Heavy metals modulate <scp>DNA</scp> compaction and methylation at <scp>CpG</scp> sites in the metal hyperaccumulator <i>Arabidopsis halleri</i>

Galati, Serena; Gullì, Mariolina; Giannelli, Gianluigi; Furini, Antonella; DalCorso, Giovanni; Fragni, Rosaria; Buschini, Annamaria; Visioli, Giovanna

doi:10.1002/em.22421

Cited by 21 publications

(14 citation statements)

References 50 publications

(68 reference statements)

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“…In Hibiscus cannabinus , increased methylation was associated with increasing chromium levels (Ding et al 2016). In Arabidopsis halleri , cadmium treatments increased CpG methylation of genes responsible for symmetric methylation (Galati et al 2021). In rice, a model for nutrient stress, the expression of Heavy Metal Transporting ATPases (HMAs) was modified and retained over generations and modulated by the methylation of specific TEs (Cong et al 2019).…”

Section: Resultsmentioning

confidence: 99%

Profiling genome-wide methylation in two maples: fine-scale approaches to detection with nanopore technology

McEvoy

Grady

Pauloski

et al. 2022

Preprint

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DNA methylation is critical to the regulation of transposable elements and gene expression. Traditional methods of methylation quantification rely on bisulfite conversion, which requires treatments to the DNA that can compromise accuracy. Recent advances in long-read sequencing technologies allow for methylation detection in real time. The associated algorithms that interpret these modifications have evolved from strictly statistical approaches to Hidden Markov Models and, recently, deep learning approaches. Much of the existing software focuses on methylation in the CG context but methylation in other contexts is important to quantify, as it is extensively leveraged in plants. Here, we present methylation profiles for two maple species across the full range of 5mC sequence contexts using Oxford Nanopore long-reads. Hybrid and reference-guided assemblies were generated for two new Acer accessions: Acer negundo (65x nanopore and 111X Illumina) and Acer saccharum (93x nanopore and 148X Illumina). The nanopore reads generated for these assemblies were re-basecalled, and methylation detection was conducted in a custom pipeline with the published Acer references (PacBio assemblies) and the new hybrid assemblies to generate four epigenomes. The abundance and distribution of genes (including those previously associated with abiotic stress response), repeats, and methylation contexts were examined and compared with those of recently characterized broadleaf tree species.

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Section: Resultsmentioning

confidence: 99%

Profiling genome-wide methylation in two maples: fine-scale approaches to detection with nanopore technology

McEvoy

Grady

Pauloski

et al. 2022

Preprint

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“…In particular, the Ganges (GA) ecotype has shown superior Cd accumulation and hypertolerance when compared to other populations studied so far (Assuncão et al 2003). In a previous work, we used alkaline and methy-sens comet assays to show that the Cd hyperacculator and hypertolerant species Arabidopsis halleri, differently to the non-tolerant species Arabidopsis thaliana, condenses its nucleus by DNA methylation in response to Cd treatment, suggesting a role of DNA methylation for proper plant development (Galati et al 2021). In this work, we compared the Cd response in N. caerulescens GA vs the non-tolerant A. thaliana analyzing i) the possible DNA damages by alkaline comet assay; ii) the modulation of DNA methylation by methy-sens comet assay; iii) the superoxide dismutase (SOD) activity and ROS production, measuring the three oxidative stress biomarkers, H 2 O 2 , 7,8-Dihydro-8-oxo-2′-deoxyguanosine (8-oxo-dG) and superoxide anion; and iv) the expression of genes involved in symmetric and non-symmetric DNA methylation and genes coding for enzymes linked to oxidative stress response.…”

Section: Introductionmentioning

confidence: 94%

“…This assay enables to detect DNA damage even at low concentrations of contaminants (Rodriguez et al 2019) and allows the identification of modifications in the DNA that alters the supercoiling of the molecule, since loops move towards the anode during electrophoresis (Tice et al 2000). In a previous work, the comet assay was employed to compare the effects of Cd exposure on the integrity of leaf cell nuclei in the Cd hypertolerant and hypercaccumulator species Arabidopsis halleri PL22 vs the non-tolerant species A. thaliana, showing a highly condensed nucleus in the hyperacculator species upon Cd treatment and a nucleus degradation in the non-tolerant one (Galati et al 2021). A similar result was observed in the Ni hyperaccumulator N. caerulescens Monte Prinzera population vs the non-tolerant A. thaliana.…”

