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Global Analysis of Multi-Mutants to Improve Protein Function

Kristoffer E. Johansson, Kresten Lindorff‐Larsen, Jakob R. Winther

2023Journal of Molecular Biology13 citationsDOIOpen Access PDF

Abstract

The identification of amino acid substitutions that both enhance the stability and function of a protein is a key challenge in protein engineering. Technological advances have enabled assaying thousands of protein variants in a single high-throughput experiment, and more recent studies use such data in protein engineering. We present a Global Multi-Mutant Analysis (GMMA) that exploits the presence of multiply-substituted variants to identify individual amino acid substitutions that are beneficial for the stability and function across a large library of protein variants. We have applied GMMA to a previously published experiment reporting on >54,000 variants of green fluorescent protein (GFP), each with known fluorescence output, and each carrying 1-15 amino acid substitutions (Sarkisyan et al., 2016). The GMMA method achieves a good fit to this dataset while being analytically transparent. We show experimentally that the six top-ranking substitutions progressively enhance GFP. More broadly, using only a single experiment as input our analysis recovers nearly all the substitutions previously reported to be beneficial for GFP folding and function. In conclusion, we suggest that large libraries of multiply-substituted variants may provide a unique source of information for protein engineering.

Topics & Concepts

Protein engineeringComputational biologyGreen fluorescent proteinMutantFunction (biology)Amino acidMutationFolding (DSP implementation)BiologyBiological systemGeneGeneticsBiochemistryEngineeringEnzymeElectrical engineeringTransgenic Plants and ApplicationsCRISPR and Genetic EngineeringViral Infectious Diseases and Gene Expression in Insects
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