1. Practical Considerations Regarding the Choice of the Best High-Throughput Assay
- Author
-
Robert Kourist and Carolin Mügge
- Subjects
chemistry.chemical_classification ,biology ,010405 organic chemistry ,Computer science ,High-throughput screening ,Mutant ,High Throughput Assay ,A protein ,Protein engineering ,010402 general chemistry ,01 natural sciences ,Enzyme assay ,Cofactor ,0104 chemical sciences ,chemistry.chemical_compound ,Enzyme ,chemistry ,biology.protein ,Biochemical engineering ,Derivatization ,Throughput (business) ,Selection (genetic algorithm) - Abstract
All protein engineering studies include the stage of identifying and characterizing variants within a mutant library by employing a suitable assay or selection method. A large variety of different assay approaches for different enzymes have been developed in the last few decades, and the throughput performance of these assays vary considerably. Thus, the concept of a protein engineering study must be adapted to the available assay methods. This introductory review chapter describes different assay concepts on selected examples, including selection and screening approaches, detection of pH and cosubstrate changes, coupled enzyme assays, methods using surrogate substrates and selective derivatization. The given examples should guide and inspire the reader when choosing and developing own high-throughput screening approaches.
- Published
- 2017
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