Rate-Limiting Steps of Electron Transport in Chloroplasts during Ontogeny and Senescence of Barley

Holloway, Peter J.; Maclean, D. J.; Scott, K. J.

doi:10.1104/pp.72.3.795

Cited by 65 publications

(40 citation statements)

References 26 publications

(24 reference statements)

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“…The electron transport capacity ( J max ) calculated from the data presented in Figure 5 was also significantly lower in ethylene-insensitive tobacco plants. Cytochrome f content is generally strongly correlated with electron transport capacity and is thought to be an important rate-limiting step in this process (Holloway et al, 1983). Our finding that Cytochrome f content was also lower in the ethylene-insensitive tobacco plants (Table I) supports this view.…”

Section: Ethylene-insensitive Plants Have Reduced Photosynthetic Capasupporting

confidence: 80%

Ethylene Insensitivity Results in Down-Regulation of Rubisco Expression and Photosynthetic Capacity in Tobacco

et al. 2007

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Little is known about the effect of hormones on the photosynthetic process. Therefore, we studied Rubisco content and expression along with gas exchange parameters in transgenic tobacco (Nicotiana tabacum) plants that are not able to sense ethylene. We also tested for a possible interaction between ethylene insensitivity, abscisic acid (ABA), and sugar feedback on photosynthesis. We measured Rubisco content in seedlings grown in agar with or without added sugar and fluridone, and Rubisco expression in hydroponically grown vegetative plants grown at low and high CO 2 . Furthermore, we analyzed gas exchange and the photosynthetic machinery of transformants and wild-type plants grown under standard conditions. In the presence of exogenous glucose (Glc), agar-grown seedlings of the ethylene-insensitive genotype had lower amounts of Rubisco per unit leaf area than the wild type. No differences in Rubisco content were found between ethylene-insensitive and wild-type seedlings treated with fluridone, suggesting that inhibition of ABA production nullified the effect of Glc application. When larger, vegetative plants were grown at different atmospheric CO 2 concentrations, a negative correlation was found between Glc concentration in the leaves and Rubisco gene expression, with stronger repression by high Glc concentrations in ethyleneinsensitive plants. Ethylene insensitivity resulted in plants with comparable fractions of nitrogen invested in light harvesting, but lower amounts in electron transport and Rubisco. Consequently, photosynthetic capacity of the insensitive genotype was clearly lower compared with the wild type. We conclude that the inability to perceive ethylene results in increased sensitivity to Glc, which may be mediated by a higher ABA concentration. This increased sensitivity to endogenous Glc has negative consequences for Rubisco content and photosynthetic capacity of these plants.

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Section: Ethylene-insensitive Plants Have Reduced Photosynthetic Capasupporting

confidence: 80%

Ethylene Insensitivity Results in Down-Regulation of Rubisco Expression and Photosynthetic Capacity in Tobacco

et al. 2007

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“…Although loss of Chl is a commonly observed symptom of senescence, Chl frequently disappears most slowly during senescence among the photosynthetic components (11,12,14,21). As shown in Figure 4, low irradiance strongly retarded the decline in the Chl content and it remained almost constant until late senescence.…”

Section: No Apparent Decline In Chimentioning

confidence: 91%

“…Second, we determined the amounts of Rubisco, CF,, and Cyt f proteins in relation to the gas-exchange data. The limitation of CFI(ATP-ase) and Cyt f contents for electron transport capacities has been repeatly reported (6,12,17,35). In addition, we analyzed their relationships to leaf-nitrogen content, and characterized the photosynthetic system of the leaves aged under low irradiance in relation to acclimation of shade plants.…”

mentioning

confidence: 99%

“…Several quantitative analyses indicated that decrease in photosynthesis under ambient air conditions can be predicted from changes in the amounts and kinetics of Rubisco (5,23). Electron transport activities and the reaction-center complexes also decreased during leaf senescence, and their positive correlations with photosynthesis have been frequently reported (3,(12)(13)(14). Thus, it can be expected that a decline in photosyn- 'This work was supported in part by Grants-in-Aid for International Scientific Research (63044018) from the Ministry ofEducation, Science and Culture of Japan.…”

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confidence: 99%

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Photosynthetic Characteristics of Rice Leaves Aged under Different Irradiances from Full Expansion through Senescence

Hidema¹,

Makino²,

Mae³

et al. 1991

Plant Physiol.

