D-tagatose-[UL-13C6]

D-tagatose-[UL-13C6], a labeled derivative of D-tagatose, a naturally occurring ketohexose sugar, boasts numerous applications in scientific research. Here are the key applications of D-tagatose-[UL-13C6]:

Metabolic Flux Analysis: Utilizing D-tagatose-[UL-13C6] in metabolic flux analysis allows researchers to trace the intricate pathways of sugar metabolism within cells and organisms. The uniform labeling with 13C atoms enables the precise tracking of D-tagatose incorporation and distribution throughout diverse metabolic networks. This approach provides invaluable insights into metabolic pathways, enzyme kinetics, and energy balance, shedding light on the complexities of cellular metabolism.

Nutritional Studies: In the realm of nutritional science, D-tagatose-[UL-13C6] emerges as a crucial tool for investigating the absorption, distribution, metabolism, and excretion of D-tagatose in the human body. By leveraging an isotope-labeled compound, researchers can accurately measure and monitor its metabolism using advanced techniques like mass spectrometry. This data plays a pivotal role in assessing the health implications and potential risks associated with D-tagatose consumption, unraveling the intricate interplay between nutrition and human physiology.

Biomedical Research: Positioned at the forefront of biomedical exploration, D-tagatose-[UL-13C6] serves as a potent instrument for probing the effects of D-tagatose on various diseases and physiological processes. For instance, it can be deployed to investigate the therapeutic potential of D-tagatose in managing conditions such as diabetes and obesity. The isotope labeling facilitates detailed metabolic profiling, enabling researchers to delve deep into the underlying mechanisms of D-tagatose's therapeutic efficacy, offering new avenues for disease intervention and treatment.

Pharmaceutical Development: Within the pharmaceutical domain, D-tagatose-[UL-13C6] emerges as a valuable asset for the development and evaluation of novel drug formulations. Its labeled form aids in studying drug pharmacokinetics by precisely monitoring the absorption, distribution, and metabolism of D-tagatose within the body. This meticulous analysis is essential for optimizing drug delivery systems, ensuring the safety and effectiveness of emerging treatments, and paving the way for innovative pharmaceutical solutions.