D-arabinose-[2,3-13C2]

D-arabinose-[2,3-13C2], a stable isotope-labeled sugar, holds a myriad of applications in biochemical and physiological research. Here are the key applications of D-arabinose-[2,3-13C2]:

Metabolic Flux Analysis: The utilization of D-arabinose-[2,3-13C2] in metabolic investigations provides researchers with a unique window into tracking carbon flux across diverse biochemical pathways. By integrating this isotope-labeled sugar into cellular systems, scientists can meticulously monitor the incorporation of labeled carbons, unveiling the intricate web of metabolic routes. This approach not only enhances our understanding of dynamic cellular metabolism but also helps identify crucial bottlenecks within metabolic pathways.

NMR Spectroscopy: Within the captivating realm of nuclear magnetic resonance (NMR) spectroscopy, this isotope-labeled compound emerges as a linchpin for conducting detailed structural and dynamic analyses of sugars and related biomolecules. The incorporation of 13C isotopes enhances signal detection and resolution, offering researchers unparalleled insights into the conformational dynamics and interactions of D-arabinose within complex biological systems. Through this method, the subtle intricacies of molecular behavior are unraveled, enriching our knowledge of structural biology.

Biosynthetic Pathway Elucidation: Serving as a powerful tool for unraveling biosynthetic pathways across a spectrum of organisms, D-arabinose-[2,3-13C2] enables researchers to trace and identify intermediates and end-products within synthetic pathways. By introducing this labeled sugar into cells, scientists embark on a journey of discovery, shedding light on the intricacies of natural product biosynthesis and facilitating the engineering of microorganisms to produce coveted metabolites. This application heralds a new era of biotechnological advancements, propelling innovation in the realm of synthetic biology.

Stable Isotope Labeling in Animal Studies: Positioned as a cornerstone tracer in animal research, D-arabinose-[2,3-13C2] facilitates profound investigations into carbohydrate metabolism and absorption. By quantifying the labeled carbons in bodily fluids or tissues, researchers embark on a voyage of discovery, unraveling the metabolic kinetics and pathways of D-arabinose. This indispensable tool plays a pivotal role in nutritional research and provides critical insights into disorders linked to carbohydrate metabolism, illuminating the inner workings of metabolic processes in living organisms with unparalleled depth and clarity.