Thermophiles and Thermozymes
Abstract
Interest in the study of life in hot environments, both with respect to the inhabiting microorganisms and the enzymes they produce, is currently very high. The biological mechanisms responsible for the resistance to high temperatures are not yet fully understood, whereas thermostability is a highly required feature for industrial applications. In this e-book, the invited authors provide diverse evidence contributing to the understanding of such mechanisms and the unlocking of the biotechnological potential of thermophiles and thermozymes.
Keywords
n/a; biotechnology; enzyme structure; thermophile; thermophily; cellulases; enzyme activity; Algeria; Candida rugosa; thermophilic; RNA modification; Thermus; tRNA modification; transposons; mobilome; hot spring; evolvability; molecular tunnels; insertion sequence; Vallitalea guaymasensis; HGT; tRNA methyltransferase; metagenomics; methylation; Thermostable; interfacial activation; lipase; ethanol; xylanase; archaea; protease; transposases; thermophiles; whole-genome sequence; lignocellulosic biomass; thermophilic proteins; temperature; Geobacillus; enzyme thermostability; dimerization; inhibition; pseudouridine; Brevibacillus sp. OA30; protein stability; structure; protein engineering; hydrothermal vent; kinetic; characterization; syntrophyWebshop link
https://play.google.com/books/ ...ISBN
9783038978176, 9783038978169Publisher website
www.mdpi.com/booksPublication date and place
2019Classification
Research & information: general
Pages
198
Except where otherwise noted, this item's license is described
as
https://creativecommons.org/licenses/by-nc-nd/4.0/