Evaluating endoglucanase Cel7B‐lignin interaction mechanisms and kinetics using quartz crystal microgravimetry
Citations Over TimeTop 10% of 2015 papers
Abstract
The kinetics and mechanisms of protein interactions with solid surfaces are important to fields as diverse as industrial biocatalysis, biomedical engineering, food science, and cell biology. The nonproductive adsorption of cellulase enzymes to lignin, a plant cell wall polymer, reduces their effectiveness in saccharifying biomass. Cellulase has been shown to interact with lignin, but the heterogeneity of lignin surfaces, challenges in measuring irreversible components of these interactions, and fast adsorption rates make quantifying the reaction kinetics difficult. This work employs quartz crystal microgravimetry with dissipation monitoring (QCM-D) for real-time measurement of adsorbed mass on a flat lignin surface. We have developed a method for casting homogeneous lignin films that are chemically similar to lignin found in pretreated biomass, and used QCM-D to compare three models of reversible-irreversible binding behavior: a single-site transition model, a transition model with changing adsorbate footprint, and a two-site transition model. Of the three models tested, the two-site transition model provides the only kinetic mechanism able to describe the behavior of Cel7B binding to lignin. While the direct implications of lignin-cellulase interactions may be limited to biomass deconstruction for renewable energy and green chemistry, the analytical and experimental methods demonstrated in this work are relevant to any system in which the kinetics and reaction mechanism of reversible and irreversible protein adsorption at a solid-liquid interface are important.
Related Papers
- → Quantification of cellulase activity using cellulose-azure(2005)15 cited
- → Cellulase in Degradation of Lignocellulosic Wastes(2020)3 cited
- → Real‐time detection of the morphological change in cellulose by a nanomechanical sensor(2010)4 cited
- Progress in the Studies of Cellulose Degradation by Cellulase(2007)
- Technological study on cellulose degradation with cellulase by cross experiments(2002)