双酚 A 对嗜极微藻小球藻（绿藻门）及其高 BPA 去除能力的影响。

Effect of Bisphenol A on the extremophilic microalgal strain Picocystis sp. (Chlorophyta) and its high BPA removal ability.

机构信息

Laboratory of Environmental Bioprocesses, Center of Biotechnology of Sfax, BP 1177, 3018 Sfax, Tunisia; Laboratory of Blue Biotechnology and Aquatic Bioproducts, National Institute of Marine Sciences and Technologies, 5000 Monastir, Tunisia; UMR 248 MARBEC (IRD-University Montpellier-CNRS Ifremer), CS30171, 34203 Séte, France.

Laboratory of Blue Biotechnology and Aquatic Bioproducts, National Institute of Marine Sciences and Technologies, 5000 Monastir, Tunisia.

出版信息

Ecotoxicol Environ Saf. 2018 Aug 30;158:1-8. doi: 10.1016/j.ecoenv.2018.04.008. Epub 2018 Apr 12.

DOI:10.1016/j.ecoenv.2018.04.008

PMID:29656159

Abstract

Bisphenol A (BPA) effects and removal by an alkaliphilic chlorophyta, Picocystis, were assessed. BPA at low concentrations (0-25 mg L) did not inhibit the Picocystis growth and photosynthesis during 5 days of exposure. At higher BPA concentrations (50 and 75 mg L), the growth inhibition did not exceed 43%. The net photosynthetic activity was dramatically reduced at high BPA concentrations while, the PSII activity was less affected. The exposure to increasing BPA concentrations induced an oxidative stress in Picocystis cells, as evidenced by increased malondialdehyde content and the over-expression of antioxidant activities (ascorbate peroxydase, gluthation-S-transferase and catalase). Picocystis exhibited high BPA removal efficiency, reaching 72% and 40% at 25 and 75 mg L BPA. BPA removal was ensured mainly by biodegradation/biotransformation processes. Based on these results, the extended tolerance and the high removal ability of Picocystis make her a promising specie for use in BPA bioremediation.

摘要

研究了嗜碱性绿藻 Picocystis 对双酚 A（BPA）的影响及其去除作用。在 5 天的暴露期内，低浓度（0-25mg/L）的 BPA 不会抑制 Picocystis 的生长和光合作用。在较高的 BPA 浓度（50 和 75mg/L）下，生长抑制率不超过 43%。在高 BPA 浓度下，净光合活性显著降低，而 PSII 活性受影响较小。暴露于不断增加的 BPA 浓度会在 Picocystis 细胞中诱导氧化应激，这表现为丙二醛含量增加和抗氧化活性（抗坏血酸过氧化物酶、谷胱甘肽-S-转移酶和过氧化氢酶）的过度表达。Picocystis 对 BPA 具有很高的去除效率，在 25 和 75mg/L BPA 时分别达到 72%和 40%。BPA 的去除主要通过生物降解/生物转化过程来实现。基于这些结果，Picocystis 的扩展耐受性和高去除能力使其成为 BPA 生物修复的有前途的物种。

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双酚 A 对嗜极微藻小球藻（绿藻门）及其高 BPA 去除能力的影响。

Effect of Bisphenol A on the extremophilic microalgal strain Picocystis sp. (Chlorophyta) and its high BPA removal ability.

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