Add to ORKGThis work has been presented in the 10th IWBDA workshop.Microfluidics continue to gain traction as an inexpensive alternative to standard multi-well plate-based, and flow cytometry- based, assay platforms. These devices are especially useful for the types of ultra-high throughput screens needed for enzyme discovery applications where large numbers (>106) of unique samples must be screened rapidly1. Coupled with cell-free protein synthesis2, microfluidics are being used to identify novel enzymes useful for a variety of applications with unprecedented speed. However, these devices are typically produced using PDMS, and require considerable infrastructure and artisanal skill to fabricate, limiting their accessibility. Likewise, enzyme hits obt...
SummaryWe demonstrate the utility of a microfluidic platform in which water-in-oil droplet compartme...
High-throughput screening for catalysis is a critical technology in all experiments aimed at modifyi...
This paper reports the use of microfluidic networks (μFNs) to both prepare peptide microarrays and c...
The ability to engineer enzymes has wide ranging applications in industry and biotechnology. Recentl...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
We report a new slide based microarray platform for assaying multiple enzyme activities using fluoro...
Analysis of biomarkers, biomolecular indicators of medical conditions, is fundamental to the diagnos...
Enzymes are crucial elements of all living cells. As biological catalysts they accelerate chemical r...
Enzyme engineering is an important biotechnological process capable of generating tailored biocataly...
Modern biotechnology has successfully launched synthesis routes that compete with traditional chemic...
‘Promiscuous’ enzymes possess additional activities in addition to their native ones, challenging th...
In this thesis, I present a strategy for the design and development of microfluidic devices for high...
Forward engineering synthetic circuits are at the core of synthetic biology. Automated solutions wil...
The explosive growth in our knowledge of genomes, proteomes, and metabolomes is driving ever-increas...
We are developing next-generation assays for biofuels research using microfluidic technologies to pr...
SummaryWe demonstrate the utility of a microfluidic platform in which water-in-oil droplet compartme...
High-throughput screening for catalysis is a critical technology in all experiments aimed at modifyi...
This paper reports the use of microfluidic networks (μFNs) to both prepare peptide microarrays and c...
The ability to engineer enzymes has wide ranging applications in industry and biotechnology. Recentl...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
We report a new slide based microarray platform for assaying multiple enzyme activities using fluoro...
Analysis of biomarkers, biomolecular indicators of medical conditions, is fundamental to the diagnos...
Enzymes are crucial elements of all living cells. As biological catalysts they accelerate chemical r...
Enzyme engineering is an important biotechnological process capable of generating tailored biocataly...
Modern biotechnology has successfully launched synthesis routes that compete with traditional chemic...
‘Promiscuous’ enzymes possess additional activities in addition to their native ones, challenging th...
In this thesis, I present a strategy for the design and development of microfluidic devices for high...
Forward engineering synthetic circuits are at the core of synthetic biology. Automated solutions wil...
The explosive growth in our knowledge of genomes, proteomes, and metabolomes is driving ever-increas...
We are developing next-generation assays for biofuels research using microfluidic technologies to pr...
SummaryWe demonstrate the utility of a microfluidic platform in which water-in-oil droplet compartme...
High-throughput screening for catalysis is a critical technology in all experiments aimed at modifyi...
This paper reports the use of microfluidic networks (μFNs) to both prepare peptide microarrays and c...