Section: Dna Damage Induced By CD On Leaf Nucleimentioning

confidence: 99%

“…Most known taxa accumulate Ni but few taxa are capable of accumulating Cd 100 times more than the level of toxicity of non-tolerant plants (Manara et al 2020). To better understand the role of DNA methylation in metal tolerance and toxicity, metal hypertolerant and hyperaccumulating species can be used as models (Galati et al 2021;Gullì et al 2018). In particular, the cruciferous plant Noccaea caerulescens is a well-known metal hyperaccumulator.…”

Section: Introductionmentioning

confidence: 99%

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DNA methylation is enhanced during Cd hyperaccumulation in Noccaea caerulescens ecotype Ganges

Galati

DalCorso

Furini

et al. 2022

Environ Sci Pollut Res

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In this study, we assess the DNA damage occurring in response to cadmium (Cd) in the Cd hyperaccumulator Noccaea caerulescens Ganges (GA) vs the non-accumulator and close-relative species Arabidopsis thaliana. At this purpose, the alkaline comet assay was utilized to evaluate the Cd-induced variations in nucleoids and the methy-sens comet assay, and semiquantitative real-time (qRT)-PCR were also performed to associate nucleus variations to possible DNA modifications. Cadmium induced high DNA damages in nuclei of A. thaliana while only a small increase in DNA migration was observed in N. caerulescens GA. In addition, in N. caerulescens GA, CpG DNA methylation increase upon Cd when compared to control condition, along with an increase in the expression of MET1 gene, coding for the DNA-methyltransferase. N. caerulescens GA does not show any oxidative stress under Cd treatment, while A. thaliana Cd-treated plants showed an upregulation of transcripts of the respiratory burst oxidase, accumulation of reactive oxygen species, and enhanced superoxide dismutase activity. These data suggest that epigenetic modifications occur in the N. caerulescens GA exposed to Cd to preserve genome integrity, contributing to Cd tolerance.

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“…So far, experimental evidence on the contribution of epigenetic mechanisms to plant heavy metal tolerance has shown that DNA methylation could have a direct protective role. For example, metal tolerant plants like Arabidopsis halleri -in response to Cd -and Noccaea caerulescens -in response to Ni showed hypermethylation of DNA and no heavy metal-induced DNA damage 34,35 . Non-tolerant species like the moss Physcomitrium patens , however, showed overall DNA hypomethylation and significant signs of DNA strand breaks in response to Mn 36 .…”

Section: Introductionmentioning

confidence: 99%

Molecular basis of intraspecific differentiation for heavy metal tolerance in the copper moss Scopelophila cataractae

Boquete

Schmid²,

Wagemaker

et al. 2022

Preprint

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Bryophytes’ remarkable capacity to tolerate extreme abiotic conditions allows us to enhance our understanding of the diversity of molecular mechanisms involved in plant stress response. Here, we used next generation sequencing to study DNA methylation and gene expression changes in plants from four populations of the metallophyte moss Scopelophila cataractae experimentally exposed to either Cd or Cu. These populations previously showed differences in tolerance to both metals, so here, we aimed at uncovering the molecular basis of this phenotypic differentiation. We found no evidence of genetic differentiation among the populations studied. The epigenetic data, however, showed limited but significant population-specific changes in DNA methylation in response to both metals. Exposure to acute Cu stress in the laboratory led to the downregulation of genes involved in heavy metal tolerance in both populations regardless of their tolerance level, but this response was quantitatively higher in the most tolerant. We propose that chronic exposure to varying levels of heavy metals in the field led to potentially non-genetically-based intraspecific differentiation for heavy metal tolerance in S. cataractae. The most tolerant plants invested more in constitutive protection and were more efficient in entering a conservative state when faced with acute Cu stress.

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Heavy metals modulate DNA compaction and methylation at CpG sites in the metal hyperaccumulator Arabidopsis halleri

Cited by 21 publications

References 50 publications

Profiling genome-wide methylation in two maples: fine-scale approaches to detection with nanopore technology

Profiling genome-wide methylation in two maples: fine-scale approaches to detection with nanopore technology

DNA methylation is enhanced during Cd hyperaccumulation in Noccaea caerulescens ecotype Ganges

Molecular basis of intraspecific differentiation for heavy metal tolerance in the copper moss Scopelophila cataractae

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