Your search keyword '"Mark J Pallen"' showing total 178 results

1. Corrigendum: Naming the unnamed: over 65,000 Candidatus names for unnamed Archaea and Bacteria in the Genome Taxonomy Database

Author

Mark J. Pallen, Luis M. Rodriguez-R, and Nabil-Fareed Alikhan

Subjects

General Medicine, Microbiology, Ecology, Evolution, Behavior and Systematics

Published

2023

2. An initial genomic blueprint of the healthy human oesophageal microbiome

Author

Rachel Gilroy, Mina E. Adam, Bhaskar Kumar, and Mark J. Pallen

Abstract

Background. The oesophageal microbiome is thought to contribute to the pathogenesis of oesophageal cancer. However, investigations using culture and molecular barcodes have provided only a low-resolution view of this important microbial community. We therefore explored the potential of culturomics and metagenomic binning to generate a catalogue of reference genomes from the healthy human oesophageal microbiome, alongside a comparison set from saliva. Results. Twenty-two distinct colonial morphotypes from healthy oesophageal samples were genome-sequenced. These fell into twelve species clusters, eleven of which represented previously defined species. Two isolates belonged to a novel species, which we have named Rothia gullae. We performed metagenomic binning of reads generated from UK samples from this study alongside reads generated from Australian samples in a recent study. Metagenomic binning generated 136 medium or high-quality metagenome-assembled genomes (MAGs). MAGs were assigned to 56 species clusters, eight representing novel Candidatus species, which we have named Ca.Granulicatella gullae, Ca. Streptococcus gullae, Ca. Nanosynbacter quadramensis, Ca. Nanosynbacter gullae, Ca.Nanosynbacter colneyensis, Ca. Nanosynbacter norwichensis, Ca. Nanosynococcus oralis and Ca. Haemophilus gullae. Five of these novel species belong to the recently described phylum Patescibacteria. Although members of the Patescibacteria are known to inhabit the oral cavity, this is the first report of their presence in the oesophagus. Eighteen of the metagenomic species were, until recently, identified only by hard-to-remember alphanumeric placeholder designations. Here we illustrate the utility of a set of recently published arbitrary Latinate species names in providing user-friendly taxonomic labels for microbiome analyses. Our non-redundant species catalogue contained 63 species derived from cultured isolates or MAGs. Mapping revealed that these species account for around half of the sequences in the oesophageal and saliva metagenomes. Although no species was present in all oesophageal samples, 60 species occurred in at least one oesophageal metagenome from either study, with 50 identified in both cohorts. Conclusions. Recovery of genomes and discovery of new species represents an important step forward in our understanding of the oesophageal microbiome. The genes and genomes that we have released into the public domain will provide a base line for future comparative, mechanistic and intervention studies

Published

2023

3. Naming the unnamed: over 65,000

Author

Mark J, Pallen, Luis M, Rodriguez-R, and Nabil-Fareed, Alikhan

Subjects

DNA, Bacterial, Base Composition, Bacteria, RNA, Ribosomal, 16S, Fatty Acids, Sequence Analysis, DNA, Archaea, Phylogeny, Bacterial Typing Techniques

Abstract

Thousands of new bacterial and archaeal species and higher-level taxa are discovered each year through the analysis of genomes and metagenomes. The Genome Taxonomy Database (GTDB) provides hierarchical sequence-based descriptions and classifications for new and as-yet-unnamed taxa. However, bacterial nomenclature, as currently configured, cannot keep up with the need for new well-formed names. Instead, microbiologists have been forced to use hard-to-remember alphanumeric placeholder labels. Here, we exploit an approach to the generation of well-formed arbitrary Latinate names at a scale sufficient to name tens of thousands of unnamed taxa within GTDB. These newly created names represent an important resource for the microbiology community, facilitating communication between bioinformaticians, microbiologists and taxonomists, while populating the emerging landscape of microbial taxonomic and functional discovery with accessible and memorable linguistic labels.

