D-gluconic acid-[1-13C] sodium salt

D-gluconic acid-[1-13C] sodium salt stands as a stable isotopically labeled compound, widely utilized in diverse biochemical and metabolic studies. Here are the key applications of D-gluconic acid-[1-13C] sodium salt:

Metabolic Flux Analysis: In the realm of metabolic flux analysis, D-gluconic acid-[1-13C] sodium salt emerges as a pivotal tool for delving into carbon pathways within cellular processes. By integrating this labeled compound into the intricate metabolic network, researchers gain the ability to scrutinize the distribution and uptake of carbon atoms. This intricate analysis aids in unraveling the nuances of cellular metabolism, pinpointing potential targets for metabolic engineering endeavors.

NMR Spectroscopy: Within the domain of nuclear magnetic resonance (NMR) spectroscopy, D-gluconic acid-[1-13C] sodium salt shines as a premier standard for investigating metabolic intermediates. The 13C-label affords precise tracking and quantification of gluconate's involvement in biochemical pathways, unveiling the complexities of metabolic profiles and pathway analysis. This tool is invaluable for untangling the mysteries of metabolic intricacies and unraveling metabolic pathways with finesse.

Enzyme Mechanism Studies: Researchers turn to D-gluconic acid-[1-13C] sodium salt to probe the inner workings of enzymes engaged in gluconic acid metabolism. By tracking the fate of the 13C label during enzymatic reactions, scientists glean profound insights into catalytic mechanisms and enzyme-specific behaviors. This knowledge fuels the exploration of enzyme inhibitors and pharmaceutical applications, enriching our understanding of enzymatic processes and their therapeutic implications.

Industrial Biotechnology: Embraced in the realm of industrial biotechnology, D-gluconic acid-[1-13C] sodium salt plays a crucial role in optimizing production processes related to gluconate and its derivatives. By harnessing the power of the 13C-labeled compound, bioprocess engineers can meticulously monitor and fine-tune microbial fermentation pathways. This approach streamlines the production of bioproducts and bio-based chemicals, ushering in a new era of efficiency and sustainability in industrial biotechnology practices.