Search

Your search keyword '"Garcia, Manuel"' showing total 13 results
Start Over Author "Garcia, Manuel" Journal the isme journal
13 results on '"Garcia, Manuel"'

1. Contrasting patterns of genome-level diversity across distinct co-occurring bacterial populations.

Author

Garcia, Sarahi L, Stevens, Sarah LR, Crary, Benjamin, Martinez-Garcia, Manuel, Stepanauskas, Ramunas, Woyke, Tanja, Tringe, Susannah G, Andersson, Siv GE, Bertilsson, Stefan, Malmstrom, Rex R, and McMahon, Katherine D

Subjects
Bacteria, Actinobacteria, Alphaproteobacteria, RNA, Ribosomal, 16S, Ecology, Phylogeny, Genome, Bacterial, Genetic Variation, Lakes, RNA, Ribosomal, 16S, Genome, Bacterial, Microbiology, Biological Sciences, Technology, Environmental Sciences
Abstract

To understand the forces driving differentiation and diversification in wild bacterial populations, we must be able to delineate and track ecologically relevant units through space and time. Mapping metagenomic sequences to reference genomes derived from the same environment can reveal genetic heterogeneity within populations, and in some cases, be used to identify boundaries between genetically similar, but ecologically distinct, populations. Here we examine population-level heterogeneity within abundant and ubiquitous freshwater bacterial groups such as the acI Actinobacteria and LD12 Alphaproteobacteria (the freshwater sister clade to the marine SAR11) using 33 single-cell genomes and a 5-year metagenomic time series. The single-cell genomes grouped into 15 monophyletic clusters (termed "tribes") that share at least 97.9% 16S rRNA identity. Distinct populations were identified within most tribes based on the patterns of metagenomic read recruitments to single-cell genomes representing these tribes. Genetically distinct populations within tribes of the acI Actinobacterial lineage living in the same lake had different seasonal abundance patterns, suggesting these populations were also ecologically distinct. In contrast, sympatric LD12 populations were less genetically differentiated. This suggests that within one lake, some freshwater lineages harbor genetically discrete (but still closely related) and ecologically distinct populations, while other lineages are composed of less differentiated populations with overlapping niches. Our results point at an interplay of evolutionary and ecological forces acting on these communities that can be observed in real time.

Published
2018

2. Tuning fresh: radiation through rewiring of central metabolism in streamlined bacteria.

Author

Eiler, Alexander, Mondav, Rhiannon, Sinclair, Lucas, Fernandez-Vidal, Leyden, Scofield, Douglas G, Schwientek, Patrick, Martinez-Garcia, Manuel, Torrents, David, McMahon, Katherine D, Andersson, Siv Ge, Stepanauskas, Ramunas, Woyke, Tanja, and Bertilsson, Stefan

Subjects
Plankton, Alphaproteobacteria, Carbon, Ecosystem, Fresh Water, Adaptation, Physiological, Phylogeny, Phenotype, Biological Evolution, Adaptation, Physiological, Microbiology, Biological Sciences, Technology, Environmental Sciences
Abstract

Most free-living planktonic cells are streamlined and in spite of their limitations in functional flexibility, their vast populations have radiated into a wide range of aquatic habitats. Here we compared the metabolic potential of subgroups in the Alphaproteobacteria lineage SAR11 adapted to marine and freshwater habitats. Our results suggest that the successful leap from marine to freshwaters in SAR11 was accompanied by a loss of several carbon degradation pathways and a rewiring of the central metabolism. Examples for these are C1 and methylated compounds degradation pathways, the Entner-Doudouroff pathway, the glyoxylate shunt and anapleuretic carbon fixation being absent from the freshwater genomes. Evolutionary reconstructions further suggest that the metabolic modules making up these important freshwater metabolic traits were already present in the gene pool of ancestral marine SAR11 populations. The loss of the glyoxylate shunt had already occurred in the common ancestor of the freshwater subgroup and its closest marine relatives, suggesting that the adaptation to freshwater was a gradual process. Furthermore, our results indicate rapid evolution of TRAP transporters in the freshwater clade involved in the uptake of low molecular weight carboxylic acids. We propose that such gradual tuning of metabolic pathways and transporters toward locally available organic substrates is linked to the formation of subgroups within the SAR11 clade and that this process was critical for the freshwater clade to find and fix an adaptive phenotype.

