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The rate coefficient of repair of photosystem II after photoinactivation (2003)

He, Jie ; Chow, Wah Soon

Oxford, UK : Munksgaard International Publishers

Physiologia plantarum 118 (2003), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: During photosynthesis, photoinactivation and repair of photosystem II (PSII) occur simultaneously, resulting in a net loss of functional PSII under a given irradiance. This study determines the rate coefficients for the partial processes, allowing the calculation of the partial rates at any concentration of functional/non-functional PSII. The rate coefficient of photoinactivation was obtained from the onset of photoinactivation of PSII in leaf segments of Capsicum annuum L. in the absence of repair, and was in turn used to obtain the rate coefficient (kr) of repair of PSII when repair was occurring. The value of kr was found to be near maximum at an irradiance as low as 29 µmol photons m−2 s−1 and peaked at or somewhat above the growth irradiance; however, it declined on further increasing the irradiance, possibly due to oxidative stress. The value of kr was considerably decreased by elevating the CO2 to about 1%, particularly at low irradiance, probably due to acidification of the stroma to a pH outside the range that is optimal for protein synthesis. The method of determining kr is convenient to apply, not relying on radiolabelling and pulse-chase experiments.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1034/j.1399-3054.2003.00107.x

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Processes contributing to photoprotection of grapevine leaves illuminated at low temperature (2004)

Hendrickson, Luke ; Förster, Britta ; Furbank, Robert T. ; [et al.]

Oxford, UK; Malden, USA : Munksgaard International Publishers

Physiologia plantarum 121 (2004), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Photoinactivation of photosystem II (PSII) and energy dissipation at low leaf temperatures were investigated in leaves of glasshouse-grown grapevine (Vitis vinifera L. cv. Riesling). At low temperatures (〈 15°C), photosynthetic rates of CO2 assimilation were reduced. However, despite a significant increase in the amount of light excessive to that required by photosynthesis, grapevine leaves maintained high intrinsic quantum efficiencies of PSII (Fv/Fm) and were highly resistant to photoinactivation compared to other species. Non-photochemical energy dissipation involving xanthophylls and fast D1 repair were the main protective processes reducing the ‘gross’ rate of photoinactivation and the ‘net’ rate of photoinactivation, respectively. We developed an improved method of energy dissipation analysis that revealed up to 75% of absorbed light is dissipated thermally via pH- and xanthophyll-mediated non-photochemical quenching at low temperatures (5–15°C) and moderate (800 µmol quanta m−2 s−1) light. Up to 20% of the energy flux contributing to electron transport was dissipated via photorespiration when taking into account temperature-dependent mesophyll conductance; however, this flux used in photorespiration was only a relatively small amount of the total absorbed light energy. Photoreduction of O2 at photosystem I (PSI) and subsequent superoxide detoxification (water-water cycle) was more sensitive to inhibition by low temperature than photorespiration. Therefore the water-water cycle represents a negligibly small energy sink below 15°C, irrespective of mesophyll conductance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.0031-9317.2004.0324.x

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