Your search keyword '"Huerta-Cepas, Jaime' showing total 487 results

1. Fecal microbiota transplantation alters the proteomic landscape of inflammation in HIV: identifying bacterial drivers

Author

Díaz-García, Claudio, Moreno, Elena, Talavera-Rodríguez, Alba, Martín-Fernández, Lucía, González-Bodí, Sara, Martín-Pedraza, Laura, Pérez-Molina, José A., Dronda, Fernando, Gosalbes, María José, Luna, Laura, Vivancos, María Jesús, Huerta-Cepas, Jaime, Moreno, Santiago, and Serrano-Villar, Sergio

Published

2024

2. A global survey of prokaryotic genomes reveals the eco-evolutionary pressures driving horizontal gene transfer

Author

Dmitrijeva, Marija, Tackmann, Janko, Matias Rodrigues, João Frederico, Huerta-Cepas, Jaime, Coelho, Luis Pedro, and von Mering, Christian

Published

2024

3. Expanded phylogeny of extremely halophilic archaea shows multiple independent adaptations to hypersaline environments

Author

Baker, Brittany A., Gutiérrez-Preciado, Ana, Rodríguez del Río, Álvaro, McCarthy, Charley G. P., López-García, Purificación, Huerta-Cepas, Jaime, Susko, Edward, Roger, Andrew J., Eme, Laura, and Moreira, David

Published

2024

4. Functional and evolutionary significance of unknown genes from uncultivated taxa

Author

Rodríguez del Río, Álvaro, Giner-Lamia, Joaquín, Cantalapiedra, Carlos P., Botas, Jorge, Deng, Ziqi, Hernández-Plaza, Ana, Munar-Palmer, Martí, Santamaría-Hernando, Saray, Rodríguez-Herva, José J., Ruscheweyh, Hans-Joachim, Paoli, Lucas, Schmidt, Thomas S. B., Sunagawa, Shinichi, Bork, Peer, López-Solanilla, Emilia, Coelho, Luis Pedro, and Huerta-Cepas, Jaime

Published

2024

5. Discovery of antimicrobial peptides in the global microbiome with machine learning

Author

Santos-Júnior, Célio Dias, Torres, Marcelo D.T., Duan, Yiqian, Rodríguez del Río, Álvaro, Schmidt, Thomas S.B., Chong, Hui, Fullam, Anthony, Kuhn, Michael, Zhu, Chengkai, Houseman, Amy, Somborski, Jelena, Vines, Anna, Zhao, Xing-Ming, Bork, Peer, Huerta-Cepas, Jaime, de la Fuente-Nunez, Cesar, and Coelho, Luis Pedro

Published

2024

6. Comparison of gene clustering criteria reveals intrinsic uncertainty in pangenome analyses

Author

Saioa Manzano-Morales, Yang Liu, Sara González-Bodí, Jaime Huerta-Cepas, and Jaime Iranzo

Subjects

Pangenome, Orthology, Comparative genomics, Homology, Core gene, Accessory genome, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background A key step for comparative genomics is to group open reading frames into functionally and evolutionarily meaningful gene clusters. Gene clustering is complicated by intraspecific duplications and horizontal gene transfers that are frequent in prokaryotes. In consequence, gene clustering methods must deal with a trade-off between identifying vertically transmitted representatives of multicopy gene families, which are recognizable by synteny conservation, and retrieving complete sets of species-level orthologs. We studied the implications of adopting homology, orthology, or synteny conservation as formal criteria for gene clustering by performing comparative analyses of 125 prokaryotic pangenomes. Results Clustering criteria affect pangenome functional characterization, core genome inference, and reconstruction of ancestral gene content to different extents. Species-wise estimates of pangenome and core genome sizes change by the same factor when using different clustering criteria, allowing robust cross-species comparisons regardless of the clustering criterion. However, cross-species comparisons of genome plasticity and functional profiles are substantially affected by inconsistencies among clustering criteria. Such inconsistencies are driven not only by mobile genetic elements, but also by genes involved in defense, secondary metabolism, and other accessory functions. In some pangenome features, the variability attributed to methodological inconsistencies can even exceed the effect sizes of ecological and phylogenetic variables. Conclusions Choosing an appropriate criterion for gene clustering is critical to conduct unbiased pangenome analyses. We provide practical guidelines to choose the right method depending on the research goals and the quality of genome assemblies, and a benchmarking dataset to assess the robustness and reproducibility of future comparative studies.

Published

2023

7. Exploring the sediment-associated microbiota of the Mar Menor coastal lagoon

Author

Joaquín Giner-Lamia and Jaime Huerta-Cepas

Subjects

Mar Menor (SE Spain), coastal lagoon, coastal sediments, microbial communities, ecological biomarkers, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Published

2024

8. eggNOG 6.0: enabling comparative genomics across 12 535 organisms.

Author

Ana Hernández-Plaza, Damian Szklarczyk, Jorge Botas, Carlos P. Cantalapiedra, Joaquín Giner-Lamia, Daniel R. Mende, Rebecca Kirsch, Thomas Rattei, Ivica Letunic, Lars Juhl Jensen, Peer Bork, Christian von Mering, and Jaime Huerta-Cepas

Published

2023

9. proGenomes3: approaching one million accurately and consistently annotated high-quality prokaryotic genomes.

Author

Anthony Fullam, Ivica Letunic, Thomas S. B. Schmidt, Quinten R. Ducarmon, Nicolai Karcher, Supriya Khedkar, Michael Kuhn 0004, Martin Larralde, Oleksandr M. Maistrenko, Lukas Malfertheiner, Alessio Milanese, João F. Matias Rodrigues, Claudia Sanchis-López, Christian Schudoma, Damian Szklarczyk, Shinichi Sunagawa, Georg Zeller, Jaime Huerta-Cepas, Christian von Mering, Peer Bork, and Daniel R. Mende

Published

2023

10. New globally distributed bacterial phyla within the FCB superphylum

Author

Xianzhe Gong, Álvaro Rodríguez del Río, Le Xu, Zhiyi Chen, Marguerite V. Langwig, Lei Su, Mingxue Sun, Jaime Huerta-Cepas, Valerie De Anda, and Brett J. Baker

Subjects

Science

Abstract

Our understanding of microbial diversity and physiology in marine sediments is limited. Here, Gong et al. analyze thousands of metagenome-assembled genomes (MAGs) from coastal and deep-sea sediments, and identify MAGs belonging to new bacterial phyla that seem able to mediate key steps in sedimentary biogeochemistry.

Published

2022

11. Gene Expression Changes and Community Turnover Differentially Shape the Global Ocean Metatranscriptome

Author

Salazar, Guillem, Paoli, Lucas, Alberti, Adriana, Huerta-Cepas, Jaime, Ruscheweyh, Hans-Joachim, Cuenca, Miguelangel, Field, Christopher M, Coelho, Luis Pedro, Cruaud, Corinne, Engelen, Stefan, Gregory, Ann C, Labadie, Karine, Marec, Claudie, Pelletier, Eric, Royo-Llonch, Marta, Roux, Simon, Sánchez, Pablo, Uehara, Hideya, Zayed, Ahmed A, Zeller, Georg, Carmichael, Margaux, Dimier, Céline, Ferland, Joannie, Kandels, Stefanie, Picheral, Marc, Pisarev, Sergey, Poulain, Julie, Coordinators, Tara Oceans, Acinas, Silvia G, Babin, Marcel, Bork, Peer, Boss, Emmanuel, Bowler, Chris, Cochrane, Guy, de Vargas, Colomban, Follows, Michael, Gorsky, Gabriel, Grimsley, Nigel, Guidi, Lionel, Hingamp, Pascal, Iudicone, Daniele, Jaillon, Olivier, Kandels-Lewis, Stefanie, Karp-Boss, Lee, Karsenti, Eric, Not, Fabrice, Ogata, Hiroyuki, Pesant, Stephane, Poulton, Nicole, Raes, Jeroen, Sardet, Christian, Speich, Sabrina, Stemmann, Lars, Sullivan, Matthew B, Sunagawa, Shinichi, and Wincker, Patrick

Subjects

Genetics, Climate Action, Gene Expression Regulation, Geography, Metagenome, Microbiota, Molecular Sequence Annotation, Oceans and Seas, RNA, Messenger, Seawater, Temperature, Transcriptome, Tara Oceans Coordinators, Tara Oceans, biogeochemistry, community turnover, eco-systems biology, gene expression change, global ocean microbiome, metagenome, metatranscriptome, microbial ecology, ocean warming, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Ocean microbial communities strongly influence the biogeochemistry, food webs, and climate of our planet. Despite recent advances in understanding their taxonomic and genomic compositions, little is known about how their transcriptomes vary globally. Here, we present a dataset of 187 metatranscriptomes and 370 metagenomes from 126 globally distributed sampling stations and establish a resource of 47 million genes to study community-level transcriptomes across depth layers from pole-to-pole. We examine gene expression changes and community turnover as the underlying mechanisms shaping community transcriptomes along these axes of environmental variation and show how their individual contributions differ for multiple biogeochemically relevant processes. Furthermore, we find the relative contribution of gene expression changes to be significantly lower in polar than in non-polar waters and hypothesize that in polar regions, alterations in community activity in response to ocean warming will be driven more strongly by changes in organismal composition than by gene regulatory mechanisms. VIDEO ABSTRACT.

