2019
DOI: 10.1002/elps.201900222
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High‐throughput droplet‐based microfluidics for directed evolution of enzymes

Abstract: Natural enzymes have evolved over millions of years to allow for their effective operation within specific environments. However, it is significant to note that despite their wide structural and chemical diversity, relatively few natural enzymes have been successfully applied to industrial processes. To address this limitation, directed evolution (DE) (a method that mimics the process of natural selection to evolve proteins toward a user-defined goal) coupled with droplet-based microfluidics allows the detaile… Show more

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Cited by 56 publications
(30 citation statements)
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References 134 publications
(170 reference statements)
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“…Droplet devices are also instrumental in the investigation of conditions necessary for protein crystallization [ 189 , 190 ], while microfluidic implements for the optimization of polymerase chain reaction are being actively developed; several commercial models exist already [ 191 ]. In several studies, the directed evolution of enzymes was even optimized utilizing different architectures of a droplet apparatus [ 192 , 193 , 194 ].…”
Section: Droplet-based Microfluidics: Speciation In Actionmentioning
confidence: 99%
“…Droplet devices are also instrumental in the investigation of conditions necessary for protein crystallization [ 189 , 190 ], while microfluidic implements for the optimization of polymerase chain reaction are being actively developed; several commercial models exist already [ 191 ]. In several studies, the directed evolution of enzymes was even optimized utilizing different architectures of a droplet apparatus [ 192 , 193 , 194 ].…”
Section: Droplet-based Microfluidics: Speciation In Actionmentioning
confidence: 99%
“…Direct enzyme evolution can be very powerful if an appropriate high-throughput assay can be set up. Droplet-based microfluidic is thus well appropriate for this evolution, and its combination with IVTT (in vitro transcription–translation system) enables to screen for even larger libraries as it avoids transformation step in E. coli prior to the screen [ 130 , 131 ]. Alternative to this method is the direct in vivo enzyme evolution using automated micro-reactors as developed by Altar company ( http://www.altar.bio/about-us/ ).…”
Section: Conclusion and Prospectivementioning
confidence: 99%
“…Development of a miniaturized scale framework known as biochips, Bio-MEMS, or LOC [17][18][19], improves the applications for high-throughput biological screening [20], cell analysis, and clinical diagnostics [21], as well as point-of-care (POC) analysis for biomedical and environmental monitoring [22]. There are many unmatched advantages of microsystems over conventional analytical, chemical, and biomedical tools.…”
Section: Recent Development Of Integrated Microfluidics Biosensorsmentioning
confidence: 99%