Stellate MSN-based Dual-enzyme Nano-Biocatalyst for the Cascade Conversion of Non-Food Feedstocks to Food Products

Abstract: The successful demonstration of a tandem enzymatic catalyst which utilizes stellate macroporous silica nanospheres (Stellate MSN) platform as dual-enzyme host is reported herein. Upon simultaneous loading of beta-glucosidase and glucose isomerase inside their porous structure, Stellate MSNs-featuring a hierarchical pore arrangement and large surface area, show capability to perform a cascade reaction that converts cellobiose, a cellulosic hydrolysis product, into glucose and further to fructose. The silica pla… Show more

“…The decline in residual activity could be attributed to many factors, such as the mechanical damage of the nanobiocatalyst during the recycling procedure along with product inhibition [17,18]. Similar results have been also reported for the immobilization of other cellulases onto magnetic nanoparticles [44], for the co-immobilization of bgl and glucose isomerase onto stellate macroporous silica nanospheres [48], as well as for the immobilization of GOx [49] and HRP [50] on magnetic nanoparticles.…”

Development of a Four-Enzyme Magnetic Nanobiocatalyst for Multi-Step Cascade Reactions

“…The decline in residual activity could be attributed to many factors, such as the mechanical damage of the nanobiocatalyst during the recycling procedure along with product inhibition [17,18]. Similar results have been also reported for the immobilization of other cellulases onto magnetic nanoparticles [44], for the co-immobilization of bgl and glucose isomerase onto stellate macroporous silica nanospheres [48], as well as for the immobilization of GOx [49] and HRP [50] on magnetic nanoparticles.…”

Development of a Four-Enzyme Magnetic Nanobiocatalyst for Multi-Step Cascade Reactions