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Thesis

English

ID: <

10670/1.eue8k2

>

Where these data come from
Elucidation of molecular mechanisms involved diazotrophic cyanobacteria Anabaena sp. PCC 7120 in response to oxidative stress and combined nitrogen starvation

Abstract

Oxygenic photosynthesis may generate Reactive forms of Oxygéne (ROS). These reactive oxygen species can damage all the macromolecules of the cell, inducing oxidative stress. Any disruption of cellular metabolism can lead to oxidant damage. Cyanobacteria were the first organisms producing oxygen on Earth, they therefore had to develop very early during evolution the mechanisms of perception and defence to cope with this tstress. We are interested in studying the mechanisms that allow the diazotrophic filamentous cyanobacterium Anabaena PCC 7120 to adapt to various conditions of stress and stravations: oxidative stress, iron and combined nitrogen starvations. Anabaena PCC 7120 is a simple model for the study of cell differentiation. In response to combined nitrogen stravation it can differentiate heterocysts, cell specialized in molecular nitrogen fixation. We studied the global transcriptomic response of this bacterium to both oxidative stress and iron deficiency and we establish the crosstalk between these two stresses. We were able to identify the global transcriptional regulator involved in the perception and in the signaling of a peroxide stress. Its mechanism of action was elucidated. We also studied a Ser / Thr kinase that plays an important role both in the response to oxidative stress and combined nitrogen stravation. Our study showed that this kinase may be the molecular link between these two conditions, as a potential target of this kinase appears to be the HetR protein which is the key regulator of cellular differentiation process.

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