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Regulation of malic-acid metabolism in Crassulacean-acid-metabolism plants in the dark and light: In-vivo evidence from 13C-labeling patterns after 13CO2 fixation (1988)

Osmond, C. B. ; Holtum, J. A. M. ; O'Leary, M. H. ; [et al.]

Springer

Planta 175 (1988), S. 184-192

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ISSN: 1432-2048

Keywords: Carbon dioxide fixation (dark) ; Crassulacean acid metabolism ; Fumarase ; Malic acid ; Phosphoenolpyruvate carboxylase ; Ribulose-1,5-bisphosphate carboxylase

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The labeling patterns in malic acid from dark 13CO2 fixation in seven species of succulent plants with Crassulacean acid metabolism were analysed by gas chromatography-mass spectrometry and 13C-nuclear magnetic resonance spectrometry. Only singly labeled malic-acid molecules were detected and on the average, after 12–14 h dark 13CO2 fixation the ratio of [4-13C] to [1-13C] label was 2:1. However the 4-C carboxyl contained from 72 to 50% of the label depending on species and temperature. The 13C enrichment of malate and fumarate was similar. These data confirm those of W. Cockburn and A. McAuley (1975, Plant Physiol. 55, 87–89) and indicate fumarase randomization is responsible for movement of label to 1-C malic acid following carboxylation of phosphoenolpyruvate. The extent of randomization may depend on time and on the balance of malic-acid fluxes between mitochondria and vacuoles. The ratio of labeling in 4-C to 1-C of malic acid which accumulated following 13CO2 fixation in the dark did not change during deacidification in the light and no doubly-labeled molecules of malic acid were detected. These results indicate that further fumarase randomization does not occur in the light, and futile cycling of decarboxylation products of [13C] malic acid (13CO2 or [1-13C]pyruvate) through phosphoenolpyruvate carboxylase does not occur, presumably because malic acid inhibits this enzyme in the light in vivo. Short-term exposure to 13CO2 in the light after deacidification leads to the synthesis of singly and multiply labeled malic acid in these species, as observed by E.W. Ritz et al. (1986, Planta 167, 284–291). In the shortest times, only singly-labeled [4-13C]malate was detected but this may be a consequence of the higher intensity and better detection statistics of this ion cluster during mass spectrometry. We conclude that both phosphoenolpyruvate carboxylase (EC 4.1.1.32) and ribulose-1,5-biphosphate carboxylase (EC 4.1.1.39) are active at this time.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392426

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Changes of fluorescence and xanthophyll pigments during dehydration in the resurrection plantSelaginella lepidophylla in low and medium light intensities (1993)

Casper, Catharina ; Eickmeier, William G. ; Osmond, C. Barry

Springer

Oecologia 94 (1993), S. 528-533

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ISSN: 1432-1939

Keywords: Fluorescence ; Photoinhibition ; Photoprotection ; Selaginella lepidophylla ; Xanthophyll cycle

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The changes in photosynthetic efficiency and photosynthetic pigments during dehydration of the resurrection plantSelaginella lepidophylla (from the Chiuhahuan desert, S.W. Texas, USA) were examined under different light conditions. Changes in the photosynthetic efficiency were deduced from chlorophyll a fluorescence measurements (Fo, Fm, and Fv) and pigment changes were measured by HPLC analysis. A small decrease in Fv/Fm was seen in hydrated stems in high light (650 μmol photons·m−2·s−1) but not in low light (50 μmol photons·m−2·s−1). However, a pronounced decline in Fv/Fm was observed during dehydration in both light treatments, after one to two hours of dehydration. A rise in Fo was observed only after six to ten hours of dehydration. Concomitant with the decrease in photosynthetic efficiency during dehydration a rise in the xanthophyll zeaxanthin was observed, even in low-light treatments. The increase in zeaxanthin can be related to previously observed photoprotective non-photochemical quenching of fluorescence in dehydrating stems ofS. lepidophylla. We hypothesize that under dehydrating conditions even low light levels become excessive and zeaxanthin-related photoprotection is engaged. We speculate that these processes, as well as stem curling and self shading (Eickmeier et al. 1992), serve to minimize photoinhibitory damage toS. lepidophylla during the process of dehydration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00566968

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Fluorescence quenching during photosynthesis and photoinhibition of Ulva rotundata blid. (1993)

Osmond, C. B. ; Ramus, J. ; Levavasseur, G. ; [et al.]

