Maltohexaose-[UL-13C36]

Maltohexaose-[UL-13C36], a uniformly labeled isotopic compound, finds extensive applications in advanced research. Here are the key applications of Maltohexaose-[UL-13C36]:

Metabolic Flux Analysis: Delving into metabolic flux analysis, Maltohexaose-[UL-13C36] emerges as a pivotal player in tracing metabolic pathways and quantifying the carbon flow coursing through them. By infusing this isotopically enriched compound into cellular systems, researchers embark on a journey to delineate its assimilation and metamorphosis, unearthing intricate insights into cellular metabolism. This application stands as a linchpin in unraveling the mysteries of metabolic diseases and fine-tuning biotechnological processes.

Glycoscience Research: In the realm of glycoscience, Maltohexaose-[UL-13C36] emerges as a potent tool for investigating carbohydrate metabolism and glycosylation cascades. Scientists harness its potential to explore enzymatic degradation and synthesis of glycans in both in vitro and in vivo settings, shedding light on the nuanced functions of glycans and their profound impacts on health and disease landscapes.

Structural Biology: Pioneering the domain of structural biology, Maltohexaose-[UL-13C36] assumes a pivotal role in NMR (nuclear magnetic resonance) investigations. The uniform isotopic labeling with 13C lays the groundwork for meticulous NMR spectroscopic scrutiny of carbohydrate configurations and their complex interactions with proteins and other biomolecules, unveiling the intricate molecular architectures and dynamics underpinning complex biological systems.

Food Science: Venturing into food science territories, Maltohexaose-[UL-13C36] emerges as a key protagonist in unraveling the mysteries of starch digestion and absorption dynamics. By meticulously monitoring its metabolic destiny, scientists delve into the realms of digestive processes and unearth the roles played by maltohexaose as a dietary fiber.