Published

2022

4. Restoration of wild-type motility to flagellin-knockout Escherichia coli by varying promoter, copy number and induction strength in plasmid-based expression of flagellin

Author

Nicholas M. Thomson and Mark J. Pallen

Subjects

Copy number, biology, Chemistry, lcsh:Biotechnology, Tuneable, Mutant, Wild type, Promoter, Motility, Flagellum, Plasmid, Article, Cell biology, Flagella, Transcription (biology), lcsh:TP248.13-248.65, Gene expression, biology.protein, Flagellin, Biotechnology

Abstract

Flagellin is the major constituent of the flagellar filament and faithful restoration of wild-type motility to flagellin mutants may be beneficial for studies of flagellar biology and biotechnological exploitation of the flagellar system. However, gene complementation studies often fail to report whether true wild-type motility was restored by expressing flagellin from a plasmid. Therefore, we explored the restoration of motility by flagellin expressed from a variety of combinations of promoter, plasmid copy number and induction strength. Motility was only partially (~50%) restored using the tightly regulated rhamnose promoter due to weak flagellin gene expression, but wild-type motility was regained with the T5 promoter, which, although leaky, allowed titration of induction strength. The endogenous E. coli flagellin promoter also restored wild-type motility. However, flagellin gene transcription levels increased 3.1–27.9-fold when wild-type motility was restored, indicating disturbances in the flagellar regulatory mechanisms. Motility was little affected by plasmid copy number when dependent on inducible promoters. However, plasmid copy number was important when expression was controlled by the native E. coli flagellin promoter. Motility was poorly correlated with flagellin transcription levels, but strongly correlated with the amount of flagellin associated with the flagellar filament, suggesting that excess monomers are either not exported or not assembled into filaments. This study provides a useful reference for further studies of flagellar function and a simple blueprint for similar studies with other proteins., Graphical abstract Unlabelled Image, Highlights • Restoration of motility to flagellin-knockout E. coli depends on choice of promoter. • Plasmid copy number is important when using the natural flagellin promoter. • For inducible promoters, induction strength is more important than copy number. • Large increase in flagellin transcription but not flagella-associated protein. • Plasmid-based expression interrupts flagellin expression control mechanisms.

Published

2020

5. SARS-CoV-2 Variants of Interest and Concern naming scheme conducive for global discourse

Author

Leo L.M. Poon, Lorenzo Subissi, Bas B. Oude Munnink, Malik Peiris, Brett N Archer, Lisa L. Carter, Edward C. Holmes, Oliver G. Pybus, Amal Barakat, John Ziebuhr, Jairo Andres Mendez Rico, Suxiang Tong, Maria D. Van Kerkhove, Ihab El Masry, Jinal N. Bhiman, Paola Cristina Resende, Mark J. Pallen, Frank Konings, Richard A. Neher, Bette T. Korber, Alexander E. Gorbalenya, Anne Cullinane, Mark Perkins, Esther L Hamblion, Emma B. Hodcroft, Belinda Louise Herring, Tulio de Oliveira, Andrew Rambaut, Marion Koopmans, Vincent J. Munster, Erik Alm, George F. Gao, Marco Marklewitz, Shagun Khare, Jens H. Kuhn, Trevor Bedford, Sebastian Maurer-Stroh, Anne von Gottberg, Julian Druce, Sylvie van der Werf, Manish Kakkar, Leon Caly, Roger Evans, Juliana Leite, Duncan MacCannell, Boris I. Pavlin, Volker Thiel, University Hospital of Cologne [Cologne], European Centre for Disease Prevention and Control [Stockholm, Sweden] (ECDC), Institut National d'Hygiène [Maroc], University of Washington [Seattle], Fred Hutchinson Cancer Research Center [Seattle] (FHCRC), Department of Biochemistry and Molecular Biology, Mayo Clinic, Victorian Infectious Diseases Reference Laboratory, Food and Agriculture Organization of the United Nations [Rome, Italie] (FAO), University of Chinese Academy of Sciences [Beijing] (UCAS), WHO, Regional Office for Africa [Brazzaville, Republic of the Congo], Génétique Moléculaire des Virus à ARN - Molecular Genetics of RNA Viruses (GMV-ARN (UMR_3569 / U-Pasteur_2)), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Centre National de Référence des virus des infections respiratoires (dont la grippe) - National Reference Center Virus Influenzae [Paris] (CNR - laboratoire coordonnateur), Institut Pasteur [Paris] (IP), and Virology