Published

2019

12. A global survey of prokaryotic genomes reveals the eco-evolutionary pressures driving horizontal gene transfer

Author

Swiss National Science Foundation, Shanghai Municipal Natural Science Foundation, Agencia Estatal de Investigación (España), Ministerio de Ciencia e Innovación (España), European Commission, Dmitrijeva, Marija [0000-0002-8561-6490], Tackmann, Janko [0000-0003-1467-2863], Matias Rodrigues, João Frederico [0000-0001-8413-9920], Huerta-Cepas, Jaime [0000-0003-4195-5025], Coelho, Luis Pedro [0000-0002-9280-7885], von Mering, Christian [0000-0001-7734-9102], Dmitrijeva, Marija, Tackmann, Janko, Matias Rodrigues, João Frederico, Huerta-Cepas, Jaime, Coelho, Luis Pedro, von Mering, Christian, Swiss National Science Foundation, Shanghai Municipal Natural Science Foundation, Agencia Estatal de Investigación (España), Ministerio de Ciencia e Innovación (España), European Commission, Dmitrijeva, Marija [0000-0002-8561-6490], Tackmann, Janko [0000-0003-1467-2863], Matias Rodrigues, João Frederico [0000-0001-8413-9920], Huerta-Cepas, Jaime [0000-0003-4195-5025], Coelho, Luis Pedro [0000-0002-9280-7885], von Mering, Christian [0000-0001-7734-9102], Dmitrijeva, Marija, Tackmann, Janko, Matias Rodrigues, João Frederico, Huerta-Cepas, Jaime, Coelho, Luis Pedro, and von Mering, Christian

Abstract

Horizontal gene transfer, the exchange of genetic material through means other than reproduction, is a fundamental force in prokaryotic genome evolution. Genomic persistence of horizontally transferred genes has been shown to be influenced by both ecological and evolutionary factors. However, there is limited availability of ecological information about species other than the habitats from which they were isolated, which has prevented a deeper exploration of ecological contributions to horizontal gene transfer. Here we focus on transfers detected through comparison of individual gene trees to the species tree, assessing the distribution of gene-exchanging prokaryotes across over a million environmental sequencing samples. By analysing detected horizontal gene transfer events, we show distinct functional profiles for recent versus old events. Although most genes transferred are part of the accessory genome, genes transferred earlier in evolution tend to be more ubiquitous within present-day species. We find that co-occurring, interacting and high-abundance species tend to exchange more genes. Finally, we show that host-associated specialist species are most likely to exchange genes with other host-associated specialist species, whereas species found across different habitats have similar gene exchange rates irrespective of their preferred habitat. Our study covers an unprecedented scale of integrated horizontal gene transfer and environmental information, highlighting broad eco-evolutionary trends.

Published

2024

13. Functional and evolutionary significance of unknown genes from uncultivated taxa

Author

Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Fundación la Caixa, Silicon Valley Community Foundation, Swiss National Science Foundation, ETH Zurich, Rodríguez, Alvaro [0000-0003-3907-3904], Giner-Lamia, Joaquín [0000-0003-1553-8295], Cantalapiedra, Carlos P [0000-0001-5263-533X], Botas, Jorge [0000-0001-7292-8981], Hernández-Plaza, Ana [0000-0002-9844-7999], Munar-Palmer, Martí [0000-0002-8898-4483], Santamaría-Hernando, Saray [0000-0001-6763-3839], Rodríguez-Herva, José J. [0000-0001-9962-2261], Ruscheweyh, Hans-Joachim [0000-0001-7473-6086], Paoli, Lucas [0000-0003-0771-8309], Schmidt, Thomas Sebastian [0000-0001-8587-4177], Sunagawa, Shinichi [0000-0003-3065-0314], Bork, Peer [0000-0002-2627-833X], López-Solanilla, Emilia [0000-0002-8578-7433], Coelho, Luis Pedro [0000-0002-9280-7885], Huerta-Cepas, Jaime [0000-0003-4195-5025], Rodríguez, Alvaro, Giner-Lamia, Joaquín, Cantalapiedra, Carlos P, Botas, Jorge, Deng, Ziqi, Hernández-Plaza, Ana, Munar-Palmer, Martí, Santamaría-Hernando, Saray, Rodríguez-Herva, José J., Ruscheweyh, Hans-Joachim, Paoli, Lucas, Schmidt, Thomas Sebastian, Sunagawa, Shinichi, Bork, Peer, López-Solanilla, Emilia, Coelho, Luis Pedro, Huerta-Cepas, Jaime, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Fundación la Caixa, Silicon Valley Community Foundation, Swiss National Science Foundation, ETH Zurich, Rodríguez, Alvaro [0000-0003-3907-3904], Giner-Lamia, Joaquín [0000-0003-1553-8295], Cantalapiedra, Carlos P [0000-0001-5263-533X], Botas, Jorge [0000-0001-7292-8981], Hernández-Plaza, Ana [0000-0002-9844-7999], Munar-Palmer, Martí [0000-0002-8898-4483], Santamaría-Hernando, Saray [0000-0001-6763-3839], Rodríguez-Herva, José J. [0000-0001-9962-2261], Ruscheweyh, Hans-Joachim [0000-0001-7473-6086], Paoli, Lucas [0000-0003-0771-8309], Schmidt, Thomas Sebastian [0000-0001-8587-4177], Sunagawa, Shinichi [0000-0003-3065-0314], Bork, Peer [0000-0002-2627-833X], López-Solanilla, Emilia [0000-0002-8578-7433], Coelho, Luis Pedro [0000-0002-9280-7885], Huerta-Cepas, Jaime [0000-0003-4195-5025], Rodríguez, Alvaro, Giner-Lamia, Joaquín, Cantalapiedra, Carlos P, Botas, Jorge, Deng, Ziqi, Hernández-Plaza, Ana, Munar-Palmer, Martí, Santamaría-Hernando, Saray, Rodríguez-Herva, José J., Ruscheweyh, Hans-Joachim, Paoli, Lucas, Schmidt, Thomas Sebastian, Sunagawa, Shinichi, Bork, Peer, López-Solanilla, Emilia, Coelho, Luis Pedro, and Huerta-Cepas, Jaime

Abstract

Many of the Earth's microbes remain uncultured and understudied, limiting our understanding of the functional and evolutionary aspects of their genetic material, which remain largely overlooked in most metagenomic studies1. Here we analysed 149,842 environmental genomes from multiple habitats2-6 and compiled a curated catalogue of 404,085 functionally and evolutionarily significant novel (FESNov) gene families exclusive to uncultivated prokaryotic taxa. All FESNov families span multiple species, exhibit strong signals of purifying selection and qualify as new orthologous groups, thus nearly tripling the number of bacterial and archaeal gene families described to date. The FESNov catalogue is enriched in clade-specific traits, including 1,034 novel families that can distinguish entire uncultivated phyla, classes and orders, probably representing synapomorphies that facilitated their evolutionary divergence. Using genomic context analysis and structural alignments we predicted functional associations for 32.4% of FESNov families, including 4,349 high-confidence associations with important biological processes. These predictions provide a valuable hypothesis-driven framework that we used for experimental validatation of a new gene family involved in cell motility and a novel set of antimicrobial peptides. We also demonstrate that the relative abundance profiles of novel families can discriminate between environments and clinical conditions, leading to the discovery of potentially new biomarkers associated with colorectal cancer. We expect this work to enhance future metagenomics studies and expand our knowledge of the genetic repertory of uncultivated organisms.

Published

2024

14. STRING v11: protein–protein association networks with increased coverage, supporting functional discovery in genome-wide experimental datasets

Author

Szklarczyk, Damian, Gable, Annika L, Lyon, David, Junge, Alexander, Wyder, Stefan, Huerta-Cepas, Jaime, Simonovic, Milan, Doncheva, Nadezhda T, Morris, John H, Bork, Peer, Jensen, Lars J, and von Mering, Christian

Subjects

Human Genome, Biotechnology, Genetics, Networking and Information Technology R&D (NITRD), Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Animals, Databases, Genetic, Gene Ontology, Genomics, Humans, Protein Interaction Mapping, Software, Environmental Sciences, Biological Sciences, Information and Computing Sciences, Developmental Biology

Abstract

Proteins and their functional interactions form the backbone of the cellular machinery. Their connectivity network needs to be considered for the full understanding of biological phenomena, but the available information on protein-protein associations is incomplete and exhibits varying levels of annotation granularity and reliability. The STRING database aims to collect, score and integrate all publicly available sources of protein-protein interaction information, and to complement these with computational predictions. Its goal is to achieve a comprehensive and objective global network, including direct (physical) as well as indirect (functional) interactions. The latest version of STRING (11.0) more than doubles the number of organisms it covers, to 5090. The most important new feature is an option to upload entire, genome-wide datasets as input, allowing users to visualize subsets as interaction networks and to perform gene-set enrichment analysis on the entire input. For the enrichment analysis, STRING implements well-known classification systems such as Gene Ontology and KEGG, but also offers additional, new classification systems based on high-throughput text-mining as well as on a hierarchical clustering of the association network itself. The STRING resource is available online at https://string-db.org/.

