In vitro multi-enzymatic cascades using recombinant lysates of E. coli: an emerging biocatalysis platform

Apostolos Alissandratos

doi:10.1007/s12551-020-00618-3

In vitro multi-enzymatic cascades using recombinant lysates of E. coli: an emerging biocatalysis platform

Apostolos Alissandratos^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

17 Citations (Scopus)

Abstract

In recent years, cell-free extracts (or lysates) have (re-)emerged as a third route to the traditional options of isolated or whole-cell biocatalysts. Advances in molecular biology and genetic engineering enable facile production of recombinant cell-free extracts, where endogenous enzymes are enriched with heterologous activities. These inexpensive preparations may be used to catalyse multistep enzymatic reactions without the constraints of cell toxicity and the cell membrane or the cost and complexity associated with production of isolated biocatalysts. Herein, we present an overview of the key advancements in cell-free synthetic biology that have led to the emergence of cell-free extracts as a promising biocatalysis platform.

Original language	English
Pages (from-to)	175-182
Number of pages	8
Journal	Biophysical Reviews
Volume	12
Issue number	1
DOIs	https://doi.org/10.1007/s12551-020-00618-3
Publication status	Published - 1 Feb 2020

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abstract = "In recent years, cell-free extracts (or lysates) have (re-)emerged as a third route to the traditional options of isolated or whole-cell biocatalysts. Advances in molecular biology and genetic engineering enable facile production of recombinant cell-free extracts, where endogenous enzymes are enriched with heterologous activities. These inexpensive preparations may be used to catalyse multistep enzymatic reactions without the constraints of cell toxicity and the cell membrane or the cost and complexity associated with production of isolated biocatalysts. Herein, we present an overview of the key advancements in cell-free synthetic biology that have led to the emergence of cell-free extracts as a promising biocatalysis platform.",

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N2 - In recent years, cell-free extracts (or lysates) have (re-)emerged as a third route to the traditional options of isolated or whole-cell biocatalysts. Advances in molecular biology and genetic engineering enable facile production of recombinant cell-free extracts, where endogenous enzymes are enriched with heterologous activities. These inexpensive preparations may be used to catalyse multistep enzymatic reactions without the constraints of cell toxicity and the cell membrane or the cost and complexity associated with production of isolated biocatalysts. Herein, we present an overview of the key advancements in cell-free synthetic biology that have led to the emergence of cell-free extracts as a promising biocatalysis platform.

AB - In recent years, cell-free extracts (or lysates) have (re-)emerged as a third route to the traditional options of isolated or whole-cell biocatalysts. Advances in molecular biology and genetic engineering enable facile production of recombinant cell-free extracts, where endogenous enzymes are enriched with heterologous activities. These inexpensive preparations may be used to catalyse multistep enzymatic reactions without the constraints of cell toxicity and the cell membrane or the cost and complexity associated with production of isolated biocatalysts. Herein, we present an overview of the key advancements in cell-free synthetic biology that have led to the emergence of cell-free extracts as a promising biocatalysis platform.

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KW - Cell-free extract

KW - Cell-free metabolic engineering

KW - Cell-free synthetic biology

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JO - Biophysical Reviews

JF - Biophysical Reviews

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In vitro multi-enzymatic cascades using recombinant lysates of E. coli: an emerging biocatalysis platform

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