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Digitale Medien

Mechanistic differences in photoinhibition of sun and shade plants (1992)

Öquist, Gunnar ; Anderson, Jan M. ; McCaffery, Stephanie ; [weitere]

Springer

Planta 188 (1992), S. 422-431

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ISSN: 1432-2048

Schlagwort(e): Light acclimation ; Photosynthesis ; Photoinhibition ; Photosystem II repair cycle ; Pisum ; Tradescantia

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Leaf discs of the shade plant Tradescantia albiflora Kunth grown at 50 μmol · m−2 · s−1, and the facultative sun/shade plant Pisum sativum L. grown at 50 or 300 μmol · m−2, s−1, were photoinhibited for 4 h in 1700 μmol photons m−2 · s−1 at 22° C. The effects of photoinhibition on the following parameters were studied: i) photosystem II (PSII) function; ii) amount of D1 protein in the PSII reaction centre; iii) dependence of photoinhibition and its recovery on chloroplast-encoded protein synthesis; and, iv) the sensitivity of photosynthesis to photoinhibition in the presence or absence of the carotenoid zeaxanthin. We show that: i) despite different sensitivities to photoinhibition, photoinhibition in all three plants occurred at the reaction centre of PSII; ii) there was no correlation between the extent of photoinhibition and the degradation of the D1 protein; iii) the susceptibility to photoinhibition by blockage of chloroplas-tencoded protein synthesis was much less in shade plants than in plants acclimated to higher light; and iv) inhibition of zeaxanthin formation increased the sensitivity to photoinhibition in pea, but not in the shade plant Tradescantia. We suggest that there are mechanistic differences in photoinhibition of sun and shade plants. In sun plants, an active repair cycle of PSII replaces photoinhibited reaction centres with photochemically active ones, thereby conferring partial protection against photoinhibition. However, in shade plants, this repair cycle is less important for protection against photoinhibition; instead, photoinhibited PSII reaction centres may confer, as they accumulate, increased protection of the remaining connected, functional PSII centres by controlled, nonphotochemical dissipation of excess excitation energy.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00192810

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Digitale Medien

Light inactivation of functional photosystem II in leaves of peas grown in moderate light depends on photon exposure (1995)

Park, Youn-Il ; Chow, Wah Soon ; Anderson, Jan M.

Springer

Planta 196 (1995), S. 401-411

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ISSN: 1432-2048

Schlagwort(e): Chlorophyll fluorescence ; D1 protein ; Photoinhibition ; Photoprotection ; Photosystem II heterogeneity ; Pisum

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract To determine the dependence of in vivo photosystem (PS) II function on photon exposure and to assign the relative importance of some photoprotective strategies of PSII against excess light, the maximal photochemical efficiency of PSII (Fv/Fm) and the content of functional PSII complexes (measured by repetitive flash yield of oxygen evolution) were determined in leaves of pea (Pisum satlvum L.) grown in moderate light. The modulation of PSII functionality in vivo was induced by varying either the duration (from 0 to 3 h) of light treatment (fixed at 1200 or 1800 μmol photons · m-2 · s-1) or irradiance (from 0 to 3000 μmol photons · m-2 · s-1) at a fixed duration (1 h) after infiltration of leaves with water (control), lincomycin (an inhibitor of chloroplast-encoded protein synthesis), nigericin (an uncoupler), or dithiothreitol (an inhibitor of the xanthophyll cycle) through the cut petioles of leaves of 22 to 24-day-old plants. We observed a reciprocity of irradiance and duration of illumination for PSII function, demonstrating that inactivation of functional PSII depends on the total number of photons absorbed, not on the rate of photon absorption. The Fv/Fm ratios from photoinhibitory light-treated leaves, with or without inhibitors, declined pseudo-linearly with photon exposure. The number of functional PSII complexes declined multiphasically with increasing photon exposure, in the following decreasing order of inhibitor effect: lincomycin 〉 nigericin 〉 DTT, indicating the central role of D1 protein turnover. While functional PSII and Fv/Fm ratio showed a linear relationship under high photon exposure conditions, in inhibitor-treated leaves the Fv/Fm ratio failed to reveal the loss of up to 25% of the total functional PSII under low photon exposure. The loss of this 25% of less-stable functional PSII was accompanied by a decrease of excitation-energy trapping capacity at the reaction centre of PSII (revealed by the fluorescence parameter, 1/Fo-1/Fm, where Fo and Fm stand for chlorophyll fluorescence when PSII reaction centres are open and closed, respectively), but not by a loss of excitation energy at the antenna (revealed by the fluorescence parameter, 1/Fm). We conclude that (i) PSII is an intrinsic photon counter under photoinhibitory conditions, (ii) PSII functionality is mainly regulated by D1 protein turnover, and to a lesser extent, by events mediated via the transthylakoid pH gradient, and (iii) peas exhibit PSII heterogeneity in terms of functional stability during photon exposure.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00203636

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Digitale Medien

Photoinactivation of functional photosystem II and D1-protein synthesis in vivo are independent of the modulation of the photosynthetic apparatus by growth irradiance (1996)

Park, Youn-Il ; Anderson, Jan M. ; Chow, Wah Soon

Springer

Planta 198 (1996), S. 300-309

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ISSN: 1432-2048

Schlagwort(e): D1-protein ; Photoinhibition ; Photon exposure ; Photosystem II heterogeneity ; Light acclimation ; Pisum

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract To investigate whether the in-vivo photoinhibition of photosystem II (PSII) function by excess light is an intrinsic property of PSII, the maximal photochemical efficiency of PSII (Fv/Fm) and the content of functional PSII (measured by repetitive flash yield of oxygen evolution) were determined in leaves of pea (Pisum sativum L.), grown in 50 (low light), 250 (medium light), and 650 (high light) μmol photons·m−2·s−1. The modulation of PSII functionality in vivo was induced in 1.1% CO2 by varying either (i) the duration (0–2 h) of light treatment (fixed at 1800 μmol photons· m−2·s−1) or (ii) irradiance (0–3200 μmol photons·m−2·s−1) at a fixed duration (1 h), after infiltration of leaves with water (control), lincomycin (an inhibitor of chloroplast-encoded protein synthesis), or a combination of lincomycin with nigericin (an uncoupler), through the cut petioles of leaves of 22-to 24-d-old plants. The reciprocity law of irradiance and duration of illumination for PSII function in vivo (Park et al. 1995, Planta 196: 401–411) holds in all differently light-grown peas, demonstrating that inactivation of functional PSII depends on photon exposure (mol photons·m−2), not on the rate of photon absorption. In vivo, PSII acts as an intrinsic “photon counter” and at higher photon exposures is inactivated following absorption of about 3 × 107 photons. There is a functional heterogeneity of PSII in vivo with 25% less-stable PSIIs that are inactivated at low photon exposure, compared to 75% more-stable PSIIs regardless of modulation of the photosynthetic apparatus. We suggest that the less-stable PSIIs represent monomers located in the nonappressed granal margins, while the more-stable PSIIs are dimers located in the appressed grana membrane cores. The capacity for D1-protein synthesis was the same in all the light-acclimated peas and saturated at low light, indicating that D1-protein repair is also an intrinsic property of PSII. This accounts for the low intensity required for recovery of photoinhibition in sun and shade plants which is independent of light-harvesting antennae size or PSII/PSI stoichiometries.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00206257

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