Lakshmi Kasirajan, Zachary Adams, Ricardo L Couto-Rodriguez, Daniel Gal, Huiyong Jia, Paula Mondragon, Paul C Wassel, David Yu, Sivakumar Uthandi, Julie A Maupin-Furlow
Methods in enzymology 2021Haloarchaea and their enzymes have extremophilic properties desirable for use as platform organisms and biocatalysts in the bioindustry. These GRAS (generally regarded as safe) designated microbes thrive in hypersaline environments and use a salt-in strategy to maintain osmotic homeostasis. This unusual strategy has resulted in the evolution of most of the intracellular and extracellular enzymes of haloarchaea to be active and stable not only in high salt (2-5M) but also in low salt (0.2M). This salt tolerance is correlated with a resilience to low water activity, thus, rendering the haloarchaeal enzymes active and stable in organic solvent and temperatures of 50-60°C used in the enzymatic biodelignification and saccharification of lignocellulosic materials. High-level secretion of haloarchaeal enzymes to the extracellular milieu is useful for many applications, including enzymes that deconstruct biomass to allow for lignin depolymerization and simultaneous fermentation of sugars released from hemicellulose and cellulose fractions of lignocellulosics. Here we detail strategies and methods useful for high-level secretion of a laccase, HvLccA, that mediates oxidation of various phenolics by engineering a recombinant strain of the haloarchaeon Haloferax volcanii. Copyright © 2021 Elsevier Inc. All rights reserved.
Lakshmi Kasirajan, Zachary Adams, Ricardo L Couto-Rodriguez, Daniel Gal, Huiyong Jia, Paula Mondragon, Paul C Wassel, David Yu, Sivakumar Uthandi, Julie A Maupin-Furlow. High-level synthesis and secretion of laccase, a metalloenzyme biocatalyst, by the halophilic archaeon Haloferax volcanii. Methods in enzymology. 2021;659:297-313
PMID: 34752290
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