Published
2016

5. Unexpected myriad of co-occurring viral strains and species in one of the most abundant and microdiverse viruses on Earth

Author

Martinez-Hernandez, Francisco, Diop, Awa, Garcia-Heredia, Inmaculada, Bobay, Louis-Marie, and Martinez-Garcia, Manuel

Abstract

Viral genetic microdiversity drives adaptation, pathogenicity, and speciation and has critical consequences for the viral-host arms race occurring at the strain and species levels, which ultimately impact microbial community structure and biogeochemical cycles. Despite the fact that most efforts have focused on viral macrodiversity, little is known about the microdiversity of ecologically important viruses on Earth. Recently, single-virus genomics discovered the putatively most abundant ocean virus in temperate and tropical waters: the uncultured dsDNA virus vSAG 37-F6 infecting Pelagibacter, the most abundant marine bacteria. In this study, we report the cooccurrence of up to ˜1,500 different viral strains (>95% nucleotide identity) and ˜30 related species (80-95% nucleotide identity) in a single oceanic sample. Viral microdiversity was maintained over space and time, and most alleles were the result of synonymous mutations without any apparent adaptive benefits to cope with host translation codon bias and efficiency. Gene flow analysis used to delimitate species according to the biological species concept (BSC) revealed the impact of recombination in shaping vSAG 37-F6 virus and Pelagibacterspeciation. Data demonstrated that this large viral microdiversity somehow mirrors the host species diversity since ˜50% of the 926 analyzed Pelagibactergenomes were found to belong to independent BSC species that do not significantly engage in gene flow with one another. The host range of this evolutionarily successful virus revealed that a single viral species can infect multiple PelagibacterBSC species, indicating that this virus crosses not only formal BSC barriers but also biomes since viral ancestors are found in freshwater.

Published
2022
Full Text
View/download PDF

6. Single-cell genomics uncover Pelagibacter as the putative host of the extremely abundant uncultured 37-F6 viral population in the ocean

Author

Martinez-Hernandez, Francisco, primary, Fornas, Òscar, additional, Lluesma Gomez, Monica, additional, Garcia-Heredia, Inmaculada, additional, Maestre-Carballa, Lucia, additional, López-Pérez, Mario, additional, Haro-Moreno, Jose M., additional, Rodriguez-Valera, Francisco, additional, and Martinez-Garcia, Manuel, additional

Published
2018
Full Text
View/download PDF

7. Contrasting patterns of genome-level diversity across distinct co-occurring bacterial populations

Author

Garcia, Sarahi L., primary, Stevens, Sarah L. R., additional, Crary, Benjamin, additional, Martinez-Garcia, Manuel, additional, Stepanauskas, Ramunas, additional, Woyke, Tanja, additional, Tringe, Susannah G., additional, Andersson, Siv G. E., additional, Bertilsson, Stefan, additional, Malmstrom, Rex R., additional, and McMahon, Katherine D., additional

Published
2017
Full Text
View/download PDF

8. Single-cell genomics uncover Pelagibacter as the putative host of the extremely abundant uncultured 37-F6 viral population in the ocean

Author

Martinez-Hernandez, Francisco, Fornas, Òscar, Lluesma Gomez, Monica, Garcia-Heredia, Inmaculada, Maestre-Carballa, Lucia, López-Pérez, Mario, Haro-Moreno, Jose M, Rodriguez-Valera, Francisco, and Martinez-Garcia, Manuel

Abstract

The identification of relevant virus–host pairs that globally account for a large pool of carbon and nutrients in the ocean is paramount to build accurate ecological models. A previous work using single-virus genomics led to the discovery of the uncultured single-virus vSAG 37-F6, originally sorted from the Mediterranean Sea (Blanes Bay Microbial Observatory), that represents one of the most abundant dsDNA viral population in the marine surface virosphere. Here, from same sampling site, we report that a Pelagibacter single-cell contained a viral member of vSAG 37-F6 population, by means of PCR screening of sorted, genome-amplified single cells with vSAG 37-F6-specific primers and whole-genome sequencing. Furthermore, viruses from this population were also found in three other Pelagibacter single cells from the South Pacific and Atlantic oceans. These new uncultured pelagiphages were genetically different from the previously characterized pelagiphage isolates. Data showed that the uncultured vSAG 37-F6 population represents the Pelagibacter phages that inhabit the sunlit ocean better, and contains a vast unrecognized microdiversity.

Published
2019
Full Text
View/download PDF

9. Comparative single-cell genomics reveals potential ecological niches for the freshwater acI Actinobacteria lineage

Author

Ghylin, Trevor W, primary, Garcia, Sarahi L, additional, Moya, Francisco, additional, Oyserman, Ben O, additional, Schwientek, Patrick, additional, Forest, Katrina T, additional, Mutschler, James, additional, Dwulit-Smith, Jeffrey, additional, Chan, Leong-Keat, additional, Martinez-Garcia, Manuel, additional, Sczyrba, Alexander, additional, Stepanauskas, Ramunas, additional, Grossart, Hans-Peter, additional, Woyke, Tanja, additional, Warnecke, Falk, additional, Malmstrom, Rex, additional, Bertilsson, Stefan, additional, and McMahon, Katherine D, additional

Published
2014
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results