Enzyme Microfluidics. Methods in Enzymology Volume 737

Enzyme Microfluidics, Volume 737 in the Methods in Enzymology series, presents detailed methodological descriptions and protocols that cover a wide range of microfluidics-based approaches for mechanistic enzymology, high-throughput screening, and enzyme engineering campaigns. The volume includes both established methods as well as advances in the field. Sections in this new release cover four unique sections, including Chips and Reagents, Enzyme Characterization, Enzyme Engineering, and Moving Beyond Microfluidics (from micro to nanoscale). Specific chapters delve into Joint Methods for Fabricating Microfluidic Chips, A liquid handling robotic workflow for quantifying the activity of antibiotic resistance genes (ARGs) in cell-free protein synthesis, and much more.

Additional chapters cover Preparation of uniform microcrystals by droplet microfluidics for time-resolved serial crystallography, Droplet microfluidic HDX for investigating highly dynamic proteins, An Accessible, Low-Cost Platform for High-Throughput Microfluidic Enzyme Kinetics, High-Throughput Data Processing, DA-MEK, Mass Spectrometry of Droplets, Digital Bioassay Using a Femtoliter Reactor Array Device, Confocal absorbance droplet sorting, Sequence-Function Data Analysis from Microfluidics Screening, and much more.

Section 1: Chips and Reagents
1. Joint Methods for Fabricating Microfluidic Chips
2. A liquid handling robotic workflow for quantifying the activity of antibiotic resistance genes (ARGs) in cell-free protein synthesis
Simon Moore

Section 2: Enzyme Characterisation
3. Preparation of uniform microcrystals by droplet microfluidics for time-resolved serial crystallography
Jonathan West
4. Droplet microfluidic HDX for investigating highly dynamic proteins
Jonathan West
5. An Accessible, Low-Cost Platform for High-Throughput Microfluidic Enzyme Kinetics
Craig Markin
6. High-Throughput Data Processing
Margaux Pinney
7. DA-MEK
Polly Fordyce
8. Mass Spectrometry of Droplets
Perdita Elizabeth Barran
9. Digital Bioassay Using a Femtoliter Reactor Array Device
Hiroyuki Noji

Section 3: Enzyme Engineering
10. Confocal absorbance droplet sorting
Jean-Christophe Baret
11. Sequence-Function Data Analysis from Microfluidics Screening
Maximilian Gantz
12. Passive microfluidic system for droplet sorting based on proteolytic activity
Tomasz Kaminski
13. Directed Evolution of computationally designed enzymes on integrated devices
Richard Obexer
14. TBD
Miriam Rosenbaum
15. TBD
Guangyu Yang
16. TBD
Fuqiang Ma

Section 4: Moving beyond microfluidics (from micro to nanoscale)
17. Lithographic patterning of nanoscale enzyme arrays
Lu Shin Wong

Table of Contents

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