ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Electronic Resource

Redox sensing and signalling associated with reactive oxygen in chloroplasts, peroxisomes and mitochondria (2003)

Foyer, Christine H. ; Noctor, Graham

Oxford, UK : Munksgaard International Publishers

Physiologia plantarum 119 (2003), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Chloroplasts and mitochondria are the powerhouses of photosynthetic cells. The oxidation-reduction (redox) cascades of the photosynthetic and respiratory electron transport chains not only provide the driving forces for metabolism but also generate redox signals, which participate in and regulate every aspect of plant biology from gene expression and translation to enzyme chemistry. Plastoquinone, thioredoxin and reactive oxygen have all been shown to have signalling functions. Moreover, the intrinsic involvement of molecular oxygen in electron transport processes with the inherent generation of superoxide, hydrogen peroxide and singlet oxygen provides a repertoire of additional extremely powerful signals. Accumulating evidence implicates the major redox buffers of plant cells, ascorbate and glutathione, in redox signal transduction. The network of redox signals from energy-generating organelles orchestrates metabolism to adjust energy production to utilization, interfacing with hormone signalling to respond to environmental change at every stage of plant development.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1034/j.1399-3054.2003.00223.x

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2

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ASCORBATE AND GLUTATHIONE: Keeping Active Oxygen Under Control (1998)

Noctor, Graham ; Foyer, Christine H.

Palo Alto, Calif. : Annual Reviews

Annual Review of Plant Physiology and Plant Molecular Biology 49 (1998), S. 249-279

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ISSN: 1040-2519

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Biology

Notes: Abstract To cope with environmental fluctuations and to prevent invasion by pathogens, plant metabolism must be flexible and dynamic. Active oxygen species, whose formation is accelerated under stress conditions, must be rapidly processed if oxidative damage is to be averted. The lifetime of active oxygen species within the cellular environment is determined by the antioxidative system, which provides crucial protection against oxidative damage. The antioxidative system comprises numerous enzymes and compounds of low molecular weight. While research into the former has benefited greatly from advances in molecular technology, the pathways by which the latter are synthesized have received comparatively little attention. The present review emphasizes the roles of ascorbate and glutathione in plant metabolism and stress tolerance. We provide a detailed account of current knowledge of the biosynthesis, compartmentation, and transport of these two important antioxidants, with emphasis on the unique insights and advances gained by molecular exploration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.arplant.49.1.249

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3

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Oxidant and antioxidant signalling in plants: a re-evaluation of the concept of oxidative stress in a physiological context (2005)

FOYER, CHRISTINE H. ; NOCTOR, GRAHAM

Oxford, UK : Blackwell Science Ltd

Plant, cell & environment 28 (2005), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: While the chemical nature of reactive oxygen species (ROS) dictates that they are potentially harmful to cells, recent genetic evidence suggests that in planta purely physicochemical damage may be much more limited than previously thought. The most potentially deleterious effect of ROS under most conditions is that at high concentrations they trigger genetically programmed cell suicide events. Moreover, because plants use ROS as second messengers in signal transduction cascades in processes as diverse as mitosis, tropisms and cell death, their accumulation is crucial to plant development as well as defence. Direct ROS signal transduction will ensue only if ROS escape destruction by antioxidants or are otherwise consumed in a ROS cascade. Thus, the major low molecular weight antioxidants determine the specificity of the signal. They are also themselves signal-transducing molecules that can either signal independently or further transmit ROS signals. The moment has come to re-evaluate the concept of oxidative stress. In contrast to this pejorative or negative term, implying a state to be avoided, we propose that the syndrome would be more usefully described as ‘oxidative signalling’, that is, an important and critical function associated with the mechanisms by which plant cells sense the environment and make appropriate adjustments to gene expression, metabolism and physiology.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.2005.01327.x

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4

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The role of glycine in determining the rate of glutathione synthesis in poplar. Possible implications for glutathione production during stress (1997)

