2019
DOI: 10.1021/acssynbio.9b00103
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Fluorescence-Activated Droplet Sorting for Single-Cell Directed Evolution

Abstract: Synthetic biology aims to improve human health and the environment by repurposing biological enzymes for use in practical applications. However, natural enzymes often function with suboptimal activity when engineered into biological pathways or challenged to recognize unnatural substrates. Overcoming this problem requires efficient directed evolution methods for discovering new enzyme variants that function with a desired activity. Here, we describe the construction, validation, and application of a fluorescen… Show more

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Cited by 98 publications
(84 citation statements)
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“…However, unlike CSR and CST, microfluidic devices are used to generate a uniform population of droplets. The latest microfluidic designs are capable of generating 18 μm droplets at a rate of 30 000 per second, which allows for the production of >10 8 droplets in 1 h (Vallejo et al ., 2019). Following droplet production, the polymerase and encoding plasmid are released into the droplet by lysing the E. coli with heat.…”
Section: Engineering Polymerases By Directed Evolutionmentioning
confidence: 99%
See 1 more Smart Citation
“…However, unlike CSR and CST, microfluidic devices are used to generate a uniform population of droplets. The latest microfluidic designs are capable of generating 18 μm droplets at a rate of 30 000 per second, which allows for the production of >10 8 droplets in 1 h (Vallejo et al ., 2019). Following droplet production, the polymerase and encoding plasmid are released into the droplet by lysing the E. coli with heat.…”
Section: Engineering Polymerases By Directed Evolutionmentioning
confidence: 99%
“…Polymerases that successfully copy the template into full-length product produce a fluorescent signal by disrupting a donor–quencher pair located at the 5′-end of the template strand. The population of droplets can then either be sorted directly using a custom microfluidic fluorescence-activated droplet sorting (FADS) device or converted to double emulsion droplets that are compatible with a traditional fluorescence-activated cell sorting instrument (Vallejo et al ., 2019).
Fig.
…”
Section: Engineering Polymerases By Directed Evolutionmentioning
confidence: 99%
“…Moreover, the breadth of enzyme classes that can be engineered has also been expanded, owing to the rapid increase in the number of chemistries made applicable in droplet formats. Recent examples of library screening campaign performed in microfluidic workflows involve enzyme classes including aldolases , hydrolases (e.g., sulfatases, amylases) , amino acid dehydrogenase , as well as polymerases . For more detailed discussions of the relevant reactions, interested readers are kindly asked to refer to review articles drafted by Mair et al.…”
Section: Biology In Droplets: Current Droplet‐based Platforms For Thementioning
confidence: 99%
“…Surfactant systems enable the stabilization of droplets such that they can be incubated off-chip and reintroduced intact into subsequent microfluidic device(s) for sorting and analysis. However, it was not until the most recent decade that the HTS capacity of droplet microfluidics had been demonstrated for protein engineering, especially directed evolution [19,21,22,29,30,31].…”
Section: Introductionmentioning
confidence: 99%