sucrose-[6,6'-d2]

Sucrose-[6,6'-d2], a stable isotope-labeled variant of sucrose, is widely utilized in diverse research applications. Here are the key applications of sucrose-[6,6'-d2]:

Metabolic Studies: Delving into carbohydrate metabolism pathways, scientists harness sucrose-[6,6'-d2] in metabolic tracing studies. By integrating this labeled sucrose into biological systems, researchers can trace the transformation and dissemination of sucrose molecules within metabolic networks. This exploration sheds light on the utilization of glucose and fructose, unraveling their intricate roles in overall energy metabolism.

Plant Physiology Research: Within the realm of plant science, sucrose-[6,6'-d2] emerges as a vital tool for investigating carbon allocation and storage mechanisms within plants. By administering labeled sucrose to plants, scientists can monitor the transportation and deposition of sugars across various tissues. This insight aids in deciphering processes like photosynthesis, translocation, and biomass accumulation, providing a deeper understanding of plant physiology.

Nutritional Studies: In human and animal nutritional investigations, sucrose-[6,6'-d2] serves as a valuable resource for evaluating sugar absorption and metabolism rates. Through the administration of labeled sucrose in dietary studies, researchers can quantify digestion efficiency and identify metabolic irregularities. This application is particularly significant in examining disorders linked to sugar metabolism, such as diabetes and obesity.

Analytical Chemistry: Playing a pivotal role in analytical method development and validation, sucrose-[6,6'-d2] contributes to the detection and quantification of sucrose in complex matrices. Serving as an internal standard in mass spectrometry and other analytical methodologies, it enhances precision and accuracy. This role is essential for ensuring quality control and authenticity verification in the food and pharmaceutical sectors, underlining its significance in analytical chemistry.