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Exploring an apparent paradox in metal stress - what are the AtATR-related long term consequences of Al toxicity?

$290,572FY2011BIONSF

University Of California-Riverside, Riverside CA

Investigators

Abstract

Aluminum (Al) toxicity is a global agricultural problem that severely limits root growth and crop productivity in regions with acidic soils, which represent upwards of 50% of the world's arable land. Significant progress has been made toward understanding how plants cope with Al in their environment, yet our knowledge of how Al toxicity leads to root growth inhibition is lacking. Using a genetic approach with the plant model system Arabidopsis, it has been determined that Al-dependent root growth inhibition is largely an active process that occurs in response to detection of DNA damage. Mutational loss of factors required for detection of this damage actually leads to increased root growth, which suggests that Al functions as a mild agent of DNA damage in vivo. Further work is aimed at determining the nature of the Al-dependent DNA damage, which is speculated to lead to heritable changes since Al is capable of causing DNA crosslinks in vivo. Techniques to be used include monitoring DNA integrity over several generations following exposure to Al along with identification and analysis of additional biochemical components that are required for detection and response to Al toxicity. Through these analyses, it will be possible to gain a better understanding of how Al causes root growth inhibition while at the same time determine the in vivo effect of Al on DNA integrity, the latter of which has been intensively debated with regard to impacts on both plants and animals. Through this work, the PI will be able to continue an ongoing commitment to promotion of creativity in the local school district along with providing intensive mentoring opportunities in a laboratory environment to students from underrepresented groups.

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