Marie-Line Kühn scite author profile

SummaryLeptosphaeria maculans , a Dothideomycete causing stem canker on oilseed rape ( Brassica napus ), develops gene-for-gene interactions with its host plants. To date, nine resistance genes ( Rlm1-9 ) have been identified in Brassica spp. The corresponding nine avirulence genes ( AvrLm1-9 ) in L. maculans have been mapped at four independent loci, thereby revealing two clusters of three and four linked avirulence genes. Here, we report the completion of map-based cloning of AvrLm1 . AvrLm1 was genetically delineated within a 7.3 centimorgan interval corresponding to a 439 kb BAC contig. AvrLm1 is a single copy gene isolated within a 269 kb non-coding, heterochromatin-like region. The region comprised a number of degenerated, nested copies of four long-terminal repeat (LTR) retrotransposons, including Pholy and three novel Gypsy-like retrotransposons. AvrLm1 restored the avirulent phenotype on Rlm1 cultivars following functional complementation of virulent isolates. AvrLm1 homologues were not detected in other Leptosphaeria species or in known fungal genomes including the closely related species Stagonospora nodorum . The predicted AvrLm1 protein is composed of 205 amino acids, of which only one is a cysteine residue. It contains a peptide signal suggesting extracellular localization. Unlike most other fungal avirulence genes, AvrLm1 is constitutively expressed, with a probable increased level of expression upon plant infection, suggesting the absence of tight regulation of AvrLm1 expression.

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Leptosphaeria maculans avirulence gene AvrLm4‐7 confers a dual recognition specificity by the Rlm4 and Rlm7 resistance genes of oilseed rape, and circumvents Rlm4‐mediated recognition through a single amino acid change

Parlange

Daverdin

Fudal

et al. 2009

Molecular Microbiology

210

286

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SummaryLeptosphaeria maculans is the ascomycete responsible for one of the most damaging diseases of oilseed rape (Brassica napus), stem canker of crucifers. Both avirulence (AvrLm) genes in the fungus and resistance (Rlm) genes in the plant are genetically clustered. Using a map-based cloning strategy, we delineated a 238 kb region containing the AvrLm7 locus. Structural features of the region were reminiscent of those previously found on another chromosome for genomic regions encompassing AvrLm1 and AvrLm6, i.e. GC-equilibrated, gene-rich isochores alternating with AT-rich, recombinationdeficient, gene-poor isochores. These latter corresponded to mosaics of degenerated and truncated transposable elements. AvrLm7 is the only gene located within a 60 kb AT-rich isochore. It induced resistance responses in plants harbouring either Rlm7 or Rlm4, and was thus renamed AvrLm4-7. It encodes a 143-amino-acid cysteine-rich protein, predicted to be secreted, and strongly induced during early stages of plant infection. Sequencing and restriction analyses of AvrLm4-AvrLm7 or avrLm4-AvrLm7 alleles in L. maculans field isolates, and targeted point mutagenesis strongly suggested that one single base mutation, leading to the change of a glycine to an arginine residue, was responsible for the loss of AvrLm4 specificity whereas AvrLm7 recognition was unaltered.

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Heterochromatin-Like Regions as Ecological Niches for Avirulence Genes in the Leptosphaeria maculans Genome: Map-Based Cloning of AvrLm6

Fudal¹,

Ross²,

Gout³

et al. 2007

MPMI

195

270

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Map-based cloning of avirulence genes of the AvrLml-2-6 cluster was recently undertaken in Leptosphaeria maculans and led to the identification of AvrLm1. The ensuing chromosome walk toward AvrLm6 resulted in the delineation of a 562-kb bacterial artificial chromosome (BAC) clone contig in an avirulent isolate. Following sequencing of the contig and sequence comparison with a virulent isolate, four AvrLm6 candidate genes were identified. Complementation of the virulent isolate with the four candidates was performed and one gene was found to fully restore the avirulent phenotype on Rlm6 oilseed rape genotypes. AvrLm6 was found to be located in the same genome context as AvrLml, because it is a solo gene surrounded by 85 and 48 kb of degenerated repeats on its 5' and 3' sides, respectively. AvrLm6 is an orphan gene encoding a small, potentially secreted, cysteine-rich protein. Comparison of AvrLm1 and AvrLm6 expressions by quantitative reverse-transcription polymerase chain reaction revealed that both genes are highly overexpressed during primary leaf infection. Using RNA interference, decreasing expression of AvrLm6 was shown to result in virulence toward Rlm6 genotypes whenever the expression was reduced by more than 60% compared with the wild-type isolate.

