Chromium- and copper-induced inhibition of photosynthesis in Euglena gracilis analysed on the single-cell level by fluorescence kinetic microscopy

Here, we investigated effects of copper (Cu) and chromium (Cr) toxicity on two contrasting strains of Euglena gracilis, with and without chloroplasts, grown in culture media promoting either phototrophic or heterotrophic growth. This led to insights into Cr/Cu toxicity mechanisms and into the regula...

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Detalles Bibliográficos
Publicado: 2009
Materias:
Chromium
Copper
Euglena
Heavy metal toxicity
Oxidative stress
Photosynthesis
Pigments
Respiration
carotenoid
chlorophyll
chromium
copper
hydrogen peroxide
oxygen
cation
chloroplast
comparative study
ecotoxicology
inhibition
microscopy
oxidation
photochemistry
photosynthesis
pollution effect
protist
respiration
toxicity test
animal
article
cell respiration
culture medium
cytology
drug effect
Euglena gracilis
fluorescence microscopy
growth, development and aging
metabolism
oxidative stress
physiology
Animals
Carotenoids
Cell Respiration
Chlorophyll
Culture Media
Hydrogen Peroxide
Microscopy, Fluorescence
Oxidative Stress
Oxygen
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0028646X_v182_n2_p405_Rocchetta
http://hdl.handle.net/20.500.12110/paper_0028646X_v182_n2_p405_Rocchetta
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:Here, we investigated effects of copper (Cu) and chromium (Cr) toxicity on two contrasting strains of Euglena gracilis, with and without chloroplasts, grown in culture media promoting either phototrophic or heterotrophic growth. This led to insights into Cr/Cu toxicity mechanisms and into the regulation of phototrophic vs heterotrophic metabolism. Our data strongly suggest that in Cu 2+ and Cr 6+ stressed Euglena photosynthesis is the primary target of damage. In the applied light conditions, this was mainly damage to the photosystem II reaction centre, as shown by single-cell measurements of photochemical fluorescence quenching. Respiration and photosynthetic dark reactions were less sensitive. The malfunctioning photosynthesis enhanced production of reactive oxygen species (mainly superoxide), leading to elevated amounts of carotenoid degradation products. At higher metal concentrations in chloroplast-containing cells, but not white cells, this oxidative stress resulted in increased respiratory oxygen uptake, likely by damage to mitochondria. During growth in nutrient solution promoting heterotrophic metabolism, the cells were able to repair the metal-induced damage to photosynthesis, moderating the inhibition of photochemistry. Growth in medium forcing the cells into photosynthesis increased the investment in photosynthetic pigments. Comparison of the two Euglena strains surprisingly showed that the previously metal-resistant strain lost this resistance during culture. © 2009 New Phytologist.

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