Your search keyword '"Garcia, Manuel"' showing total 16 results

1. Viruses under the Antarctic Ice Shelf are active and potentially involved in global nutrient cycles.

Author

Lopez-Simon J, Vila-Nistal M, Rosenova A, De Corte D, Baltar F, and Martinez-Garcia M

Subjects

Antarctic Regions, Archaea, Sulfur, Ice Cover, Ecosystem, Viruses genetics

Abstract

Viruses play an important role in the marine ecosystem. However, our comprehension of viruses inhabiting the dark ocean, and in particular, under the Antarctic Ice Shelves, remains limited. Here, we mine single-cell genomic, transcriptomic, and metagenomic data to uncover the viral diversity, biogeography, activity, and their role as metabolic facilitators of microbes beneath the Ross Ice Shelf. This is the largest Antarctic ice shelf with a major impact on global carbon cycle. The viral community found in the cavity under the ice shelf mainly comprises endemic viruses adapted to polar and mesopelagic environments. The low abundance of genes related to lysogenic lifestyle (<3%) does not support a predominance of the Piggyback-the-Winner hypothesis, consistent with a low-productivity habitat. Our results indicate a viral community actively infecting key ammonium and sulfur-oxidizing chemolithoautotrophs (e.g. Nitrosopumilus spp, Thioglobus spp.), supporting a "kill-the-winner" dynamic. Based on genome analysis, these viruses carry specific auxiliary metabolic genes potentially involved in nitrogen, sulfur, and phosphorus acquisition. Altogether, the viruses under Antarctic ice shelves are putatively involved in programming the metabolism of ecologically relevant microbes that maintain primary production in these chemosynthetically-driven ecosystems, which have a major role in global nutrient cycles., (© 2023. The Author(s).)

Published

2023

2. Novel RNA viruses from the Atlantic Ocean: Ecogenomics, biogeography, and total virioplankton mass contribution from surface to the deep ocean.

Author

Vila-Nistal M, Maestre-Carballa L, Martinez-Hernández F, and Martinez-Garcia M

Subjects

Oceans and Seas, Atlantic Ocean, RNA, Seawater, RNA Viruses genetics, Viruses

Abstract

Marine viruses play a major role in the energy and nutrient cycle and affect the evolution of their hosts. Despite their importance, there is still little knowledge about RNA viruses. Here, we have explored the Atlantic Ocean, from surface to deep (4.296 m), and used viromics and quantitative methods to unveil the genomics, biogeography, and the mass contribution of RNA viruses to the total viroplankton. A total of 2481 putative RNA viral contigs (>500 bp) and 107 larger bona fide RNA viral genomes (>2.5 kb) were identified; 88 of them representing novel viruses belonging mostly to two clades: Yangshan assemblage (sister clade to the class Alsuviricetes) and Nodaviridae. These viruses were highly endemic and locally abundant, with little or no presence in other oceans since only ≈15% of them were found in at least one of the Tara sampling metatranscriptomes. Quantitative data indicated that the abundance of RNA viruses in the surface and deep chlorophyll maximum zone was within ≈10 6  VLP/mL representing a potential contribution of 5.2%-24.4% to the total viroplankton community (DNA and RNA viruses), with DNA viruses being the predominant members (≈10 7  VLP/mL). However, for the deep sample, the observed trend was the opposite, although as further discussed, several biases should be considered. Together these results contribute to our understanding of the diversity, abundance, and distribution of RNA viruses in the oceans and provide a basis for further investigation into their ecological roles and biogeography., (© 2023 The Authors. Environmental Microbiology published by Applied Microbiology International and John Wiley & Sons Ltd.)

Published

2023

3. Into the Dark: Exploring the Deep Ocean with Single-Virus Genomics.

Author

Martinez-Hernandez F, Fornas O, and Martinez-Garcia M

Subjects

Genome, Viral, Mediterranean Sea, Metagenomics, Phylogeny, Seawater, Alphaproteobacteria genetics, Viruses genetics

