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α,α-trehalose-[UL-d14]

General Information
Catalog: BLP-007084
Molecular Formula: C12H8D14O11
Molecular Weight: 356.39
Chemical Structure
α,α-trehalose-[UL-d14]
Synonyms α,α-[UL-D14]Trehalose; α,α-[UL-2H14]trehalose; 1-O-α-D-[UL-D7]Glucopyranosyl-α-D-[UL-D7]glucopyranoside
Related CAS 99-20-7 (unlabelled)
Purity 98% (CP); 96% atom D
Appearance White Solid

α,α-Trehalose-[UL-d14] is a deuterium-labeled version of trehalose commonly used in biochemical research. Here are some key applications of α,α-Trehalose-[UL-d14]:

Metabolic Tracing Studies: α,α-Trehalose-[UL-d14] can be used as a tracer in metabolic studies to monitor the metabolic pathways of trehalose. By incorporating this labeled molecule into experiments, researchers can track its conversion and utilization within cells. This helps in understanding the dynamics of sugar metabolism and the role of trehalose in various biological processes.

NMR Spectroscopy: α,α-Trehalose-[UL-d14] is valuable in nuclear magnetic resonance (NMR) spectroscopy for studying the structural dynamics of proteins and other macromolecules. Due to its deuterium label, it provides clear and distinguishable spectral signals. This aids in elucidating the interaction of trehalose with biomolecules, contributing to our knowledge of molecular stabilization and protection mechanisms.

Stress Response Studies: In studies of cellular stress responses, α,α-Trehalose-[UL-d14] is used to investigate how cells manage osmotic stress and dehydration. Trehalose is known to protect cells from stress-induced damage, and using the labeled version can help trace and quantify these protective effects. This is particularly important in fields such as cryobiology and the development of preservation techniques for biological samples.

Biotechnological Applications: α,α-Trehalose-[UL-d14] can be employed in biotechnological research to enhance the stability of proteins and enzymes. Its ability to serve as a stabilizing agent makes it valuable in the formulation of pharmaceutical products and bioprocesses. The labeled compound allows researchers to study its stabilization mechanisms in detail, leading to improved formulations and storage solutions for biologics.

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