Project description:Light provides critical information for the behavior and development of basically all organisms. Filamentous fungi sense blue light through a unique transcription factor complex that activates its targets in a light-dependent manner. In Trichoderma atroviride, the Blr-1 and Blr-2 proteins constitute this complex, which triggers the light-dependent formation of asexual reproduction structures (conidia). Using transcriptomics, we identified the genes regulated by the photoreceptors Blr-1, Blr-2, Cry-1, Cry-DASH, and Envoy. The evaluation of the transcriptional response to blue light of the Δblr-1 and Δblr-2 mutants showed that the BLR proteins have common targets, which indicates that these proteins act as a complex in gene regulation. Nevertheless, the severe alteration in the transcriptional profile of the Δblr-2 strain indicates that Blr-2 provides target specificity to the protein complex, while Blr-1 central role is as a transcriptional activator. The Δenv-1 mutant phenotypic characterization showed that Envoy functions as a growth and conidiation checkpoint, preventing excessive light responses. Similarly, we observed that Cry-1 and Cry-DASH contribute to the typical light-induced conidiation response. In the env-1 mutant, we observed, at the transcriptomic level, a general induction of DNA metabolic processes and strong repression of central metabolism. An analysis of the expression level of DNA repair genes showed that they increase their expression in the absence of Envoy. Photoreactivation experiments showed that Δenv-1 had increased DNA repair capacity, which is consistent with the transcriptomic data. Our results indicate that light perception in T. atroviride is far more complex than originally thought.

Project description:This study investigates the multifaceted defense mechanisms of plants in response to beneficial fungi Trichoderma atroviride. The researchers focus on a small RNA, Ta_sRNA1, produced by T. atroviride during its interaction with Arabidopsis thaliana.

Project description:A Trichoderma microarrays composed of 385,000 probes, designed against the genomes of Trichoderma reesei (= Hypocrea jecorina), ID: 431241 (9,129 genes) + Trichoderma virens (= Hypocrea virens), ID: 413071 (11,643 genes) + Trichoderma atroviride (= Hypocrea atroviridis) ID: 197014A (11,643 genes), was constructed (Roche-NimbleGen, Inc., Madison, WI, USA). Probes contained entere transcript sequence. This microarray was used to analyze the transcriptomic changes of T. atroviride IMI 352941 (T11) in three conditions: T11 growing alone, T11 growing at ca 5 mm of V. dahliae V-138I and T11 overgrowing V-138I.

Project description:This SuperSeries is composed of the following subset Series: GSE19832: Trichoderma virens transcript levels during mycoparasitism GSE23382: Trichoderma atroviride transcript levels during mycoparasitism GSE23410: Trichoderma reesei transcript levels during mycoparasitism Refer to individual Series

Project description:In the present study we have assessed, by transcriptional profiling, the systemic defense response of Zea mays plants to the ear rotting pathogen Fusarium verticilioides induced by the beneficial fungus Trichoderma atroviride

Project description:Mycoparasitism is a key feature of Trichoderma biocontrol agents. Recent studies of intracellular signal transduction pathways of the potent mycoparasite Trichoderma atroviride revealed the involvement of Tmk1, a mitogen-activated protein kinase, in triggering the mycoparasitic response. We previously showed that mutants missing Tmk1 exhibit reduced mycoparasitic activity against several plant pathogenic fungi. In this study we identified the most robustly regulated targets governed by Tmk1 during mycoparasitism by whole transcriptome gene expression profiling using a custom microarray.

Project description:A self-designed Trichoderma high density oligonuclotide (HDO) microarray (Roche-NimbleGen, Inc., Madison, WI, USA) was constructed in a similar way than a previous Trichoderma HDO microarray (Samolski et al., 2009). The microarray was composed of 392,779 60-mer probes designed against 13,443 EST-derived transcripts (Trichochip-1) and the genomes of T. atroviride (11,100 genes) and T. virens (11,643 genes). The Trichochip-1 ESTs were obtained from 28 cDNA libraries from eight different species (representing the biodiversity of this genus: T. harzianum, T. atroviride, T. asperellum, T. viride, T. longibrachiatum, T. virens, T. stromaticum and T. aggresivum), under a wide range of growth conditions, including biocontrol-related conditions and different nutritional situations (Vizcaíno et al., 2006). The Trichochip1 EST database was generated in the TrichoEST project funded by the EU (QLK3-CT-2002-02032). Confrontations were carried out between the T. harzianum T34 or nox1 overexpressed transformant Tnox5 and P. ultimum. Agar plugs cut from the growing edge of a 4-day colony of Trichoderma and Pythium were placed 2 cm from the border on the opposite side of the same petri plates containing PDA covered with sterile cellophane sheets. Dual cultures were allowed to grow at 25 ºC and mycelia were collected from the interaction zone in confrontations between P. ultimum and T. harzianum T34 or Tnox5 strains. Seven PDA plates were used for each condition considered and RNAs were extracted and the corresponding cDNAs were use to hybridize by triplicate the Trichoderma HDO microarray.

Project description:A self-designed Trichoderma high density oligonuclotide (HDO) microarray (Roche-NimbleGen, Inc., Madison, WI, USA) was constructed in a similar way than a previous Trichoderma HDO microarray (Samolski et al., 2009). The microarray was composed of 392,779 60-mer probes designed against 13,443 EST-derived transcripts (Trichochip-1) and the genomes of T. atroviride (11,100 genes) and T. virens (11,643 genes). The Trichochip-1 ESTs were obtained from 28 cDNA libraries from eight different species (representing the biodiversity of this genus: T. harzianum, T. atroviride, T. asperellum, T. viride, T. longibrachiatum, T. virens, T. stromaticum and T. aggresivum) under a wide range of growth conditions, including biocontrol-related conditions and different nutritional situations (Vizcaíno et al., 2006). The Trichochip1 EST database was generated in the TrichoEST project funded by the EU (QLK3-CT-2002-02032) T. atroviride P1 mycelium grown (approximately for 24h) at 25ºC on a cellophane sheet on PDA (Difco) plates before contact (at a distance of 5 mm) a R. solani colony grown under identical conditions in the same plate was compared with T. atroviride P1 mycelium after contact (5 mm) the above R. solani colony (mycoparasitic interaction). RNAs from both conditions were extracted and the corresponding cDNAs were use to hybridize by triplicate the Trichoderma HDO microarray.

Project description:Trichoderma atroviride

Project description:Trichoderma atroviride is a fungus capable of establishing symbiotic relationships with plants, however, its main lifestyle is a saprophyte. Due to these characteristics, it must face a great quantity of microorganisms, and be able to compete for nutrients. T. atroviride is considered a necrotrophic mycoparasite and has developed the ability to kill other organisms and obtain nutrients from them. The object of this work is to explore the role of small RNAs in mycoparasitism. To this end, we obtained small RNA-Seq libraries from the interactions of T. atroviride against Alternaria alternata. The libraries were obtained from three stages during mycoparasitsm: before contact (BC), contact (C), and after contact (AC).