Role of mitochondrial stress enzymes under salt stress in A.thaliana: Effect of salt stress on physiological and molecular chara,Used

Role of mitochondrial stress enzymes under salt stress in A.thaliana: Effect of salt stress on physiological and molecular chara,Used

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SKU: DADAX383834586X
UPC: 9783838345864
Brand: LAP Lambert Academic Publishing
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Mitochondria are the site of oxidative phosphorylation in all eukaryotic cells and are the main centres of ATP production. Plant mitochondria have a highly branched ETC that provides flexibility for oxidation of cytosolic and matrix NAD(P)H. In addition to the universal cytochrome pathway found in many organisms, plants have matrixfacing and cytosolfacing nonphosphorylating NAD(P)H dehydrogenases which bypass Complex I and the matrixfacing Alternative oxidase (AOX) which bypasses Complexes III and IV. The alternative pathways are nonproton pumping and allow NAD(P)H oxidation with varying levels of energy conservation and hence this alternative pathway is of particular interest. Recent studies have shown that the alternative respiratory pathways are upregulated during physiological stresses and are suggested to represent adaptive features of plants. The aims of project included creation of transgenic A.thaliana plants with increased levels, by overexpression, and decreased levels, by RNAi, of the cytosol facing nonphosphorylating NAD(P)H dehydrogenase Atndb2 and analysis of the effect of salinity stress on transgenic A.thaliana in which AOX has been knocked out.

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