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

The origin story of land plants–the pivotal evolutionary event that paved the way for
terrestrial ecosystems of today to flourish–lies within their closest living relatives: the …

Background Filamentous fungi are among the most powerful cellulolytic organisms in
terrestrial ecosystems. To perform the degradation of lignocellulosic substrates, these …

Background Genome and transcriptome sequencing has greatly facilitated the
understanding of biomass-degrading mechanisms in a number of fungal species. The …

This work reports the study of chitosan depolymerization through the synergy of the
Celuzyme® XB enzyme complex; it is composed of cellulase, xylanase, and β‐glucanase …

In a halotolerant fungus Aspergillus glaucus CCHA, several functional proteins with stress-
tolerant activity have been studied, but no secretory enzymes have been identified yet. The …

Penicillium echinulatum 2HH and Penicillium oxalicum 114-2 are well-known cellulase
fungal producers. However, few studies addressing global mechanisms for gene regulation …

Soda saline–alkaline lands are significantly harmful to agriculture; thus, effective strategies
to remediate such soil are urgently needed. Multiple negative factors exist in the community …

The efficient industrial conversion of plant-derived cellulose to simple sugars and other
value-added chemicals requires various highly stable and reactive enzymes. Industrial …

Many Penicillium species produce enzyme systems with good performances in
lignocellulose degradation. In our laboratory, lignocellulolytic enzyme-producing Penicillium …