Abstract

Single-virus genomics (SVGs) has been successfully applied to ocean surface samples allowing the discovery of widespread dominant viruses overlooked for years by metagenomics, such as the uncultured virus vSAG 37-F6 infecting the ubiquitous Pelagibacter spp. In SVGs, one uncultured virus at a time is sorted from the environmental sample, whole-genome amplified, and sequenced. Here, we have applied SVGs to deep-ocean samples (200-4000 m depth) from global Malaspina and MEDIMAX expeditions, demonstrating the feasibility of this method in deep-ocean samples. A total of 1328 virus-like particles were sorted from the North Atlantic Ocean, the deep Mediterranean Sea, and the Pacific Ocean oxygen minimum zone (OMZ). For this proof of concept, sixty single viruses were selected at random for sequencing. Genome annotation identified 27 of these genomes as bona fide viruses, and detected three auxiliary metabolic genes involved in nucleotide biosynthesis and sugar metabolism. Massive protein profile analysis confirmed that these viruses represented novel viral groups not present in databases. Although they were not previously assembled by viromics, global fragment recruitment analysis showed a conserved profile of relative abundance of these viruses in all analyzed samples spanning different oceans. Altogether, these results reveal the feasibility in using SVGs in this vast environment to unveil the genomes of relevant viruses.

Published

2022

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

Author

Martinez-Hernandez F, Diop A, Garcia-Heredia I, Bobay LM, and Martinez-Garcia M

Subjects

DNA Viruses genetics, Nucleotides, Oceans and Seas, Seawater microbiology, Alphaproteobacteria, Viruses genetics

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 Pelagibacter speciation. Data demonstrated that this large viral microdiversity somehow mirrors the host species diversity since ≈50% of the 926 analyzed Pelagibacter genomes 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 Pelagibacter BSC species, indicating that this virus crosses not only formal BSC barriers but also biomes since viral ancestors are found in freshwater., (© 2021. The Author(s), under exclusive licence to International Society for Microbial Ecology.)

Published

2022

5. Single-virus genomics and beyond.

Author

Martínez Martínez J, Martinez-Hernandez F, and Martinez-Garcia M

Subjects

Animals, Aquatic Organisms, Carbon Cycle, Cell Culture Techniques, Computational Biology instrumentation, Genetic Variation, Humans, Metagenomics instrumentation, Optical Tweezers, Virion metabolism, Virion ultrastructure, Viruses classification, Viruses metabolism, Viruses ultrastructure, Computational Biology methods, Genome, Viral, Metagenome, Metagenomics methods, Virion genetics, Viruses genetics

Abstract

Viruses are extremely diverse and modulate important biological and ecological processes globally. However, much of viral diversity remains uncultured and yet to be discovered. Several powerful culture-independent tools, in particular metagenomics, have substantially advanced virus discovery. Among those tools is single-virus genomics, which yields sequenced reference genomes from individual sorted virus particles without the need for cultivation. This new method complements virus culturing and metagenomic approaches and its advantages include targeted investigation of specific virus groups and investigation of genomic microdiversity within viral populations. In this Review, we provide a brief history of single-virus genomics, outline how this emergent method has facilitated advances in virus ecology and discuss its current limitations and future potential. Finally, we address how this method may synergistically intersect with other single-virus and single-cell approaches., (© 2020. Springer Nature Limited.)

Published

2020

6. Minimum Information about an Uncultivated Virus Genome (MIUViG).

Author

Roux S, Adriaenssens EM, Dutilh BE, Koonin EV, Kropinski AM, Krupovic M, Kuhn JH, Lavigne R, Brister JR, Varsani A, Amid C, Aziz RK, Bordenstein SR, Bork P, Breitbart M, Cochrane GR, Daly RA, Desnues C, Duhaime MB, Emerson JB, Enault F, Fuhrman JA, Hingamp P, Hugenholtz P, Hurwitz BL, Ivanova NN, Labonté JM, Lee KB, Malmstrom RR, Martinez-Garcia M, Mizrachi IK, Ogata H, Páez-Espino D, Petit MA, Putonti C, Rattei T, Reyes A, Rodriguez-Valera F, Rosario K, Schriml L, Schulz F, Steward GF, Sullivan MB, Sunagawa S, Suttle CA, Temperton B, Tringe SG, Thurber RV, Webster NS, Whiteson KL, Wilhelm SW, Wommack KE, Woyke T, Wrighton KC, Yilmaz P, Yoshida T, Young MJ, Yutin N, Allen LZ, Kyrpides NC, and Eloe-Fadrosh EA

Subjects

Databases, Genetic, Genome, Viral, Genomics methods, Virus Cultivation, Viruses genetics, Viruses isolation & purification

Abstract

We present an extension of the Minimum Information about any (x) Sequence (MIxS) standard for reporting sequences of uncultivated virus genomes. Minimum Information about an Uncultivated Virus Genome (MIUViG) standards were developed within the Genomic Standards Consortium framework and include virus origin, genome quality, genome annotation, taxonomic classification, biogeographic distribution and in silico host prediction. Community-wide adoption of MIUViG standards, which complement the Minimum Information about a Single Amplified Genome (MISAG) and Metagenome-Assembled Genome (MIMAG) standards for uncultivated bacteria and archaea, will improve the reporting of uncultivated virus genomes in public databases. In turn, this should enable more robust comparative studies and a systematic exploration of the global virosphere.

