Publications by authors named "Eva K Regel"
Article Synopsis
- Partially acetylated chitosan oligosaccharides (paCOS) have various bioactivities useful in fields like biomedicine and agriculture, and understanding their structure-function relationships is key to their application.
- To enhance the availability of structurally defined paCOS, researchers developed a high-throughput screening assay to evaluate the activity and subsite specificities of chitosan-modifying enzymes like chitinases and chitosanases.
- The screening method utilizes a rapid analytical technique that identifies enzymatic variants with altered specificities, demonstrating efficiency in producing chitosan enzymes with potentially improved functions for diverse applications.
Background: Partially acetylated chito-oligosaccharides (paCOS) have a variety of potential applications in different fields, but to harness their benefits, pure paCOS or well-defined paCOS mixtures are essential. For example, if one could produce fully acetylated (A) and fully deacetylated (D) tetramers in abundance, all possible variants of tetrameric paCOS could be generated reliably from them. A promising approach for generating defined paCOS is by enzymatic depolymerization of chitosan polymers using chitosanases, since these enzymes' subsite specificities directly influence the composition of the paCOS produced; however, enzymatic production of e.
View Article and Find Full Text PDFPartially acetylated chitosan oligosaccharides (paCOS) have various potential applications in agriculture, biomedicine, and pharmaceutics due to their suitable bioactivities. One method to produce paCOS is partial chemical hydrolysis of chitosan polymers, but that leads to poorly defined mixtures of oligosaccharides. However, the effective production of defined paCOS is crucial for fundamental research and for developing applications.
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