Xylanases are enzymes with biotechnological relevance in a number of fields, including
food, feed, biofuel, and textile industries. Their most significant application is in the paper …

Enzyme stability is an important issue for protein engineers. Understanding how rigidity in
the active site affects protein kinetic stability will provide new insight into enzyme …

Understanding the thermostability of cellulases is of high importance for their application in
lignocellulosic biomass degradation, feedstock, and pulp and paper production. Cellulases …

Xylanases belong to an important class of industrial enzymes. Various xylanases have been
purified and characterized from a plethora of organisms including bacteria, marine algae …

Xylanases are used in many industrial processes including pulp bleaching, baking,
detergent, and the hydrolysis of plant cell wall in biofuels production. In this work we have …

The effects of different structural features on the thermostability of Thermopolyspora flexuosa
xylanase XYN10A were investigated. A C-terminal carbohydrate binding module had only a …

Introduction Extracting xylanase from thermophilic filamentous fungi is a feasible way to
obtain xylanase with good thermal stability. Methods The transcriptomic data of …

Understanding the characteristics that define temperature-adapted enzymes has been a
major goal of extremophile enzymology in recent decades. In the present study, we explore …

Xylan is the most abundant hemicellulosic component, and its degradation is the major step
in a wide variety of industrial processes. Xylanases, which are capable of randomly …

XynII from Volvariella volvacea has high sodium dodecyl sulfate (SDS) resistance, with the
potential for industrial applications under harsh conditions. It consists of a single glycoside …