Euglena mutabilis exists in a FAB consortium with microbes that enhance cadmium tolerance.

IF 2.3 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY International Microbiology Pub Date : 2024-08-01 Epub Date: 2024-01-03 DOI:10.1007/s10123-023-00474-7
Emma Kaszecki, Daniel Palberg, Mikaella Grant, Sarah Griffin, Chetan Dhanjal, Michael Capperauld, R J Neil Emery, Barry J Saville
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Abstract

Background: Synthetic algal-fungal and algal-bacterial cultures have been investigated as a means to enhance the technological applications of the algae. This inclusion of other microbes has enhanced growth and improved stress tolerance of the algal culture. The goal of the current study was to investigate natural microbial consortia to gain an understanding of the occurrence and benefits of these associations in nature. The photosynthetic protist Euglena mutabilis is often found in association with other microbes in acidic environments with high heavy metal (HM) concentrations. This may suggest that microbial interactions are essential for the protist's ability to tolerate these extreme environments. Our study assessed the Cd tolerance of a natural fungal-algal-bacterial (FAB) association whereby the algae is E. mutabilis.

Results: This study provides the first assessment of antibiotic and antimycotic agents on an E. mutabilis culture. The results indicate that antibiotic and antimycotic applications significantly decreased the viability of E. mutabilis cells when they were also exposed to Cd. Similar antibiotic treatments of E. gracilis cultures had variable or non-significant impacts on Cd tolerance. E. gracilis also recovered better after pre-treatment with antibiotics and Cd than did E. mutabilis. The recoveries were assessed by heterotrophic growth without antibiotics or Cd. In contrast, both Euglena species displayed increased chlorophyll production upon Cd exposure. PacBio full-length amplicon sequencing and targeted Sanger sequencing identified the microbial species present in the E. mutabilis culture to be the fungus Talaromyces sp. and the bacterium Acidiphilium acidophilum.

Conclusion: This study uncovers a possible fungal, algal, and bacterial relationship, what we refer to as a FAB consortium. The members of this consortium interact to enhance the response to Cd exposure. This results in a E. mutabilis culture that has a higher tolerance to Cd than the axenic E. gracilis. The description of this interaction provides a basis for explore the benefits of natural interactions. This will provide knowledge and direction for use when creating or maintaining FAB interactions for biotechnological purposes, including bioremediation.

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变异丁香幼虫与微生物组成的 FAB 联合体能增强对镉的耐受性。
背景:藻类-真菌和藻类-细菌合成培养物已被研究作为提高藻类技术应用的一种手段。加入其他微生物可促进藻类培养物的生长并提高其抗压能力。本研究的目的是调查天然微生物联合体,以了解这些联合体在自然界中的出现和益处。在重金属(HM)浓度较高的酸性环境中,光合原生动物 Euglena mutabilis 经常与其他微生物结合在一起。这可能表明,微生物之间的相互作用对原生动物耐受这些极端环境的能力至关重要。我们的研究评估了天然真菌-藻类-细菌(FAB)联合体对镉的耐受性,其中的藻类是突变藻:本研究首次评估了抗生素和抗霉菌剂对变异藻培养物的影响。结果表明,当 E. mutabilis 细胞同时暴露于镉时,抗生素和抗霉菌剂的应用会显著降低其活力。对 E. gracilis 培养物进行类似的抗生素处理对镉耐受性的影响不一或不明显。经抗生素和镉预处理后,E. gracilis 也比 E. mutabilis 恢复得更好。恢复情况是通过不使用抗生素或镉的异养生长来评估的。与此相反,在接触镉后,这两种鳗鲡的叶绿素产量都有所增加。PacBio 全长扩增片段测序和目标 Sanger 测序确定了变异欧加氏菌培养物中的微生物物种为真菌 Talaromyces sp.和细菌 Acidiphilium acidophilum:本研究发现了真菌、藻类和细菌之间可能存在的关系,我们称之为 FAB 联合体。该联合体的成员相互作用,增强了对镉暴露的反应。这使得变异藻培养物对镉的耐受性高于轴生藻类。对这种相互作用的描述为探索自然相互作用的益处提供了基础。这将为为生物技术目的(包括生物修复)创建或维持 FAB 相互作用提供知识和方向。
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来源期刊
International Microbiology
International Microbiology 生物-生物工程与应用微生物
CiteScore
5.50
自引率
3.20%
发文量
67
审稿时长
3 months
期刊介绍: International Microbiology publishes information on basic and applied microbiology for a worldwide readership. The journal publishes articles and short reviews based on original research, articles about microbiologists and their work and questions related to the history and sociology of this science. Also offered are perspectives, opinion, book reviews and editorials. A distinguishing feature of International Microbiology is its broadening of the term microbiology to include eukaryotic microorganisms.
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