D-psicose-[UL-13C6], a rare sugar isotope with specialized scientific applications, serves various research purposes. Explore these applications:
Metabolic Flux Analysis: Delving into cellular systems, D-psicose-[UL-13C6] acts as a beacon for tracing metabolic pathways. As a labeled isotope, it illuminates the conversion and utilization of carbohydrates within metabolic cycles, offering invaluable insights into metabolic dynamics and shaping metabolic engineering strategies with precision.
Glycemic Response Studies: Unveiling its impact on blood sugar levels, researchers turn to D-psicose-[UL-13C6] for comprehensive studies. By using the labeled isotope, the absorption and metabolism of D-psicose are meticulously monitored, paving the way for developing low-glycemic food products and enhancing strategies for managing diabetes through detailed analysis.
Food Science Research: In the realm of food processing and nutrition, D-psicose-[UL-13C6] takes center stage in exploring the role of rare sugars. The labeled isotope serves as a guide, quantifying the behavior of D-psicose under diverse conditions like heating and fermentation. This research fuels the development of healthier food alternatives with reduced caloric content, reshaping the landscape of food science with innovative approaches.
Stable Isotope Labeling: Stepping into biochemistry, D-psicose-[UL-13C6] emerges as a crucial tool for stable isotope labeling experiments in protein and carbohydrate research. Serving as a tracer, it unravels molecular interactions and enzyme activities, casting light on biochemical pathways and mechanisms at a molecular level, driving forward discoveries in the field with unparalleled precision.
![D-psicose-[UL-13C6]](https://resource.bocsci.com/structure/d-ul-13c6-psicose.gif)
