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Chemosphere

Title:		Assessing benzene-induced toxicity on wild type Euglena gracilis Z and its mutant strain SMZ
Author(s):		Peng C; Arthur DM; Sichani HT; Xia Q; Ng JC;
Address:		"The University of Queensland, National Research Centre for Environmental Toxicology, 39 Kessels Road, Coopers Plains, Brisbane 4108, Australia; Cooperative Research Centre for Contamination Assessment and Remediation of the Environment (CRC-CARE), Australia"
Journal Title:		Chemosphere
Year:		2013
Volume:		20130912
Issue:		10
Page Number:		2381 - 2389
DOI:		10.1016/j.chemosphere.2013.08.037
ISSN/ISBN:		1879-1298 (Electronic) 0045-6535 (Linking)
Abstract:		"Benzene is a representative member of volatile organic compounds and has been widely used as an industrial solvent. Groundwater contamination of benzene may pose risks to human health and ecosystems. Detection of benzene in the groundwater using chemical analysis is expensive and time consuming. In addition, biological responses to environmental exposures are uninformative using such analysis. Therefore, the aim of this study was to employ a microorganism, Euglena gracilis (E. gracilis) as a putative model to monitor the contamination of benzene in groundwater. To this end, we examined the wild type of E. gracilis Z and its mutant form, SMZ in their growth rate, morphology, chlorophyll content, formation of reactive oxygen species (ROS) and DNA damage in response to benzene exposure. The results showed that benzene inhibited cell growth in a dose response manner up to 48 h of exposure. SMZ showed a greater sensitivity compared to Z in response to benzene exposure. The difference was more evident at lower concentrations of benzene (0.005-5 muM) where growth inhibition occurred in SMZ but not in Z cells. We found that benzene induced morphological changes, formation of lipofuscin, and decreased chlorophyll content in Z strain in a dose response manner. No significant differences were found between the two strains in ROS formation and DNA damage by benzene at concentrations affecting cell growth. Based on these results, we conclude that E. gracilis cells were sensitive to benzene-induced toxicities for certain endpoints such as cell growth rate, morphological change, depletion of chlorophyll. Therefore, it is a potentially suitable model for monitoring the contamination of benzene and its effects in the groundwater"
Keywords:		"Benzene/*toxicity Chlorophyll/metabolism DNA Damage Euglena gracilis/*drug effects/genetics/physiology Reactive Oxygen Species/metabolism Water Pollutants, Chemical/*toxicity Benzene Cell growth rate Chlorophyll Euglena gracilis Lipofuscin Morphology;"
Notes:		"MedlinePeng, Cheng Arthur, Dionne M Sichani, Homa Teimouri Xia, Qing Ng, Jack C eng Research Support, Non-U.S. Gov't England 2013/09/17 Chemosphere. 2013 Nov; 93(10):2381-9. doi: 10.1016/j.chemosphere.2013.08.037. Epub 2013 Sep 12"