D-glucitol-[4,5,6-13C3], a compound labeled with stable isotopes, finds diverse applications in various bioscience fields. Here are the key applications of D-glucitol-[4,5,6-13C3]:
Metabolic Flux Analysis: Employing D-glucitol-[4,5,6-13C3] in metabolic flux analysis allows researchers to trace the intricate pathways of carbohydrates within cells. By introducing this labeled compound, scientists can meticulously monitor its conversion through various metabolic intermediates. This in-depth analysis sheds light on cellular metabolism, unveiling potential bottlenecks that could be targeted for therapeutic interventions or optimizations in biotechnology ventures.
NMR Spectroscopy: Serving as a valuable tool in nuclear magnetic resonance (NMR) spectroscopy, D-glucitol-[4,5,6-13C3] acts as a crucial probe for studying molecular dynamics within complex biological systems. Through the utilization of this compound, researchers gain detailed insights into the conformation and interactions of molecules. This precise examination enables the exploration of carbohydrate structures and dynamics with exceptional precision, enhancing our understanding of biological complexities.
Stable Isotope Labeling: In stable isotope labeling studies, D-glucitol-[4,5,6-13C3] plays a pivotal role in investigating biochemical processes. The labeled carbon atoms within this compound act as distinct markers, enabling scientists to meticulously track its incorporation and distribution within biological systems. This method is paramount for unraveling the fate of glucose derivatives in metabolic pathways and decoding disease-related metabolism intricacies with a high degree of accuracy.
![D-glucitol-[4,5,6-13C3]](https://resource.bocsci.com/structure/d-4-5-6-13c3-glucitol.gif)
