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D-Arabinose-[4,5-13C2]

General Information
Catalog: BLP-007056
Molecular Formula: C3[13C]2H10O5
Molecular Weight: 152.11
Chemical Structure
D-Arabinose-[4,5-13C2]
Description Isotope labelled analogue of D-Arabinose, an inhibitor of the enzyme glucose dehydrogenase.
Synonyms D-[4,5-13C2]arabinose; D-Arabinose-4,5-13C2
Related CAS 10323-20-3 (unlabelled)

D-Arabinose-[4,5-13C2], a specialized form of arabinose infused with carbon-13 isotopes, plays a pivotal role in biochemical and biophysical research. Explore its diverse applications with a touch of intricacy and variegation:

Metabolic Flux Analysis: Delving into metabolic flux analysis, researchers harness D-Arabinose-[4,5-13C2] to trace the intricate journey of carbon atoms through metabolic pathways. By integrating this isotopically labeled sugar into biological systems, scientists meticulously monitor and quantify metabolic reactions. This detailed exploration unveils the nuances of carbohydrate metabolism and energy production dynamics.

NMR Spectroscopy Studies: With its carbon-13 enrichment, D-Arabinose-[4,5-13C2] emerges as a powerful tool for nuclear magnetic resonance (NMR) spectroscopy investigations. Researchers leverage this compound to scrutinize the structure and dynamics of carbohydrates, uncovering their intricate interplay with proteins and enzymes. This exploration aids in unraveling molecular conformations and binding mechanisms with finesse.

Stable Isotope Labeling: Empowered by D-Arabinose-[4,5-13C2], stable isotope labeling experiments offer a window into molecular transformations within complex biochemical systems. By monitoring the incorporation and dispersion of labeled arabinose within biomolecules, scientists unravel biosynthetic pathways and macromolecular assembly processes. This technique stands as a cornerstone in systems biology and metabolic engineering realms.

Enzyme Kinetics: Within the realm of enzyme kinetics studies, the incorporation of this labeled sugar sheds light on the intricate catalytic mechanisms of carbohydrate-processing enzymes. Using D-Arabinose-[4,5-13C2], researchers dissect reaction rates and elucidate enzyme specificity for diverse substrates. This critical knowledge underpins the comprehension of enzyme functionality and the design of enzyme-driven applications in the realm of biotechnology.

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