Titlebook: Nitric Oxide in Plant Growth, Development and Stress Physiology; Lorenzo Lamattina,Joseph C. Polacco Book 2007 Springer-Verlag Berlin Heid

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Nitric Oxide-Mediated Signaling Functions During the Plant Hypersensitive Response,cribe the evidence for the involvement of Ca., cyclic GMP (cGMP), cyclic ADP-ribose (cADPR), and mitogen-activated protein kinases (MAPK) in NO-mediated signal cascades, the role of NO in posttransational protein modifications, and its participation in modulating gene expression.

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,Nitric Oxide – A?Product of Plant Nitrogen Metabolism,antand may not operate under nitrogen deficiency. However, the pathways are differently regulated in relationto oxygen availability and, therefore, have a?different importance for underground organs like roots,than for above-ground organs like the shoot.

Pelvic-Floor

,Higher Plant Mitochondria as a?Source for NO,nthesis of NO and .-citrullinefrom .-arginine using NAD(P)H. The other one is the respiratory electrontransport chain, with the terminal oxidases, CytOx and AOX, which both reduce nitrite to NO. While oxygenis obligatory for the former reaction, the latter activity appears very low in air but high u

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Polydipsia

NO-Based Signaling in Plants,currently being discovered at an unprecedented pace, and insight into NO-derived mechanisms has mainly been gained from research on signal transduction. Numerous studies have firmly placed NO as one component of the signal perception–transduction network that connects plant responses to primary sign

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,S-Nitrosylation in Plants – Spectrum and Selectivity, NO regulates different events in plants. Analysesof NO-dependent processes in animal systems have demonstrated protein S-nitrosylation – the covalentattachment of NO to the sulfhydryl group of cysteine residues – to be one of the dominant regulationmechanisms for many animal proteins. This reversib

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Nitric Oxide Functions as Intermediate in Auxin, Abscisic Acid, and Lipid Signaling Pathways,iverse growth, developmental, and physiological processes in plants. It has been shown that NO takes part in different hormone signaling pathways and also acts in concert with well-characterized second messengers. In this chapter, we discuss findings that contribute to the understanding of the role/