Subjects

Microbiology (medical), Scheme (programming language), 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), [SDV]Life Sciences [q-bio], viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Immunology, Global Health, World Health Organization, Applied Microbiology and Biotechnology, Microbiology, World health, 03 medical and health sciences, Terminology as Topic, Genetics, Global health, Humans, 030304 developmental biology, computer.programming_language, 0303 health sciences, SARS-CoV-2, 030306 microbiology, business.industry, Communication, COVID-19, Cell Biology, Public relations, Coronavirus, business, computer

Abstract

A group convened and led by the Virus Evolution Working Group of the World Health Organization reports on its deliberations and announces a naming scheme that will enable clear communication about SARS-CoV-2 variants of interest and concern.

Published

2021

6. The microbial ecology of Escherichia coli in the vertebrate gut

Author

Ebenezer Foster-Nyarko and Mark J Pallen

Subjects

Infectious Diseases, Bacteria, Vertebrates, Escherichia coli, Animals, Symbiosis, Microbiology, Escherichia coli Infections

Abstract

Escherichia coli has a rich history as biology's ‘rock star’, driving advances across many fields. In the wild, E. coli resides innocuously in the gut of humans and animals but is also a versatile pathogen commonly associated with intestinal and extraintestinal infections and antimicrobial resistance—including large foodborne outbreaks such as the one that swept across Europe in 2011, killing 54 individuals and causing approximately 4000 infections and 900 cases of haemolytic uraemic syndrome. Given that most E. coli are harmless gut colonizers, an important ecological question plaguing microbiologists is what makes E. coli an occasionally devastating pathogen? To address this question requires an enhanced understanding of the ecology of the organism as a commensal. Here, we review how our knowledge of the ecology and within-host diversity of this organism in the vertebrate gut has progressed in the 137 years since E. coli was first described. We also review current approaches to the study of within-host bacterial diversity. In closing, we discuss some of the outstanding questions yet to be addressed and prospects for future research.

Published

2022

7. Remarkable genomic diversity among

Author

Nicholas M, Thomson, Rachel, Gilroy, Maria, Getino, Ebenezer, Foster-Nyarko, Arnoud H M, van Vliet, Roberto M, La Ragione, and Mark J, Pallen

Abstract

The genus

Published

2021

8. Leviviricetes: expanding and restructuring the taxonomy of bacteria-infecting single-stranded RNA viruses

Author

R. Paul Ross, Andrey N. Shkoporov, Evelien M. Adriaenssens, Jens H. Kuhn, Mark J. Pallen, Lorraine A. Draper, Stephen R. Stockdale, Julie Callanan, Colin Hill, and Janis Rumnieks

Subjects

Genomic Methodologies, Leviviricetes, metatranscriptomics, Phylogenetic tree, biology, Short Communications, RNA, General Medicine, virus taxonomy, biology.organism_classification, levivirus, Genome, Metagenomics, Evolutionary biology, Taxonomy (general), phage, Leviviridae, virus classification, Virus classification, Single-Stranded RNA

Abstract

The vast majority of described prokaryotic viruses have double-stranded or single-stranded DNA or double-stranded RNA genomes. Until 2020, a mere four prokaryotic single-stranded, positive-sense RNA viruses have been classified in two genera (Riboviria; Lenarviricota; Allassoviricetes; Leviviridae). Several recent metagenomic and metatranscriptomic studies revealed a vastly greater diversity of these viruses in prokaryotic soil communities than ever anticipated. Phylogenetic analysis of these newly discovered viruses prompted the reorganization of class Allassoviricetes, now renamed Leviviricetes, to include two orders, Norzivirales and Timlovirales, and a total of six families, 428 genera and 882 species. Here we outline the new taxonomy of Leviviricetes, approved and ratified in 2021 by the International Committee on Taxonomy of Viruses, and describe open-access hidden Markov models to accommodate the anticipated identification and future classification of hundreds, if not thousands, of additional class members into this new taxonomic framework.