Published

2019

7. Single-virus genomics reveals hidden cosmopolitan and abundant viruses.

Author

Martinez-Hernandez F, Fornas O, Lluesma Gomez M, Bolduc B, de la Cruz Peña MJ, Martínez JM, Anton J, Gasol JM, Rosselli R, Rodriguez-Valera F, Sullivan MB, Acinas SG, and Martinez-Garcia M

Subjects

Atlantic Ocean, Biodiversity, Data Mining methods, Flow Cytometry methods, Genome, Viral, Mediterranean Sea, Metagenome, Polymorphism, Single Nucleotide, Proteomics methods, Viruses isolation & purification, Genomics methods, Seawater virology, Viruses genetics

Abstract

Microbes drive ecosystems under constraints imposed by viruses. However, a lack of virus genome information hinders our ability to answer fundamental, biological questions concerning microbial communities. Here we apply single-virus genomics (SVGs) to assess whether portions of marine viral communities are missed by current techniques. The majority of the here-identified 44 viral single-amplified genomes (vSAGs) are more abundant in global ocean virome data sets than published metagenome-assembled viral genomes or isolates. This indicates that vSAGs likely best represent the dsDNA viral populations dominating the oceans. Species-specific recruitment patterns and virome simulation data suggest that vSAGs are highly microdiverse and that microdiversity hinders the metagenomic assembly, which could explain why their genomes have not been identified before. Altogether, SVGs enable the discovery of some of the likely most abundant and ecologically relevant marine viral species, such as vSAG 37-F6, which were overlooked by other methodologies.

Published

2017

8. Diel cycling of the cosmopolitan abundant Pelagibacter virus 37‐F6: one of the most abundant viruses on earth.

Author

Martinez‐Hernandez, Francisco, Luo, Elaine, Tominaga, Kento, Ogata, Hiroyuki, Yoshida, Takashi, DeLong, Edward F., and Martinez‐Garcia, Manuel

Subjects

CIRCADIAN rhythms, VIRUSES, EMPLOYEE reviews

Abstract

Summary: The spatiotemporal dynamics for marine viral populations has only recently been explored. However, nothing is known about temporal activities of the uncultured Pelagibacter virus vSAG 37‐F6, which was discovered by single‐virus genomics as potentially the most abundant marine virus. Here, we investigate the diel cycling of 37‐F6 virus and the putative SAR11 host using coastal and oceanic transcriptomic and viromic time‐series data from Osaka Bay and North Pacific Subtropical Gyre. Virus 37‐F6 and relatives displayed diel cycling of transcriptional activities synchronized with its putative host. In both virus and host, the lowest transcription rates were observed at 14:00–15:00, coinciding roughly with maximum solar irradiance, while higher transcriptional rates were detected during the night/early morning and afternoon. Diel abundance of free viruses of 37‐F6 in seawater roughly mirrored the transcriptional activities of both virus and host. In Osaka Bay, among viral relatives (genus level), virus 37‐F6 specifically showed the highest ratio of transcriptional activity to virome abundance, a proxy for viral transcriptional activity relative to free viral particle abundance. This high ratio suggests high infection rate efficiencies in vSAG 37‐F6 virus compared to viral relatives. Thus, time‐series data revealed temporal transcript activities in one of the most abundant viruses in Earth. [ABSTRACT FROM AUTHOR]

Published

2020

9. Insights into the antibiotic resistance dissemination in a wastewater effluent microbiome: bacteria, viruses and vesicles matter.