Published

2019

15. Function, evolution, and structure of J-domain proteins

Author

Kampinga, Harm H, Andreasson, Claes, Barducci, Alessandro, Cheetham, Michael E, Cyr, Douglas, Emanuelsson, Cecilia, Genevaux, Pierre, Gestwicki, Jason E, Goloubinoff, Pierre, Huerta-Cepas, Jaime, Kirstein, Janine, Liberek, Krzysztof, Mayer, Matthias P, Nagata, Kazuhiro, Nillegoda, Nadinath B, Pulido, Pablo, Ramos, Carlos, De los Rios, Paolo, Rospert, Sabine, Rosenzweig, Rina, Sahi, Chandan, Taipale, Mikko, Tomiczek, Bratłomiej, Ushioda, Ryo, Young, Jason C, Zimmermann, Richard, Zylicz, Alicja, Zylicz, Maciej, Craig, Elizabeth A, and Marszalek, Jaroslaw

Subjects

Biochemistry and Cell Biology, Biological Sciences, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Animals, Disease, Evolution, Molecular, HSP70 Heat-Shock Proteins, Humans, Protein Aggregates, Protein Domains, Protein Refolding, Heat shock protein 70, J-domain proteins, 8-stranded -sandwich domain, 8-stranded β-sandwich domain, Biochemistry & Molecular Biology, Biochemistry and cell biology

Abstract

Hsp70 chaperone systems are very versatile machines present in nearly all living organisms and in nearly all intracellular compartments. They function in many fundamental processes through their facilitation of protein (re)folding, trafficking, remodeling, disaggregation, and degradation. Hsp70 machines are regulated by co-chaperones. J-domain containing proteins (JDPs) are the largest family of Hsp70 co-chaperones and play a determining role functionally specifying and directing Hsp70 functions. Many features of JDPs are not understood; however, a number of JDP experts gathered at a recent CSSI-sponsored workshop in Gdansk (Poland) to discuss various aspects of J-domain protein function, evolution, and structure. In this report, we present the main findings and the consensus reached to help direct future developments in the field of Hsp70 research.

Published

2019

16. GeCoViz: genomic context visualisation of prokaryotic genes from a functional and evolutionary perspective.

Author

Jorge Botas, álvaro Rodríguez del Río, Joaquín Giner-Lamia, and Jaime Huerta-Cepas

Published

2022

17. PhyloCloud: an online platform for making sense of phylogenomic data.

Author

Ziqi Deng, Jorge Botas, Carlos P. Cantalapiedra, Ana Hernández-Plaza, Jordi Burguet-Castell, and Jaime Huerta-Cepas

Published

2022

18. Fecal Microbiota Transplantation Alters the Proteomic Landscape of Inflammation in HIV: Identifying Bacterial Drivers

Author

Díaz-García, Claudio, primary, Moreno, Elena, additional, Talavera, Alba, additional, Martín-Fernández, Lucía, additional, Martín-Pedraza, Laura, additional, Pérez-Molina, José A., additional, González-Bodí, Sara, additional, Huerta-Cepas, Jaime, additional, Dronda, Fernando, additional, Gosalbes, María José, additional, Luna, Laura, additional, Vivancos, María Jesús, additional, Moreno, Santiago, additional, and Serrano-Villar, Sergio, additional

Published

2024

19. Towards the biogeography of prokaryotic genes

Author

Coelho, Luis Pedro, Alves, Renato, del Río, Álvaro Rodríguez, Myers, Pernille Neve, Cantalapiedra, Carlos P., Giner-Lamia, Joaquín, Schmidt, Thomas Sebastian, Mende, Daniel R., Orakov, Askarbek, Letunic, Ivica, Hildebrand, Falk, Van Rossum, Thea, Forslund, Sofia K., Khedkar, Supriya, Maistrenko, Oleksandr M., Pan, Shaojun, Jia, Longhao, Ferretti, Pamela, Sunagawa, Shinichi, Zhao, Xing-Ming, Nielsen, Henrik Bjørn, Huerta-Cepas, Jaime, and Bork, Peer

Published

2022

20. Gearing up to handle the mosaic nature of life in the quest for orthologs

Author

Forslund, Kristoffer, Pereira, Cecile, Capella-Gutierrez, Salvador, da Silva, Alan Sousa, Altenhoff, Adrian, Huerta-Cepas, Jaime, Muffato, Matthieu, Patricio, Mateus, Vandepoele, Klaas, Ebersberger, Ingo, Blake, Judith, Breis, Jesualdo Tomás Fernández, Boeckmann, Brigitte, Gabaldón, Toni, Sonnhammer, Erik, Dessimoz, Christophe, Lewis, Suzanna, Bello, Carla, Briois, Sébastien, Chalstrey, Edward, Chiba, Hirokazu, Conchillo-Solé, Oscar, Daubin, Vincent, DeLuca, Todd, Dufayard, Jean-Francois, Durand, Dannie, Fernández-Breis, Jesualdo Tomás, Glover, Natasha, Hauser, Alexander, Heller, Davide, Kaduk, Mateusz, Koch, Jan, Koonin, Eugene V, Kriventseva, Evgenia, Kuraku, Shigehiro, Lecompte, Odile, Lespinet, Olivier, Levy, Jeremy, Liebeskind, Benjamin, Linard, Benjamin, Marcet-Houben, Marina, Martin, Maria, McWhite, Claire, Mekhedov, Sergei, Moretti, Sebastien, Müller, Steven, Nadia, El-Mabrouk, Notredame, Cédric, Penel, Simon, Pereira, Cécile, Pilizota, Ivana, Redestig, Henning, Robinson-Rechavi, Marc, Schreiber, Fabian, Sjölander, Kimmen, Škunca, Nives, Steinegger, Martin, Szklarczyk, Damian, Thomas, Paul, Thuer, Ernst, Train, Clément, Uchiyama, Ikuo, Wittwer, Lucas, Xenarios, Ioannis, Yates, Bethan, Zdobnov, Evgeny, and Waterhouse, Robert M

Subjects

Biological Sciences, Human Genome, Genetics, Biotechnology, Quest for Orthologs Consortium, Quest for Orthologs Consortium, Mathematical Sciences, Information and Computing Sciences, Bioinformatics, Biological sciences, Information and computing sciences, Mathematical sciences

Abstract

The Quest for Orthologs (QfO) is an open collaboration framework for experts in comparative phylogenomics and related research areas who have an interest in highly accurate orthology predictions and their applications. We here report highlights and discussion points from the QfO meeting 2015 held in Barcelona. Achievements in recent years have established a basis to support developments for improved orthology prediction and to explore new approaches. Central to the QfO effort is proper benchmarking of methods and services, as well as design of standardized datasets and standardized formats to allow sharing and comparison of results. Simultaneously, analysis pipelines have been improved, evaluated and adapted to handle large datasets. All this would not have occurred without the long-term collaboration of Consortium members. Meeting regularly to review and coordinate complementary activities from a broad spectrum of innovative researchers clearly benefits the community. Highlights of the meeting include addressing sources of and legitimacy of disagreements between orthology calls, the context dependency of orthology definitions, special challenges encountered when analyzing very anciently rooted orthologies, orthology in the light of whole-genome duplications, and the concept of orthologous versus paralogous relationships at different levels, including domain-level orthology. Furthermore, particular needs for different applications (e.g. plant genomics, ancient gene families and others) and the infrastructure for making orthology inferences available (e.g. interfaces with model organism databases) were discussed, with several ongoing efforts that are expected to be reported on during the upcoming 2017 QfO meeting.

