Add to ORKGNature applies enzymatic assembly lines to synthesize bioactive compounds. Inspired by such capabilities, we have developed a facile method for spatially segregating attached enzymes in a continuous-flow, vortex fluidic device (VFD). Fused Hisn -tags at the protein termini allow rapid bioconjugation and consequent purification through complexation with immobilized metal affinity chromatography (IMAC) resin. Six proteins were purified from complex cell lysates to average homogeneities of 76 %. The most challenging to purify, tobacco epi-aristolochene synthase, was purified in only ten minutes from cell lysate to near homogeneity (>90 %). Furthermore, this "reaction-ready" system demonstrated excellent stability during five days of continu...
Multi-step syntheses which are enzyme mediated, resemble closely (artificial) metabolic pathways whi...
Maximizing space–time yields (STY) of biocatalytic flow processes is essential for the establishment...
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...
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...
A versatile enzyme immobilization strategy for thin film continuous flow processing is reported. Her...
Enzymatic immobilization has been at the forefront of applied biocatalysis as it enables convenient ...
Growth in the biotechnology industry is increasing the demand for high throughput protein purificati...
Our research focusses on highly sustainable enzymatic methods for the preparation of valuable molecu...
A method to efficiently immobilize enzymes on 3D printed continuous-flow devices is presented. Appli...
The utilization of continuous-flow biochemical reactors, including biocatalysis, biotransformation, ...
Transpeptidation catalyzed by sortase A allows the preparation of proteins that are site-specifical...
Immobilized enzymes can be used to catalyze biochemical reactions in a batch process, however, it is...
The continuous flow synthesis of a series of amines was successfully achieved by exploiting the enha...
Multi-step syntheses which are enzyme mediated, resemble closely (artificial) metabolic pathways whi...
Maximizing space–time yields (STY) of biocatalytic flow processes is essential for the establishment...
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...
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...
A versatile enzyme immobilization strategy for thin film continuous flow processing is reported. Her...
Enzymatic immobilization has been at the forefront of applied biocatalysis as it enables convenient ...
Growth in the biotechnology industry is increasing the demand for high throughput protein purificati...
Our research focusses on highly sustainable enzymatic methods for the preparation of valuable molecu...
A method to efficiently immobilize enzymes on 3D printed continuous-flow devices is presented. Appli...
The utilization of continuous-flow biochemical reactors, including biocatalysis, biotransformation, ...
Transpeptidation catalyzed by sortase A allows the preparation of proteins that are site-specifical...
Immobilized enzymes can be used to catalyze biochemical reactions in a batch process, however, it is...
The continuous flow synthesis of a series of amines was successfully achieved by exploiting the enha...
Multi-step syntheses which are enzyme mediated, resemble closely (artificial) metabolic pathways whi...
Maximizing space–time yields (STY) of biocatalytic flow processes is essential for the establishment...
Flow-biocatalysis mainly exploit immobilized enzymes for continuous chemical manufacturing. In the l...