D-fructose-[5-13C]

D-fructose-[5-13C], a stable isotope-labeled sugar with diverse applications in bioscience and medical research. Here are the key applications:

Metabolic Flux Analysis: Diving deep into cellular metabolism, D-fructose-[5-13C] plays a pivotal role in metabolic flux analysis. By scrutinizing the pathways of sugar metabolism with precision, researchers unveil the intricate dance of carbon flow through metabolic networks. This insight sheds light on the dynamics of metabolic interactions and aids in identifying hidden metabolic anomalies lurking within cellular landscapes.

NMR Spectroscopy Studies: In the realm of nuclear magnetic resonance (NMR) spectroscopy, D-fructose-[5-13C] emerges as a prized tool for unraveling the secrets of carbohydrate structure and behavior. Armed with distinct signals from the 13C label, scientists embark on a journey to decipher molecular shapes and interactions, sculpting a clearer picture of structural biology intricacies and paving the way for novel carbohydrate-based therapeutic interventions.

Dietary Studies: Venturing into the realm of clinical and nutritional exploration, D-fructose-[5-13C] emerges as a beacon for illuminating the mysteries of fructose absorption and metabolism in the human body. By administering this labeled elixir and tracing its metabolites in biological samples, researchers embark on a quest to untangle the complexities of fructose-related metabolic disorders. This journey into the metabolic abyss sheds light on the profound impacts of fructose consumption on human health and disease states.

Plant Physiology Research: Stepping into the verdant realm of plant science, D-fructose-[5-13C] emerges as a key player in unraveling the mysteries of sugar metabolism and transport within botanical realms. By infusing plants with this labeled sugar, researchers embark on a botanical odyssey tracing the intricate pathways of carbon allocation and fluxes across different plant tissues. This botanical ballet provides crucial insights for enhancing crop productivity and deciphering how plants respond to the ever-changing winds of environmental shifts.