Identification of effector-like proteins in Trichoderma spp. and role of a hydrophobin in the plant-fungus interaction and mycoparasitism

Guzmán-Guzmán, Paulina; Alemán-Duarte, Mario Iván; Delaye, Luis; Herrera-Estrella, Alfredo; Olmedo-Monfil, Vianey

doi:10.1186/s12863-017-0481-y

Cited by 120 publications

(90 citation statements)

References 96 publications

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“…During T. virens and A. thaliana interactions, we observed that, even before there was physical contact between both participants, the expression of TvCyt2 was down-regulated, subsequently increasing until reaching the basal expression levels observed in the control condition. This behavior in gene expression has been observed in epl1 and Tatrx2 genes reported by Guzmán-Guzmán et al (2017). Moreover, a transcriptomic analysis of T. atroviride in interactions with A. thaliana showed a larger number of downregulated genes than upregulated genes, suggesting that the presence of the plant provides signals participating in the downregulation of some genes normally expressed in the vegetative state, thus starting a chemical communication that contributes to the establishment of the symbiosis (A. Herrera-Estrella personal communication).…”

Section: Discussionsupporting

confidence: 57%

Functional Characterization of TvCyt2, a Member of the p450 Monooxygenases From Trichoderma virens Relevant During the Association With Plants and Mycoparasitism

Ramírez-Valdespino

Porras-Troncoso

Corrales-Escobosa

et al. 2018

MPMI

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Secondary metabolites are crucial for the establishment of interactions between plants and microbes, as in the case of Trichoderma-plant interactions. In the biosynthetic pathway of secondary metabolites, specific enzymes participate in the formation of hydroxyl and epoxy groups, belonging to the p450 monooxygenases family. Here, we show that the product of the gene TvCyt2 from Trichoderma virens encodes a new protein homologous to the cytochrome p450, which is down-regulated at the beginning of Trichoderma-Arabidopsis interaction. To investigate its role in the interactions established by Trichoderma spp., we analyzed the metabolic profile obtained from the overexpressing (OETvCyt2) and null mutant (Δtvcyt2) strains, observing that the OETvCyt2 strains produce a higher concentration of some metabolites than the wild-type (WT) strain. Δtvcyt2 strains showed a decreased antagonistic activity against Rhizoctonia solani in antibiosis assays. Arabidopsis plants cocultivated with the OETvCyt2 strains showed stronger induction of systemic acquired resistance than plants cocultivated with the WT strain, as well as increases in biomass and fitness. Our data suggest that the product of the TvCyt2 gene is involved in secondary metabolite biosynthesis, which can increase antagonistic activity with phytopathogenic fungi and the capacity to promote plant growth.

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Section: Discussionsupporting

confidence: 57%

Functional Characterization of TvCyt2, a Member of the p450 Monooxygenases From Trichoderma virens Relevant During the Association With Plants and Mycoparasitism

Ramírez-Valdespino

Porras-Troncoso

Corrales-Escobosa

et al. 2018

MPMI

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“…Brotman et al, 2008;Morán-Diez et al, 2009;Salas-Marina et al, 2015). Importantly, some of these MAMPs are also proteins (swollenins, endopolygalacturonases, and hydrophobins) that work as colonization factors (Brotman et al, 2008;Morán-Diez et al, 2009;Guzmán-Guzmán et al, 2017) or help the fungus to tolerate antimicrobial compounds accumulated by the plant (Ruocco et al, 2009). Here, Dhda-2 was affected in its capability to induce the SAR and ISR in Arabidopsis, probably as a consequence of its impairment to colonize Arabidopsis roots, and therefore was unable to induce protection against the biotrophic and necrotrophic pathogens Pst DC3000 and B. cinerea.…”

Section: Discussionmentioning

confidence: 99%

Trichoderma Histone Deacetylase HDA-2 Modulates Multiple Responses in Arabidopsis