Author

Maestre‐Carballa, Lucia, Lluesma Gomez, Monica, Angla Navarro, Andrea, Garcia‐Heredia, Inmaculada, Martinez‐Hernandez, Francisco, and Martinez‐Garcia, Manuel

Subjects

DRUG resistance in bacteria, SEWAGE disposal plants, BACTERIA, MATTER, VIRUSES

Abstract

Summary: Wastewater treatment plants effluents are considered as hotspots for the dispersion of antibiotic resistance genes (ARGs) into natural ecosystems. The bacterial resistome (ARG collection in a metagenome) analyses have provided clues on antibacterial resistance dynamics. However, viruses and vesicles are frequently ignored. Here, we addressed the bacterial, viral and vesicle resistomes from a representative wastewater effluent in natural conditions and amended with polymyxin, which is used as a last resort antibiotic. Metagenomics showed that the natural prokaryotic resistome was vast (9000 ARG hits/Gb metagenome) and diverse, while viral resistome was two orders of magnitude lower (50 ARG hits/Gb metagenome) suggesting that viruses rarely encoded ARGs. After polymyxin amendment, data showed no ARG enrichment – including to polymyxin – in the microbiome. Remarkably, microbiomes responded to polymyxin with a vast release of putative vesicles (threefold increase compared with the control), which might be used as 'traps' to decrease the antibiotic concentration. Intriguingly, although polymyxin resistance genes (PRGs) were rare in the microbiome (0.018% of total ARG found), in the viral and vesicle fractions, PRGs were more abundant (0.5%–0.8% of total ARG found). Our data suggest that vesicles could have a more active role in the context of transmission of antibiotic resistances. [ABSTRACT FROM AUTHOR]

Published

2019

10. Cumulative Testing Experience With Consecutive Lots Of Oral Poliomyelitis Vaccine

Author

Cabasso, Victor J., Jervis, George A., Moyer, Arden W., Roca-Garcia, Manuel, Orsi, Ernest V., and Cox, Herald R.

Published

1960

11. Assessment Of Correlation Between Certain In Vitro Poliovirus Markers And Monkey Neurovirulence

Author

Cabasso, Victor J., Jungherr, Erwin L., Levine, Seymour, Moyer, Arden W., Roca-Garcia, Manuel, and Cox, Herald R.

Published

1960

12. Immunological Response To Trivalent Oral Poliomyelitis Vaccine

Author

Cox, Herald R., Cabasso, Victor J., Markham, Floyd S., Moses, Max J., Moyer, Arden W., Roca-Garcia, Manuel, and Ruegsegger, James M.

Published

1959

13. Laboratory Studies Associated with Field Trials of Monovalent Oral Poliovirus Vaccines

Author

Roca-Garcia, Manuel, Orsi, Ernest V., Jervis, George A., Markham, Floyd S., Bacigalupi, Juan C., Doany, Hanna, Tosi, Hector, Cabasso, Victor J., Moyer, Arden W., and Cox, Herald R.

Published

1960

14. The Isolation of Three Neurotropic Viruses from Forest Mosquitoes in Eastern Colombia

Author

Roca-Garcia, Manuel

Published

1944

15. Viruses of the Lymphogranuloma-Psittacosis Group Isolated from Opossums in Colombia. Opossum Virus A

Author

Roca-García, Manuel

Published

1949

16. Droplet Digital PCR for Estimating Absolute Abundances of Widespread Pelagibacter Viruses.

Author

Martinez-Hernandez, Francisco, Garcia-Heredia, Inmaculada, Lluesma Gomez, Monica, Maestre-Carballa, Lucia, Martínez Martínez, Joaquín, and Martinez-Garcia, Manuel

Subjects

OFFSHORE structures, VIRUSES, MICROORGANISM populations, DROPLETS

Abstract

Absolute abundances of prokaryotes are typically determined by FISH. Due to the lack of a universal conserved gene among all viruses, metagenomic fragment recruitment is commonly used to estimate the relative viral abundance. However, the paucity of absolute virus abundance data hinders our ability to fully understand how viruses drive global microbial populations. The cosmopolitan marine Pelagibacter ubique is host for the highly widespread HTVC010P pelagiphage isolate and the extremely abundant uncultured virus vSAG 37-F6 recently discovered by single-virus genomics. Here we applied droplet digital PCR (ddPCR) to calculate the absolute abundance of these pelagiphage genotypes in the Mediterranean Sea and the Gulf of Maine. Abundances were between 360 and 8,510 virus mL-1 and 1,270–14,400 virus mL-1 for vSAG 37-F6 and HTVC010P, respectively. Illumina PCR-amplicon sequencing corroborated the absence of ddPCR non-specific amplifications for vSAG 37-F6, but showed an overestimation of 6% for HTVC010P from off-targets, genetically unrelated viruses. Absolute abundances of both pelagiphages, two of the most abundance marine viruses, suggest a large viral pelagiphage diversity in marine environments, and show the efficiency and power of ddPCR to disentangle the structure of marine viral communities. Results also highlight the need for a standardized workflow to obtain accurate quantification that allows cross data comparison. [ABSTRACT FROM AUTHOR]

Published

2019