Abstract
Major intrinsic proteins (MIP) are characterized by a transmembrane pore-type architecture that facilitates transport across biomembranes of water and a variety of low molecular weight solutes. They are found in all parts of life, with remarkable protein diversity. Very little is known about MIP from fungi. And yet, it can legitimately be stated that MIP are pivotal molecular components in the privileged relationships fungi enjoy with plants or soil fauna in various environments. To date, MIP have never been studied in a mycoparasitism situation. In this study, the diversity, expression and functional prediction of MIP from the genus Trichoderma were investigated. Trichoderma spp. genomes have at least seven aquaporin genes. Based on a phylogenetic analysis of the translated sequences, members were assigned to the AQP, AQGP and XIP subfamilies. In in vitro and in planta assays with T. harzianum strain Ths97, expression analyses showed that four genes were constitutively expressed. In a mycoparasitic context with Fusarium solani, the causative agent of fusarium dieback on olive tree roots, these genes were up-regulated. This response is of particular interest in analyzing the MIP promoter cis-regulatory motifs, most of which are involved in various carbon and nitrogen metabolisms. Structural analyses provide new insights into the possible role of structural checkpoints by which these members transport water, H2O2, glycerol and, more generally, linear polyols across the membranes. Taken together, these results provide the first evidence that MIP may play a key role in Trichoderma mycoparasitism lifestyle.
Highlights
IntroductionMost crop farmers are confronted with the need to control various diseases (physiological or parasitic), while trying to meet strong consumer demands to use environment-friendly farming methods
Most crop farmers are confronted with the need to control various diseases, while trying to meet strong consumer demands to use environment-friendly farming methods
We recently showed that a strain of T. harzianum (Ths97), isolated from Tunisian farmlands, expressed antagonist activities against a strain of Fusarium solani (Fso14), which causes severe dieback of olive roots in Tunisia [2]
Summary
Most crop farmers are confronted with the need to control various diseases (physiological or parasitic), while trying to meet strong consumer demands to use environment-friendly farming methods. One option is to use members of the fungus genus Trichoderma, most of which are known to be effective antagonists of a broad array of soil-borne pathogens [1]. We recently showed that a strain of T. harzianum (Ths97), isolated from Tunisian farmlands, expressed antagonist activities against a strain of Fusarium solani (Fso14), which causes severe dieback of olive roots in Tunisia [2]. Fusarium root rot diseases are steadily expanding worldwide in nurseries and young olive groves, and disease control is still limited to systemic fungicide treatments and prophylactic actions. On olive trees, Ths develops substantial protective activity against Fusarium root infestation. This bioprotection is correlated with the up-regulation of an array of plant defense-related pathways by Ths
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