Noctor, Graham ; Arisi, Ana-Carolina M. ; Jouanin, Lise ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Physiologia plantarum 100 (1997), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: The terminal step of glutathione (GSH) synthesis is the condensation of γ-glutamyl-cysteine (γ-EC) with glycine. Relatively little information exists concerning the importance of photorespiratory glycine in determining the rate of conversion of γ-EC to GSH. Consequently, the effect of exogenous glycine and of illumination on foliar contents of γ-EC and GSH was studied in excised leaves and leaf discs from untransformed poplar (Populus tremula×P. alba) and poplar overexpressing γ-glutamylcysteine synthetase (γ-ECS; EC 6.3.2.2). Poplars strongly overexpressing γ-ECS (ggs28) had enhanced levels of γ-EC and GSH compared to untransformed poplars. The relationship between γ-EC and GSH contents in ggs28 was light dependent. In illuminated leaves, GSH contents were up to 50-fold higher than γ-EC. On darkening, γ-EC accumulated markedly and GSH declined, so that the GSH:γ-EC ratio was close to 1. These dark-induced changes were prevented by supplying glycine through the petiole or by incubation of leaf discs on glycine. Dark accumulation of γ-EC in leaf discs from untransformed poplar was also prevented by supplying glycine. Supplying cysteine in the dark to discs from untransformed poplar and ggs28 increased γ-EC levels markedly but GSH levels only slightly. Subsequent illumination caused γ-EC to decrease and GSH to increase. Supplying glycine in concert with cysteine had similar effects to illumination. The data suggest that photorespiratory glycine is essential for GSH synthesis, especially under stress conditions, where increased amounts of GSH are required.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1399-3054.1997.tb04781.x

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5

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Light-dependent modulation of foliar glutathione synthesis and associated amino acid metabolism in poplar overexpressing γ-glutamylcysteine synthetase (1997)

Noctor, Graham ; Arisi, Ana-Carolina M. ; Jouanin, Lise ; [et al.]

Springer

Planta 202 (1997), S. 357-369

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ISSN: 1432-2048

Keywords: Key words: γ-Glutamylcysteine ; γ-Glutamylcysteine synthetase ; Glutathione ; Glycine ; Photorespiration ; Populus (transformed)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract. Glutathione (GSH), γ-glutamylcysteine (γ-EC) and major free amino acids were measured in darkened and illuminated leaves from untransformed poplars (Populus tremula × P. alba) and poplars expressing Escherichia coli genes for γ-glutamylcysteine synthetase (γ-ECS; EC 3.2.3.3) and glutathione reductase (GR; EC 1.6.4.2). In poplars overexpressing γ-ECS, foliar γ-EC contents and GSH contents were markedly enhanced compared to poplars lacking the bacterial gene for the enzyme. However, the quantitative relationship between the foliar pools of γ-EC and GSH in these transformants was markedly dependent on light. In the dark, GSH content was relatively low and γ-EC content high, the latter being higher than the foliar GSH contents of untransformed poplars in all conditions. Hence, this transformation appears to elevate γ-EC from the ranks of a trace metabolite to one of major quantitative importance. On illumination, however, γ-EC content decreased fourfold whereas GSH content doubled. Glutathione was also higher in the light in untransformed poplars and in those overexpressing GR. In these plants, γ-EC was negligible in the light but increased in the dark. Cysteine content was little affected by light in any of the poplar types. No light-dependent changes in the extractable activities of γ-ECS, glutathione synthetase (EC 3.2.3.2) or GR were observed. In contrast, both the activation state and the maximum extractable activity of nitrate reductase (EC 1.6.6.1) were increased by illumination. In all poplar types, glutamate and aspartate were the major amino acids. The most marked light-induced increases in individual amino acids were observed in the glutamine, asparagine, serine and glycine pools. Illumination of leaves from poplars overexpressing γ-ECS at elevated CO2 or low O2 largely abolished the inverse light-dependent changes in γ-EC and GSH. Low O2 did not affect foliar contents of cysteine or glutamate but prevented the light-induced increase in the glycine pool. It is concluded that light-dependent glycine formation through the photorespiratory pathway is required to support maximal rates of GSH synthesis, particularly under conditions where the capacity for γ-EC synthesis is augmented.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004250050138

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6

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Modification of thiol contents in poplars (Populus tremula × P. alba) overexpressing enzymes involved in glutathione synthesis (1997)

Arisi, Ana-Carolina M. ; Noctor, Graham ; Foyer, Christine H. ; [et al.]

