutane Dihydrochloride (CAS 333-93-7) has emerged as a significant compound, valued for its contributions to supporting the growth and viability of stem cells.

For scientists and procurement specialists in the biotechnology sector, sourcing high-quality 1,4-Diaminobutane Dihydrochloride is a critical task. Its inclusion in specific media formulations is often dictated by its biochemical properties that can influence cellular metabolism and proliferation. This makes it a compound that researchers actively seek when optimizing conditions for stem cell cultivation. The search terms 'buy 1,4-diaminobutane dihydrochloride for cell culture' or 'stem cell media component supplier' are common among those in the field.

The purity of 1,4-Diaminobutane Dihydrochloride is paramount for its successful application in sensitive biological systems. A minimum assay of 98.0% is often required to ensure that impurities do not interfere with cellular processes or introduce unintended variables into experimental outcomes. Therefore, partnering with a reliable manufacturer that guarantees consistent quality is essential for reproducible research.

Companies specializing in fine chemicals and biochemical reagents, particularly those based in China known for their chemical manufacturing capabilities, are key sources for this compound. When making a purchase decision, it’s advisable to request comprehensive documentation, including technical data sheets and safety information, to verify the product's suitability for your specific research needs. Understanding the chemical name and CAS number (333-93-7) is fundamental when initiating procurement inquiries.

Beyond its role in stem cell research, 1,4-Diaminobutane Dihydrochloride also finds application in broader organic synthesis projects. However, its specific utility in nurturing vital cell lines underscores its importance in modern biological sciences. By ensuring access to high-purity grades of this chemical from trusted manufacturers, the research community can continue to push the boundaries of stem cell therapy and regenerative medicine.