D-glucose-[2-13C,1-d], a specialized labeled glucose isotope, finds diverse applications in scientific investigations. Here are the key applications of D-glucose-[2-13C,1-d]:
Metabolic Flux Analysis: In the realm of metabolic flux analysis, this unique glucose molecule serves as a crucial tool for tracing pathways and quantifying carbon flow within intricate metabolic networks. Researchers integrate D-glucose-[2-13C,1-d] into cell cultures and employ mass spectrometry to scrutinize the distribution of labeled carbon atoms. This methodology yields valuable insights into cellular metabolism, energy generation, and biosynthetic pathways.
Agricultural Science: In the domain of plant physiology studies, D-glucose-[2-13C,1-d] enables researchers to delve into the assimilation and metabolism of glucose in plants under diverse environmental conditions. By tracing the labeled carbon atoms, scientists can explore glucose transport, storage, and utilization across varied plant tissues. This exploration contributes significantly to our understanding of plant growth dynamics, stress responses, and strategies for enhancing crop productivity.
Biotechnology: Leveraging D-glucose-[2-13C,1-d] in biotechnological endeavors allows for the optimization of microbial fermentation processes. By tracking the labeled carbon within microbial cultures, researchers can assess metabolic fluxes and enhance the yields of desired products such as biofuels, pharmaceuticals, and industrial enzymes. This approach aids in refining metabolic pathways to drive improved bioproduction efficiency and sustainability.
![D-glucose-[2-13C,1-d]](https://resource.bocsci.com/structure/d-2-13c-1-2h-glucose.gif)
