Enzymes are nature’s catalyst of choice for the highly selective and efficient coupling of carbohydrates. Enzymatic sugar coupling is a competitive technology for industrial glycosylation reactions, since chemical synthetic routes require extensive use of laborious protection group manipulations and often lack regio- and stereoselectivity
Exploitation of enzymes in biocatalytic processes provides scope both in the synthesis and degradati...
Biocatalysis using enzymes is a powerful strategy that can be employed in a variety of industries fo...
Carbohydrates are attached and removed in living systems through the action of carbohydrate-active e...
Glycosylated compounds have numerous applications in the food, pharmaceutical and personal care indu...
Enzymes are nature's catalyst of choice for the highly selective and efficient coupling of carbohydr...
The use of biocatalysts for glycoside bond formation is an attractive strategy in chemical synthesis...
Enzymatic glycosylation is a versatile and sustainable biotechnological approach that plays a pivota...
Remarkable advances in glycobiology in recent years have stimulated a resurgence of-interest in carb...
I l laturing of the petroleum-based chemical industry, pressures of environmental constraints, and t...
Glycosylation can significantly improve the physicochemical and biological properties of small molec...
Enzymes are versatile biocatalysts capable of performing selective reactions. The advantages of enzy...
Glycosylation can significantly improve the physicochemical and biological properties of small molec...
Organisms from all kingdoms of life produce a plethora of natural products that display a range of b...
While the field of biocatalysis has bloomed over the past 20–30 years, advances in the understanding...
Catalysts are species that accelerate chemical reactions without themselves being consumed in the pr...
Exploitation of enzymes in biocatalytic processes provides scope both in the synthesis and degradati...
Biocatalysis using enzymes is a powerful strategy that can be employed in a variety of industries fo...
Carbohydrates are attached and removed in living systems through the action of carbohydrate-active e...
Glycosylated compounds have numerous applications in the food, pharmaceutical and personal care indu...
Enzymes are nature's catalyst of choice for the highly selective and efficient coupling of carbohydr...
The use of biocatalysts for glycoside bond formation is an attractive strategy in chemical synthesis...
Enzymatic glycosylation is a versatile and sustainable biotechnological approach that plays a pivota...
Remarkable advances in glycobiology in recent years have stimulated a resurgence of-interest in carb...
I l laturing of the petroleum-based chemical industry, pressures of environmental constraints, and t...
Glycosylation can significantly improve the physicochemical and biological properties of small molec...
Enzymes are versatile biocatalysts capable of performing selective reactions. The advantages of enzy...
Glycosylation can significantly improve the physicochemical and biological properties of small molec...
Organisms from all kingdoms of life produce a plethora of natural products that display a range of b...
While the field of biocatalysis has bloomed over the past 20–30 years, advances in the understanding...
Catalysts are species that accelerate chemical reactions without themselves being consumed in the pr...
Exploitation of enzymes in biocatalytic processes provides scope both in the synthesis and degradati...
Biocatalysis using enzymes is a powerful strategy that can be employed in a variety of industries fo...
Carbohydrates are attached and removed in living systems through the action of carbohydrate-active e...
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