Glycosyltransferase is a diverse family of enzymes that cause the activation and transfer of monosaccharide donors to carbohydrates throughout the process of oligosaccharide biosynthesis. In addition to that, glycosyltransferase is also used in vitro synthesis of carbohydrate chains in the sense that GTs catalyze the nucleotide sugar to activate monosaccharide donors.
In this blog, we’ll unravel the mystery known as glycosyltransferase and disclose where and how ChemilyBio can come in handy. So without any further ado, let’s dip our feet in.
Drilling Down Into The Basics
Glycosyltransferase causes the sugar residue to transfer from nucleotide sugar donor molecule to monosaccharide, oligosaccharide, and polysaccharide acceptor molecules. This is probably the reason why glycosyltransferase develops a diversified number of structures, which is a plus point because it’s crucial in various biological processes.
For instance, cell-signaling (the tendency of cells to respond to external stimuli), cell-pathogen interactions (the tendency of viruses or microbes to sustain inside a host organism on a cellular level), and preservation of cellular metabolism (biochemical reaction of enzymes).
How Can ChemilyBio Help?
We at ChemilyBio make use of state-of-the-art technology and aim to provide our clientele with several sugar and sugar based-synthons through synthesizing carbohydrates of glycoconjugates that are closely linked with various biological molecules. In addition, we have expertise in providing custom-tailored service for sugar compounds that aren’t capable of being reached quickly for operations.
With the help of our cutting-edge innovation, we at ChemilyBio intend to play a crucial part in the growth and development of glycoscience, specifically glycochemistry and glycobiology. In addition to our devotion to revolutionizing biochemistry and changing the dynamics of biochemical modification of chemical compounds, we have come up with recombinant (an amalgamation of genetic material) glycosyltransferase kits to synthesize the formation, reaction, bond-formation, and modification of carbohydrates.
Consequently, all the reactions related to enzymes come to completion in no time in an organized, effective, and efficient manner without weeding out the required glycans from the by-products. Furthermore, the glycosyltransferase kits that ChemilyBio offers include the necessary enzymes, along with the appropriate nucleotide sugar donors and all the essential elements necessary for transferring monosaccharide sugar moiety to saccharide and non-saccharide acceptor molecules.
Conclusion
All in all, Glycosyltransferases (also known as GTs) are an extended family of enzymes that develop complex carbohydrate structures. In addition, these enzymes also play quite a crucial role in biochemistry as they can be used as catalysts in oligosaccharides and glycoconjugates.