Laura Lewis scite author profile

Transcriptional reprogramming is integral to effective plant defense. Pathogen effectors act transcriptionally and posttranscriptionally to suppress defense responses. A major challenge to understanding disease and defense responses is discriminating between transcriptional reprogramming associated with microbial-associated molecular pattern (MAMP)-triggered immunity (MTI) and that orchestrated by effectors. A high-resolution time course of genome-wide expression changes following challenge with Pseudomonas syringae pv tomato DC3000 and the nonpathogenic mutant strain DC3000hrpA-allowed us to establish causal links between the activities of pathogen effectors and suppression of MTI and infer with high confidence a range of processes specifically targeted by effectors. Analysis of this information-rich data set with a range of computational tools provided insights into the earliest transcriptional events triggered by effector delivery, regulatory mechanisms recruited, and biological processes targeted. We show that the majority of genes contributing to disease or defense are induced within 6 h postinfection, significantly before pathogen multiplication. Suppression of chloroplast-associated genes is a rapid MAMP-triggered defense response, and suppression of genes involved in chromatin assembly and induction of ubiquitin-related genes coincide with pathogen-induced abscisic acid accumulation. Specific combinations of promoter motifs are engaged in fine-tuning the MTI response and active transcriptional suppression at specific promoter configurations by P. syringae.

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Bioinformatic characterisation of the effector repertoire of the strawberry pathogen Phytophthora cactorum

Armitage¹,

Lysøe

Nellist³

et al. 2018

PLoS ONE

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The oomycete pathogen Phytophthora cactorum causes crown rot, a major disease of cultivated strawberry. We report the draft genome of P. cactorum isolate 10300, isolated from symptomatic Fragaria x ananassa tissue. Our analysis revealed that there are a large number of genes encoding putative secreted effectors in the genome, including nearly 200 RxLR domain containing effectors, 77 Crinklers (CRN) grouped into 38 families, and numerous apoplastic effectors, such as phytotoxins (PcF proteins) and necrosis inducing proteins. As in other Phytophthora species, the genomic environment of many RxLR and CRN genes differed from core eukaryotic genes, a hallmark of the two-speed genome. We found genes homologous to known Phytophthora infestans avirulence genes including Avr1, Avr3b, Avr4, Avrblb1 and AvrSmira2 indicating effector sequence conservation between Phytophthora species of clade 1a and clade 1c. The reported P. cactorum genome sequence and associated annotations represent a comprehensive resource for avirulence gene discovery in other Phytophthora species from clade 1 and, will facilitate effector informed breeding strategies in other crops.

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Comparative Analysis of Host-Associated Variation in Phytophthora cactorum

et al. 2021

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Phytophthora cactorum is often described as a generalist pathogen, with isolates causing disease in a range of plant species. It is the causative agent of two diseases in the cultivated strawberry, crown rot (CR; causing whole plant collapse) and leather rot (LR; affecting the fruit). In the cultivated apple, P. cactorum causes girdling bark rots on the scion (collar rot) and rootstock (crown rot), as well as necrosis of the fine root system (root rot) and fruit rots. We investigated evidence for host specialisation within P. cactorum through comparative genomic analysis of 18 isolates. Whole genome phylogenetic analysis provided genomic support for discrete lineages within P. cactorum, with well-supported non-recombining clades for strawberry CR and apple infecting isolates specialised to strawberry crowns and apple tissue. Isolates of strawberry CR are genetically similar globally, while there is more diversity in apple-infecting isolates. We sought to identify the genetic basis of host specialisation, demonstrating gain and loss of effector complements within the P. cactorum phylogeny, representing putative determinants of host boundaries. Transcriptomic analysis highlighted that those effectors found to be specific to a single host or expanded in the strawberry lineage are amongst those most highly expressed during infection of strawberry and give a wider insight into the key effectors active during strawberry infection. Many effectors that had homologues in other Phytophthoras that have been characterised as avirulence genes were present but not expressed in our tested isolate. Our results highlight several RxLR-containing effectors that warrant further investigation to determine whether they are indeed virulence factors and host-specificity determinants for strawberry and apple. Furthermore, additional work is required to determine whether these effectors are suitable targets to focus attention on for future resistance breeding efforts.

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Bioinformatic characterisation of the effector repertoire of the strawberry pathogen Phytophthora cactorum

Armitage

Lysøe

Nellist

et al. 2018

Preprint

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22The oomycete pathogen Phytophthora cactorum causes crown rot, a major disease of 23 cultivated strawberry. We report the draft genome of P. cactorum isolate 10300, cultured 24 from symptomatic Fragaria x ananassa tissue. Our analysis revealed that there are a large 25 number of genes encoding putative secreted effectors in the genome, including nearly 200 26 RxLR domain containing effectors, 77 Crinklers (CRN) grouped into 38 families and 27 numerous apoplastic effectors, such as phytotoxins (PcF proteins) and necrosis inducing 28 proteins. As in other Phytophthora species, the genomic environment of many RxLR and CRN 29 genes differed from core eukaryotic genes, a hallmark of the two-speed genome. We found 30 genes homologous to known Phytophthora infestans avirulence genes including Avr1, Avr3b, 31 Avr4, Avrblb1 and AvrSmira2 indicating effector sequence conservation between Phytophthora 32 species of Clade 1A and 1C. The reported P. cactorum genome sequence and associated 33 annotations represent a comprehensive resource for avirulence gene discovery in other 34 Phytophthora species from Clade 1 and will facilitate effector informed breeding strategies in 35 other crops. 36 37 38 39 40 The oomycetes are a diverse class of eukaryotic microorganisms that include pathogens of plants, 41 animals and fungi (Simão et al. 2015). The causal agents of plant diseases are well represented in 42 this phylogenetic class, with over 60% of known oomycetes characterised as plant pathogens 43

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Lack of correlation between age at diagnosis and RB1 mutations for unilateral retinoblastoma: the importance of genetic testing

Berry¹,

Lewis

Zolfaghari

et al. 2017

Ophthalmic Genetics

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Laura Lewis

Transcriptional Dynamics Driving MAMP-Triggered Immunity and Pathogen Effector-Mediated Immunosuppression in Arabidopsis Leaves Following Infection with Pseudomonas syringae pv tomato DC3000

Bioinformatic characterisation of the effector repertoire of the strawberry pathogen Phytophthora cactorum

Comparative Analysis of Host-Associated Variation in Phytophthora cactorum

Bioinformatic characterisation of the effector repertoire of the strawberry pathogen Phytophthora cactorum

Lack of correlation between age at diagnosis and RB1 mutations for unilateral retinoblastoma: the importance of genetic testing

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