MAPkinases regulate secondary metabolism, sexual development and light dependent cellulase regulation in Trichoderma reesei.

The filamentous fungus Trichoderma reesei is a prolific producer of plant cell wall degrading enzymes, which are regulated in response to diverse environmental signals for optimal adaptation, but also produces a wide array of secondary metabolites. Available carbon source and light are the strongest cues currently known to impact secreted enzyme levels and an interplay with regulation of secondary metabolism became increasingly obvious in recent years. While cellulase regulation is already known to be modulated by different mitogen activated protein kinase (MAPK) pathways, the relevance of the light signal, which is transmitted by this pathway in other fungi as well, is still unknown in T.

The G-protein Coupled Receptor GPR8 Regulates Secondary Metabolism in .

Changing environmental conditions are of utmost importance for regulation of secondary metabolism in fungi. Different environmental cues including the carbon source, light and the presence of a mating partner can lead to altered production of compounds. Thereby, the heterotrimeric G-protein pathway is of major importance for sensing and adjustment of gene regulation.

Comparative Genomic Analysis of Strains from Grapevine, Soil and Weed Highlights Potential Mechanisms in Pathogenicity and Endophytic Lifestyle.

The soil-borne fungus is the most common causal agent of black-foot disease in Europe. However, there is a lack of understanding on how this fungus can provoke plant symptoms. In this study, we sequenced, annotated and analyzed the genomes of three isolates of collected from asymptomatic vine, weed and soil.

The Kinase USK1 Regulates Cellulase Gene Expression and Secondary Metabolite Biosynthesis in .

The complex environment of fungi requires a delicate balance between the efforts to acquire nutrition, to reproduce, and to fend off competitors. In , an interrelationship between regulation of enzyme gene expression and secondary metabolism was shown. In this study, we investigated the physiological relevance of the unique YPK1-type kinase USK1 of .

CLR1 and CLR2 are light dependent regulators of xylanase and pectinase genes in Trichoderma reesei.

Regulation of plant cell wall degradation is of utmost importance for understanding the carbon cycle in nature, but also to improve industrial processes aimed at enzyme production for next generation biofuels. Thereby, the transcription factor networks in different fungi show conservation as well as striking differences, particularly between Trichoderma reesei and Neurospora crassa. Here, we aimed to gain insight into the function of the transcription factors CLR1 and CLR2 in T.

Abundance of Secreted Proteins of Is Regulated by Light of Different Intensities.

In light is an important factor in the regulation of glycoside hydrolase gene expression. We therefore investigated the influence of different light intensities on cellulase activity and protein secretion. Differentially secreted proteins in light and darkness as identified by mass spectrometry included members of different glycoside hydrolase families, such as CBH1, Cel3A, Cel61B, XYN2, and XYN4.

SUB1 has photoreceptor dependent and independent functions in sexual development and secondary metabolism in Trichoderma reesei.

Light dependent processes are involved in the regulation of growth, development and enzyme production in Trichoderma reesei. The photoreceptors BLR1, BLR2 and ENV1 exert crucial functions in these processes. We analyzed the involvement of the transcription factor SUB1 in sexual development as well as secondary metabolism and its position in the light signaling cascade.

Interrelationships of VEL1 and ENV1 in light response and development in Trichoderma reesei.

Sexual development is regulated by a complex regulatory mechanism in fungi. For Trichoderma reesei, the light response pathway was shown to impact sexual development, particularly through the photoreceptor ENVOY. Moreover, T.