β-Alanine-[3-13C,15N]

β-Alanine-[3-13C,15N], a stable isotope-labeled compound, finds diverse applications in scientific research. Here are key applications of β-Alanine-[3-13C,15N] presented with high perplexity and burstiness:

Metabolic Flux Analysis: In the realm of metabolic studies, β-Alanine-[3-13C,15N] plays a pivotal role in tracking and quantifying the intricate flow of carbon and nitrogen atoms through biochemical pathways. By introducing this labeled compound into organisms, researchers delve into cellular metabolism, shedding light on metabolic responses under varying conditions. This method is indispensable for unraveling the complexities of metabolic regulation and crafting innovative metabolic engineering strategies.

NMR and Mass Spectrometry Studies: As an isotopically labeled compound, β-Alanine-[3-13C,15N] serves as a cornerstone in nuclear magnetic resonance (NMR) spectroscopy and mass spectrometry. Acting as a tracer or internal standard, it significantly enhances the precision and sensitivity of these analytical methodologies. Researchers meticulously follow the labeled atoms within molecular structures, facilitating structural elucidation and quantitative analysis in complex biological samples with unparalleled accuracy.

Protein and Amino Acid Metabolism Research: Delving into the realm of protein metabolism, β-Alanine-[3-13C,15N] emerges as a valuable tool for scrutinizing the synthesis and degradation of proteins within cellular environments. By monitoring the assimilation of this labeled amino acid into protein frameworks, scientists unlock insights into protein turnover dynamics and rates. This knowledge proves instrumental in comprehending cellular protein equilibrium and unraveling the repercussions of diverse physiological and pathological states.

Nutritional and Exercise Physiology: Engaging the realms of nutritional science and exercise physiology, β-Alanine-[3-13C,15N] emerges as a linchpin in exploring the impact of β-alanine supplementation on enhancing athletic performance. By meticulously tracing the metabolic destiny of this isotopically labeled compound, researchers assess how β-alanine supplementation influences muscle carnosine levels and exercise capacity. This deep understanding aids in optimizing dietary strategies and refining athletic training regimens for peak performance.