Abstract
High-throughput screening is a key technique in discovery and engineering of enzymes. In vitro compartmentalization based fluorescence-activated cell sorting (IVC-FACS) has recently emerged as a powerful tool for ultrahigh-throughput screening of biocatalysts. However, the accuracy of current IVC-FACS assays is severely limited by the wide polydispersity of micro-reactors generated by homogenizing. Here, an improved protocol based on membrane-extrusion technique was reported to generate the micro-reactors in a more uniform manner. This crucial improvement enables ultrahigh-throughput screening of enzymatic activity at a speed of >108 clones/day with an accuracy that could discriminate as low as two-fold differences in enzymatic activity inside the micro-reactors, which is higher than similar IVC-FACS systems ever have reported. The enzymatic reaction in the micro-reactors has very similar kinetic behavior compared to the bulk reaction system and shows wide dynamic range. By using the modified IVC-FACS, E. coli cells with esterase activity could be enriched 330-fold from large excesses of background cells through a single round of sorting. The utility of this new IVC-FACS system was further illustrated by the directed evolution of thermophilic esterase AFEST. The catalytic activity of the very efficient esterase was further improved by ∼2-fold, resulting in several improved mutants with k cat/K M values approaching the diffusion-limited efficiency of ∼108 M−1s−1.
Highlights
Fluorescence-activated cell sorting (FACS) has recently become one of the most efficient tools for the screening of large enzyme libraries
W/o/w Double Emulsion Droplet Generation by Membrane-extrusion Generation of micro-droplets comprises the bottleneck of the accuracy in the entire in vitro compartmentalization (IVC)-FACS process
Ideal micro-droplets generating method for IVC-FACS should be: a) easy to operate, b) having high generation speed to match the requirement of ultrahigh-throughput, c) able to generate size-uniform droplets to ensure the accurate measurement of enzyme activity
Summary
Fluorescence-activated cell sorting (FACS) has recently become one of the most efficient tools for the screening of large enzyme libraries. FACS is especially powerful when it is combined with in vitro compartmentalization (IVC) system which artificially generates cell-like compartments as reaction chambers for the enzymatic reactions [2]. This so-called in vitro compartmentalization based fluorescence-activated cell sorting (IVC-FACS) technique encapsulates single, enzymeexpressing cells and fluorogenic substrate into individual compartments to form micro-reactors, which are analyzed and sorted by flow cytometry after a certain period of enzymatic reaction. Most current IVC-FACS systems are suffered from large system error, which is mainly caused by the wide polydispersity of droplet-based micro-reactors. The diameter of homogenizing droplets can span as much as 20 times, resulting in up to 8000-fold difference in reaction volume and big error in the downstream screening
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