Cd, Fe, and Light Sensitivity: Interrelationships in Cd-Treated <i>Populus</i>

Solti, Ádám; Gáspár, László; Vági, Pál; Záray, Gyula; Fodor, Ferenc; Sárvári, E.

doi:10.1089/omi.2011.0078

Cited by 7 publications

(4 citation statements)

References 47 publications

(50 reference statements)

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“…(poplar) was observed as a response to Cd stress. 240 Elevated accumulation of the avonoid taxifolin and other phenolic compounds is also observed in the Al-tolerant maize variety Cateto when compared with Al-sensitive maize. This may be, besides increased Al exclusion, the mechanism of resistance of Cateto maize to high Al content in soil.…”

Section: In Vitro and In Vivo Chemo-protective Activitymentioning

confidence: 97%

Properties and applications of flavonoid metal complexes

2015

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Section: In Vitro and In Vivo Chemo-protective Activitymentioning

confidence: 97%

Properties and applications of flavonoid metal complexes

2015

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“…The elevated concentration of zeaxanthin under light conditions contributed to the increase of Φ NPQ . Nevertheless, it has to be noticed that the ΔpH-dependent quenching was low during the entire experimental time, even in Ctrl samples, because of the applied low light intensity (Cd treated plants are light sensitive, see: [42]). …”

Section: Changes In Excitation Energy Allocation During Stress Hardeningmentioning

confidence: 99%

“…In fact, they may also have a role in increasing leaf dry weight, since they contribute to secondary cell wall biosynthesis. An increase in the monomeric constituents of the secondary cell wall has previously been become obvious from the elevated level of blue-emitting cell wall phenolics, like ferulic acid [42,46] During long-term Cd treatment, poplar plants were able to overcome oxidative damage. Thus, following the acute phase of Cd stress, lipid peroxidation decreased.…”

Section: Antioxidative Defencementioning

confidence: 99%

Stress hardening under long-term cadmium treatment is correlated with the activation of antioxidative defence and iron acquisition of chloroplasts in Populus

Solti

Sárvári

Szöllősi

et al. 2016

Zeitschrift Für Naturforschung C

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Cadmium (Cd), a highly toxic heavy metal affects growth and metabolic pathways in plants, including photosynthesis. Though Cd is a transition metal with no redox capacity, it generates reactive oxygen species (ROS) indirectly and causes oxidative stress. Nevertheless, the mechanisms involved in long-term Cd tolerance of poplar, candidate for Cd phytoremediation, are not well known. Hydroponically cultured poplar (Populus jacquemontiana var. glauca cv. 'Kopeczkii') plants were treated with 10 μM Cd for 4 weeks. Following a period of functional decline, the plants performed acclimation to the Cd induced oxidative stress as indicated by the decreased leaf malondialdehyde (MDA) content and the recovery of most photosynthetic parameters. The increased activity of peroxidases (PODs) could have a great impact on the elimination of hydrogen peroxide, and thus the recovery of photosynthesis, while the function of superoxide dismutase (SOD) isoforms seemed to be less important. Re-distribution of the iron content of leaf mesophyll cells into the chloroplasts contributed to the biosynthesis of the photosynthetic apparatus and some antioxidative enzymes. The delayed increase in photosynthetic activity in relation to the decline in the level of lipid peroxidation indicates that elimination of oxidative stress damage by acclimation mechanisms is required for the restoration of the photosynthetic apparatus during long-term Cd treatment.

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“…The soluble phenolics, located in the cell vacuoles, only slightly contribute to the overall blue-green fluorescence emission (Lichtenthaler and Schweiger 1998). Vacuole accumulating flavonoids emitting green-yellow fluorescence also contribute to the increase of F520 emission under high light and heavy metal stresses (Solti et al 2011).…”

Section: Smm Treatment Influences and Modifies The Mdmv-triggered Promentioning

confidence: 99%

S-methylmethionine contributes to enhanced defense against Maize dwarf mosaic virus infection in maize

et al. 2015

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The beneficial and protective effects of Smethylmethionine (SMM) were investigated in Maize dwarf mosaic virus (MDMV) infected maize (Zea mays L.). Response reactions and alterations in the physiological state of the plants were monitored by following changes in the values of chlorophyll a fluorescence and chlorophyll content, and differences in the expression patterns of the stress-related genes S-adenosylmethionine synthase (SAMS) and the 14-3-3-like protein gene G-box factor 14-6 (GF14-6). Infection was validated using the ELISA technique. A pronounced decrease in the red to far-red chlorophyll a fluorescence ratio, indicative of chlorophyll content, was observed in infected plants, which was tempered by SMM pretreatment. A noticeable decrease in the photochemical quenching of photosystem II and the thermal dissipation of the antennae was observed, together with a notable increase in other non-photochemical energy dissipation parameters in response to MDMV infection. SMM treatment enhanced blue fluorescence in both uninfected and MDMV-infected plants (probably due to the production of protective phenolic compounds), while infection characteristically increased green fluorescence emission. SMM treatment was found to elevate the rate of gene expressions of SAMS and GF14-6. The results suggest that SMM pretreatment enhances the stress response reactions that protect maize plants against MDMV infection.

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Cd, Fe, and Light Sensitivity: Interrelationships in Cd-Treated Populus

Cited by 7 publications

References 47 publications

Properties and applications of flavonoid metal complexes

Properties and applications of flavonoid metal complexes

Stress hardening under long-term cadmium treatment is correlated with the activation of antioxidative defence and iron acquisition of chloroplasts in Populus

S-methylmethionine contributes to enhanced defense against Maize dwarf mosaic virus infection in maize

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