Published

2018

21. Quest for Orthologs in the Era of Biodiversity Genomics.

Author

Langschied, Felix, Bordin, Nicola, Cosentino, Salvatore, Fuentes-Palacios, Diego, Glover, Natasha, Hiller, Michael, Hu, Yanhui, Huerta-Cepas, Jaime, Coelho, Luis Pedro, Iwasaki, Wataru, Majidian, Sina, Manzano-Morales, Saioa, Persson, Emma, Richards, Thomas A, Gabaldón, Toni, Sonnhammer, Erik, Thomas, Paul D, Dessimoz, Christophe, and Ebersberger, Ingo

Subjects

COMPARATIVE genetics, GENE families, ALTERNATIVE RNA splicing, NON-coding RNA, COMPARATIVE genomics

Abstract

The era of biodiversity genomics is characterized by large-scale genome sequencing efforts that aim to represent each living taxon with an assembled genome. Generating knowledge from this wealth of data has not kept up with this pace. We here discuss major challenges to integrating these novel genomes into a comprehensive functional and evolutionary network spanning the tree of life. In summary, the expanding datasets create a need for scalable gene annotation methods. To trace gene function across species, new methods must seek to increase the resolution of ortholog analyses, e.g. by extending analyses to the protein domain level and by accounting for alternative splicing. Additionally, the scope of orthology prediction should be pushed beyond well-investigated proteomes. This demands the development of specialized methods for the identification of orthologs to short proteins and noncoding RNAs and for the functional characterization of novel gene families. Furthermore, protein structures predicted by machine learning are now readily available, but this new information is yet to be integrated with orthology-based analyses. Finally, an increasing focus should be placed on making orthology assignments adhere to the findable, accessible, interoperable, and reusable (FAIR) principles. This fosters green bioinformatics by avoiding redundant computations and helps integrating diverse scientific communities sharing the need for comparative genetics and genomics information. It should also help with communicating orthology-related concepts in a format that is accessible to the public, to counteract existing misinformation about evolution. [ABSTRACT FROM AUTHOR]

Published

2024

22. Standardized benchmarking in the quest for orthologs.

Author

Altenhoff, Adrian M, Boeckmann, Brigitte, Capella-Gutierrez, Salvador, Dalquen, Daniel A, DeLuca, Todd, Forslund, Kristoffer, Huerta-Cepas, Jaime, Linard, Benjamin, Pereira, Cécile, Pryszcz, Leszek P, Schreiber, Fabian, da Silva, Alan Sousa, Szklarczyk, Damian, Train, Clément-Marie, Bork, Peer, Lecompte, Odile, von Mering, Christian, Xenarios, Ioannis, Sjölander, Kimmen, Jensen, Lars Juhl, Martin, Maria J, Muffato, Matthieu, Quest for Orthologs consortium, Gabaldón, Toni, Lewis, Suzanna E, Thomas, Paul D, Sonnhammer, Erik, and Dessimoz, Christophe

Subjects

Quest for Orthologs consortium, Bacteria, Archaea, Sequence Analysis, Protein, Proteomics, Computational Biology, Genomics, Phylogeny, Species Specificity, Sequence Homology, Models, Genetic, Databases, Genetic, Eukaryota, Gene Ontology, Sequence Analysis, Protein, Models, Genetic, Databases, Developmental Biology, Biological Sciences, Technology, Medical and Health Sciences

Abstract

Achieving high accuracy in orthology inference is essential for many comparative, evolutionary and functional genomic analyses, yet the true evolutionary history of genes is generally unknown and orthologs are used for very different applications across phyla, requiring different precision-recall trade-offs. As a result, it is difficult to assess the performance of orthology inference methods. Here, we present a community effort to establish standards and an automated web-based service to facilitate orthology benchmarking. Using this service, we characterize 15 well-established inference methods and resources on a battery of 20 different benchmarks. Standardized benchmarking provides a way for users to identify the most effective methods for the problem at hand, sets a minimum requirement for new tools and resources, and guides the development of more accurate orthology inference methods.

Published

2016

23. Expanded phylogeny of extremely halophilic archaea shows multiple independent adaptations to hypersaline environments

Author

European Commission, Fundación la Caixa, Simons Foundation, Gutiérrez Preciado, Ana [0000-0002-6032-466X], Rodríguez, Alvaro [0000-0003-3907-3904], 0000-0002-3880-9978, 0000-0002-0927-0651, 0000-0003-4195-5025, #NODATA#, 0000-0003-1370-9820, 0000-0002-0510-8868, 0000-0002-2064-5354, Baker, Brittany A., Gutiérrez Preciado, Ana, Rodríguez, Alvaro, McCarthy, Charley G P, López-García, Purificación, Huerta-Cepas, Jaime, Susko, Edward, Roger, Andrew J, Eme, Laura, Moreira, David, European Commission, Fundación la Caixa, Simons Foundation, Gutiérrez Preciado, Ana [0000-0002-6032-466X], Rodríguez, Alvaro [0000-0003-3907-3904], 0000-0002-3880-9978, 0000-0002-0927-0651, 0000-0003-4195-5025, #NODATA#, 0000-0003-1370-9820, 0000-0002-0510-8868, 0000-0002-2064-5354, Baker, Brittany A., Gutiérrez Preciado, Ana, Rodríguez, Alvaro, McCarthy, Charley G P, López-García, Purificación, Huerta-Cepas, Jaime, Susko, Edward, Roger, Andrew J, Eme, Laura, and Moreira, David

Abstract

Extremely halophilic archaea (Haloarchaea, Nanohaloarchaeota, Methanonatronarchaeia and Halarchaeoplasmatales) thrive in saturating salt concentrations where they must maintain osmotic equilibrium with their environment. The evolutionary history of adaptations enabling salt tolerance remains poorly understood, in particular because the phylogeny of several lineages is conflicting. Here we present a resolved phylogeny of extremely halophilic archaea obtained using improved taxon sampling and state-of-the-art phylogenetic approaches designed to cope with the strong compositional biases of their proteomes. We describe two uncultured lineages, Afararchaeaceae and Asbonarchaeaceae, which break the long branches at the base of Haloarchaea and Nanohaloarchaeota, respectively. We obtained 13 metagenome-assembled genomes (MAGs) of these archaea from metagenomes of hypersaline aquatic systems of the Danakil Depression (Ethiopia). Our phylogenomic analyses including these taxa show that at least four independent adaptations to extreme halophily occurred during archaeal evolution. Gene-tree/species-tree reconciliation suggests that gene duplication and horizontal gene transfer played an important role in this process, for example, by spreading key genes (such as those encoding potassium transporters) across extremely halophilic lineages.

Published

2024

24. Disentangling the impact of environmental and phylogenetic constraints on prokaryotic within-species diversity

Author

Maistrenko, Oleksandr M., Mende, Daniel R., Luetge, Mechthild, Hildebrand, Falk, Schmidt, Thomas S. B., Li, Simone S., Rodrigues, João F. Matias, von Mering, Christian, Pedro Coelho, Luis, Huerta-Cepas, Jaime, Sunagawa, Shinichi, and Bork, Peer

Published

2020

25. Gene Expression Changes and Community Turnover Differentially Shape the Global Ocean Metatranscriptome

Author

Acinas, Silvia G., Babin, Marcel, Bork, Peer, Boss, Emmanuel, Bowler, Chris, Cochrane, Guy, de Vargas, Colomban, Follows, Michael, Gorsky, Gabriel, Grimsley, Nigel, Guidi, Lionel, Hingamp, Pascal, Iudicone, Daniele, Jaillon, Olivier, Kandels-Lewis, Stefanie, Karp-Boss, Lee, Karsenti, Eric, Not, Fabrice, Ogata, Hiroyuki, Pesant, Stephane, Poulton, Nicole, Raes, Jeroen, Sardet, Christian, Speich, Sabrina, Stemmann, Lars, Sullivan, Matthew B., Sunagawa, Shinichi, Wincker, Patrick, Salazar, Guillem, Paoli, Lucas, Alberti, Adriana, Huerta-Cepas, Jaime, Ruscheweyh, Hans-Joachim, Cuenca, Miguelangel, Field, Christopher M., Coelho, Luis Pedro, Cruaud, Corinne, Engelen, Stefan, Gregory, Ann C., Labadie, Karine, Marec, Claudie, Pelletier, Eric, Royo-Llonch, Marta, Roux, Simon, Sánchez, Pablo, Uehara, Hideya, Zayed, Ahmed A., Zeller, Georg, Carmichael, Margaux, Dimier, Céline, Ferland, Joannie, Kandels, Stefanie, Picheral, Marc, Pisarev, Sergey, and Poulain, Julie

Published

2019

26. The Quest for Orthologs benchmark service and consensus calls in 2020.

Author

Adrian M. Altenhoff, Javier Garrayo-Ventas, Salvatore Cosentino, David Emms, Natasha M. Glover, Ana Hernández-Plaza, Yannis Nevers, Vicky Sundesha, Damian Szklarczyk, José María Fernández 0001, Laia Codó, The Quest for Orthologs Consortium, Josep Lluis Gelpí, Jaime Huerta-Cepas, Wataru Iwasaki 0001, Steven Kelly 0003, Odile Lecompte, Matthieu Muffato, Maria Jesus Martin, Salvador Capella-Gutiérrez, Paul D. Thomas, Erik L. L. Sonnhammer, and Christophe Dessimoz

Published

2020

27. proGenomes2: an improved database for accurate and consistent habitat, taxonomic and functional annotations of prokaryotic genomes.

