Bile acids are far more than just emulsifiers for dietary fats; they are crucial signaling molecules involved in a wide array of physiological processes. Among the secondary bile acids, Lithocholic Acid (LCA), identified by CAS number 434-13-9, has emerged as a compound of considerable scientific interest. Its complex roles in regulating metabolism, influencing cellular signaling pathways, and its potential connection to aging make it a vital research tool.

LCA is primarily produced in the gut by the action of the gut microbiota on primary bile acids. This intricate relationship between the host and its microbial inhabitants highlights the importance of studying LCA in the context of gut microbiome research. Scientists investigating the gut-liver axis, host-microbe interactions, and the metabolic consequences of microbial activity frequently seek to buy Lithocholic Acid powder to conduct their experiments.

Furthermore, LCA's demonstrated ability to activate key cellular signaling molecules like AMPK and its potential to mimic the beneficial effects of calorie restriction have positioned it as a significant player in aging research. For laboratories focused on understanding the mechanisms of longevity and age-related diseases, sourcing high-purity LCA is essential. Our role as a Lithocholic Acid manufacturer in China ensures that researchers have access to this critical compound with consistent quality.

The scientific community relies on dependable suppliers to provide research chemicals like CAS 434-13-9. As a leading cas 434-13-9 supplier, we are committed to facilitating scientific progress by offering our products at a competitive Lithocholic Acid price for research. We aim to be more than just a vendor; we strive to be a partner, providing the materials and support necessary for groundbreaking discoveries. When you need to purchase Bile Acid LCA, consider our expertise and commitment to excellence.

By focusing on quality and accessibility, we empower researchers to explore the full potential of Lithocholic Acid, contributing to advancements in metabolic health, aging interventions, and a deeper understanding of the complex biological roles of bile acids.