Galpβ1,2Galpβ1,6([U-13C6]Galpβ1,3)GlcNAcitol

Galpβ1,2Galpβ1,6([U-13C6]Galpβ1,3)GlcNAcitol, a labeled oligosaccharide utilized across diverse research and diagnostic applications, lends itself to complex analyses. Here are the key applications:

Glycan Structure Elucidation: Serving as a standard in mass spectrometry and NMR spectroscopy, this oligosaccharide facilitates the examination of intricate glycan structures. By employing a labeled compound, researchers can meticulously track and analyze glycan fragments, enhancing the understanding of glycosylation patterns in proteins and other biomolecules.

Metabolic Labeling Studies: Leveraging the labeled component in Galpβ1,2Galpβ1,6([U-13C6]Galpβ1,3)GlcNAcitol, researchers can delve into metabolic labeling experiments to monitor glycan biosynthesis. By introducing this compound into cellular systems and monitoring its integration into glycoconjugates, insights into glycan turnover and metabolic pathways are gained, illuminating the intricacies of cellular metabolism.

Immunology Research: This oligosaccharide serves as a valuable tool for exploring the interactions between glycans and components of the immune system. By investigating how specific glycans bind to lectins or antibodies, researchers unlock insights into pathogen recognition mechanisms and immune responses. Such studies are foundational for the development of glycan-based vaccines and therapeutics, pushing the boundaries of immunological research and therapeutic innovation.

Diagnostics Development: In the realm of diagnostics, Galpβ1,2Galpβ1,6([U-13C6]Galpβ1,3)GlcNAcitol plays a pivotal role in crafting diagnostic assays for identifying glycan-associated biomarkers. By leveraging the compound to construct standard curves and validate assay performance, diagnostic tests for conditions characterized by altered glycosylation patterns are bolstered in accuracy and reliability, advancing the field of diagnostic medicine.