DETERMINATION OF CELLULAR LEVELS OF NONPROTEIN THIOLS IN PHYTOPLANKTON AND THEIR CORRELATIONS WITH SUSCEPTIBILITY TO MERCURY<sup>1</sup>

Satoh, Masaya; Hirachi, Yoshinobu; Yoshioka, A; Kobayashi, Maki; Oyama, Yasuo

doi:10.1046/j.1529-8817.2002.t01-1-01223.x

Cited by 17 publications

(15 citation statements)

References 42 publications

(52 reference statements)

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“…Concentrations were 26 Ϯ 2.6 and 17 Ϯ 0.7 amol/cell (0.18 Ϯ 0.02 and 0.12 Ϯ 0.01 mM) for 6 and 24 h, respectively ( Table 2). In comparison, Satoh et al [6] observed that GSSG levels in unstressed marine algae were similar among species (0.15-0.26 mM). The GSH levels also were influenced significantly by incubation time ( p Ͻ 0.05) and decreased in Cu added flasks from 6 to 24 h. Apparently, GSH was depleted faster in the detoxification process than the rate of synthesis, Cu inhibited the production of GSH, and/or the GSH pool was depleted by phytochelatin synthesis.…”

Section: Influence Of Exposure Time On Endpoints For Detecting Cu Stressmentioning

confidence: 89%

“…Trace metal toxicity is the result of various effects, including disruption of enzymes, photoinhibition, substitution of essential metals, reactive oxygen species formation, and antioxidant depletion [1][2][3][4]. Glutathione (␥-glutamylcysteinylglycine) is the most abundant nonprotein thiol in all eukaryotic cells, typically present in millimolar concentrations (ranging from about 0.1-3.3 mM glutathione in nonstressed cells) [5,6], and functions as an antioxidant to protect cells from environmental stresses. It has been shown that depletion of this thiol results in oxidative stress as well [1].…”

Section: Introductionmentioning

confidence: 99%

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Analysis of glutathione endpoints for measuring copper stress in Chlamydomonas reinhardth

Stoiber

Shafer

Perkins³

et al. 2007

Enviro Toxic and Chemistry

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Glutathione (GSH) is the most abundant nonprotein thiol in eukaryotic cells and it protects cells by functioning as an antioxidant and a metal-binding ligand. Because glutathione readily undergoes oxidation-reduction reactions to combat oxidative stress, intracellular ratios of the reduced (GSH) to the oxidized (GSSG) forms of glutathione may serve as an important biomarker of exposure and effect of trace metals in eukaryotic cells. We compared sensitivity of glutathione ratios in the freshwater alga Chlamydomonas reinhardtii to the traditional endpoints of cell growth rates and chlorophyll a following exposure to Cu for periods of 6 and 24 h. A response of the GSH:GSSG ratio to Cu concentration was observed at Cu levels of 40 and 80 nM after exposure for both 6 and 24 h. The concentration of total GSH at 24 h was roughly half the value at 6 h after exposure to either 40 or 80 nM Cu. A response for cell growth rate was observed only at 24 h, whereby the average specific growth rate decreased from about 1.1 to 0.4 d(-1). The total Cu concentrations eliciting a cell response of 50%, effect concentrations (EC50s), after 24 h of exposure were similar (49.2, 49.8, and 38.2 nM Cu) and not significantly different for GSH:GSSG ratio, GSH levels, and specific growth, respectively. Total cell-associated Cu concentrations after exposure for 24 h were calculated from the EC50 endpoints and ranged from 13.3 to 17.0 fg/cell. Overall, thiol ratios were indicative of toxicity resulting from exposure to Cu, but precision may be greater for the cell growth rate endpoints.

