D-idose-[1-13C]

D-idose-[1-13C], a stable isotope-labeled sugar, finds wide applications in diverse research domains. Here are the key applications of D-idose-[1-13C]:

Metabolic Flux Analysis: Leveraging D-idose-[1-13C], researchers delve into metabolic pathways, unraveling the intricacies of carbon flow within cellular metabolism. By tracing the incorporation of labeled carbon into various metabolites via NMR or mass spectrometry, scientists construct detailed maps of metabolic networks. This profound understanding sheds light on the dynamic nature of metabolic processes across diverse physiological and pathological contexts.

Stable Isotope-Assisted Research: In the realm of biochemical experimentation, D-idose-[1-13C] acts as a vital tracer for probing carbohydrate metabolism and glycobiology. Its integration into glycans and other sugar derivatives facilitates in-depth structural and functional analyses. Researchers harness this knowledge to glean insights into the pivotal roles played by carbohydrates in cellular functions and disease pathologies, unraveling intricate molecular landscapes.

Pharmaceutical Research and Development: At the forefront of drug discovery, D-idose-[1-13C] emerges as a crucial asset for elucidating drug metabolites and their metabolic routes. By incorporating this labeled sugar into drug compounds, scientists track the journey of drugs within the body. This information proves invaluable in deciphering pharmacokinetics, optimizing therapeutics' efficacy, and ensuring their safety profile. The use of D-idose-[1-13C] revolutionizes pharmaceutical research, enhancing precision and efficiency in drug development processes.

Nutritional Studies: Diving into the realm of nutrition, D-idose-[1-13C] serves as a cornerstone for dissecting carbohydrate digestion, absorption, and utilization in human physiology. By administering this labeled compound in dietary investigations, researchers monitor its metabolic assimilation through breath analyses and blood samples. These comprehensive studies play a pivotal role in unraveling the nuances of nutrient metabolism, offering profound insights into the interplay between diet, health, and disease management.