Author

Daniel R. Mende, Ivica Letunic, Oleksandr M. Maistrenko, Thomas S. B. Schmidt, Alessio Milanese, Lucas Paoli, Ana Hernández-Plaza, Askarbek N. Orakov, Sofia K. Forslund, Shinichi Sunagawa, Georg Zeller, Jaime Huerta-Cepas, Luís Pedro Coelho, and Peer Bork

Published

2020

28. Prevalence and Specificity of Chemoreceptor Profiles in Plant-Associated Bacteria

Author

Claudia Sanchis-López, Jean Paul Cerna-Vargas, Saray Santamaría-Hernando, Cayo Ramos, Tino Krell, Pablo Rodríguez-Palenzuela, Emilia López-Solanilla, Jaime Huerta-Cepas, and José J. Rodríguez-Herva

Subjects

Microbiology, QR1-502

Abstract

Considering the enormous variety of LBDs at sensor proteins, an important question resides in establishing the forces that have driven their evolution and selection. We present here the first clear demonstration that environmental factors play an important role in the selection and evolution of LBDs.

Published

2021

29. proGenomes3: approaching one million accurately and consistently annotated high-quality prokaryotic genomes

Author

European Molecular Biology Laboratory, Swiss National Science Foundation, German Research Foundation, European Commission, Agencia Estatal de Investigación (España), Ministerio de Universidades (España), Fullam, Anthony [0000-0002-0884-8124], Letunic, Ivica [0000-0003-3560-4288], Schmidt, Thomas Sebastian [B0000-0001-8587-4177], Ducarmon, Quinten R. [0000-0001-7077-2127], Karcher, Nicolai [0000-0001-7894-8182], Khedkar, Supriya [0000-0001-6606-2202], Kuhn, Michael [0000-0002-2841-872X], Larralde, Martin [0000-0002-3947-4444], Maistrenko, Oleksandr M. [0000-0003-1961-7548], Malfertheiner, Lukas [0000-0002-5697-2007], Milanese, Alessio [0000-0002-7050-2239], Rodrigues, Joao Frederico Matias [0000-0001-8413-9920], Sanchis-López, Claudia [0000-0002-8206-1565], Schudoma, Christian [0000-0003-1157-1354], Szklarczyk, Damian [0000-0002-4052-5069], Sunagawa, Shinichi [0000-0003-3065-0314], Zeller, Georg [0000-0003-1429-7485], Huerta-Cepas, Jaime [0000-0003-4195-5025], von Mering, Christian [0000-0001-7734-9102], Bork, Peer [0000-0002-2627-833X], Mende, Daniel R. [0000-0001-6831-4557], Fullam, Anthony, Letunic, Ivica, Schmidt, Thomas Sebastian, Ducarmon, Quinten R., Karcher, Nicolai, Khedkar, Supriya, Kuhn, Michael, Larralde, Martin, Maistrenko, Oleksandr M., Malfertheiner, Lukas, Milanese, Alessio, Rodrigues, Joao Frederico Matias, Sanchis-López, Claudia, Schudoma, Christian, Szklarczyk, Damian, Sunagawa, Shinichi, Zeller, Georg, Huerta-Cepas, Jaime, von Mering, Christian, Bork, Peer, Mende, Daniel R., European Molecular Biology Laboratory, Swiss National Science Foundation, German Research Foundation, European Commission, Agencia Estatal de Investigación (España), Ministerio de Universidades (España), Fullam, Anthony [0000-0002-0884-8124], Letunic, Ivica [0000-0003-3560-4288], Schmidt, Thomas Sebastian [B0000-0001-8587-4177], Ducarmon, Quinten R. [0000-0001-7077-2127], Karcher, Nicolai [0000-0001-7894-8182], Khedkar, Supriya [0000-0001-6606-2202], Kuhn, Michael [0000-0002-2841-872X], Larralde, Martin [0000-0002-3947-4444], Maistrenko, Oleksandr M. [0000-0003-1961-7548], Malfertheiner, Lukas [0000-0002-5697-2007], Milanese, Alessio [0000-0002-7050-2239], Rodrigues, Joao Frederico Matias [0000-0001-8413-9920], Sanchis-López, Claudia [0000-0002-8206-1565], Schudoma, Christian [0000-0003-1157-1354], Szklarczyk, Damian [0000-0002-4052-5069], Sunagawa, Shinichi [0000-0003-3065-0314], Zeller, Georg [0000-0003-1429-7485], Huerta-Cepas, Jaime [0000-0003-4195-5025], von Mering, Christian [0000-0001-7734-9102], Bork, Peer [0000-0002-2627-833X], Mende, Daniel R. [0000-0001-6831-4557], Fullam, Anthony, Letunic, Ivica, Schmidt, Thomas Sebastian, Ducarmon, Quinten R., Karcher, Nicolai, Khedkar, Supriya, Kuhn, Michael, Larralde, Martin, Maistrenko, Oleksandr M., Malfertheiner, Lukas, Milanese, Alessio, Rodrigues, Joao Frederico Matias, Sanchis-López, Claudia, Schudoma, Christian, Szklarczyk, Damian, Sunagawa, Shinichi, Zeller, Georg, Huerta-Cepas, Jaime, von Mering, Christian, Bork, Peer, and Mende, Daniel R.

Abstract

The interpretation of genomic, transcriptomic and other microbial 'omics data is highly dependent on the availability of well-annotated genomes. As the number of publicly available microbial genomes continues to increase exponentially, the need for quality control and consistent annotation is becoming critical. We present proGenomes3, a database of 907 388 high-quality genomes containing 4 billion genes that passed stringent criteria and have been consistently annotated using multiple functional and taxonomic databases including mobile genetic elements and biosynthetic gene clusters. proGenomes3 encompasses 41 171 species-level clusters, defined based on universal single copy marker genes, for which pan-genomes and contextual habitat annotations are provided. The database is available at http://progenomes.embl.de/.

Published

2023

30. Atlas of mRNA translation and decay for bacteria

Author

Karolinska Institute, Huch, Susanne [0000-0003-3956-7197], Nersisyan, Lilit [0000-0001-8525-420X], Barrett, Donal [0000-0001-5381-5391], Valeriano, Valerie D. [0000-0002-4396-346X], Vardazaryan, Nelli [0000-0002-7972-8912], Huerta-Cepas, Jaime [0000-0003-4195-5025], Wei, Wu [0000-0001-5643-8739], Steinmetz, Lars M. [0000-0002-3962-2865], Engstrand, Lars [0000-0002-7713-2373], Pelechano, Vicent [0000-0002-9415-788X], Huch, Susanne, Nersisyan, Lilit, Ropat, Maria, Barrett, Donal, Wu, Mengjun, Wang, Jing, Valeriano, Valerie D., Vardazaryan, Nelli, Huerta-Cepas, Jaime, Wei, Wu, Du, Juan, Steinmetz, Lars M., Engstrand, Lars, Pelechano, Vicent, Karolinska Institute, Huch, Susanne [0000-0003-3956-7197], Nersisyan, Lilit [0000-0001-8525-420X], Barrett, Donal [0000-0001-5381-5391], Valeriano, Valerie D. [0000-0002-4396-346X], Vardazaryan, Nelli [0000-0002-7972-8912], Huerta-Cepas, Jaime [0000-0003-4195-5025], Wei, Wu [0000-0001-5643-8739], Steinmetz, Lars M. [0000-0002-3962-2865], Engstrand, Lars [0000-0002-7713-2373], Pelechano, Vicent [0000-0002-9415-788X], Huch, Susanne, Nersisyan, Lilit, Ropat, Maria, Barrett, Donal, Wu, Mengjun, Wang, Jing, Valeriano, Valerie D., Vardazaryan, Nelli, Huerta-Cepas, Jaime, Wei, Wu, Du, Juan, Steinmetz, Lars M., Engstrand, Lars, and Pelechano, Vicent

Abstract

Regulation of messenger RNA stability is pivotal for programmed gene expression in bacteria and is achieved by a myriad of molecular mechanisms. By bulk sequencing of 5' monophosphorylated mRNA decay intermediates (5'P), we show that cotranslational mRNA degradation is conserved among both Gram-positive and -negative bacteria. We demonstrate that, in species with 5'-3' exonucleases, the exoribonuclease RNase J tracks the trailing ribosome to produce an in vivo single-nucleotide toeprint of the 5' position of the ribosome. In other species lacking 5'-3' exonucleases, ribosome positioning alters endonucleolytic cleavage sites. Using our metadegradome (5'P degradome) sequencing approach, we characterize 5'P mRNA decay intermediates in 96 species including Bacillus subtilis, Escherichia coli, Synechocystis spp. and Prevotella copri and identify codon- and gene-level ribosome stalling responses to stress and drug treatment. We also apply 5'P sequencing to complex clinical and environmental microbiomes and demonstrate that metadegradome sequencing provides fast, species-specific posttranscriptional characterization of responses to drug or environmental perturbations. Finally we produce a degradome atlas for 96 species to enable analysis of mechanisms of RNA degradation in bacteria. Our work paves the way for the application of metadegradome sequencing to investigation of posttranscriptional regulation in unculturable species and complex microbial communities.

