Lignocellulosic biomass has enormous potential to contribute to worldwide energy,
chemical, and material demands in a renewable, sustainable manner. In the United States …

This review focuses on some important and challenging aspects of soil extracellular enzyme
research. We report on recent discoveries, identify key research needs and highlight the …

Background Disulfide engineering is an important biotechnological tool that has advanced a
wide range of research. The introduction of novel disulfide bonds into proteins has been …

Improving the stability of proteins is an important goal in many biomedical and industrial
applications. A logical approach is to emulate stabilizing molecular interactions found in …

l-Asparaginase has gained much attention for effectively treating acute lymphoblastic
leukemia (ALL) and mitigating carcinogenic acrylamide in fried foods. Due to high-dose …

Cellulases, a group of enzymes capable of degrading cellulose, play a crucial role in the
bioconversion of cellulosic biomass, making them invaluable in various industries such as …

Engineering proteins for thermostability is an exciting and challenging field since it is critical
for broadening the industrial use of recombinant proteins. Thermostability of proteins arises …

Lignocellulosic biomass is a most promising feedstock in the production of second-
generation biofuels. Efficient degradation of lignocellulosic biomass requires a synergistic …

The use of enzymes for industrial and biomedical applications is limited to their function at
elevated temperatures. The principles of thermostability engineering need to be …

Enzymes can produce high-quality food with low pollution, high function, high acceptability,
and medical aid. However, most enzymes, in their native form, do not meet the industrial …