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α,β-Trehalose-[1,1'-d2]

General Information
Catalog: BLP-007086
Molecular Formula: C12H20D2O11
Molecular Weight: 344.31
Chemical Structure
α,β-Trehalose-[1,1'-d2]
Synonyms alpha,beta-[1,1'-2H2]trehalose; [1-2H]Glc(a1-1b)[1-2H]Glc; alpha,beta-trehalose-1,1'-d2; α,β-[1,1'-d2]trehalose; α-D-[1-2H]Glcp-(1↔1)-β-D-[1-2H]Glcp; 1-O-α-D-[1-D]Glucopyranosyl-β-[D-[1-D]glucopyranoside
IUPAC Name (2R,2'R,3S,3'S,4S,4'S,5R,5'R,6R,6'R)-6,6'-oxybis(2-(hydroxymethyl)tetrahydro-2H-pyran-6-d-3,4,5-triol)
Related CAS 585-91-1 (unlabelled)
Solubility Soluble in Methanol (Slightly), Water (Slightly)
Storage Store at 2-8°C

α,β-Trehalose-[1,1'-d2], a specialized form of trehalose labeled with deuterium, finds diverse applications in biochemical and biophysical research. Here are the key applications of α,β-Trehalose-[1,1'-d2]:

Metabolic Flux Analysis: Employing α,β-Trehalose-[1,1'-d2] as a metabolic tracer in flux analysis reveals intricate insights into carbohydrate metabolism within living organisms. By integrating this deuterium-labeled compound into metabolic pathways, researchers can meticulously monitor its conversion and distribution, shedding light on the dynamic energy processes within cells and the intricate regulation of metabolic activities.

Protein Stabilization Studies: Delving into the stabilizing effects of trehalose on proteins under duress, α,β-Trehalose-[1,1'-d2] emerges as a critical tool in stress-induced protein stabilization research. By utilizing the labeled variant, researchers can discern between endogenous and experimental trehalose, unraveling the intricate mechanisms through which trehalose shields proteins from denaturation and aggregation in adverse conditions like high temperatures or desiccation.

Structural Biology: Within the realm of structural biology, α,β-Trehalose-[1,1'-d2] plays a pivotal role in NMR spectroscopy investigations into the interactions between trehalose and biological macromolecules. Leveraging deuterium labeling, researchers obtain distinct signals that aid in unraveling structural intricacies and dynamic behaviors, illuminating the profound influence of trehalose on the stability and functionality of biomolecules.

Cryopreservation Research: Facilitating advancements in cryopreservation techniques, α,β-Trehalose-[1,1'-d2] serves as a key cryoprotectant in the storage of cells, tissues, and proteins at low temperatures. Researchers leverage this labeled compound to probe the penetration and protective mechanisms of trehalose during freezing and thawing processes, contributing significantly to the development of more robust preservation strategies with enhanced efficacy.

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