Add to ORKGA versatile enzyme immobilization strategy for thin film continuous flow processing is reported. Here, non-covalent and glutaraldehyde bioconjugation are used to immobilize enzymes on the surfaces of borosilicate reactors. This approach requires only ng of protein per reactor tube, with the stock protein solution readily recycled to sequentially coat >10 reactors. Confining reagents to thin films during immobilization reduced the amount of protein, piranha-cleaning solution, and other reagents by ∼96%. Through this technique, there was no loss of catalytic activity over 10 h processing. The results reported here combines the benefits of thin film flow processing with the mild conditions of biocatalysis
Abstract The exploitation of enzymes for biotransformation reactions for the production of new and s...
The continuous flow synthesis of active pharmaceutical ingredients, value-added chemicals, and mater...
The continuous flow synthesis of active pharmaceutical ingredients, value-added chemicals, and mater...
Open Access Article. This article is licensed under a Creative Commons Attribution 3.0 Unported Lic...
Enzymatic immobilization has been at the forefront of applied biocatalysis as it enables convenient ...
Immobilized enzymes can be used to catalyze biochemical reactions in a batch process, however, it is...
Flow-biocatalysis mainly exploit immobilized enzymes for continuous chemical manufacturing. In the l...
Nature applies enzymatic assembly lines to synthesize bioactive compounds. Inspired by such capabili...
A method to efficiently immobilize enzymes on 3D printed continuous-flow devices is presented. Appli...
In continuous flow biocatalysis, chemical transformations can occur under milder, greener, more scal...
Heterogeneous biocatalysis usually involves the use of immobilized enzymes on solid supports. Enzyme...
The utilization of continuous-flow biochemical reactors, including biocatalysis, biotransformation, ...
A method to efficiently immobilize enzymes on 3D printed continuous-flow devices is presented. Appli...
Reports on chemical immobilization of proteins and enzymes first appeared in the 1960s. Since then, ...
Protocols for simple immobilization of unstable enzymes are plenty, but the vast majority of them, u...
Abstract The exploitation of enzymes for biotransformation reactions for the production of new and s...
The continuous flow synthesis of active pharmaceutical ingredients, value-added chemicals, and mater...
The continuous flow synthesis of active pharmaceutical ingredients, value-added chemicals, and mater...
Open Access Article. This article is licensed under a Creative Commons Attribution 3.0 Unported Lic...
Enzymatic immobilization has been at the forefront of applied biocatalysis as it enables convenient ...
Immobilized enzymes can be used to catalyze biochemical reactions in a batch process, however, it is...
Flow-biocatalysis mainly exploit immobilized enzymes for continuous chemical manufacturing. In the l...
Nature applies enzymatic assembly lines to synthesize bioactive compounds. Inspired by such capabili...
A method to efficiently immobilize enzymes on 3D printed continuous-flow devices is presented. Appli...
In continuous flow biocatalysis, chemical transformations can occur under milder, greener, more scal...
Heterogeneous biocatalysis usually involves the use of immobilized enzymes on solid supports. Enzyme...
The utilization of continuous-flow biochemical reactors, including biocatalysis, biotransformation, ...
A method to efficiently immobilize enzymes on 3D printed continuous-flow devices is presented. Appli...
Reports on chemical immobilization of proteins and enzymes first appeared in the 1960s. Since then, ...
Protocols for simple immobilization of unstable enzymes are plenty, but the vast majority of them, u...
Abstract The exploitation of enzymes for biotransformation reactions for the production of new and s...
The continuous flow synthesis of active pharmaceutical ingredients, value-added chemicals, and mater...
The continuous flow synthesis of active pharmaceutical ingredients, value-added chemicals, and mater...