Identification and characterisation of hypomethylated DNA loci controlling quantitative resistance in Arabidopsis

Furci, Leonardo; Jain, Ritushree; Stassen, Joost H. M.; Berkowitz, Oliver; Whelan, James; Roquis, David; Baillet, Victoire; Colot, Vincent; Johannes, Frank; Ton, Jurriaan

doi:10.7554/elife.40655

Cited by 85 publications

(104 citation statements)

References 77 publications

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“…by which disease-induced DNA hypomethylation is transmitted to following generations to control TAR. This hypothesis is supported by Furci et al (49), who identified hypomethylated DNA regions that control quantitative disease resistance and that are stable over multiple generations. Furthermore, mutation of the DNA demethylase gene ROS1 not only affects basal resistance to biotrophic pathogens (155) but also prevents TAR in progeny from diseased plants (81).…”

Section: Py57ch23_tonmentioning

confidence: 74%

“…Recent evidence has shown that sRNAs can trans-activate defense-related genes through interaction with ARGONAUTE 1 (AGO1) and the SWI/SNF chromatin remodeling complex (79). Further support for trans-regulation of defense gene priming came from a recent study of Arabidopsis epigenetic recombinant inbred lines (epiRILs), which identified four hypomethylated epigenetic quantitative trait loci (epiQTLs) that control quantitative resistance against downy mildew (49). Transcriptome analysis revealed that the most resistant epiRILs were constitutively primed to activate defense-related genes.…”

Section: Py57ch23_tonmentioning

confidence: 99%

“…For instance, a better understanding of the epigenetic underpinnings of TAR can aid the generation and selection of epiRILs that are constitutively primed for defense. In Arabidopsis, this approach allows the selection of lines that express quantitative disease resistance without affecting plant growth (49). Whether this approach is suitable for crops depends on a variety of factors, including the stability of the resistance and potential nontarget effects.…”

Section: Py57ch23_tonmentioning

confidence: 99%

See 2 more Smart Citations

Surviving in a Hostile World: Plant Strategies to Resist Pests and Diseases

Wilkinson

Magerøy

Sánchez

et al. 2019

Annu. Rev. Phytopathol.

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115

147

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As primary producers, plants are under constant pressure to defend themselves against potentially deadly pathogens and herbivores. In this review, we describe short- and long-term strategies that enable plants to cope with these stresses. Apart from internal immunological strategies that involve physiological and (epi)genetic modifications at the cellular level, plants also employ external strategies that rely on recruitment of beneficial organisms. We discuss these strategies along a gradient of increasing timescales, ranging from rapid immune responses that are initiated within seconds to (epi)genetic adaptations that occur over multiple plant generations. We cover the latest insights into the mechanistic and evolutionary underpinnings of these strategies and present explanatory models. Finally, we discuss how knowledge from short-lived model species can be translated to economically and ecologically important perennials to exploit adaptive plant strategies and mitigate future impacts of pests and diseases in an increasingly interconnected and changing world.

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Section: Py57ch23_tonmentioning

confidence: 74%

Section: Py57ch23_tonmentioning

confidence: 99%

Section: Py57ch23_tonmentioning

confidence: 99%

See 1 more Smart Citation

Surviving in a Hostile World: Plant Strategies to Resist Pests and Diseases

Wilkinson

Magerøy

Sánchez

et al. 2019

Annu. Rev. Phytopathol.

Self Cite

115

147

View full text Add to dashboard Cite

show abstract

“…A binomial distribution test was performed to identify 5mC for each C site, and then the P value of binomial distribution test was subjected to false discovery rate (FDR) correction using the Benjamini & Hochberg method in the p.adjust package of the R software. The C site with coverage > 4X and an FDR < 0.05 was considered to be a true methylation site (Zhang et al, 2017b;Furci et al, 2019).…”

Section: Mapping Reads To the Reference Genomementioning

confidence: 99%

Whole-Genome Methylation Analysis Reveals Epigenetic Variation in Cloned and Donor Pigs

Wang

Feng

et al. 2020

Front. Genet.

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Somatic cloning has had a significant impact on the life sciences and is important in a variety of processes, including medical research and animal production. However, the application of somatic cloning has been limited due to its low success rate. Therefore, potential epigenetic variations between cloned and donor animals are still unclear. DNA methylation, one of the factors which is responsible for phenotypic differences in animals, is a commonly researched topic in epigenetic studies of mammals. To investigate the epigenetic variations between cloned and donor animals, we selected blood and ear fibroblasts of a donor pig and a cloned pig to perform whole-genome bisulfite sequencing (WGBS). A total of 215 and 707 differential methylation genes (DMGs) were identified in blood and ear fibroblasts, respectively. Functional annotation revealed that DMGs are enriched in many pathways, including T/B or natural killer (NK) cell differentiation, oocyte maturation, embryonic development, and reproductive hormone secretion. Moreover, 22 DMGs in the blood and 75 in the ear were associated with immune responses (e.g., CD244, CDK6, CD5, CD2, CD83, and CDC7). We also found that 18 DMGs in blood and 53 in ear fibroblasts were involved in reproduction. Understanding the expression patterns of DMGs, especially in relation to immune responses and reproduction, will reveal insights that will aid the advancement of future somatic cloning techniques in swine.

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“…Genomes of met1 mutants are largely hypomethylated at CG dinucleotides that usually inherit cytosine methylation faithfully during DNA replication through MET1 activity (5) . Phenotypic abnormalities do, however, not require whole-genome changes in cytosine methylation, as a recent study describes how hypomethylation at a few select loci is sufficient to establish quantitative resistance to a pathogenic oomycete, Hyaloperonospora arabidopsidis (Hpa) (6) .…”

Section: Introductionmentioning

confidence: 99%

Position-dependent effects of cytosine methylation onFWAexpression inArabidopsis thaliana

Srikant

Wibowo

Schwab

et al. 2019

Preprint

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Gene expression can be modulated by epigenetic modifications to chromatin, and variants of the same locus distinguished by fixed, heritable epigenetic differences are known as epialleles.DNA methylation at cytosines is a prominent epigenetic modification, particularly in plant genomes, that can modulate gene expression. There are several examples where epialleles are associated with differentially methylated regions that affect the expression of overlapping or close-by genes. However, there are also many differentially methylated regions that have not been assigned a biological function despite their proximity to genes. We investigated the positional importance of DNA methylation at the FWA (FLOWERING WAGENINGEN) locus in Arabidopsis thaliana , a paradigm for stable epialleles. We show that cytosine methylation can be established not only over the well-characterized SINEderived repeat elements that overlap with the transcription start site, but also in more distal promoter regions. FWA silencing, however, is most effective when methylation covers the transcription start site.

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Identification and characterisation of hypomethylated DNA loci controlling quantitative resistance in Arabidopsis

Cited by 85 publications

References 77 publications

Surviving in a Hostile World: Plant Strategies to Resist Pests and Diseases

Surviving in a Hostile World: Plant Strategies to Resist Pests and Diseases

Whole-Genome Methylation Analysis Reveals Epigenetic Variation in Cloned and Donor Pigs

Position-dependent effects of cytosine methylation onFWAexpression inArabidopsis thaliana

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