CAS 487-19-4: Nicotyrine

(3-(1-Methyl-1H-pyrrol-2-yl)pyridine

3-(1-Methylpyrrol-2-yl)pyridine is a heterocyclic compound, which is a synthetic chemical structure notable for its potential applications in pharmaceutical research and development. This compound is derived from the combination of pyridine and pyrrole rings, with a methyl group attached to the pyrrole nitrogen, creating a unique structural framework that provides diverse chemical functionalities. The mode of action of 3-(1-Methylpyrrol-2-yl)pyridine primarily revolves around its interaction with various biological targets, which can modulate biochemical pathways. The structure allows for versatile binding to enzymes or receptors, thereby potentially influencing physiological processes. This adaptability is crucial for drug design and discovery, where precise targeting of biochemical interactions is paramount. In terms of applications, 3-(1-Methylpyrrol-2-yl)pyridine is extensively explored in the field of medicinal chemistry. Researchers investigate its utility as a scaffold for the development of new therapeutic agents, particularly due to its ability to embed into complex biological systems. The compound's attributes make it a candidate for exploring novel treatments for various diseases, contributing significantly to efforts in drug discovery and development.

Other alkaloids,natural or reproduced by synthesis, and their salts, ethers,esters&other derivatives, nesoi

β-Nicotyrine

Stability Hygroscopic Applications β-Nicotyrine-d3, is the labeled analogue of β-Nicotyrine (N445002), which is an alkaloid derived from the dehydrogenation of nicotine and its analog, nornicotine. An alkaloid occurring in cigaret smoke. References Swain, M.L., et al.: J. Am. Chem. Soc., 71, 1341 (1949);

Beta-Nicotyrine is a pyridine alkaloid, which is a naturally occurring compound found in certain species of Nicotiana, primarily derived from tobacco plants. This compound is known for its intriguing mode of action that involves influencing nicotinic acetylcholine receptors, although its precise biological interactions continue to be studied for more detailed elucidation. In terms of applications, beta-Nicotyrine is being investigated for its potential metabolic and pharmacological effects. Researchers are exploring its role in modulating neurotransmitter activity, which may have implications in neuropharmacology and toxicology. As such, beta-Nicotyrine is pivotal in scientific explorations aimed at understanding the diverse biological activities of tobacco-derived compounds and their impact on human health. Ongoing studies seek to determine its potential utility in therapeutic settings, as well as its effects on metabolic pathways, thus contributing to a broader understanding of alkaloid function and its possible benefits or risks.

beta-Nicotyrine is a tobacco alkaloids Metabolite in the liver.