Trichoderma atroviride transcriptional regulator Xyr1 supports the induction of systemic resistance in plants.

As a result of a transcriptome-wide analysis of the ascomycete Trichoderma atroviride, mycoparasitism-related genes were identified; of these, 13 genes were further investigated for differential expression. In silico analysis of the upstream regulatory regions of these genes pointed to xylanase regulator 1 (Xyr1) as a putatively involved regulatory protein. Transcript analysis of the xyr1 gene of T.

Elevated activity of dolichyl phosphate mannose synthase enhances biocontrol abilities of Trichoderma atroviride.

Antagonism of Trichoderma spp. against phytopathogenic fungi is widely exploited for biocontrol of plant diseases. A crucial role in the biocontrol mechanism is attributed to cell-wall-degrading enzymes secreted by Trichoderma spp.

Identification of mycoparasitism-related genes in Trichoderma atroviride.

A high-throughput sequencing approach was utilized to carry out a comparative transcriptome analysis of Trichoderma atroviride IMI206040 during mycoparasitic interactions with the plant-pathogenic fungus Rhizoctonia solani. In this study, transcript fragments of 7,797 Trichoderma genes were sequenced, 175 of which were host responsive. According to the functional annotation of these genes by KOG (eukaryotic orthologous groups), the most abundant group during direct contact was "metabolism.

Profiling of trichorzianines in culture samples of Trichoderma atroviride by liquid chromatography/tandem mass spectrometry.

Peptaibols are bioactive linear peptides of 5-20 amino acid residues and contain specific non-proteinogenic amino acids such as alpha-aminoisobutyric acid (Aib). They are antibiotic secondary metabolites of moulds belonging predominantly to the genus Trichoderma, some species of which are successfully used as biocontrol organisms to fight against plant diseases. In the present study we developed a profiling method for the relative quantification of 16 trichorzianine peptaibols in culture samples of T.

Signaling via the Trichoderma atroviride mitogen-activated protein kinase Tmk 1 differentially affects mycoparasitism and plant protection.

Trichoderma atroviride is a mycoparasite of a number of plant pathogenic fungi thereby employing morphological changes and secretion of cell wall degrading enzymes and antibiotics. The function of the tmk 1 gene encoding a mitogen-activated protein kinase (MAPK) during fungal growth, mycoparasitic interaction, and biocontrol was examined in T. atroviride.

The G protein alpha subunit Tga1 of Trichoderma atroviride is involved in chitinase formation and differential production of antifungal metabolites.

Trichoderma mycoparasitism includes recognition, attack, overgrowth and lysis of the host fungus accompanied by morphological changes and secretion of hydrolytic enzymes and antibiotics. Studying the underlying signal transduction pathways, the tga1 gene encoding a Galpha subunit of Trichoderma atroviride P1 was analysed. A Deltatga1 mutant showed continuous sporulation and elevated internal steady-state cAMP levels.

Signal transduction by Tga3, a novel G protein alpha subunit of Trichoderma atroviride.

Trichoderma species are used commercially as biocontrol agents against a number of phytopathogenic fungi due to their mycoparasitic characterisitics. The mycoparasitic response is induced when Trichoderma specifically recognizes the presence of the host fungus and transduces the host-derived signals to their respective regulatory targets. We made deletion mutants of the tga3 gene of Trichoderma atroviride, which encodes a novel G protein alpha subunit that belongs to subgroup III of fungal Galpha proteins.