L-Ornithine-[5-15N] hydrochloride, a stable isotope-labeled compound, finds diverse applications in research and diagnostics. Delve into its key applications with a high degree of perplexity and burstiness:
Metabolic Tracing: Unraveling the mysteries of metabolism, L-Ornithine-[5-15N] hydrochloride serves as a powerful tracer in nitrogen pathway investigations. Integrating this labeled compound into metabolic explorations allows researchers to meticulously monitor nitrogen transfer and utilization in biological systems, shedding light on amino acid metabolism intricacies and unveiling potential dysregulations in metabolic disorders.
Protein Turnover Studies: Delving into the dynamic world of protein turnover, L-Ornithine-[5-15N] hydrochloride emerges as a crucial player in measuring protein degradation rates across cells and tissues. By embedding labeled ornithine into proteins and tracking its journey over time using mass spectrometry, researchers unlock the secrets of protein synthesis and breakdown dynamics, offering invaluable insights into diverse physiological and pathological conditions.
Nutritional Biochemistry: Unlocking the secrets of nutrition and diet, L-Ornithine-[5-15N] hydrochloride stands as a key tool for studying nitrogen metabolism flux under varying dietary interventions. Administering this compound to subjects enables scientists to assess the impact of nutritional strategies on nitrogen balance within the body, paving the way for optimized dietary plans for both health maintenance and disease management.
Urea Cycle Research: Moving into the heart of ammonia detoxification, L-Ornithine-[5-15N] hydrochloride takes center stage in exploring the intricacies of the urea cycle.
![L-Ornithine-[5-15N] hydrochloride](/isotope.v1/images/structure-default.jpg)
