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DL-apiose-[2-13C]

General Information
Catalog: BLP-013344
Molecular Formula: 13CC4H10O5
Molecular Weight: 151.12
Chemical Structure
DL-apiose-[2-13C]
Description DL-apiose-[2-13C] is a stable labelled form of DL-apiose. DL-apiose is a naturally occurring branched-chain sugar in parsley and other plant species.
Synonyms DL-[2-13C]apiose; DL-apiose-2-13C

DL-apiose-[2-13C], a carbon-labeled sugar used for intricate studies in diverse biological and chemical realms, is a versatile tool. Here are the key applications:

Metabolic Pathway Tracing: In metabolic research, DL-apiose-[2-13C] serves as a crucial element for tracing carbon atom fates across biochemical reactions. By integrating this labeled sugar into experiments, researchers track carbon flow through various pathways, shedding light on intricate metabolic networks and unraveling how organisms metabolize and utilize sugars.

Plant Cell Wall Research: In the realm of plant biology, DL-apiose-[2-13C] assumes a pivotal role in delving into plant cell wall biosynthesis and modification. Its integration into cell wall polysaccharides enables researchers to trace and analyze the incorporation of specific sugars into the matrix. This insight is paramount for advancing our comprehension of plant physiology and enhancing agricultural methodologies.

Structural Biology: Within the domain of structural biology, DL-apiose-[2-13C] serves as a valuable resource for exploring the dynamics and arrangements of polysaccharides and glycoproteins. Through nuclear magnetic resonance (NMR) spectroscopy, scientists delve into the molecular landscapes and interactions of the labeled sugar within complex biomolecules. This data is indispensable for unraveling the intricate relationships between structure and function in biological carbohydrates.

Enzyme Mechanism Studies: DL-apiose-[2-13C] holds significant value in probing the mechanisms of enzymes engaged in carbohydrate metabolism. By offering a labeled substrate, researchers observe enzymatic transformation processes, discerning intermediates and products. This information aids in understanding enzyme functionalities and propels the development of enzyme inhibitors for both therapeutic and industrial applications.

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