Plants, oxidative burst

Bindschedler L.V. Dewdney J. Blee K. A. et al. Peroxidases -dependent apoplastic oxidative burst in Arabidopsis required for pathogen resistance // Plant J. 2006. V. 47. P. 851-863. 

Keywords. Plant cell suspensions. Hydrodynamic shear. Energy dissipation. Aeration, Oxidative burst... 

Table 4. Studies showing evidence of an oxidative burst in plant systems, stimulated by soiu-ces other than a pathogen or elicitor ...

Fig. 11. Hypothetical model for the oxidative burst in plant cells, in response to mechanical stress. Based on [174] and [172]...

Au(CN)2] inhibits the oxidative burst of polymorphonuclear leukocytes and the proliferation of lymphocytes in vitro (both types of cells actively participate in the development and maintenance of inflammatory processes of rheumatoid disease) [71]. It is also far more toxic than gold(I) thiolates to bacteria, plants and animals. 

Botrytis cinerea is responsible for gray mold disease in more than 200 host plants. This necrotrophic fungus displays the capacity to kill host cells through the production of toxins and reactive oxygen species and the induction of a plant-produced oxidative burst. Thanks to an arsenal of degrading enzymes, B. cinerea is then able to feed on various plant tissues (Choquer and others 2007). 

Boettcher AA, Targett NM (1993) Role of polyphenolic molecular-size in reduction of assimilation efficiency in Xiphister mucosus. Ecology 74 891-903 Bolwell GP, Butt VS, Davies DR, Zimmerlin A (1995) The origin of the oxidative burst in plants. Free Radical Res 23 517-532... 

Lamb C, Dixon RA (1997) The oxidative burst in plant disease resistance. Annu Rev Plant Phys 48 251-275... 

Wojtaszek P (1997) Oxidative burst an early plant response to pathogen infection. Biochem J 322 681-692... 

Kocsis M, Hanson A (2000) Biochemical evidence for two novel enzymes in the biosynthesis of 3-dimethylsulfoniopropionate in Spartina altemiflora. Plant Physiol 123 1153-1161 Kocsis M, Nolte K, Rhoades D, Shen T-L, Gage D, Hanson A (1998) Dimethylsulfoniopropionate biosynthesis in Spartina altemiflora. Plant Physiol 117 273-281 Kowalewsky S, Dambach M, Bjorn M, Dehnhardt G (2006) High olfactory sensitivity for dimethyl sulphide in harbour seals. Biol Lett 2 106-109 Lamb C, Dixon R (1997) The oxidative burst in plant disease resistance. Annu Rev Plant Physiol Mol Biol 48 251-275... 

Thus, together these studies suggest that the oxidative burst machinery has evolved before the crown diversification of eukaryotes (Baldauf 2003) to provide marine algal lineages with natural and induced innate immunity mechanisms. These play a role similar to the HR in terrestrial plants infected by incompatible pathogens and they share important common traits with the innate immunity response of mammalian phagocytes. 

Bitton R, Ben-Yehuda M, Davidovich M, Balazs Y, Potin P, Delage L, Colin C, Bianco-Peled H (2006) Structure of algal-born phenolic polymeric adhesives. Macromol Biosci 6 737-746 Bolwell GP, Davies RD, Gerrish C, Auh C-K, Murphy TM (1998) Comparative biochemistry of the oxidative burst produced by rose and French bean cells reveals two distinct mechanisms. Plant Physiol 116 1379-1385... 

Collen J, Davison IR (1999c) Stress tolerance and reactive oxygen metabolism in the intertidal red seaweeds Mastocarpus stellatus and Chondrus crispus. Plant Cell Environ 22 1143-1151 Collen J, Pedersen M, Bornman CH (1994) A stress-induced oxidative burst in Eucheuma platycladum (Rhodophyta). Physiol Plant 92 417 122 Collen J, Roeder V, Rousvoal S, Collin O, Kloareg B, Boyen C (2006a) An expressed sequence tag analysis of thallus and regenerating protoplasts of Chondrus crispus (Gigartinales, Rhodophyceae). J Phycol 42 104-112... 

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