Role of envelopes of gram‐negative bacteria in cadmium binding and toxicity

Environmental Toxicology & Water Quality Pub Date : 1990-02-01 DOI:10.1002/TOX.2540050105
P. Bauda, J. Block
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引用次数: 12

Abstract

Whole cells, mureinoplasts, and protoplasts of gram-negative bacteria were used in cadmium biosorption and toxicity determinations. It was shown that whole cells of Pseudomonas fluorescens bind less metal than other bacterial forms, suggesting the outer membrane acts as a barrier toward metals. Such a role was confirmed by toxicity measurements showing a lower toxic effect of cadmium in the presence of the outer membrane. Chemically modified bacteria, with carboxyl groups masked, were used to identify the cadmium binding sites. Results indicate that care is necessary in interpretation since the acid pH used in the blockage reaction was shown to interfere with the cadmium binding. Moreover, the blockage reagents have been shown to modify the cadmium toxicity.
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革兰氏阴性菌包膜在镉结合和毒性中的作用
采用革兰氏阴性菌的全细胞、多质体和原生质体对镉进行了生物吸附和毒性测定。研究表明,荧光假单胞菌的整个细胞比其他细菌形式结合较少的金属,表明外膜对金属起屏障作用。这种作用被毒性测量证实,显示镉在外膜存在下的毒性作用较低。化学修饰的细菌,羧基被掩盖,用来识别镉的结合位点。结果表明,在解释时需要注意,因为在堵塞反应中使用的酸性pH值被证明会干扰镉的结合。此外,阻断剂已被证明对镉的毒性有修饰作用。
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Environmental Toxicology & Water Quality
Environmental Toxicology & Water Quality
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