L-Lysine-[13C6,15N2] hydrochloride, a stable isotope-labeled amino acid, finds diverse applications in scientific research. Here are key applications of L-Lysine-[13C6,15N2] hydrochloride presented with high perplexity and burstiness:
Proteomics Research: In the realm of proteomics, L-Lysine-[13C6,15N2] hydrochloride plays a pivotal role in exploring protein expression modifications and interactions. By integrating this labeled lysine into proteins, scientists conduct quantitative mass spectrometry, comparing protein abundances across distinct biological samples. This sophisticated technique, known as SILAC (Stable Isotope Labeling by Amino acids in Cell culture), is indispensable for unraveling the dynamic and functional landscape of cellular proteins.
Metabolic Flux Analysis: Within the domain of metabolic studies, L-Lysine-[13C6,15N2] hydrochloride acts as a potent tracer for tracing metabolic pathways. It enables researchers to unveil the intricate flow of carbon and nitrogen through metabolic networks, pinpointing flux alterations under diverse physiological conditions. This deep insight serves as a cornerstone for constructing metabolic models and refining biotechnological processes like microbial fermentation, driving innovation in bioengineering.
Nutritional Studies: Delving into nutritional research, L-Lysine-[13C6,15N2] hydrochloride emerges as a crucial tool for probing amino acid metabolism and dietary needs in both humans and animals. By administering this labeled compound, researchers track lysine absorption, utilization, and excretion, unearthing crucial insights into protein metabolism. This knowledge underpins the formulation of well-rounded diets and sheds light on nutritional deficiencies, fostering a holistic understanding of dietary requirements.
Pharmaceutical Development: In the arena of pharmaceuticals, this labeled lysine is harnessed for advancing pharmacokinetic and pharmacodynamic studies, elucidating drug-protein interactions. By integrating L-Lysine-[13C6,15N2] into drug formulations or therapeutic proteins, scientists monitor their distribution and metabolism within the body. These rigorous investigations are imperative for evaluating drug efficacy, safety, and optimal dosing strategies, shaping the future of precision medicine and therapeutic interventions.