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Section: Influence Of Exposure Time On Endpoints For Detecting Cu Stressmentioning

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Analysis of glutathione endpoints for measuring copper stress in Chlamydomonas reinhardth

Stoiber

Shafer

Perkins³

et al. 2007

Enviro Toxic and Chemistry

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“…This difference in the ability to induce the non-protein thiols among these strains might be due to variation in tolerance level to chromate. Although, there is very little information available about intracellular concentration of cysteine in living organisms, it is reported that in several species of eukaryotic algae, cysteine content ranges from 0.6 to 12 mM (Satoh et al , 2002). Cysteine concentrations of both P. aeruginosa Rb-1 and O. intermedium Rb-2 were also within this range.…”

Section: Discussionmentioning

confidence: 99%

“…Total GSH (Gamma-L-glutamyl-L-cysteninylglycine) and GSSG [Bis (gamma-Glutamyl-L-cysteinylglycine) Disulfide] were measured by the GSSG recycling method, with GSSG as the standard (Satoh et al , 2002). …”

Section: Methodsmentioning

confidence: 99%

Impact of environmental stress on biochemical parameters of bacteria reducing chromium

Batool¹,

Yrjälä²,

Hasnain³

2014

Braz. J. Microbiol.

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Chromium pollution is produced in connection with industrial processes like in tanneries. It has been suggested that bioremediation could be a good option for clean up. The stress effect of variable chromate levels, pHs and growth temperatures on biochemical parameters of two Cr(VI) reducing bacterial strains Pseudomonas aeruginosa Rb-1 and Ochrobactrum intermedium Rb-2 was investigated. Transmission electrone microscopy (TEM) was performed to study the intracellular distribution of Cr(VI). It was observed that initial stress of 1000 μgmL−1 caused significant enhancement of all studied biochemical parameters at pH 7.0 and growth temperature of 37 °C showing great bioremediation potential of the strains. Transmission electron microscopy revealed that the distribution of chromium precipitates was not uniform as they were distributed in the cytoplasm as well as found associated with the periplasm and outer membrane. Fourier transform infrared spectroscopy showed the possible involvement of carboxyl, amino, sulpohonate and hydroxyl groups present on the bacterial cell surface for the binding of Cr(VI) ions. Cr(VI) stress brought about changes in the distridution of these functional groups. It can be concluded that the investigated bacterial strains adjust well to Cr(VI) stress in terms of biochemical parameters and along that exhibited alteration in morphology.

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“…For example, glutathione in marine phytoplankton ranges from 0.08 to 3.1 mM (Rijstenbil and Wijnholds, 1996) for phytoplankton, and 45.7 ± 0.92 mg/g protein for marine Decapoda (Wang et al, 2008). Cysteine in phytoplankton ranges from 0.04 to 2.23 mM, (Rijstenbil and Wijnholds, 1996;Satoh et al, 2002), and ascorbic acid ranges from 59 to 5400 μg/g dry weight (Brown and Miller, 1992;Maldonado, 2009). In our experiments we selected concentrations within these ranges.…”

Section: Int Reduction In Cell-free Homogenatesmentioning

confidence: 98%

Understanding tetrazolium reduction and the importance of substrates in measuring respiratory electron transport activity

Maldonado

Packard

Gómez

2012

Journal of Experimental Marine Biology and Ecology

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DETERMINATION OF CELLULAR LEVELS OF NONPROTEIN THIOLS IN PHYTOPLANKTON AND THEIR CORRELATIONS WITH SUSCEPTIBILITY TO MERCURY¹

Cited by 17 publications

References 42 publications

Analysis of glutathione endpoints for measuring copper stress in Chlamydomonas reinhardth

Analysis of glutathione endpoints for measuring copper stress in Chlamydomonas reinhardth

Impact of environmental stress on biochemical parameters of bacteria reducing chromium

Understanding tetrazolium reduction and the importance of substrates in measuring respiratory electron transport activity

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DETERMINATION OF CELLULAR LEVELS OF NONPROTEIN THIOLS IN PHYTOPLANKTON AND THEIR CORRELATIONS WITH SUSCEPTIBILITY TO MERCURY1

Cited by 17 publications

References 42 publications

Analysis of glutathione endpoints for measuring copper stress in Chlamydomonas reinhardth

Analysis of glutathione endpoints for measuring copper stress in Chlamydomonas reinhardth

Impact of environmental stress on biochemical parameters of bacteria reducing chromium

Understanding tetrazolium reduction and the importance of substrates in measuring respiratory electron transport activity

Contact Info

Product

Resources

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DETERMINATION OF CELLULAR LEVELS OF NONPROTEIN THIOLS IN PHYTOPLANKTON AND THEIR CORRELATIONS WITH SUSCEPTIBILITY TO MERCURY¹