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Repeat-Induced Point Mutation (RIP) as an Alternative Mechanism of Evolution Toward Virulence in Leptosphaeria maculans

Fudal¹,

Ross²,

Brun³

et al. 2009

MPMI

147

151

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Three avirulence genes, AvrLm1, AvrLm6, and AvrLm4-7, were recently identified in Leptosphaeria maculans and found to be localized as solo genes within large noncoding, heterochromatin-like regions mainly composed of retrotransposons, truncated and degenerated by repeat-induced point mutation (RIP). The Rlm6 resistance gene has been overcome within 3 years in outdoor experiments in France and, here, we investigate the molecular basis of evolution toward virulence at the AvrLm6 locus. A region of 235 kb was sequenced in a virulent isolate and showed the deletion of AvrLm6 and three divergent mosaics of retrotransposons. AvrLm6 was found to be absent from 66% of 70 virulent isolates, with multiple events of deletion. The sequencing of virulent alleles in 24 isolates revealed a few cases of point mutations that had created stop codons in the sequence. The most frequent mutation events, however, were RIP, leading to the modification of 4 to 9% of the bases compared with the avirulent allele and generating 2 to 4 stop codons. Thus, RIP is described for the first time as an efficient mechanism leading to virulence and the multiple patterns of mutation observed suggest that multiple RIP events could occur independently in a single field population during 1 year.

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The Phytophthora parasitica RXLR effector Penetration‐Specific Effector 1 favours Arabidopsis thaliana infection by interfering with auxin physiology

et al. 2013

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Summary Pathogenic oomycetes have evolved RXLR effectors to thwart plant defense mechanisms and invade host tissues. We analysed the function of one of these effectors (Penetration‐Specific Effector 1 (PSE1)) whose transcript is transiently accumulated during penetration of host roots by the oomycete Phytophthora parasitica. Expression of PSE1 protein in tobacco (Nicotiana tabacum and Nicotiana benthamiana) leaves and in Arabidopsis thaliana plants was used to assess the role of this effector in plant physiology and in interactions with pathogens. A pharmacological approach and marker lines were used to charcterize the A. thaliana phenotypes. Expression of PSE1 in A. thaliana led to developmental perturbations associated with low concentrations of auxin at the root apex. This modification of auxin content was associated with an altered distribution of the PIN4 and PIN7 auxin efflux carriers. The PSE1 protein facilitated plant infection: it suppressed plant cell death activated by Pseudomonas syringae avirulence gene AvrPto and Phytophthora cryptogea elicitin cryptogein in tobacco and exacerbated disease symptoms upon inoculation of transgenic A. thaliana plantlets with P. parasitica in an auxin‐dependant manner. We propose that P. parasitica secretes the PSE1 protein during the penetration process to favour the infection by locally modulating the auxin content. These results support the hypothesis that effectors from plant pathogens may act on a limited set of targets, including hormones.

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Marie-Line Kühn

Lost in the middle of nowhere: the AvrLm1 avirulence gene of the Dothideomycete Leptosphaeria maculans

Leptosphaeria maculans avirulence gene AvrLm4‐7 confers a dual recognition specificity by the Rlm4 and Rlm7 resistance genes of oilseed rape, and circumvents Rlm4‐mediated recognition through a single amino acid change

Heterochromatin-Like Regions as Ecological Niches for Avirulence Genes in the Leptosphaeria maculans Genome: Map-Based Cloning of AvrLm6

Repeat-Induced Point Mutation (RIP) as an Alternative Mechanism of Evolution Toward Virulence in Leptosphaeria maculans

The Phytophthora parasitica RXLR effector Penetration‐Specific Effector 1 favours Arabidopsis thaliana infection by interfering with auxin physiology

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