At Ningbo Inno Pharmchem Co., Ltd., we recognize the importance of specialized chemical compounds that enable fundamental biological research. 1-Methyladenine, identified by its CAS number 5142-22-3, stands out as a powerful tool for scientists investigating the intricate processes of DNA, RNA, and protein synthesis. Its specific mode of action as an inhibitor makes it invaluable for dissecting these essential cellular mechanisms.

The primary function of 1-Methyladenine in this context is its ability to inhibit the binding of adenine and guanine to the α-subunit of GTP. This interference effectively blocks the assembly of ribosomes, which are the cellular factories responsible for protein synthesis. Consequently, this action also impedes the synthesis of DNA and RNA, making 1-Methyladenine a critical reagent for researchers seeking to understand these processes at a molecular level. The detailed 1-methyladenine CAS 5142-22-3 properties are essential knowledge for researchers utilizing this compound.

Our focus on providing high-purity chemical intermediates ensures that researchers can confidently use 1-Methyladenine in their experiments. The exploration of 1-methyladenine synthesis and applications within molecular biology laboratories continues to yield significant insights into cellular regulation and disease mechanisms. Its utility as an inhibitor of DNA RNA protein synthesis is a testament to its importance in biochemical studies.

For scientists aiming to explore gene expression, protein folding, or DNA repair mechanisms, 1-Methyladenine offers a targeted approach. Its availability from reliable suppliers like Ningbo Inno Pharmchem Co., Ltd. facilitates crucial research. Understanding the relationship between molecular structure and biological function is key, and this compound provides a tangible example. When researchers decide to purchase 1-methyladenine, they are investing in a tool that can unlock complex biological questions.

The consistent quality and availability of 1-Methyladenine from our company empower researchers to conduct rigorous studies, contributing to a broader understanding of life sciences. Whether for academic institutions or pharmaceutical companies, this compound remains a cornerstone for investigating the foundational processes of cellular life.