Photooxidative Damage in Photosynthetic Activities of Chromatium vinosum

Abstract: The capacity of photosynthetic CO2 fiXation in the anaerobic purplesulfur bacterium, COmadum vinosum is markedly impaired by strong ilumination (9 x 10i lux) in the presence of 100% 0s. In the absence of HCO0, decline in activity occurred gradually, with about 40% of the initial activity reminng after a 1-hour incubation. The addition of 50 milimolar HCOj-to the incubation medium resulted in a measurable delay (about 30 minutes) of the inactivation process. Ribulose-1,5-bisphosphate carboxylase activty and lig… Show more

“…While high metabolite turnover rates would be expected to result in a low glycine pool concentration [17] and tittle glycine efflux under natural growth conditions, consideration of certain aspects of CO 2 fixation by C. vinosum provides a rationale for the possible occurrence of glycine efflux in C. vinosum. CO2-fixation in C. vinosurn occurs via the Calvin cycle and involves ribulosebisphosphate carboxylase which, in the presence of oxygen, exhibits oxygenase activity [18] producing glycolate which is eventually converted to glycine [19,20]. Thus, the facultative chemotroph C. vinosum [21,22] may be expected to accumulate glycine during autotrophic growth in the dark under micro-to semiaerobic conditions.…”

Inhibition of phototrophically growing Chromatium vinosum D by glycine

“…While high metabolite turnover rates would be expected to result in a low glycine pool concentration [17] and tittle glycine efflux under natural growth conditions, consideration of certain aspects of CO 2 fixation by C. vinosum provides a rationale for the possible occurrence of glycine efflux in C. vinosum. CO2-fixation in C. vinosurn occurs via the Calvin cycle and involves ribulosebisphosphate carboxylase which, in the presence of oxygen, exhibits oxygenase activity [18] producing glycolate which is eventually converted to glycine [19,20]. Thus, the facultative chemotroph C. vinosum [21,22] may be expected to accumulate glycine during autotrophic growth in the dark under micro-to semiaerobic conditions.…”

Inhibition of phototrophically growing Chromatium vinosum D by glycine

“…Thus, it would be expected that photosynthetic rates nearer to the optimum temperatures for this thermophile would be considerably above those measured in this study, probably by a factor of about 2–5. The other limitation of this study was that Thermochromatium is much more sensitive to oxygen and hence harder to grow than rhodopseudomonads. Thermochromatium would also be expected to be more adversely affected by oxygen when filtered onto glass fiber disks than Afifella and Rhodopseudomonas , hence the lower maximum yields shown in Fig.…”

“…Provision of an organic carbon source (acetate) because it is known that Chromatium has a limited capacity for aerobic metabolism of acetate did improve the yield ( Y ) but did not improve photosynthesis when Fe 2+ was provided as an electron source. Perhaps different results would have been found if it was possible to perform the PAM measurements under strict anoxic conditions because CO 2 fixation in Chromatium is known to be is strongly O 2 sensitive .…”

Measurement of Photosynthesis Using PAM Technology in a Purple Sulfur Bacterium Thermochromatium tepidum (Chromatiaceae)

“…Direct effects of light on the activation of the enzyme have also been reported [2,3]. In contrast, visible light has also been implicated in a photoinactivation of RuBP carboxylase in cyanobacterial cells [4,5] and in extracts from purple sulfur bacteria, cyanobacteria, green algae and higher plants in the presence of a sensitizer [6][7][8][9]. The photoinactivation of RuBP carboxylase may occur during the frequently observed photoinhibiti0n of phytoplankton photosynthesis in natural waters [10].…”

Photoinactivation of Microcystis aeruginosa ribulose 1,5-bisphosphate carboxylase: Effects of endogenous and added sensitizers and the role of oxygen