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Negatively supercharging cellulases render them lignin-resistant
Accepted manuscript   Open access   Peer reviewed

Negatively supercharging cellulases render them lignin-resistant

Timothy A. Whitehead, Chandra K. Bandi, Marissa Berger, Jihyun Park and Shishir P. S. Chundawat
ACS Sustainable Chemistry & Engineering, Vol.5(7), pp.6247-6252
2017
DOI:
https://doi.org/10.7282/T35X2CT1

Abstract

Carbohydrate binding domain Cellulase Extractive ammonia pretreatment Lignin inhibition Lignocellulosic biomass Protein design Protein supercharging
Non-specific adsorption of cellulases to lignin hinders enzymatic deconstruction of lignocellulosic biomass. Here we tested the hypothesis that negatively supercharging cellulases could reduce lignin inhibition. Computational design was used to negatively supercharge the surfaces of Ruminoclostridium thermocellum family 5 CelE and a CelE-family 3a carbohydrate binding module fusion. Resulting designs maintained the same expression yield, thermal stability, and nearly identical activity on soluble substrate as the wild-type proteins. Four designs showed complete lack of inhibition by lignin but with lower cellulose conversion compared to original enzymes. Increasing salt concentrations could partially rescue the activity of supercharged enzymes, supporting a mechanism of electrostatic repulsion between designs and cellulose. Results showcase a protein engineering strategy to construct highly active cellulases that are resistant to lignin-mediated inactivation, although further work is needed to understand the relationship between negative protein surface potential and activity on insoluble polysaccharides.
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http://dx.doi.org/10.1021/acssuschemeng.7b01202View
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