Published

2021

9. The status

Author

Mark J, Pallen

Subjects

bacterial nomenclature, Bacteria, genome-based taxonomy, Terminology as Topic, Candidatus, Reviews, uncultured bacteria, Archaea, Phylogeny

Abstract

The status Candidatus was introduced to bacterial taxonomy in the 1990s to accommodate uncultured taxa defined by analyses of DNA sequences. Here I review the strengths, weaknesses, opportunities and threats (SWOT) associated with the status Candidatus in the light of a quarter century of use, twinned with recent developments in bacterial taxonomy and sequence-based taxonomic discovery. Despite ambiguities as to its scope, philosophical objections to its use and practical problems in implementation, the status Candidatus has now been applied to over 1000 taxa and has been widely adopted by journals and databases. Although lacking priority under the International Code for Nomenclature of Prokaryotes, many Candidatus names have already achieved de facto standing in the academic literature and in databases via description of a taxon in a peer-reviewed publication, alongside deposition of a genome sequence and there is a clear path to valid publication of such names on culture. Continued and increased use of Candidatus names provides an alternative to the potential upheaval that might accompany creation of a new additional code of nomenclature and provides a ready solution to the urgent challenge of naming many thousands of newly discovered but uncultured species.

Published

2021

10. The status Candidatus for uncultured taxa of Bacteria and Archaea: SWOT analysis

Author

Mark J. Pallen

Subjects

De facto, Bacterial taxonomy, General Medicine, Biology, biology.organism_classification, Microbiology, Genealogy, International code, Taxon, Candidatus, Nomenclature, SWOT analysis, Ecology, Evolution, Behavior and Systematics, Archaea

Abstract

The status Candidatus was introduced to bacterial taxonomy in the 1990s to accommodate uncultured taxa defined by analyses of DNA sequences. Here I review the strengths, weaknesses, opportunities and threats (SWOT) associated with the status Candidatus in the light of a quarter century of use, twinned with recent developments in bacterial taxonomy and sequence-based taxonomic discovery. Despite ambiguities as to its scope, philosophical objections to its use and practical problems in implementation, the status Candidatus has now been applied to over 1000 taxa and has been widely adopted by journals and databases. Although lacking priority under the International Code for Nomenclature of Prokaryotes, many Candidatus names have already achieved de facto standing in the academic literature and in databases via description of a taxon in a peer-reviewed publication, alongside deposition of a genome sequence and there is a clear path to valid publication of such names on culture. Continued and increased use of Candidatus names provides an alternative to the potential upheaval that might accompany creation of a new additional code of nomenclature and provides a ready solution to the urgent challenge of naming many thousands of newly discovered but uncultured species.

Published

2021

11. Replacement of the Alpha variant of SARS-CoV-2 by the Delta variant in Lebanon between April and June 2021

Author

Nada Ghosn, Janine M. Wilkinson, Thanh Le-Viet, Alexander J. Trotter, Mark J. Pallen, Jad Koweyes, Martin Lott, Matthew Felgate, Sima Tokajian, Rose K Davidson, Abdul Karim Sesay, Andrew J. Page, Hamad Hasan, Sarah Gardner, Georgi Merhi, Tatiana Tohmeh, Mark A. Webber, Leonardo de Oliveira Martins, Sophie J Prosolek, Nabil-Fareed Alikhan, Mona Al Buaini, Orla Jupp, Hala Abou Naja, Bassam Badran, Kate A Makin, and Rachael Stanley

Subjects

Delta, 2019-20 coronavirus outbreak, Eastern mediterranean, Geography, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Pandemic, Sampling time, Demography

