α-D-glucopyranosyl 1-phosphate-[UL-13C6] dicyclohexylammonium salt, monohydrate

α-D-glucopyranosyl 1-phosphate-[UL-13C6] dicyclohexylammonium salt monohydrate, a specialized isotopic reagent, plays a pivotal role in biochemical and metabolic research. Here are the key applications:

Metabolic Flux Analysis: Employing this isotopically labeled compound in metabolic flux analysis allows researchers to unravel the intricate carbon pathways within metabolic networks. By integrating this labeled glucose derivative into cellular metabolism, scientists can meticulously trace the flow and distribution of carbon atoms in metabolic pathways, shedding light on metabolic dynamics and optimizing biotechnological processes.

Glycogen and Starch Metabolism Studies: α-D-glucopyranosyl 1-phosphate-[UL-13C6] serves as a vital tool for investigating the synthesis and degradation of glycogen and starch in both prokaryotic and eukaryotic systems. Researchers can delve into enzyme kinetics by monitoring the incorporation of labeled glucose into glycogen or starch molecules, unveiling the regulatory mechanisms and enzymatic functions governing polysaccharide metabolism.

Nutritional Biochemistry: Within the realm of nutritional biochemistry, this compound proves invaluable for studying glucose uptake and utilization across various tissues. By tracking the labeled glucose, researchers can examine how dietary glucose is metabolized in different organs, providing critical insights into the nutritional and metabolic responses elicited by diverse dietary regimes.

Diagnostic Research: In the domain of diagnostic research, α-D-glucopyranosyl 1-phosphate-[UL-13C6] serves as a cornerstone for developing innovative assays aimed at detecting metabolic disorders. By scrutinizing the metabolic fate of labeled glucose in patient samples, experts can pinpoint abnormalities in glucose metabolism, paving the way for the creation of diagnostic tools for conditions like diabetes and other metabolic diseases.