Settling selection of Chlamydomonas reinhardtii for samarium uptake

IF 2.8 3区 生物学 Q1 MARINE & FRESHWATER BIOLOGY Journal of Phycology Pub Date : 2024-05-13 DOI:10.1111/jpy.13461
Paloma Martinez-Alesón García, Camino García-Balboa, Victoria López-Rodas, Eduardo Costas, Beatriz Baselga-Cervera
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Abstract

Samarium (Sm) is a rare-earth element recently included in the list of critical elements due to its vital role in emerging new technologies. With an increasing demand for Sm, microbial bioremediation may provide a cost-effective and a more ecologically responsible alternative to remove and recover Sm. We capitalized on a previously selected Chlamydomonas reinhardtii strain tolerant to Sm (1.33 × 10−4 M) and acidic pH and carried out settling selection to increase the Sm uptake performance. We observed a rapid response to selection in terms of cellular phenotype. Cellular size decreased and circularity increased in a stepwise manner with every cycle of selection. After four cycles of selection, the derived CSm4 strain was significantly smaller and was capable of sequestrating 41% more Sm per cell (1.7 × 10−05 ± 1.7 × 10−06 ng) and twice as much Sm in terms of wet biomass (4.0 ± 0.4 mg Sm · g−1) compared to the ancestral candidate strain. The majority (~70%) of the Sm was bioaccumulated intracellularly, near acidocalcisomes or autophagic vacuoles as per TEM-EDX microanalyses. However, Sm analyses suggest a stronger response toward bioabsorption resulting from settling selection. Despite working with Sm and pH-tolerant strains, we observed an effect on fitness and photosynthesis inhibition when the strains were grown with Sm. Our results clearly show that phenotypic selection, such as settling selection, can significantly enhance Sm uptake. Laboratory selection of microalgae for rare-earth metal bioaccumulation and sorption can be a promising biotechnological approach.

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对莱茵衣藻(Chlamydomonas reinhardtii)进行吸收钐的筛选。
钐(Sm)是一种稀土元素,由于其在新兴新技术中的重要作用,最近被列入关键元素清单。随着对钐的需求不断增加,微生物生物修复技术可能为去除和回收钐提供了一种具有成本效益且对生态环境更负责任的替代方法。我们利用之前选育出的对 Sm(1.33 × 10-4 M)和酸性 pH 值具有耐受性的莱茵衣藻菌株,进行了沉降筛选,以提高其对 Sm 的吸收性能。我们观察到细胞表型对选择的快速反应。在每一轮选择过程中,细胞体积都在逐步减小,圆度也在逐步增加。经过四个周期的选择后,衍生出的 CSm4 菌株明显变小,与祖先候选菌株相比,每个细胞能螯合的 Sm 量(1.7 × 10-05 ± 1.7 × 10-06 ng)增加了 41%,湿生物量(4.0 ± 0.4 mg Sm - g-1)增加了两倍。根据 TEM-EDX 显微分析,大部分(约 70%)Sm 在细胞内生物累积,靠近酸钙化体或自噬泡。然而,Sm 分析表明,沉降选择会导致更强的生物吸收反应。尽管我们使用的是耐Sm和耐pH的菌株,但当菌株在Sm条件下生长时,我们还是观察到了对适应性的影响和光合作用的抑制。我们的研究结果清楚地表明,表型选择(如沉降选择)可以显著提高 Sm 吸收率。对微藻进行稀土金属生物积累和吸附的实验室选择是一种很有前景的生物技术方法。
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来源期刊
Journal of Phycology
Journal of Phycology 生物-海洋与淡水生物学
CiteScore
6.50
自引率
3.40%
发文量
69
审稿时长
2 months
期刊介绍: The Journal of Phycology was founded in 1965 by the Phycological Society of America. All aspects of basic and applied research on algae are included to provide a common medium for the ecologist, physiologist, cell biologist, molecular biologist, morphologist, oceanographer, taxonomist, geneticist, and biochemist. The Journal also welcomes research that emphasizes algal interactions with other organisms and the roles of algae as components of natural ecosystems. All aspects of basic and applied research on algae are included to provide a common medium for the ecologist, physiologist, cell biologist, molecular biologist, morphologist, oceanographer, acquaculturist, systematist, geneticist, and biochemist. The Journal also welcomes research that emphasizes algal interactions with other organisms and the roles of algae as components of natural ecosystems.
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