Springer

Planta 203 (1997), S. 362-372

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ISSN: 1432-2048

Keywords: Key words:γ-Glutamylcysteine synthetase ; Glutathione synthesis ; Glutathione synthetase ; Transgenic poplar ; Populus (glutathione synthesis)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract. The hybrid poplar (Populus tremula × P.␣alba) was transformed to express the Escherichia coli gene for γ-glutamylcysteine synthetase (EC 6.3.2.2: γ-ECS) in the cytosol. Four transformed lines of poplar were obtained. These were phenotypically indistinguishable from untransformed poplars. Three lines, ggs28 (Noctor et al. 1996, Plant Physiol 112: 1071–1078), ggs11 and ggs5 possessed high levels of bacterial gene transcripts. Line ggs17 had lower transcript levels. Antisera were prepared against bacterial γ-ECS and bacterial glutathione synthetase (EC 6.3.2.3: GS). Using the antiserum prepared against the purified His-tagged E.␣coliγ-ECS, lines ggs28, ggs11 and ggs5 were shown to possess abundant quantities of the bacterial protein, whereas ggs17 contained lower amounts. The antiserum prepared against the purified His-tagged E. coli GS was also effective in screening poplars transformed with the E.␣coli gene coding for this enzyme. Immunoblots of leaf extracts from poplars overexpressing GS using this antibody revealed two bands. The extractable foliar γ-ECS activities of the γ-ECS transformants were in quantitative agreement with the protein levels. Lines ggs28, ggs11 and ggs5 had approximately 30-fold higher γ-ECS activity than untransformed poplars, whereas in ggs17 this activity was only augmented about 3-fold. The lines strongly overexpressing γ-ECS, ggs28, ggs11 and ggs5, contained enhanced foliar levels of cysteine (up to 2-fold), γ-glutamylcysteine (5- to 20-fold) and glutathione (2- to 4-fold). Foliar thiol contents in ggs17 were no different to those of untransformed plants.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004250050202

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7

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pH dependent chlorophyll fluorescence quenching in spinach thylakoids from light treated or dark adapted leaves (1992)

Rees, Deborah ; Noctor, Graham ; Ruban, Alexander V. ; [et al.]

Springer

Photosynthesis research 31 (1992), S. 11-19

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ISSN: 1573-5079

Keywords: carotenoid ; chlorophyll fluorescence ; non-photochemical quenching ; pH ; photosynthesis ; zeaxanthin

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The pH dependence of maximum chlorophyll fluorescence yield (Fm) was examined in spinach thylakoids in the presence of nigericin to dissipate the transthylakoid pH gradient. 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea (DCMU) was present to eliminate photochemical quenching. Thylakoids were prepared from dark adapted leaves (‘dark’ thylakoids) or preilluminated leaves (‘light’ thylakoids). In the latter there had been approximately 50% conversion of the xanthophyll violaxanthin to zeaxanthin, while no conversion had occurred in the former. In the presence of a reductant such as ascorbate, antimycin A sensitive quenching was observed (half maximal quenching at 5 μM), whose pH dependence differed between the two types of thylakoid. Preillumination of leaves resulted in more quenching at pH values where very little quenching was observed in ‘dark’ thylakoids (pH 5–7.6). This was similar to activation of high-energy-state quenching (qE) observed previously (Rees D, Young A, Noctor G, Britton G and Horton P (1989) FEBS Lett 256: 85–90). Thylakoids isolated from preilluminated DTT treated leaves, that contained no zeaxanthin, behaved like dark thylakoids. A second form of quenching was observed in the presence of ferricyanide, that could be reversed by the addition of ascorbate. This was not antimycin A sensitive and showed the same pH dependence in both types of thylakoid. The former type of quenching, but not the latter, showed similar low temperature fluorescence emission spectra to qE, and was considered to occur by the same mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00049532

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