Add to ORKGSynthetic 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 fluorescence-activated droplet sorting (FADS) instrument that was established to evolve enzymes for synthesizing and modifying artificial genetic polymers (XNAs). The microfluidic system enables droplet sorting at ∼2-3 kHz using fluorescent sens...
The ability to engineer enzymes has wide ranging applications in industry and biotechnology. Recentl...
The potential for ultrahigh-throughput compartmentalization renders droplet microfluidics an attract...
Droplet-based microfluidics has been widely applied in enzyme directed evolution (DE), in either cel...
Synthetic biology aims to improve human health and the environment by repurposing biological enzymes...
Ultrahigh-throughput screening, in which members of enzyme libraries compartmentalized in water-in-o...
Ultrahigh-throughput screening, in which members of enzyme libraries compartmentalized in water-in-o...
Polymerases that synthesize artificial genetic polymers hold great promise for advancing future appl...
The successful creation of custom-made enzymes by directed evolution relies in no small part on scre...
abstract: Polymerases that synthesize artificial genetic polymers hold great promise for advancing f...
A high-throughput method for single cell screening by microfluidic droplet sorting is applied to a w...
Natural enzymes have evolved over millions of years to allow for their effective operation within sp...
Natural evolution relies on the improvement of biological entities by rounds of diversification and ...
High-throughput screening (HTS) of enzymatic activity is important for directed evolution-based enzy...
SummaryDuring the last 25 years, display techniques such as phage display have become very powerful ...
We present a high throughput micro-droplet based method for directed evolution of yeast cell factori...
The ability to engineer enzymes has wide ranging applications in industry and biotechnology. Recentl...
The potential for ultrahigh-throughput compartmentalization renders droplet microfluidics an attract...
Droplet-based microfluidics has been widely applied in enzyme directed evolution (DE), in either cel...
Synthetic biology aims to improve human health and the environment by repurposing biological enzymes...
Ultrahigh-throughput screening, in which members of enzyme libraries compartmentalized in water-in-o...
Ultrahigh-throughput screening, in which members of enzyme libraries compartmentalized in water-in-o...
Polymerases that synthesize artificial genetic polymers hold great promise for advancing future appl...
The successful creation of custom-made enzymes by directed evolution relies in no small part on scre...
abstract: Polymerases that synthesize artificial genetic polymers hold great promise for advancing f...
A high-throughput method for single cell screening by microfluidic droplet sorting is applied to a w...
Natural enzymes have evolved over millions of years to allow for their effective operation within sp...
Natural evolution relies on the improvement of biological entities by rounds of diversification and ...
High-throughput screening (HTS) of enzymatic activity is important for directed evolution-based enzy...
SummaryDuring the last 25 years, display techniques such as phage display have become very powerful ...
We present a high throughput micro-droplet based method for directed evolution of yeast cell factori...
The ability to engineer enzymes has wide ranging applications in industry and biotechnology. Recentl...
The potential for ultrahigh-throughput compartmentalization renders droplet microfluidics an attract...
Droplet-based microfluidics has been widely applied in enzyme directed evolution (DE), in either cel...