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A thermophilic chemolithoautotrophic bacterial consortium suggests a mutual relationship between bacteria in extreme oligotrophic environments

Yuri Pinheiro, Fábio Faria da Mota, Raquel S. Peixoto, Jan Dirk van Elsas, Ulysses Lins, Jorge L. Mazza Rodrigues, Alexandre Soares Rosado

2023Communications Biology12 citationsDOIOpen Access PDF

Abstract

, and CO is investigated as a model to expand our understanding of extreme biological systems. Here we show that the consortium is dominated by Carbonactinospora thermoautotrophica (strain StC), followed by Sphaerobacter thermophilus, Chelatococcus spp., and Geobacillus spp. Metagenomic analysis of the consortium reveals a mutual relationship among bacteria, with C. thermoautotrophica StC exhibiting carboxydotrophy and carbon-dioxide storage capacity. C. thermoautotrophica StC, Chelatococcus spp., and S. thermophilus harbor genes encoding CO dehydrogenase and formate oxidase. No pure cultures were obtained under the original growth conditions, indicating that a tightly regulated interactive metabolism might be required for group survival and growth in this extreme oligotrophic system. The breadwinner hypothesis is proposed to explain the metabolic flux model and highlight the vital role of C. thermoautotrophica StC (the sole keystone species and primary carbon producer) in the survival of all consortium members. Our data may contribute to the investigation of complex interactions in extreme environments, exemplifying the interconnections and dependency within microbial communities.

Topics & Concepts

ThermophileFormateExtreme environmentBacteriaMetagenomicsBiologyMicrobial consortiumCarbon dioxideMicrobial metabolismFood scienceMicroorganismEcologyBiochemistryGeneGeneticsCatalysisMicrobial Community Ecology and PhysiologyMethane Hydrates and Related PhenomenaGenomics and Phylogenetic Studies