Published

2023

31. eggNOG 6.0: enabling comparative genomics across 12 535 organisms

Author

Agencia Estatal de Investigación (España), European Commission, Silicon Valley Community Foundation, Novo Nordisk Foundation, Swiss Institute of Bioinformatics, Hernández-Plaza, Ana [0000-0002-9844-7999], Szklarczyk, Damian [0000-0002-4052-5069], Botas, Jorge [0000-0001-7292-8981], Cantalapiedra, Carlos P [0000-0001-5263-533X], Giner-Lamia, Joaquín [0000-0003-1553-8295], Mende, Daniel R. [0000-0001-6831-4557], Kirsch, Rebecca [0000-0003-1126-0089], Rattei, Thomas [0000-0002-0592-7791], Letunic, Ivica [0000-0003-3560-4288], Jensen, Lars J. [0000-0001-7885-715X], Bork, Peer [0000-0002-2627-833X], von Mering, Christian [0000-0001-7734-9102], Huerta-Cepas, Jaime [0000-0003-4195-5025], Hernández-Plaza, Ana, Szklarczyk, Damian, Botas, Jorge, Cantalapiedra, Carlos P, Giner-Lamia, Joaquín, Mende, Daniel R., Kirsch, Rebecca, Rattei, Thomas, Letunic, Ivica, Jensen, Lars J., Bork, Peer, von Mering, Christian, Huerta-Cepas, Jaime, Agencia Estatal de Investigación (España), European Commission, Silicon Valley Community Foundation, Novo Nordisk Foundation, Swiss Institute of Bioinformatics, Hernández-Plaza, Ana [0000-0002-9844-7999], Szklarczyk, Damian [0000-0002-4052-5069], Botas, Jorge [0000-0001-7292-8981], Cantalapiedra, Carlos P [0000-0001-5263-533X], Giner-Lamia, Joaquín [0000-0003-1553-8295], Mende, Daniel R. [0000-0001-6831-4557], Kirsch, Rebecca [0000-0003-1126-0089], Rattei, Thomas [0000-0002-0592-7791], Letunic, Ivica [0000-0003-3560-4288], Jensen, Lars J. [0000-0001-7885-715X], Bork, Peer [0000-0002-2627-833X], von Mering, Christian [0000-0001-7734-9102], Huerta-Cepas, Jaime [0000-0003-4195-5025], Hernández-Plaza, Ana, Szklarczyk, Damian, Botas, Jorge, Cantalapiedra, Carlos P, Giner-Lamia, Joaquín, Mende, Daniel R., Kirsch, Rebecca, Rattei, Thomas, Letunic, Ivica, Jensen, Lars J., Bork, Peer, von Mering, Christian, and Huerta-Cepas, Jaime

Abstract

The eggNOG (evolutionary gene genealogy Non-supervised Orthologous Groups) database is a bioinformatics resource providing orthology data and comprehensive functional information for organisms from all domains of life. Here, we present a major update of the database and website (version 6.0), which increases the number of covered organisms to 12 535 reference species, expands functional annotations, and implements new functionality. In total, eggNOG 6.0 provides a hierarchy of over 17M orthologous groups (OGs) computed at 1601 taxonomic levels, spanning 10 756 bacterial, 457 archaeal and 1322 eukaryotic organisms. OGs have been thoroughly annotated using recent knowledge from functional databases, including KEGG, Gene Ontology, UniProtKB, BiGG, CAZy, CARD, PFAM and SMART. eggNOG also offers phylogenetic trees for all OGs, maximising utility and versatility for end users while allowing researchers to investigate the evolutionary history of speciation and duplication events as well as the phylogenetic distribution of functional terms within each OG. Furthermore, the eggNOG 6.0 website contains new functionality to mine orthology and functional data with ease, including the possibility of generating phylogenetic profiles for multiple OGs across species or identifying single-copy OGs at custom taxonomic levels. eggNOG 6.0 is available at http://eggnog6.embl.de.

Published

2023

32. Comparison of gene clustering criteria reveals intrinsic uncertainty in pangenome analyses

Author

China Scholarship Council, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Comunidad de Madrid, Universidad Politécnica de Madrid, European Commission, Manzano-Morales, Saioa [0000-0001-5138-3871], González-Bodi, S. [0000-0003-3178-2976], Huerta-Cepas, Jaime [0000-0003-4195-5025], Iranzo, Jaime [0000-0002-4538-7726], Manzano-Morales, Saioa, Liu, Yang, González-Bodi, S., Huerta-Cepas, Jaime, Iranzo, Jaime, China Scholarship Council, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Comunidad de Madrid, Universidad Politécnica de Madrid, European Commission, Manzano-Morales, Saioa [0000-0001-5138-3871], González-Bodi, S. [0000-0003-3178-2976], Huerta-Cepas, Jaime [0000-0003-4195-5025], Iranzo, Jaime [0000-0002-4538-7726], Manzano-Morales, Saioa, Liu, Yang, González-Bodi, S., Huerta-Cepas, Jaime, and Iranzo, Jaime

Abstract

A key step for comparative genomics is to group open reading frames into functionally and evolutionarily meaningful gene clusters. Gene clustering is complicated by intraspecific duplications and horizontal gene transfers that are frequent in prokaryotes. In consequence, gene clustering methods must deal with a trade-off between identifying vertically transmitted representatives of multicopy gene families, which are recognizable by synteny conservation, and retrieving complete sets of species-level orthologs. We studied the implications of adopting homology, orthology, or synteny conservation as formal criteria for gene clustering by performing comparative analyses of 125 prokaryotic pangenomes.

Published

2023

33. Exploring the sediment-associated microbiota of the Mar Menor coastal lagoon

Author

Giner-Lamia, Joaquín, primary and Huerta-Cepas, Jaime, additional

Published

2024

34. Whole-genome analyses resolve early branches in the tree of life of modern birds

Author

Jarvis, Erich D, Mirarab, Siavash, Aberer, Andre J, Li, Bo, Houde, Peter, Li, Cai, Ho, Simon YW, Faircloth, Brant C, Nabholz, Benoit, Howard, Jason T, Suh, Alexander, Weber, Claudia C, da Fonseca, Rute R, Li, Jianwen, Zhang, Fang, Li, Hui, Zhou, Long, Narula, Nitish, Liu, Liang, Ganapathy, Ganesh, Boussau, Bastien, Bayzid, Md Shamsuzzoha, Zavidovych, Volodymyr, Subramanian, Sankar, Gabaldón, Toni, Capella-Gutiérrez, Salvador, Huerta-Cepas, Jaime, Rekepalli, Bhanu, Munch, Kasper, Schierup, Mikkel, Lindow, Bent, Warren, Wesley C, Ray, David, Green, Richard E, Bruford, Michael W, Zhan, Xiangjiang, Dixon, Andrew, Li, Shengbin, Li, Ning, Huang, Yinhua, Derryberry, Elizabeth P, Bertelsen, Mads Frost, Sheldon, Frederick H, Brumfield, Robb T, Mello, Claudio V, Lovell, Peter V, Wirthlin, Morgan, Schneider, Maria Paula Cruz, Prosdocimi, Francisco, Samaniego, José Alfredo, Vargas Velazquez, Amhed Missael, Alfaro-Núñez, Alonzo, Campos, Paula F, Petersen, Bent, Sicheritz-Ponten, Thomas, Pas, An, Bailey, Tom, Scofield, Paul, Bunce, Michael, Lambert, David M, Zhou, Qi, Perelman, Polina, Driskell, Amy C, Shapiro, Beth, Xiong, Zijun, Zeng, Yongli, Liu, Shiping, Li, Zhenyu, Liu, Binghang, Wu, Kui, Xiao, Jin, Yinqi, Xiong, Zheng, Qiuemei, Zhang, Yong, Yang, Huanming, Wang, Jian, Smeds, Linnea, Rheindt, Frank E, Braun, Michael, Fjeldsa, Jon, Orlando, Ludovic, Barker, F Keith, Jønsson, Knud Andreas, Johnson, Warren, Koepfli, Klaus-Peter, O'Brien, Stephen, Haussler, David, Ryder, Oliver A, Rahbek, Carsten, Willerslev, Eske, Graves, Gary R, Glenn, Travis C, McCormack, John, Burt, Dave, Ellegren, Hans, Alström, Per, Edwards, Scott V, Stamatakis, Alexandros, Mindell, David P, and Cracraft, Joel

Subjects

Human Genome, Genetics, Animals, Avian Proteins, Base Sequence, Biological Evolution, Birds, DNA Transposable Elements, Genes, Genetic Speciation, Genome, INDEL Mutation, Introns, Phylogeny, Sequence Analysis, DNA, General Science & Technology

Abstract

To better determine the history of modern birds, we performed a genome-scale phylogenetic analysis of 48 species representing all orders of Neoaves using phylogenomic methods created to handle genome-scale data. We recovered a highly resolved tree that confirms previously controversial sister or close relationships. We identified the first divergence in Neoaves, two groups we named Passerea and Columbea, representing independent lineages of diverse and convergently evolved land and water bird species. Among Passerea, we infer the common ancestor of core landbirds to have been an apex predator and confirm independent gains of vocal learning. Among Columbea, we identify pigeons and flamingoes as belonging to sister clades. Even with whole genomes, some of the earliest branches in Neoaves proved challenging to resolve, which was best explained by massive protein-coding sequence convergence and high levels of incomplete lineage sorting that occurred during a rapid radiation after the Cretaceous-Paleogene mass extinction event about 66 million years ago.

