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Reactive oxygen species examples

A molecule that has a prooxidant effect can be dehned as a molecule that can react with reactive oxygen species (ROS) to form compounds more deleterious to biomolecules than the ROS alone. Possible prooxidant activity of carotenoids was for the first time mentioned by Burton and Ingold. Since then, many other examples of loss of antioxidant activity or prooxidant activity have been illustrated and reviewed in the literature. Increasing oxygen partial pressure (PO2) and/or carotenoid concentration can convert a carotenoid from antioxidant to prooxidant. Thus, depending on the environment, the same molecule can exert either antioxidant or prooxidant activity. ... [Pg.180]

Although reduction of chromate Cr to Cr has been observed in a number of bacteria, these are not necessarily associated with chromate resistance. For example, reduction of chromate has been observed with cytochrome Cj in Desulfovibrio vulgaris (Lovley and Phillips 1994), soluble chromate reductase has been purified from Pseudomonas putida (Park et al. 2000), and a membrane-bound reductase has been purified from Enterobacter cloacae (Wang et al. 1990). The flavoprotein reductases from Pseudomonas putida (ChrR) and Escherichia coli (YieF) have been purified and can reduce Cr(VI) to Cr(III) (Ackerley et al. 2004). Whereas ChrR generated a semi-quinone and reactive oxygen species, YieR yielded no semiquinone, and is apparently an obligate four-electron reductant. It could therefore present a suitable enzyme for bioremediation. [Pg.172]

In this section we will illustrate the application of ESR methods in order to detect and identify polymer fragments, reactive intermediates, as well as reactive oxygen species that attack the polymer structure. Some examples are selected from studies of polymer degradation performed at the University of Detroit Mercy laboratory. [Pg.513]

An interesting example of DNA damage by superoxide and hydrogen peroxide produced by microbes has been recently described by Huycke et al. [49]. These authors have showed that reactive oxygen species produced by Enterococcus faecalis, a microorganism of the human intestinal tract, oxidized DNA in Chinese hamster ovary and intestinal epithelial cells. [Pg.838]

Xanthine oxidase is not the only source of reactive species in ischemia-reoxygenation injury. Another source of oxygen radicals is NADPH oxidase. For example, it has been shown that endothelial NADPH oxidase produced reactive oxygen species in lungs exposed to ischemia [13]. (The role of NADPH oxidase as a producer of oxygen radicals in tissue is considered below.)... [Pg.917]

Oxidative stress induced by reactive oxygen species is described for many other brain disorders of inflammatory and noninflammatory nature. Some examples of such disorders are given below. Quick and Dugan [326] demonstrated superoxide-mediated damage of neurons... [Pg.937]

FIGURE 35-6 Examples of apoptotic and antiapoptotic mechanisms that act on or within different subcellular compartments. CBP, Ca2+ binding protein CREB, cyclic AMP response element binding protein HSP, heat shock protein IP3, inositol 1,4,5-trisphosphate ROS, reactive oxygen species. [Pg.612]

The commercial availability of certain toxin standards has allowed researchers to examine the physiological mechanisms of allelopathy by cyanobacteria. The best known examples are from studies on microcystins, which affect plants and aquatic algae by interfering with protein phosphatases in a manner similar to their effect on vertebrate enzymes (Babica et al. 2006). However, there is evidence that microcystins can also promote the formation of reactive oxygen species (ROS) in photoautotrophs, which can cause extensive damage to cellular membranes and enzymes (Babica et al. 2006 Leflaive and Ten-Hage 2007). [Pg.113]


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Reactive oxygen

Reactive oxygen reactivity

Reactive oxygen species

Reactive species

Reactive species reactivity

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