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Hyperexpansion of genetic diversity and metabolic capacity of extremophilic bacteria and archaea in ancient Andean lake sediments

by Bornemann, Till L. V. , Carrizo, Daniel , Esser, Sarah P. , Probst, Alexander J. , Adam, Panagiotis S. , Cabrol, Nathalie A. , Sánchez-García, Laura , Lezcano, María Ángeles , Parro, Víctor

in Ancient sediments / Andean Altiplano / Anopheles / Archaea - classification / Archaea - genetics / Archaea - metabolism / Bacteria / Bacteria - classification / Bacteria - genetics / Bacteria - isolation & purification / Bacteria - metabolism / Biogeochemical cycles / Bioinformatics / Biological diversity / Biological products industry / Biomedical and Life Sciences / Biomedicine / Biotechnology industry / Chile / Extremophiles - classification / Extremophiles - genetics / Extremophiles - metabolism / Genes / Genetic Variation / Genome-resolved metagenomics / Genomics / Geologic Sediments - microbiology / Lake sediments / Lakes - microbiology / Lipid biomarkers / Mars (Planet) / Medical Microbiology / Microbial dark matter / Microbial Ecology / Microbial Genetics and Genomics / Microbial metabolism / Microbiology / Microbiota / Phylogeny / RNA, Ribosomal, 16S - genetics / Sulfur compounds / Virology

2024

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Hyperexpansion of genetic diversity and metabolic capacity of extremophilic bacteria and archaea in ancient Andean lake sediments

by Bornemann, Till L. V. , Carrizo, Daniel , Esser, Sarah P. , Probst, Alexander J. , Adam, Panagiotis S. , Cabrol, Nathalie A. , Sánchez-García, Laura , Lezcano, María Ángeles , Parro, Víctor

2024

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Hyperexpansion of genetic diversity and metabolic capacity of extremophilic bacteria and archaea in ancient Andean lake sediments

by Bornemann, Till L. V. , Carrizo, Daniel , Esser, Sarah P. , Probst, Alexander J. , Adam, Panagiotis S. , Cabrol, Nathalie A. , Sánchez-García, Laura , Lezcano, María Ángeles , Parro, Víctor

2024

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Journal Article

Hyperexpansion of genetic diversity and metabolic capacity of extremophilic bacteria and archaea in ancient Andean lake sediments

Bornemann, Till L. V.,

Carrizo, Daniel,

Esser, Sarah P.,

Probst, Alexander J.,

Adam, Panagiotis S.,

Cabrol, Nathalie A.,

Sánchez-García, Laura,

Lezcano, María Ángeles,

Parro, Víctor

2024

Overview

Background The Andean Altiplano hosts a repertoire of high-altitude lakes with harsh conditions for life. These lakes are undergoing a process of desiccation caused by the current climate, leaving terraces exposed to extreme atmospheric conditions and serving as analogs to Martian paleolake basins. Microbiomes in Altiplano lake terraces have been poorly studied, enclosing uncultured lineages and a great opportunity to understand environmental adaptation and the limits of life on Earth. Here we examine the microbial diversity and function in ancient sediments (10.3–11 kyr BP (before present)) from a terrace profile of Laguna Lejía, a sulfur- and metal/metalloid-rich saline lake in the Chilean Altiplano. We also evaluate the physical and chemical changes of the lake over time by studying the mineralogy and geochemistry of the terrace profile. Results The mineralogy and geochemistry of the terrace profile revealed large water level fluctuations in the lake, scarcity of organic carbon, and high concentration of SO 4 2- -S, Na, Cl and Mg. Lipid biomarker analysis indicated the presence of aquatic/terrestrial plant remnants preserved in the ancient sediments, and genome-resolved metagenomics unveiled a diverse prokaryotic community with still active microorganisms based on in silico growth predictions. We reconstructed 591 bacterial and archaeal metagenome-assembled genomes (MAGs), of which 98.8% belonged to previously unreported species. The most abundant and widespread metabolisms among MAGs were the reduction and oxidation of S, N, As, and halogenated compounds, as well as aerobic CO oxidation, possibly as a key metabolic trait in the organic carbon-depleted sediments. The broad redox and CO 2 fixation pathways among phylogenetically distant bacteria and archaea extended the knowledge of metabolic capacities to previously unknown taxa. For instance, we identified genomic potential for dissimilatory sulfate reduction in Bacteroidota and α- and γ-Proteobacteria, predicted an enzyme for ammonia oxidation in a novel Actinobacteriota, and predicted enzymes of the Calvin–Benson–Bassham cycle in Planctomycetota, Gemmatimonadota, and Nanoarchaeota. Conclusions The high number of novel bacterial and archaeal MAGs in the Laguna Lejía indicates the wide prokaryotic diversity discovered. In addition, the detection of genes in unexpected taxonomic groups has significant implications for the expansion of microorganisms involved in the biogeochemical cycles of carbon, nitrogen, and sulfur. EPcqnK6xUD66cr6MUL2q3U Video Abstract

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Publisher

BioMed Central,BioMed Central Ltd,BMC

Subject

Ancient sediments

/ Andean Altiplano

/ Anopheles

/ Archaea - classification

/ Archaea - genetics

/ Archaea - metabolism

/ Bacteria