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Oxygen processing in photosynthesis


, : Oxygen processing in photosynthesis. Biochemical Society Transactions 24(2): 427-433


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Accession: 002914193

PMID: 8736777

DOI: 10.1042/bst0240427

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Related references

Foyer, C.H.; Noctor, G., 2000: Tansley Review No. 112: Oxygen processing in photosynthesis: Regulation and signalling. The gradual but huge increase in atmospheric O2 concentration that followed the evolution of oxygenic photosynthesis is one consequence that marks this event as one of the most significant in the earth's history. The high redox potential of t...

Glud R.N.; Ramsing N.B.; Revsbech N.P., 1992: Photosynthesis and photosynthesis coupled respiration in natural biofilms quantified with oxygen microsensors. Photosynthesis and respiration were analyzed in natural biofilms by use of O2 microsensors. Depth profiles of gross photosynthesis were obtained from the rate of decrease in O2 concentration during the first few seconds following extinction of lig...

Akita, S.; Miyasaka, A., 1969: Studies on the differences of photosynthesis among species. 2. Effect of oxygen-free air on photosynthesis. Photosynthesis in (a) Dallis grass and maize which had chlorenchymatous bundle-sheaths and in (b) oats, wheat, rice and Italian ryegrass which did not, was studied in O2-free air.

K.S.B.; Edwards G.E., 1977: Kinetic characteristics of photosynthesis and oxygen inhibition of photosynthesis in triticum aestivum as affected by temperature. Plant Physiology (Rockville) 59(6 SUPPL): 43

Forti, G.; Gerola, P., 1977: Inhibition of photosynthesis by azide and cyanide and the role of oxygen in photosynthesis. Cyanide and azide inhibit photosynthesis and catalase activity of isolated, intact spinach (Spinacia oleracea) chloroplasts. When chloroplasts are illuminated in the presence of CN(-) or N(3) (-), accumulation of H(2)O(2) is observed, parallel to...

Ku, S.B.; Edwards, G.E.; Tanner, C.B., 1977: Effects of Light, Carbon Dioxide, and Temperature on Photosynthesis, Oxygen Inhibition of Photosynthesis, and Transpiration in Solanum tuberosum. Individual leaves of potato (Solanum tuberosum L. W729R), a C(3) plant, were subjected to various irradiances (400-700 nm), CO(2) levels, and temperatures in a controlled-environment chamber. As irradiance increased, stomatal and mesophyll resista...

Saka, H.; Chisaka, H., 1982: On the photosynthesis of higher plants measured by the oxygen electrode. 1. Changes in photosynthesis during the growth and aging of plant leaf discs. Rate of photosynthesis measured with the O2 electrode in discs of leaves of (a) rice cv. Koshihikari, (b) Echinochloa oryzicola, (c) Chenopodium album, (d) soyabean cv. Harosoy and (e) Coix lacryma-jobi showed that in (a) photosynthetic rate incre...

Akita, S.; Tanaka, I., 1979: Mechanism of differences in photosynthesis among species 5. stomatal response in high oxygen concentration and its effect on the rate of apparent photosynthesis. The clear difference between species was observed in the stomatal response to high O2 concentration in strong light intensity in the presence of CO2. The stomata of rice [Oryza perennis] plant was not affected with O2 concentration between 5-80% i...

Brovchenko M.I.; Slobodskaya G.A.; Chmora S.N.; Lipatova T.F., 1976: Effects of carbon di oxide and oxygen on photosynthesis and photosynthesis linked escape of assimilates into the void space of the leaf in sugar beet. Soviet Plant Physiology 23(6): (1977)

Akita, S.; Tanaka, I., 1979: Studies on the mechanism of differences in photosynthesis among species. 5. Stomatal response in high oxygen concentration and its effect on the rate of apparent photosynthesis. Stomatal aperture in rice was not affected by conc. of 5-80% O2 irrespective of CO2 conc., but maize stomata closed at >40% O2 at high light intensity at either 0.03 or 0.22% CO2 although O2 conc. in the absence of CO2 had little effect. In ric...