107

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Effects of irrpdiance on photosynthetic characteristics were examined in senescent leaves of rice (Oryza sativa L.). Two irradiance treatments (100 and 20% natural sunlight) were imposed after the full expansion of the 13th leaf through senescence. The photosynthetic rate was measured as a function of intercellular C02 pressure with a gas-exchange system. The amounts of cytochrome f, coupling factor 1, ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), and chlorophyll were determined. The coupling factor 1 and cytochrome f contents decreased rapidly during senescence, and their rates of decrease were much faster from the 20% sunlight treatment than from the full sunlight treatment. These changes were well correlated with those in the photosynthetic rate at C02 pressure = 600 microbars, but not with those under the ambient air condition (350 microbars C02) and 200 microbars CO2. This suggested that the amounts of coupling factor I and cytochrome f from the full sunlight treatment cannot be limiting factors for the photosynthetic rate at ambient air conditions. The Rubisco content also decreased during senescence, but its decrease from the 20% sunlight treatment was appreciably retarded. However, this difference was not reflected in the photosynthetic rates at the ambient and 200 microbars C02. This implied that in vivo Rubisco activity may be regulated in the senescent leaves from the 20% sunlight treatment. The chlorophyll content decreased most slowly. In the 20% sunlight treatment, it remained apparentdy constant with a decline in chlorophyll a/b ratio. These photosynthetic characteristics of the senescent rice leaves under low irradiance were discussed in relation to acclimation of shade plants.thesis during senescence is mainly caused by a decrease in a functional unit of the photosynthetic system.When plants are transferred to a different irradiance, they show acclimation of the photosynthetic system. The characteristics of plants acclimated to low irradiance have been reviewed in detail (1, 2, 7). These plants generally have relatively more Chl b, low capacities of electron transport per unit of Chl, and a reduction in soluble protein relative to Chl. However, the photosynthetic characteristics of leaves aged under low irradiance after full expansion are not known. In addition, it is unclear whether the senescent leaves show the regulatory light acclimation.In this study, we examined the effects of irradiance on the in vivo and in vitro photosynthetic characteristics of senescent leaves of rice. Two irradiance treatments (100 and 20% sunlight) were imposed after the full expansion of the 13th leaf through senescence. To deduce the in vivo balance between Rubisco and electron transport limitation, we first examined the rate of CO2 assimilation as a function of C,2 according to the photosynthetic model of Farquhar and Caemmerer (9). Second, we determined the amounts of Rubisco, CF,, and Cyt f proteins in relation to the gas-exchange data. The limitation of CFI(ATP-ase) and Cyt f contents for ...

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“…Figure 2 shows pronounced retention of three non-chlorophyll-binding thylakoid polypeptides in mutant Phaseolus. Water-splitting, the cytochrome bf complex and photosystem I have all been shown previously to be labile (though not necessarily equally so) during normal leaf senescence (Holloway, Maclean & Scott, 1983;Woolhouse & Jenkins, 1983;HUditch, Thomas & Rogers, 1986;Grover, 1993). The genetic lesion in Phaseolus has a generally stabilizing effect on thylakoid membrane integrity, a conclusion supported by the ultrastructural observations of Ronning et al (1991).…”

Section: Comparison Between Stay-green Genotypes Of Phaseoius and Othmentioning

confidence: 99%

Stay‐green genotypes of Phaseolus vulgaris L.: chloroplast proteins and chlorophyll catabolites during foliar senescence

et al. 1994

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SUMMARYLeaf senescetYce was analyzed in stay-green mutants of Phaseolus vulgaris. Impaired yellowing in these genotypes was accompanied by abnormal retention of tbylakoid membrane proteins including tbe ligbt-bar\'esting cblorophyll-binding protein of photosystem II, tbe 33 kDa polypeptide of tbe oxygen-evolving complex, cytocbrome/ and tbe psaF protein of pbotosystem I. On tbe other band, ribulose bispbospbate carboxylase was somewbat more labile in tbe mutant than tbe wild-type. Tbe stay-green cbaracter was not associated with unusual persistence of cbloropbyll biosynthesis etizymes. During senescence, normal leaf tissue accunnulated an array of fluorescent (FCC) and non-fluorescent (NCC) compounds witb cbromatograpbic and spectropbotometric properties similar to tbose of cbloropbyll catabolites previously identified in otber species. Witb the exception of one prominent NCC and a trace of one FCC, tbese constituents were absent from extracts of stay-green genotypes, strongly supporting tbe proposal tbat tbey are indeed products of cbloropbyll breakdown. Tbe kinetics of tbeir accumulation during senescence was consistent witb a primary or intermediary role for FCCs in tbe catabolic pathway wbereas NCCs seem to be final products. Tbe complement of FCCs and NCCs in Phaseolus vulgaris was as distinct from that of tbe previously-studied species barley and rape as tbe latter are from each otber. Genotj'pic and interspecific variations in tbe biochemistry of senescence are discussed in relation to genetic regulation of tbe process.

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Rate-Limiting Steps of Electron Transport in Chloroplasts during Ontogeny and Senescence of Barley

Cited by 65 publications

References 26 publications

Ethylene Insensitivity Results in Down-Regulation of Rubisco Expression and Photosynthetic Capacity in Tobacco

Ethylene Insensitivity Results in Down-Regulation of Rubisco Expression and Photosynthetic Capacity in Tobacco

Photosynthetic Characteristics of Rice Leaves Aged under Different Irradiances from Full Expansion through Senescence

Stay‐green genotypes of Phaseolus vulgaris L.: chloroplast proteins and chlorophyll catabolites during foliar senescence

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