Prospección de la enzima PETasa de Ideonella sakaiensis

Abstract

Plastic is one of the most used materials worldwide, its use has been around for a long time because its composition is very resistant and malleable to be able to develop many necessary tools and products. One of the best-known plastics is PET, which tends to be very resistant when wanting to degrade it. Many types of degradation have been used such as chemical, physicochemical, and biological. However, it has great limitations by resorting to polluting reagents, exaggerated temperatures and poor handling of the waste that causes degradation. One of the enzymes that degrade PET IsPETase from the bacterium Ideonella sakaiensis. The action of different mutants and variants that increased from 1.4 to 120 times the activity of the enzyme was described, the crystal structures of their mutants were also shown with an image resolution ranging from 1.4 to 2.00 angstrom, the crystal structures were found in the PDB, each residue presented a suitable polarity to the degradation of the PET surface. The double mutant with the highest Tm value was W159H, F229Y with a degradation rate equivalent to 23.4 mg of PET per hour, per milligram of enzyme. The adjuvants found were adequate to measure the kinetic rate of product formation and the binding of the substrate to the active site, the binding of SDS and dodecyl trimethylammonium helped the substrate to enter more easily into the active site of the enzyme.