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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

http://www.wikidata.org/entity/Q28077013

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Continuous in vitro exposure of intestinal epithelial cells to E171 food additive causes oxidative stress, inducing oxidation of DNA bases but no endoplasmic reticulum stress.Exposure to Engineered Nanomaterials: Impact on DNA Repair Pathways.NanoGenotoxicology: present and the future.Effects of differently shaped TiONPs (nanospheres, nanorods and nanowires) on the in vitro model (Caco-2/HT29) of the intestinal barrier

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

http://www.wikidata.org/entity/Q28077013

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2017 nî lūn-bûn

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2017 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

2017 թվականի հունվարին հրատարակված գիտական հոդված

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2017年の論文

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2017年論文

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2017年論文

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2017年論文

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2017年論文

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2017年論文

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2017年论文

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Impact of nanoparticles on DNA repair processes: current knowledge and working hypotheses

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Sylvie Sauvaigo

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P2860

The mechanism of double-strand DNA break repair by the nonhomologous DNA end-joining pathway

Redox regulation of human OGG1 activity in response to cellular oxidative stress

Functions of PARylation in DNA Damage Repair Pathways

The conserved molecular machinery in DNA mismatch repair enzyme structures

Base excision repair

Oxidatively damaged DNA in rats exposed by oral gavage to C60 fullerenes and single-walled carbon nanotubes

Grouping and Read-Across Approaches for Risk Assessment of Nanomaterials

Three human cell types respond to multi-walled carbon nanotubes and titanium dioxide nanobelts with cell-specific transcriptomic and proteomic expression patterns

Understanding the nanoparticle-protein corona using methods to quantify exchange rates and affinities of proteins for nanoparticles

Nanoparticle size and surface properties determine the protein corona with possible implications for biological impacts

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203-213

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scholarly article

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10.1093/MUTAGE/GEW052

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1

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32

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Jean-Luc Ravanat

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2017-01-01T00:00:00Z

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27794034

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