Ancient and remote quartzite caves as a novel source of culturable microbes with biotechnological potential

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Daniele Ghezzi , Luca Salvi , Paolo E. Costantini , Andrea Firrincieli , Marianna Iorio , Ettore Lopo , Margherita Sosio , Ahmed H. Elbanna , Zeinab G. Khalil , Robert J. Capon , Jo De Waele , Freddy Vergara , Francesco Sauro , Martina Cappelletti
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Abstract

Quartzite caves located on table-top mountains (tepuis) in the Guyana Shield, are ancient, remote, and pristine subterranean environments where microbes have evolved peculiar metabolic strategies to thrive in silica-rich, slightly acidic and oligotrophic conditions. In this study, we explored the culturable fraction of the microbiota inhabiting the (ortho)quartzite cave systems in Venezuelan tepui (remote table-top mountains) and we investigated their metabolic and enzymatic activities in relation with silica solubilization and extracellular hydrolytic activities as well as the capacity to produce antimicrobial compounds. Eighty microbial strains were isolated with a range of different enzymatic capabilities. More than half of the isolated strains performed at least three enzymatic activities and four bacterial strains displayed antimicrobial activities. The antimicrobial producers Paraburkholderia bryophila CMB_CA002 and Sphingomonas sp. MEM_CA187, were further analyzed by conducting chemotaxonomy, phylogenomics, and phenomics. While the isolate MEM_CA187 represents a novel species of the genus Sphingomonas, for which the name Sphingomonas imawarii sp. nov. is proposed, P. bryophila CMB_CA002 is affiliated with a few strains of the same species that are antimicrobial producers. Chemical analyses demonstrated that CMB_CA002 produces ditropolonyl sulfide that has a broad range of activity and a possibly novel siderophore. Although the antimicrobial compounds produced by MEM_CA187 could not be identified through HPLC-MS analysis due to the absence of reference compounds, it represents the first soil-associated Sphingomonas strain with the capacity to produce antimicrobials. This work provides first insights into the metabolic potential present in quartzite cave systems pointing out that these environments are a novel and still understudied source of microbial strains with biotechnological potential.

Abstract Image

遥远而古老的石英岩洞穴是具有生物技术潜力的可培养微生物的新来源
位于圭亚那地盾台顶山(tepuis)上的石英岩洞穴是一种古老、偏远和原始的地下环境,在这种环境中,微生物进化出了奇特的代谢策略,以便在富含二氧化硅、微酸性和低营养的条件下繁衍生息。在这项研究中,我们探索了栖息在委内瑞拉特普伊(偏远的台地山脉)(正长岩)石英岩洞穴系统中的微生物群的可培养部分,并研究了它们的代谢和酶活性与二氧化硅溶解和细胞外水解活性的关系,以及产生抗菌化合物的能力。我们分离出了 80 株具有不同酶解能力的微生物菌株。一半以上的分离菌株至少具有三种酶活性,四种细菌菌株具有抗菌活性。通过化学分类学、系统发生组学和表型组学,对抗菌剂产生菌 Paraburkholderia bryophila CMB_CA002 和 Sphingomonas sp.分离物 MEM_CA187 代表了鞘氨单胞菌属的一个新物种,因此被命名为 Sphingomonas imawarii sp.化学分析结果表明,CMB_CA002 产生的二苯丙酮基硫醚具有广泛的活性,并可能是一种新型嗜苷酸盐。虽然由于缺乏参考化合物,无法通过 HPLC-MS 分析鉴定 MEM_CA187 产生的抗菌化合物,但它代表了首个具有生产抗菌剂能力的土壤相关鞘氨单胞菌菌株。这项研究首次揭示了石英岩洞穴系统的新陈代谢潜力,指出这些环境是具有生物技术潜力的微生物菌株的新来源,但对其研究尚不充分。
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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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