Miroslava Nováková scite author profile

Interaction of a plant with a fungal pathogen is an encounter with hundreds of molecules. In contrast to this, a single molecule often decides between the disease and resistance. In the present article, we describe the defense responses triggered by AvrLm1, an avirulence gene from a hemibiotrophic ascomycete, Leptosphaeria maculans, responsible for an incompatible interaction with Brassica napus. Using multiple hormone quantification and expression analysis of defense-related genes, we investigated signaling events in Rlm1 plants infected with two sister isolates of L. maculans differentiated by the presence or absence of AvrLm1. Infection with the isolate carrying AvrLm1 increased the biosynthesis of salicylic acid (SA) and induced expression of the SA-associated genes ICS1, WRKY70, and PR-1, a feature characteristic of responses to biotrophic pathogens and resistance gene-mediated resistance. In addition to SA-signaling elements, we also observed the induction of ASC2a, HEL, and CHI genes associated with ethylene (ET) signaling. Pharmacological experiments confirmed the positive roles of SA and ET in mediating resistance to L. maculans. The unusual cooperation of SA and ET signaling might be a response to the hemibiotrophic nature of L. maculans. Our results also demonstrate the profound difference between the natural host B. napus and the model plant Arabidopsis in their response to L. maculans infection.

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Plant hormones in defense response of Brassica napus to Sclerotinia sclerotiorum – Reassessing the role of salicylic acid in the interaction with a necrotroph

Nováková

Šašek

Dobrev

et al. 2014

Plant Physiology and Biochemistry

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Osmotin, a Pathogenesis-Related Protein

Viktorová

Krásný²,

Kamlar³

et al. 2012

CPPS

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Plants protect themselves from pathogen invasion through the local expression of a variety of pathogenesis-related proteins. They are highly diverse in both primary structure and length, and exhibit different direct antimicrobial activity. This text reviews the knowledge of osmotin, antimicrobial protein involved in innate immunity of plants. Osmotin belongs to the fifth class of the group of pathogenesis-related (PR) proteins and has been found in different plants species, in every case osmotin is cysteine-rich protein involved in plant defense responses to several pathogens and abiotic stresses. The phylogenetic tree of amino acids compositions of osmotins from different plant species is presented and the basic similarities of clusters are discussed in this review. Osmotin gene is activated by different biotic as well as abiotic signals and has many functions. The review summarizes biochemical and structural properties, induction, functions and structural homology between osmotin and other proteins. Recent data about recombinant production in bacterial and plant cells are examined. The article indicates possible ways of osmotin application in research in the field of functional biology, medicine and agriculture.

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Leptosphaeria maculans effector AvrLm4‐7 affects salicylic acid (SA) and ethylene (ET) signalling and hydrogen peroxide (H₂O₂) accumulation in Brassica napus

Nováková

Šašek

Trdá

et al. 2016

Molecular Plant Pathology

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To achieve host colonization, successful pathogens need to overcome plant basal defences. For this, (hemi)biotrophic pathogens secrete effectors that interfere with a range of physiological processes of the host plant. AvrLm4-7 is one of the cloned effectors from the hemibiotrophic fungus Leptosphaeria maculans 'brassicaceae' infecting mainly oilseed rape (Brassica napus). Although its mode of action is still unknown, AvrLm4-7 is strongly involved in L. maculans virulence. Here, we investigated the effect of AvrLm4-7 on plant defence responses in a susceptible cultivar of B. napus. Using two isogenic L. maculans isolates differing in the presence of a functional AvrLm4-7 allele [absence ('a4a7') and presence ('A4A7') of the allele], the plant hormone concentrations, defence-related gene transcription and reactive oxygen species (ROS) accumulation were analysed in infected B. napus cotyledons. Various components of the plant immune system were affected. Infection with the 'A4A7' isolate caused suppression of salicylic acid- and ethylene-dependent signalling, the pathways regulating an effective defence against L. maculans infection. Furthermore, ROS accumulation was decreased in cotyledons infected with the 'A4A7' isolate. Treatment with an antioxidant agent, ascorbic acid, increased the aggressiveness of the 'a4a7' L. maculans isolate, but not that of the 'A4A7' isolate. Together, our results suggest that the increased aggressiveness of the 'A4A7' L. maculans isolate could be caused by defects in ROS-dependent defence and/or linked to suppressed SA and ET signalling. This is the first study to provide insights into the manipulation of B. napus defence responses by an effector of L. maculans.

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