Biosorptio Of Cd2+ By Wildtype And Cadmium Resistant, CdR-99 Cell Line Of Chlorella Vulgaris

Scientific World Pub Date : 2021-02-17 DOI:10.3126/SW.V14I14.35022

Sudarshana Shakya, Bindra Devi Shakya, A. Tamrakar, B. Adhikari, Sabita Nepal, P. Shakya

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引用次数: 1

Abstract

Removal of heavy metals is very important in wastewater treatment process, due to their toxic effects on the environment. Biological treatment has attracted researchers for years since it has many advantages over physical and chemical methods for removing heavy metals from wastewater. The purpose of this research was to assess the biosorption of Cd2+ by wildtype (WT) and CdR-99 resistant line of Chlorella vulgaris confirming mechanisms of resistance to Cd2+ toxicity and the effect of the variable concentrations of Cd2+ on their growth. Exposure of both algal cell lines to increasing Cd2+ concentrations resulted in progressive inhibition of growth as revealed by growth experiments. The higher ID50 value (38 M Cd2+) of CdR-99 resistant line exhibited some degree of resistance to Cd2+ toxicity. Metal content was determined by flame atomic absorption spectrometry (FAAS). When exposed to the growth medium containing 50 M Cd2+, CdR-99 resistant isolate proved to be efficient cell line compared to the WT, in terms of adsorption and removal of Cd2+ at 15 min and 48 hr interval of time respectively. Extracellular Cd2+ adsorption was found significantly higher than intracellular uptake in both the tested cell lines. Total Cd2+ accumulation and distribution between the external and internal cell fractions of the CdR-99 were significantly higher to the WT. Thus, the CdR-99 cell line appeared more resistant to Cd2+ toxicity and hence may be used for wastewater treatment and remediation of metal contaminated sites.

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普通小球藻野生型和抗镉型CdR-99细胞系对Cd2+的生物吸附

由于重金属对环境的毒性作用，重金属的去除在废水处理过程中非常重要。由于生物处理在去除废水中的重金属方面比物理和化学方法有许多优点，多年来一直吸引着研究人员的注意。研究了野生型(WT)和CdR-99抗性小球藻(Chlorella vulgaris)对Cd2+的生物吸附，确定了小球藻对Cd2+毒性的抗性机制以及不同浓度的Cd2+对其生长的影响。生长实验显示，两种藻类细胞系暴露于Cd2+浓度增加的环境中，会导致生长的进行性抑制。cddr -99抗性品系的ID50值较高(38M Cd2+)，对Cd2+毒性表现出一定程度的抗性。采用火焰原子吸收光谱法(FAAS)测定金属含量。当暴露于含有50M Cd2+的生长培养基时，CdR-99抗性分离株在吸附和去除Cd2+的时间间隔分别为15 min和48 hr，与WT相比，CdR-99抗性分离株在Cd2+的吸附和去除方面表现得更好。细胞外Cd2+吸附明显高于细胞内摄取。Cd2+在CdR-99细胞内外组分之间的累积和分布明显高于WT，因此CdR-99细胞系对Cd2+的毒性表现出更强的抗性，因此可以用于废水处理和金属污染场地的修复。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scientific World

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