In the realm of cutting-edge biochemical research, specific compounds play pivotal roles in unlocking new scientific understanding and therapeutic possibilities. One such compound gaining significant traction is (17a,20E)-17,20-[(1-Methoxyethylidene)bis(oxy)]-3-oxo-19-norpregna-4,20-diene-21-carboxylic Acid Methyl Ester, more commonly recognized by its research designation YK11 and CAS number 431579-34-9. As a dedicated supplier of specialized chemicals, we aim to equip researchers with the high-quality materials necessary for their groundbreaking work.

YK11 is a synthetic steroidal SARM that has garnered attention for its potent myostatin-inhibiting properties. Myostatin is a protein that inhibits muscle growth, and by blocking its action, YK11 is believed to promote substantial muscle hypertrophy. This unique mechanism makes it a compound of considerable interest for studies in muscle physiology, sports science, and the development of treatments for conditions characterized by muscle atrophy. For laboratories and research institutions, securing a reliable source of YK11 is paramount. We pride ourselves on being a leading manufacturer and supplier of this chemical in China, ensuring consistent purity and efficacy.

When considering where to purchase YK11, it is vital to partner with a supplier that prioritizes quality control and ethical manufacturing practices. Our commitment to excellence means that every batch of CAS 431579-34-9 undergoes rigorous testing to guarantee its specifications. We understand the importance of a stable supply chain for ongoing research projects, and we work diligently to maintain adequate stock levels. Researchers looking to buy this compound can expect competitive price points and professional customer service. Our aim is to facilitate your scientific exploration by providing you with the highest caliber of YK11, backed by our expertise as a trusted chemical supplier in the global market. Reach out to us for your YK11 procurement needs and experience the difference quality sourcing makes.