Regulation of Conidiation and Antagonistic Properties of the Soil-borne Plant Beneficial Fungus Trichoderma Virens by a Novel Proline-, Glycine-, Tyrosine-rich Protein and a GPI-anchored Cell Wall Protein

Overview

Journal Curr Genet

Specialty Genetics

Date 2019 Mar 7

PMID 30840111

Citations 3

Authors

Ravindra Bansal

Mala Mukherjee

Benjamin A Horwitz

Prasun K Mukherjee

Affiliations

Soon will be listed here.

Abstract

Trichoderma spp. are widely used as commercial biofungicides, and most commercial formulations are conidia based. Identification of genes that regulate conidiation would thus be of help in genetic reprogramming of these species to optimize sporulation. In this study, we constructed an SSH (suppression subtractive hybridization) library from RNA samples of the wild type strain and a non-conidiating mutant, M7, grown under constant illumination for 2 days. We identified several genes that are underexpressed in the mutant. Some of these genes are related to secondary metabolism, and a few could be associated with conidiation. Genes coding for the following proteins, among others, were identified: O-methyl transferase, ATPase, alpha/beta-hydrolase, WD repeat containing protein, dehydrogenase, thioesterase, translationally controlled tumour protein, and a proline-glycine-tyrosine-rich protein (PGYRP) that has been annotated in T.reesei as a signalling protein. Two of these genes, encoding Pgy1, a novel PGYRP, and Ecm33, a GPI-anchored cell wall protein, were further studied in detail by generation of deletion mutants. We demonstrate here that both these genes not only regulate radial growth and conidiation in Trichoderma virens, but are also involved in antagonism against soil-borne wide host range plant pathogens. Furthermore, deletion of ecm33 affected hydrophobicity and cell wall integrity.

Citing Articles

Biological Control of Fungal Diseases by f. and Its Compatibility with Fungicides.

Sanchez-Montesinos B, Santos M, Moreno-Gavira A, Marin-Rodulfo T, Gea F, Dianez F J Fungi (Basel). 2021; 7(8).

PMID: 34436137 PMC: 8397002. DOI: 10.3390/jof7080598.

Inhibitory Mechanism of ZT05 on .

Halifu S, Deng X, Song X, Song R, Liang X Plants (Basel). 2020; 9(7).

PMID: 32707691 PMC: 7412022. DOI: 10.3390/plants9070912.

Whole Genome Sequencing Reveals Major Deletions in the Genome of M7, a Gamma Ray-Induced Mutant of That Is Repressed in Conidiation, Secondary Metabolism, and Mycoparasitism.

Pachauri S, Sherkhane P, Kumar V, Mukherjee P Front Microbiol. 2020; 11:1030.

PMID: 32595612 PMC: 7303927. DOI: 10.3389/fmicb.2020.01030.

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