Published

2014

35. Functional and evolutionary significance of unknown genes from uncultivated taxa

Author

Rodríguez del Río, Álvaro, primary, Giner-Lamia, Joaquín, additional, Cantalapiedra, Carlos P., additional, Botas, Jorge, additional, Deng, Ziqi, additional, Hernández-Plaza, Ana, additional, Munar-Palmer, Martí, additional, Santamaría-Hernando, Saray, additional, Rodríguez-Herva, José J., additional, Ruscheweyh, Hans-Joachim, additional, Paoli, Lucas, additional, Schmidt, Thomas S. B., additional, Sunagawa, Shinichi, additional, Bork, Peer, additional, López-Solanilla, Emilia, additional, Coelho, Luis Pedro, additional, and Huerta-Cepas, Jaime, additional

Published

2023

36. NG-meta-profiler: fast processing of metagenomes using NGLess, a domain-specific language

Author

Luis Pedro Coelho, Renato Alves, Paulo Monteiro, Jaime Huerta-Cepas, Ana Teresa Freitas, and Peer Bork

Subjects

Metagenomics, Next-generation sequencing, Domain-specific language, Microbial ecology, QR100-130

Abstract

Abstract Background Shotgun metagenomes contain a sample of all the genomic material in an environment, allowing for the characterization of a microbial community. In order to understand these communities, bioinformatics methods are crucial. A common first step in processing metagenomes is to compute abundance estimates of different taxonomic or functional groups from the raw sequencing data. Given the breadth of the field, computational solutions need to be flexible and extensible, enabling the combination of different tools into a larger pipeline. Results We present NGLess and NG-meta-profiler. NGLess is a domain specific language for describing next-generation sequence processing pipelines. It was developed with the goal of enabling user-friendly computational reproducibility. It provides built-in support for many common operations on sequencing data and is extensible with external tools with configuration files. Using this framework, we developed NG-meta-profiler, a fast profiler for metagenomes which performs sequence preprocessing, mapping to bundled databases, filtering of the mapping results, and profiling (taxonomic and functional). It is significantly faster than either MOCAT2 or htseq-count and (as it builds on NGLess) its results are perfectly reproducible. Conclusions NG-meta-profiler is a high-performance solution for metagenomics processing built on NGLess. It can be used as-is to execute standard analyses or serve as the starting point for customization in a perfectly reproducible fashion. NGLess and NG-meta-profiler are open source software (under the liberal MIT license) and can be downloaded from https://ngless.embl.de or installed through bioconda.

Published

2019

37. Microbial abundance, activity and population genomic profiling with mOTUs2

Author

Alessio Milanese, Daniel R Mende, Lucas Paoli, Guillem Salazar, Hans-Joachim Ruscheweyh, Miguelangel Cuenca, Pascal Hingamp, Renato Alves, Paul I Costea, Luis Pedro Coelho, Thomas S. B. Schmidt, Alexandre Almeida, Alex L Mitchell, Robert D. Finn, Jaime Huerta-Cepas, Peer Bork, Georg Zeller, and Shinichi Sunagawa

Subjects

Science

Abstract

Metagenomic analysis based on universal phylogenetic marker gene (MG)-based operational taxonomic units (mOTUs) is a useful strategy, especially for microbial species without reference genomes. Here, the authors develop mOTUs2, an updated and functionally extended profiling tool for microbial abundance, activity and population profiling.

Published

2019

38. eggNOG 5.0: a hierarchical, functionally and phylogenetically annotated orthology resource based on 5090 organisms and 2502 viruses.

Author

Jaime Huerta-Cepas, Damian Szklarczyk, Davide Heller, Ana Hernández-Plaza, Sofia K. Forslund, Helen Cook, Daniel R. Mende, Ivica Letunic, Thomas Rattei, Lars Juhl Jensen, Christian von Mering, and Peer Bork

Published

2019

39. STRING v11: protein-protein association networks with increased coverage, supporting functional discovery in genome-wide experimental datasets.

Author

Damian Szklarczyk, Annika L. Gable, David Lyon, Alexander Junge, Stefan Wyder, Jaime Huerta-Cepas, Milan Simonovic, Nadezhda T. Doncheva, John H. Morris, Peer Bork, Lars Juhl Jensen, and Christian von Mering

Published

2019

40. Comparison of gene clustering criteria reveals intrinsic uncertainty in pangenome analyses

Author

Manzano-Morales, Saioa, primary, Liu, Yang, additional, González-Bodí, Sara, additional, Huerta-Cepas, Jaime, additional, and Iranzo, Jaime, additional

Published

2023

41. Metabolic anchor reactions for robust biorefining

Author

Jouhten, Paula, Huerta-Cepas, Jaime, Bork, Peer, and Patil, Kiran Raosaheb

Published

2017

42. Gearing up to handle the mosaic nature of life in the quest for orthologs.

Author

Kristoffer Forslund, Cécile Pereira, Salvador Capella-Gutiérrez, Alan W. Sousa da Silva, Adrian M. Altenhoff, Jaime Huerta-Cepas, Matthieu Muffato, Mateus Patricio, Klaas Vandepoele, Ingo Ebersberger, Judith A. Blake, Jesualdo Tomás Fernández-Breis, The Quest for Orthologs Consortium, Brigitte Boeckmann, Toni Gabaldón, Erik L. L. Sonnhammer, Christophe Dessimoz, and Suzanna Lewis

Published

2018

43. Atlas of mRNA translation and decay for bacteria

Author

Susanne Huch, Lilit Nersisyan, Maria Ropat, Donal Barrett, Mengjun Wu, Jing Wang, Valerie D. Valeriano, Nelli Vardazaryan, Jaime Huerta-Cepas, Wu Wei, Juan Du, Lars M. Steinmetz, Lars Engstrand, Vicent Pelechano, Karolinska Institute, Huch, Susanne, Nersisyan, Lilit, Barrett, Donal, Valeriano, Valerie D., Vardazaryan, Nelli, Huerta-Cepas, Jaime, Wei, Wu, Steinmetz, Lars M., Engstrand, Lars, and Pelechano, Vicent

Subjects

Microbiology (medical), Immunology, Genetics, Cell Biology, Applied Microbiology and Biotechnology, Microbiology

Abstract

26 Pàg., Regulation of messenger RNA stability is pivotal for programmed gene expression in bacteria and is achieved by a myriad of molecular mechanisms. By bulk sequencing of 5' monophosphorylated mRNA decay intermediates (5'P), we show that cotranslational mRNA degradation is conserved among both Gram-positive and -negative bacteria. We demonstrate that, in species with 5'-3' exonucleases, the exoribonuclease RNase J tracks the trailing ribosome to produce an in vivo single-nucleotide toeprint of the 5' position of the ribosome. In other species lacking 5'-3' exonucleases, ribosome positioning alters endonucleolytic cleavage sites. Using our metadegradome (5'P degradome) sequencing approach, we characterize 5'P mRNA decay intermediates in 96 species including Bacillus subtilis, Escherichia coli, Synechocystis spp. and Prevotella copri and identify codon- and gene-level ribosome stalling responses to stress and drug treatment. We also apply 5'P sequencing to complex clinical and environmental microbiomes and demonstrate that metadegradome sequencing provides fast, species-specific posttranscriptional characterization of responses to drug or environmental perturbations. Finally we produce a degradome atlas for 96 species to enable analysis of mechanisms of RNA degradation in bacteria. Our work paves the way for the application of metadegradome sequencing to investigation of posttranscriptional regulation in unculturable species and complex microbial communities., Open access funding provided by Karolinska Institute

Published

2023

44. Structure and function of the global topsoil microbiome

Author

Bahram, Mohammad, Hildebrand, Falk, Forslund, Sofia K., Anderson, Jennifer L., Soudzilovskaia, Nadejda A., Bodegom, Peter M., Bengtsson-Palme, Johan, Anslan, Sten, Coelho, Luis Pedro, Harend, Helery, Huerta-Cepas, Jaime, Medema, Marnix H., Maltz, Mia R., Mundra, Sunil, Olsson, Pål Axel, Pent, Mari, Põlme, Sergei, Sunagawa, Shinichi, Ryberg, Martin, Tedersoo, Leho, and Bork, Peer

Published

2018

45. Subspecies in the global human gut microbiome

Author

Paul I Costea, Luis Pedro Coelho, Shinichi Sunagawa, Robin Munch, Jaime Huerta‐Cepas, Kristoffer Forslund, Falk Hildebrand, Almagul Kushugulova, Georg Zeller, and Peer Bork

