In the last few years, the industrial attention on biomaterials production has focused on designing and developing of methods and processes to minimize the use and the generation of polluting products. In this context of green chemistry, the enzymatic catalysis could be the right way to obtain high level of polymers industrial production without the use of hazardous reagent and pollution. This review focuses on the enzymatic approach to polymer synthesis, and in particular on enzymes from extremophiles. This class of enzymes is industrial attracting showing good resistance to solvents, temperature, pH, and, in general, extreme reaction conditions. Moreover, in this manuscript are reported also the future perspectives of enzyme molecular engineering to obtain new species with more industrial interesting features.
A Review on Extremozymes Biocatalysis: A Green Industrial Approach for Biomaterials Production.
Di Salle A;Calarco A;Petillo O;Margarucci S;D'Apolito M;Peluso G
2015
Abstract
In the last few years, the industrial attention on biomaterials production has focused on designing and developing of methods and processes to minimize the use and the generation of polluting products. In this context of green chemistry, the enzymatic catalysis could be the right way to obtain high level of polymers industrial production without the use of hazardous reagent and pollution. This review focuses on the enzymatic approach to polymer synthesis, and in particular on enzymes from extremophiles. This class of enzymes is industrial attracting showing good resistance to solvents, temperature, pH, and, in general, extreme reaction conditions. Moreover, in this manuscript are reported also the future perspectives of enzyme molecular engineering to obtain new species with more industrial interesting features.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
