S. M. Trutko scite author profile

The terminal oxidases of the respiratory chain of seven strains of gram-negative bacteria were shown to be involved in the reduction of tellurite. The rate of tellurite reduction correlated with the intensity of respiration. The inhibitors of terminal oxidases, carbon monoxide and cyanide, inhibited the reduction of tellurite. In Pseudomonas aeruginosa PAO ML4262 and P. aeruginosa PAO ML4262 (pBS 10), the respiratory chain was found to contain three types of cytochrome c, one of which (the carbon monoxide-binding cytochrome c) was involved in the reduction of tellurite. Agrobacterium tumefaciens VKM B-1219, P. aeruginosa IBPM B-13, and Escherichia coli G0-102bd++ cells contained oxidases aa3, bb3, and bd, respectively. The respiratory chain of other strains contained two oxidases: E. coli DH5alpha of bb3- and bd-type, and Erwinia carotovora VKM B-567 of bo3- and bd-type. All the strains under study reduced tellurite with the formation of tellurium crystallites. Depending on the position of the active center of terminal oxidases in the plasma membrane, the crystallites appeared either in the periplasmic space [P. aeruginosa PAO ML4262 and P. aeruginosa PAO ML4262 (pBS10)], or on the outer surface of the membrane (A. tumefaciens VKM B-1219 and P. aeruginosa IBPM B-13), its inner surface (E. coli G0-102bd++), or on both surfaces (E. coli DHaalpha and E. carotovora VKM B-567).

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Effect of oxidative stress on the biosynthesis of 2-C-methyl- d -erythritol-2,4-cyclopyrophosphate and isoprenoids by several bacterial strains

Ostrovsky

Diomina

Lysak

et al. 1998

Archives of Microbiology

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In this study, the gram-negative bacteria Xanthomonas campestris, Xanthomonas maltophilia, and Pseudomonas putida, facultative parasites of plants and animals, were shown to accumulate 2-C-methyl-d-erythritol-2,4-cyclopyrophosphate (MEC) in response to benzyl-viologen-induced oxidative stress. Corynebacterium ammoniagenes mutants capable of accumulating MEC in the absence of an exogenous oxidative stress inducer were obtained. Isoprenoid synthesis and MEC synthesis in these and other bacteria were shown to be alternative processes, while biosynthesis of brominated polyene xanthomonadin (an antioxidant pigment of X. campestris) increased concomitantly with the accumulation of MEC.

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Isoprenoid Pigments in Representatives of the Family Microbacteriaceae

et al. 2005

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Distribution of cyanide-resistant respiration among yeasts and bacteria and its relation to oversynthesis of metabolites

et al. 1983

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On the absence of correlation between cyanide-resistant respiration and cytochrome d content in bacteria

Akimenko

Trutko

1984

Arch. Microbiol.

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The regularity of appearance of cyanide-resistant respiration and cytochrome d in various bacteria as well as the relationship between the degree of resistance of respiration to cyanide and cytochrome d content was studied. Bacteria able to synthesize cyanide-resistant respiration were shown to appear during transition of culture to the stationary phase of growth caused by the exhaustion of carbon source. No regulatory of appearance of cytochrome d was observed. There is no correlation between the degree of resistance to cyanide and cytochrome d content. It was concluded that the cyanide-resistant respiration of bacteria and eukaryotic microorganisms may be associated with the functioning of a non-cytochrome nature oxidase.

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S. M. Trutko

Involvement of the respiratory chain of gram-negative bacteria in the reduction of tellurite

Effect of oxidative stress on the biosynthesis of 2-C-methyl- d -erythritol-2,4-cyclopyrophosphate and isoprenoids by several bacterial strains

Isoprenoid Pigments in Representatives of the Family Microbacteriaceae

Distribution of cyanide-resistant respiration among yeasts and bacteria and its relation to oversynthesis of metabolites

On the absence of correlation between cyanide-resistant respiration and cytochrome d content in bacteria

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