Your search keyword '"Tett, Adrian"' showing total 4 results

1. Extending and improving metagenomic taxonomic profiling with uncharacterized species using MetaPhlAn 4.

Author

Blanco-Míguez, Aitor, Beghini, Francesco, Cumbo, Fabio, McIver, Lauren J., Thompson, Kelsey N., Zolfo, Moreno, Manghi, Paolo, Dubois, Leonard, Huang, Kun D., Thomas, Andrew Maltez, Nickols, William A., Piccinno, Gianmarco, Piperni, Elisa, Punčochář, Michal, Valles-Colomer, Mireia, Tett, Adrian, Giordano, Francesca, Davies, Richard, Wolf, Jonathan, and Berry, Sarah E.

Abstract

Metagenomic assembly enables new organism discovery from microbial communities, but it can only capture few abundant organisms from most metagenomes. Here we present MetaPhlAn 4, which integrates information from metagenome assemblies and microbial isolate genomes for more comprehensive metagenomic taxonomic profiling. From a curated collection of 1.01 M prokaryotic reference and metagenome-assembled genomes, we define unique marker genes for 26,970 species-level genome bins, 4,992 of them taxonomically unidentified at the species level. MetaPhlAn 4 explains ~20% more reads in most international human gut microbiomes and >40% in less-characterized environments such as the rumen microbiome and proves more accurate than available alternatives on synthetic evaluations while also reliably quantifying organisms with no cultured isolates. Application of the method to >24,500 metagenomes highlights previously undetected species to be strong biomarkers for host conditions and lifestyles in human and mouse microbiomes and shows that even previously uncharacterized species can be genetically profiled at the resolution of single microbial strains. Integration of metagenomic assemblies and microbial isolate genomes improves profiling of uncharacterized species. [ABSTRACT FROM AUTHOR]

Published

2023

2. Detecting contamination in viromes using ViromeQC

Author

Zolfo, Moreno, primary, Pinto, Federica, additional, Asnicar, Francesco, additional, Manghi, Paolo, additional, Tett, Adrian, additional, Bushman, Frederic D., additional, and Segata, Nicola, additional

Published

2019

3. The minimum information about a genome sequence (MIGS) specification

Author

Field, Dawn, primary, Garrity, George, additional, Gray, Tanya, additional, Morrison, Norman, additional, Selengut, Jeremy, additional, Sterk, Peter, additional, Tatusova, Tatiana, additional, Thomson, Nicholas, additional, Allen, Michael J, additional, Angiuoli, Samuel V, additional, Ashburner, Michael, additional, Axelrod, Nelson, additional, Baldauf, Sandra, additional, Ballard, Stuart, additional, Boore, Jeffrey, additional, Cochrane, Guy, additional, Cole, James, additional, Dawyndt, Peter, additional, De Vos, Paul, additional, dePamphilis, Claude, additional, Edwards, Robert, additional, Faruque, Nadeem, additional, Feldman, Robert, additional, Gilbert, Jack, additional, Gilna, Paul, additional, Glöckner, Frank Oliver, additional, Goldstein, Philip, additional, Guralnick, Robert, additional, Haft, Dan, additional, Hancock, David, additional, Hermjakob, Henning, additional, Hertz-Fowler, Christiane, additional, Hugenholtz, Phil, additional, Joint, Ian, additional, Kagan, Leonid, additional, Kane, Matthew, additional, Kennedy, Jessie, additional, Kowalchuk, George, additional, Kottmann, Renzo, additional, Kolker, Eugene, additional, Kravitz, Saul, additional, Kyrpides, Nikos, additional, Leebens-Mack, Jim, additional, Lewis, Suzanna E, additional, Li, Kelvin, additional, Lister, Allyson L, additional, Lord, Phillip, additional, Maltsev, Natalia, additional, Markowitz, Victor, additional, Martiny, Jennifer, additional, Methe, Barbara, additional, Mizrachi, Ilene, additional, Moxon, Richard, additional, Nelson, Karen, additional, Parkhill, Julian, additional, Proctor, Lita, additional, White, Owen, additional, Sansone, Susanna-Assunta, additional, Spiers, Andrew, additional, Stevens, Robert, additional, Swift, Paul, additional, Taylor, Chris, additional, Tateno, Yoshio, additional, Tett, Adrian, additional, Turner, Sarah, additional, Ussery, David, additional, Vaughan, Bob, additional, Ward, Naomi, additional, Whetzel, Trish, additional, San Gil, Ingio, additional, Wilson, Gareth, additional, and Wipat, Anil, additional

Published

2008

4. Extending and improving metagenomic taxonomic profiling with uncharacterized species with MetaPhlAn 4

Author

Aitor Blanco-Míguez, Francesco Beghini, Fabio Cumbo, Lauren J. McIver, Kelsey N. Thompson, Moreno Zolfo, Paolo Manghi, Leonard Dubois, Kun D. Huang, Andrew Maltez Thomas, William A. Nickols, Gianmarco Piccinno, Elisa Piperni, Michal Punčochář, Mireia Valles-Colomer, Adrian Tett, Francesca Giordano, Richard Davies, Jonathan Wolf, Sarah E. Berry, Tim D. Spector, Eric A. Franzosa, Edoardo Pasolli, Francesco Asnicar, Curtis Huttenhower, Nicola Segata, Blanco-Míguez, Aitor, Beghini, Francesco, Cumbo, Fabio, Mciver, Lauren J, Thompson, Kelsey N, Zolfo, Moreno, Manghi, Paolo, Dubois, Leonard, Huang, Kun D, Thomas, Andrew Maltez, Nickols, William A, Piccinno, Gianmarco, Piperni, Elisa, Punčochář, Michal, Valles-Colomer, Mireia, Tett, Adrian, Giordano, Francesca, Davies, Richard, Wolf, Jonathan, Berry, Sarah E, Spector, Tim D, Franzosa, Eric A, Pasolli, Edoardo, Asnicar, Francesco, Huttenhower, Curti, and Segata, Nicola

Subjects

Biomedical Engineering, Molecular Medicine, Bioengineering, Applied Microbiology and Biotechnology, Biotechnology

Abstract

Metagenomic assembly enables new organism discovery from microbial communities, but it can only capture few abundant organisms from most metagenomes. Here we present MetaPhlAn 4, which integrates information from metagenome assemblies and microbial isolate genomes for more comprehensive metagenomic taxonomic profiling. From a curated collection of 1.01 M prokaryotic reference and metagenome-assembled genomes, we define unique marker genes for 26,970 species-level genome bins, 4,992 of them taxonomically unidentified at the species level. MetaPhlAn 4 explains ~20% more reads in most international human gut microbiomes and >40% in less-characterized environments such as the rumen microbiome and proves more accurate than available alternatives on synthetic evaluations while also reliably quantifying organisms with no cultured isolates. Application of the method to >24,500 metagenomes highlights previously undetected species to be strong biomarkers for host conditions and lifestyles in human and mouse microbiomes and shows that even previously uncharacterized species can be genetically profiled at the resolution of single microbial strains.

Published

2023