Springer

Planta 190 (1993), S. 97-106

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ISSN: 1432-2048

Keywords: Chlorophyll fluorescence ; Photoinhibition ; Photoprotection ; Ulva (photosynthesis)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The relationships between photoinhibition and photoprotection in high and low-light-grown Ulva were examined by a combination of chlorophyll-fluorescence-monitoring techniques. Tissues were exposed to a computer-controlled sequence of 5-min exposures to red light, followed by 5-min darkness, with stepwise increases in photon flux. Coefficients of chlorophyll fluorescence quenching (1−qP and NPQ) were calculated following a saturating pulse of white light near the end of each 5-min light treatment. Dark-adapted chlorophyll fluorescence parameters (F0 and FV/FM) were calculated from a saturating pulse at the end of each 5-min dark period. Low-light-grown Ulva showed consistently higher 1−qP, i.e. higher reduction status of Q (high primary acceptor of photosystem II), and lower capacity for nonphotochemical quenching (NPQ) at saturating light than did high-light-grown plants. Consequently, low-light plants rapidly displayed photoinhibitory damage (increased F0) at light saturation in seawater. Removal of dissolved inorganic carbon from seawater also led to photoinhibitory damage of high-light-grown Ulva at light saturation, and addition of saturating amounts of dissolved inorganic carbon protected low-light-grown plants against photoinhibitory damage. A large part of NPQ was abolished by treatment with 3 mM dithiothreitol and the processes so inhibited were evidently photoprotective, because dithiothreitol treatment accelerated photoinhibitory damage in both low- and high-light-grown Ulva. The extent of photoinhibitory damage in Ulva was exacerbated by treatment with chloramphenicol (1 mM) without much effect on chlorophyll-quenching parameters, evidently because this inhibitor of chloroplast protein synthesis reduced the rate of repair processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00195680

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Interpretations of gradients in δ13C value in thick photosynthetic tissues of plants with Crassulacean acid metabolism (1993)

Robinson, Sharon A. ; Osmond, C. Barry ; Giles, Larry

Springer

Planta 190 (1993), S. 271-276

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ISSN: 1432-2048

Keywords: Carbon isotope ratio (gradients) ; Crassulacean acid metabolism ; Epidermis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In Ceropegia dichotoma, Crassula argentea, Esheveria colorata, Kalanchoë beharensis, Opuntia ficus-indica, Sansveria stuckyi and Opuntia inermis the carbon-isotope ratio (δ 13C) of tissues close to the epidermis is 2–4.3‰ more negative than those in the centre of the leaf or cladode. The greatest change in δ 13C value occurs between the epidermal layer and the layer of mesophyll tissue immediately underneath. Analysis of major metabolic and structural components in successive layers of Crassula argentea grown under controlled environmental conditions conducive to Crassulacean acid metabolism confirmed that much of the variation in δ 13C values of bulk carbon is caused by differences in chemical composition. Thus the steep gradient in δ 13C value at the epidermis reflects, in part, the contribution of more-negative δ 13C values of lipids in these tissues. Moreover, during nocturnal CO2 fixation the amount of malic acid synthesised decreases with depth and the δ 13C value of the methanol-soluble fraction is less negative with distance away from the upper epidermis. These results are consistent with diffusion limitation to CO2 uptake in these thick leaf tissues, which also contributes to the observed gradients in δ 13C value.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00196621

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Chlorophyll fluorescence in the resurrection plant Selaginella lepidophylla (Hook. & Grev.) Spring during high-light and desiccation stress, and evidence for zeaxanthin-associated photoprotection (1993)

Eickmeier, William G. ; Casper, Catharina ; Osmond, C. Barry

Springer

Planta 189 (1993), S. 30-38

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ISSN: 1432-2048

Keywords: Chlorophyll fluorescence ; Desiccation tolerance ; Fluorescence quenching (non-photochemical, photochemical) ; Photoprotection ; Selaginella ; Zeaxanthin (xanthophyll cycle)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The function of photosystem (PS)II during desiccation and exposure to high photon flux density (PFD) was investigated via analysis of chlorophyll fluorescence in the desert resurrection plant Selaginella lepidophylla (Hook. and Grev.) Spring. Exposure of hydrated, physiologically competent stems to 2000 μmol · m−2 · s−1 PFD caused significant reductions in both intrinsic fluorescence yield (FO) and photochemical efficiency of PSII (FV/FM) but recovery to pre-exposure values was rapid under low PFD. Desiccation under low PFD also affected fluorescence characteristics. Both FV/FM and photochemical fluorescence quenching remained high until about 40% relative water content and both then decreased rapidly as plants approached 0% relative water content. In contrast, the maximum fluorescence yield (FM) decreased and non-photochemical fluorescence quenching increased early during desiccation. In plants dried at high PFD, the decrease in FV/FM was accentuated and FO was reduced, however, fluorescence characteristics returned to near pre-exposure values after 24-h of rehydration and recovery at low PFD. Pretreatment of stems with dithiothreitol, an inhibitor of zeaxanthin synthesis, accelerated the decline in FV/FM and significantly increased FO relative to controls at 925 μmol · m−2 · s−1 PFD, and the differences persisted over a 3-h low-PFD recovery period. Pretreatment with dithiothreitol also significantly decreased non-photochemical fluorescence quenching, increased the reduction state of QA, the primary electron acceptor of PSII, and prevented the synthesis of zeaxanthin relative to controls when stems were exposed to PFDs in excess of 250 μmol · m−2 · s−1. These results indicate that a zeaxanthin-associated mechanism of photoprotection exists in this desert pteridophyte that may help to prevent photoinhibitory damage in the fully hydrated state and which may play an additional role in protecting PSII as thylakoid membranes undergo water loss.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00201340

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