et al. 2019

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Trichoderma spp. are a rich source of secondary metabolites and volatile organic compounds (VOCs), which may induce plant defenses and modulate plant growth. In filamentous fungi, chromatin modifications regulate secondary metabolism. In this study we investigated how the absence of histone deacetylase HDA-2 in the Trichoderma atroviride strain Dhda-2 impacts its effect on a host, Arabidopsis (Arabidopsis thaliana). The production of VOCs and their impact on plant growth and development were assessed as well. The Dhda-2 strain was impaired in its ability to colonize Arabidopsis roots, thus affecting the promotion of plant growth and modulation of plant defenses against foliar pathogens Botrytis cinerea and Pseudomonas syringae, which normally result from interaction with T. atroviride. Furthermore, Dhda-2 VOCs were incapable of triggering plant defenses to counterattack foliar pathogens. The Dhda-2 overproduced the VOC 6-pentyl-2H-pyran-2-one (6-PP), which resulted in enhanced root branching and differentially regulated phytohormone-related genes. Analysis of ten VOCs (including 6-PP) revealed that three of them positively regulated plant growth, whereas six had the opposite effect. Assessment of secondary metabolites, detoxification, and communication with plant-related genes showed a dual role for HDA-2 in T. atroviride gene expression regulation during its interaction with plants. Chromatin immunoprecipitation of acetylated histone H3 on the promoters of plant-responsive genes in Dhda-2 showed, in the presence of Arabidopsis, low levels of epl-1 and abc-2 compared with that in the wild type; whereas ctf-1 presented high constitutive levels, supporting a dual role of HDA-2 in gene regulation. This work highlights the importance of HDA-2 as a global regulator in Trichoderma to modulate multiple responses in Arabidopsis. Phytohormones are small, signaling molecules, which occur at low concentrations and play pivotal roles in plants, including influencing plant growth and development. Classical phytohormones comprise auxins, abscisic acid, cytokinins, ethylene (ET), and gibberellic acid. However, brassinosteroids, jasmonates (JAs), and salicylic acid (SA) are considered phytohormones as well. These signaling molecules not only integrate, but also transmit environmental signals and modulate responses to abiotic and biotic stresses (Pieterse et al., 2009; De Bruyne et al., 2014). In their natural environments, plants interact with a plethora of microorganisms, establishing pathogenic or beneficial relationships. The plant response against these microbes lies primarily in an array of structural barriers or inducible defenses. The plant immune system has the ability to perceive nonself by recognizing pathogen-or microbe-associated molecular patterns (PAMPs or MAMPs, respectively), and translate this perception into an appropriate adaptive response (Pieterse et al., 2009). Plants have developed the ability to enhance their basal resistance after PAMPs or MAMPs are detected, by triggering the systemic acquired resistanc...

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“…Recently, the Zymoseptoria tritici ribonuclease effector Zt6 was shown to display both phytotoxic as well as antimicrobial activity , providing first experimental evidence for a class of effector proteins required for plant colonisation as well as microbeÀmicrobe interactions. Similarly, the gene tvhydii1 of Trichoderma virens, encoding a class II hydrophobin, is expressed during Arabidopsis thaliana root colonisation as well as confrontation with the phytopathogen Rhizoctonia solani (Guzman-Guzman et al, 2017). Moreover, putative effector genes of the mycoparasite Pseudozyma flocculosa are specifically expressed during colonisation of the phytopathogen Blumeria graminis (Laur et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

et al. 2019

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Summary In nature, beneficial and pathogenic fungi often simultaneously colonise plants. Despite substantial efforts to understand the composition of natural plant−microbe communities, the mechanisms driving such multipartite interactions remain largely unknown. Here we address how the interaction between the beneficial root endophyte Serendipita vermifera and the pathogen Bipolaris sorokiniana affects fungal behaviour and determines barley host responses using a gnotobiotic soil‐based split‐root system. Fungal confrontation in soil resulted in induction of B. sorokiniana genes involved in secondary metabolism and a significant repression of genes encoding putative effectors. In S. vermifera, genes encoding hydrolytic enzymes were strongly induced. This antagonistic response was not activated during the tripartite interaction in barley roots. Instead, we observed a specific induction of S. vermifera genes involved in detoxification and redox homeostasis. Pathogen infection but not endophyte colonisation resulted in substantial host transcriptional reprogramming and activation of defence. In the presence of S. vermifera, pathogen infection and disease symptoms were significantly reduced despite no marked alterations of the plant transcriptional response. The activation of stress response genes and concomitant repression of putative effector gene expression in B. sorokiniana during confrontation with the endophyte suggest a reduction of the pathogen's virulence potential before host plant infection.

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Identification of effector-like proteins in Trichoderma spp. and role of a hydrophobin in the plant-fungus interaction and mycoparasitism

Cited by 120 publications

References 96 publications

Functional Characterization of TvCyt2, a Member of the p450 Monooxygenases From Trichoderma virens Relevant During the Association With Plants and Mycoparasitism

Functional Characterization of TvCyt2, a Member of the p450 Monooxygenases From Trichoderma virens Relevant During the Association With Plants and Mycoparasitism

Trichoderma Histone Deacetylase HDA-2 Modulates Multiple Responses in Arabidopsis

The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

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