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Extranuclear protection of chromosomal DNA from oxidative stress.


ABSTRACT: Eukaryotic organisms evolved under aerobic conditions subjecting nuclear DNA to damage provoked by reactive oxygen species (ROS). Although ROS are thought to be a major cause of DNA damage, little is known about the molecular mechanisms protecting nuclear DNA from oxidative stress. Here we show that protection of nuclear DNA in plants requires a coordinated function of ROS-scavenging pathways residing in the cytosol and peroxisomes, demonstrating that nuclear ROS scavengers such as peroxiredoxin and glutathione are insufficient to safeguard DNA integrity. Both catalase (CAT2) and cytosolic ascorbate peroxidase (APX1) play a key role in protecting the plant genome against photorespiratory-dependent H(2)O(2)-induced DNA damage. In apx1/cat2 double-mutant plants, a DNA damage response is activated, suppressing growth via a WEE1 kinase-dependent cell-cycle checkpoint. This response is correlated with enhanced tolerance to oxidative stress, DNA stress-causing agents, and inhibited programmed cell death.

SUBMITTER: Vanderauwera S 

PROVIDER: S-EPMC3029710 | biostudies-literature | 2011 Jan

REPOSITORIES: biostudies-literature

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Extranuclear protection of chromosomal DNA from oxidative stress.

Vanderauwera Sandy S   Suzuki Nobuhiro N   Miller Gad G   van de Cotte Brigitte B   Morsa Stijn S   Ravanat Jean-Luc JL   Hegie Alicia A   Triantaphylidès Christian C   Shulaev Vladimir V   Van Montagu Marc C E MC   Van Breusegem Frank F   Mittler Ron R  

Proceedings of the National Academy of Sciences of the United States of America 20110110 4


Eukaryotic organisms evolved under aerobic conditions subjecting nuclear DNA to damage provoked by reactive oxygen species (ROS). Although ROS are thought to be a major cause of DNA damage, little is known about the molecular mechanisms protecting nuclear DNA from oxidative stress. Here we show that protection of nuclear DNA in plants requires a coordinated function of ROS-scavenging pathways residing in the cytosol and peroxisomes, demonstrating that nuclear ROS scavengers such as peroxiredoxin  ...[more]

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