Galpβ1,3Galpβ1,6([U-13C6]Galfβ1,4)GlcNAcitol

Galpβ1,3Galpβ1,6([U-13C6]Galfβ1,4)GlcNAcitol, a specialized carbohydrate conjugate utilized in cutting-edge bioscience research, offers a realm of applications. Here are the key applications:

Glycobiology Research: This compound plays a pivotal role in deciphering the intricate structures and functions of glycoproteins and glycolipids. By incorporating [U-13C6] labeled Galf, researchers can meticulously track and analyze glycan structures using advanced spectroscopy techniques. This detailed examination provides profound insights into the complex glycosylation patterns and their diverse functions within biological processes.

Pathogen-Host Interaction Studies: Galpβ1,3Galpβ1,6([U-13C6]Galfβ1,4)GlcNAcitol serves as a formidable tool for exploring how pathogens recognize and adhere to host cell surface glycans. These investigations are paramount for unraveling infection mechanisms and devising strategies to impede pathogen binding. Such insights hold immense promise for the development of innovative anti-infective therapies and vaccines, reshaping our approach towards combating infectious diseases.

Metabolic Labeling Experiments: The [U-13C6] labeled carbohydrate emerges as an indispensable asset in conducting metabolic labeling experiments focused on cellular glycoconjugate biosynthesis. Researchers can monitor the incorporation and turnover of the labeled sugar in diverse glycans, shedding light on metabolic pathways and fluxes. This in-depth examination aids in unraveling the dynamic nature of cellular metabolism, guiding subsequent efforts in metabolic engineering with precision.

Analytical Biochemistry: As a cornerstone in mass spectrometry and nuclear magnetic resonance (NMR) studies of complex carbohydrates, this compound acts as a gold standard and probing element. Accurate quantification and structural elucidation of glycan molecules are vital for a myriad of biochemical analyses. Leveraging labeled standards, researchers can achieve unparalleled sensitivity and specificity in their analytical assays, paving the way for groundbreaking discoveries in biochemistry.