Subjects

genetic variation, metagenomics, microbiome, population structure, prokaryotic subspecies, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Population genomics of prokaryotes has been studied in depth in only a small number of primarily pathogenic bacteria, as genome sequences of isolates of diverse origin are lacking for most species. Here, we conducted a large‐scale survey of population structure in prevalent human gut microbial species, sampled from their natural environment, with a culture‐independent metagenomic approach. We examined the variation landscape of 71 species in 2,144 human fecal metagenomes and found that in 44 of these, accounting for 72% of the total assigned microbial abundance, single‐nucleotide variation clearly indicates the existence of sub‐populations (here termed subspecies). A single subspecies (per species) usually dominates within each host, as expected from ecological theory. At the global scale, geographic distributions of subspecies differ between phyla, with Firmicutes subspecies being significantly more geographically restricted. To investigate the functional significance of the delineated subspecies, we identified genes that consistently distinguish them in a manner that is independent of reference genomes. We further associated these subspecies‐specific genes with properties of the microbial community and the host. For example, two of the three Eubacterium rectale subspecies consistently harbor an accessory pro‐inflammatory flagellum operon that is associated with lower gut community diversity, higher host BMI, and higher blood fasting insulin levels. Using an additional 676 human oral samples, we further demonstrate the existence of niche specialized subspecies in the different parts of the oral cavity. Taken together, we provide evidence for subspecies in the majority of abundant gut prokaryotes, leading to a better functional and ecological understanding of the human gut microbiome in conjunction with its host.

Published

2017

46. Computational exploration of the global microbiome for antibiotic discovery

Author

Celio Dias, Santos-Junior, primary, Marcelo D. T., Torres, additional, Yiqian, Duan, additional, Alvaro, Rodriguez del Rio, additional, Thomas S.B., Schmidt, additional, Hui, Chong, additional, Anthony, Fullam, additional, Kuhn, Michael, additional, Chengkai, Zhu, additional, Amy, Houseman, additional, Jelena, Somborski, additional, Anna, Vines, additional, Xing-Ming, Zhao, additional, Peer, Bork, additional, Jaime, Huerta-Cepas, additional, Cesar, de la Fuente-Nunez, additional, and Luis Pedro, Coelho, additional

Published

2023

47. Durable coexistence of donor and recipient strains after fecal microbiota transplantation

Author

Li, Simone S., Zhu, Ana, Benes, Vladimir, Costea, Paul I., Hercog, Rajna, Hildebrand, Falk, Huerta-Cepas, Jaime, Nieuwdorp, Max, Salojärvi, Jarkko, Voigt, Anita Y., Zeller, Georg, Sunagawa, Shinichi, de Vos, Willem M., and Bork, Peer

Published

2016

48. New globally distributed bacterial phyla within the FCB superphylum

Author

Simons Foundation, National Natural Science Foundation of China, National Key Research and Development Program (China), Tongji University, Shandong University, Fundación la Caixa, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Del Río, Álvaro Rodríguez [0000-0003-3907-3904], Langwig, Marguerite V. [0000-0002-0247-2816], Huerta-Cepas, Jaime [0000-0003-4195-5025], De Anda, Valerie [0000-0001-9775-0737], Baker, Brett J. [0000-0002-5971-1021], Gong, Xianzhe, Del Río, Álvaro Rodríguez, Xu, Le, Chen, Zhiyi, Langwig, Marguerite V., Su, Lei, Sun, Mingxue, Huerta-Cepas, Jaime, De Anda, Valerie, Baker, Brett J., Simons Foundation, National Natural Science Foundation of China, National Key Research and Development Program (China), Tongji University, Shandong University, Fundación la Caixa, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Del Río, Álvaro Rodríguez [0000-0003-3907-3904], Langwig, Marguerite V. [0000-0002-0247-2816], Huerta-Cepas, Jaime [0000-0003-4195-5025], De Anda, Valerie [0000-0001-9775-0737], Baker, Brett J. [0000-0002-5971-1021], Gong, Xianzhe, Del Río, Álvaro Rodríguez, Xu, Le, Chen, Zhiyi, Langwig, Marguerite V., Su, Lei, Sun, Mingxue, Huerta-Cepas, Jaime, De Anda, Valerie, and Baker, Brett J.

Abstract

Microbes in marine sediments play crucial roles in global carbon and nutrient cycling. However, our understanding of microbial diversity and physiology on the ocean floor is limited. Here, we use phylogenomic analyses of thousands of metagenome-assembled genomes (MAGs) from coastal and deep-sea sediments to identify 55 MAGs that are phylogenetically distinct from previously described bacterial phyla. We propose that these MAGs belong to 4 novel bacterial phyla (Blakebacterota, Orphanbacterota, Arandabacterota, and Joyebacterota) and a previously proposed phylum (AABM5-125-24), all of them within the FCB superphylum. Comparison of their rRNA genes with public databases reveals that these phyla are globally distributed in different habitats, including marine, freshwater, and terrestrial environments. Genomic analyses suggest these organisms are capable of mediating key steps in sedimentary biogeochemistry, including anaerobic degradation of polysaccharides and proteins, and respiration of sulfur and nitrogen. Interestingly, these genomes code for an unusually high proportion (~9% on average, up to 20% per genome) of protein families lacking representatives in public databases. Genes encoding hundreds of these protein families colocalize with genes predicted to be involved in sulfur reduction, nitrogen cycling, energy conservation, and degradation of organic compounds. Our findings advance our understanding of bacterial diversity, the ecological roles of these bacteria, and potential links between novel gene families and metabolic processes in the oceans.

Published

2022

49. PhyloCloud: an online platform for making sense of phylogenomic data

Author

Silicon Valley Community Foundation, Agencia Estatal de Investigación (España), Deng, Ziqi [0000-0001-5347-3846], Botas, Jorge [0000-0001-7292-8981], Cantalapiedra, Carlos P [0000-0001-5263-533X], Hernández-Plaza, Ana [0000-0002-9844-7999], Burguet-Castell, Jordi [0000-0002-9198-5380], Huerta-Cepas, Jaime [0000-0003-4195-5025], Deng, Ziqi, Botas, Jorge, Cantalapiedra, Carlos P, Hernández-Plaza, Ana, Burguet-Castell, Jordi, Huerta-Cepas, Jaime, Silicon Valley Community Foundation, Agencia Estatal de Investigación (España), Deng, Ziqi [0000-0001-5347-3846], Botas, Jorge [0000-0001-7292-8981], Cantalapiedra, Carlos P [0000-0001-5263-533X], Hernández-Plaza, Ana [0000-0002-9844-7999], Burguet-Castell, Jordi [0000-0002-9198-5380], Huerta-Cepas, Jaime [0000-0003-4195-5025], Deng, Ziqi, Botas, Jorge, Cantalapiedra, Carlos P, Hernández-Plaza, Ana, Burguet-Castell, Jordi, and Huerta-Cepas, Jaime

Published

2022

50. GeCoViz: genomic context visualisation of prokaryotic genes from a functional and evolutionary perspective

Author

Agencia Estatal de Investigación (España), Fundación la Caixa, European Commission, Botas, Jorge [0000-0001-7292-8981], Rodríguez, Alvaro [0000-0003-3907-3904], Giner-Lamia, Joaquín [0000-0003-1553-8295], Huerta-Cepas, Jaime [0000-0003-4195-5025], Botas, Jorge, Rodríguez, Alvaro, Giner-Lamia, Joaquín, Huerta-Cepas, Jaime, Agencia Estatal de Investigación (España), Fundación la Caixa, European Commission, Botas, Jorge [0000-0001-7292-8981], Rodríguez, Alvaro [0000-0003-3907-3904], Giner-Lamia, Joaquín [0000-0003-1553-8295], Huerta-Cepas, Jaime [0000-0003-4195-5025], Botas, Jorge, Rodríguez, Alvaro, Giner-Lamia, Joaquín, and Huerta-Cepas, Jaime

Abstract

Synteny conservation analysis is a well-established methodology to investigate the potential functional role of unknown prokaryotic genes. However, bioinformatic tools to reconstruct and visualise genomic contexts usually depend on slow computations, are restricted to narrow taxonomic ranges, and/or do not allow for the functional and interactive exploration of neighbouring genes across different species. Here, we present GeCoViz, an online resource built upon 12 221 reference prokaryotic genomes that provides fast and interactive visualisation of custom genomic regions anchored by any target gene, which can be sought by either name, orthologous group (KEGGs, eggNOGs), protein domain (PFAM) or sequence. To facilitate functional and evolutionary interpretation, GeCoViz allows to customise the taxonomic scope of each analysis and provides comprehensive annotations of the neighbouring genes. Interactive visualisation options include, among others, the scaled representations of gene lengths and genomic distances, and on the fly calculation of synteny conservation of neighbouring genes, which can be highlighted based on custom thresholds. The resulting plots can be downloaded as high-quality images for publishing purposes. Overall, GeCoViz offers an easy-to-use, comprehensive, fast and interactive web-based tool for investigating the genomic context of prokaryotic genes, and is freely available at https://gecoviz.cgmlab.org.

Published

2022