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Maltose-[13C12] Monohydrate

General Information
Catalog: BLP-007090
Molecular Formula: [13C]12H24O12
Molecular Weight: 372.22
Chemical Structure
Maltose-[13C12] Monohydrate
Synonyms D-(+)-Maltose Monohydrate-UL-13C12; [UL-13C12]maltose monohydrate; 4-O-α-D-[UL-13C6]glucopyranosyl-D-[UL-13C6]glucose
Related CAS 6363-53-7 (unlabelled)
Purity 98%
Solubility Soluble in Methanol, Water
Appearance White to Off-white Solid

Maltose-[13C12] Monohydrate, a stable isotope-labeled sugar with diverse applications in the bioscience industry, offers a wealth of opportunities. Below we explore the key applications:

Metabolic Flux Analysis: Delving into cellular metabolism, Maltose-[13C12] Monohydrate plays a pivotal role in metabolic flux analysis, allowing researchers to trace the intricate pathways of carbon flow within cells. By scrutinizing the incorporation of labeled carbon, scientists can quantitatively assess fluxes across diverse metabolic networks, shedding light on the intricacies of cellular metabolism and optimizing industrial bioprocesses.

NMR Spectroscopy: In the realm of nuclear magnetic resonance (NMR) spectroscopy, this isotope-labeled compound offers substantial benefits. The incorporation of [13C12] affords researchers a detailed look at carbohydrate structures and interactions at the atomic level, providing invaluable insights into molecular dynamics, structural biology, and enzyme mechanisms. This data fuels exploration at the frontier of scientific understanding.

Enzyme Kinetics: Unveiling the subtleties of enzyme kinetics and enzyme-substrate interactions, Maltose-[13C12] Monohydrate emerges as a potent tool. Through its labeled carbon atoms, researchers can meticulously track enzymatic reactions and elucidate substrate turnover rates with precision, offering key insights into enzyme activity. This information is critical for shaping therapeutic strategies and developing novel interventions.

Nutritional Research: An indispensable asset in nutritional science, Maltose-[13C12] Monohydrate serves as a cornerstone in investigating carbohydrate digestion and absorption processes. By administering this compound to study subjects, scientists can trace its metabolic journey and unravel the intricacies of maltose processing within the body. These findings pave the way for enhanced dietary recommendations and refined interventions to bolster metabolic health.

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