Abstract

BackgroundThe COVID-19 pandemic continues to expand globally, with case numbers rising in many areas of the world, including the Eastern Mediterranean Region. Lebanon experienced its largest wave of COVID-19 infections from January to April 2021. Limited genomic surveillance was undertaken, with just twenty six SARS-CoV-2 genomes available for this period, nine of which were from travellers from Lebanon detected by other countries. Additional genome sequencing is thus needed to allow surveillance of variants in circulation.MethodsNine hundred and five SARS-CoV-2 genomes were sequenced using the ARTIC protocol. The genomes were derived from SARS-CoV-2-positive samples, selected retrospectively from the sentinel COVID-19 surveillance network, to capture diversity of location, sampling time, gender, nationality and age.ResultsAlthough sixteen PANGO lineages were circulating in Lebanon in January 2021, by February there were just four, with the Alpha variant accounting for 97% of samples. In the following two months, all samples contained the Alpha variant. However, this had changed dramatically by June and July, when all samples belonged to the Delta variant.DiscussionThis study provides a ten-fold increase in the number of SARS-CoV-2 genomes available from Lebanon. The Alpha variant, first detected in the UK, rapidly swept through Lebanon, causing the country’s largest wave to date, which peaked in January 2021. The Alpha variant was introduced to Lebanon multiple times despite travel restrictions, but the source of these introductions remains uncertain. The Delta variant was detected in Gambia in travellers from Lebanon in mid-May, suggesting community transmission in Lebanon several weeks before this variant was detected in the country. Prospective sequencing in June/July 2021 showed that the Delta variant had completely replaced the Alpha variant in under six weeks.

Published

2021

12. Whole-Genome Sequencing of

Author

Emma, Stubberfield, Jonathan, Sheldon, Roderick M, Card, Manal, AbuOun, Jon, Rogers, Susanna, Williamson, Gemma L, Kay, Mark J, Pallen, and Muna F, Anjum

Subjects

whole genome sequencing, Brachyspira hyodysenteriae, England and Wales, antimicrobial resistance, phylogeny, Microbiology, Original Research

Abstract

Brachyspira hyodysenteriae is the principal cause of swine dysentery, a disease that threatens economic productivity of pigs in many countries as it can spread readily within and between farms, and only a small number of antimicrobials are authorized for treatment of pigs. In this study, we performed whole-genome sequencing (WGS) of 81 B. hyodysenteriae archived at the Animal and Plant Health Agency (APHA) from diagnostic submissions and herd monitoring in England and Wales between 2004 and 2015. The resulting genome sequences were analyzed alongside 34 genomes we previously published. Multi-locus sequence typing (MLST) showed a diverse population with 32 sequence types (STs) among the 115 APHA isolates, 25 of them identified only in England; while also confirming that the dominant European clonal complexes, CC8 and CC52, were common in the United Kingdom. A core-genome SNP tree typically clustered the isolates by ST, with isolates from some STs detected only within a specific region in England, although others were more widespread, suggesting transmission between different regions. Also, some STs were more conserved in their core genome than others, despite these isolates being from different holdings, regions and years. Minimum inhibitory concentrations to commonly used antimicrobials (Tiamulin, Valnemulin, Doxycycline, Lincomycin, Tylosin, Tylvalosin) were determined for 82 of the genome-sequenced isolates; genomic analysis revealed mutations generally correlated well with the corresponding resistance phenotype. There was a major swine dysentery intervention program in 2009–2010, and antimicrobial survival curves showed a significant reduction in sensitivity to tiamulin and valnemulin in isolates collected in and after 2010, compared to earlier isolates. This correlated with a significant increase in post-2009 isolates harboring the pleuromutilin resistance gene tva(A), which if present, may facilitate higher levels of resistance. The reduction in susceptibility of Brachyspira from diagnostic submissions to pleuromutilins, emphasizes the need for prudent treatment, control and eradication strategies.

Published

2021

13. Linking carbohydrate structure with function in the human gut microbiome using hybrid metagenome assemblies

Author

Mark J. Pallen, Gemma L. Kay, Harris S, Kendall R. Corbin, Alp Aydin, Hannah Harris, Jennifer Ahn-Jarvis, Anuradha Ravi, Rachel Gilroy, Perla Troncoso-Rey, Frederick J. Warren, Andrew J. Page, Le Viet T, and Justin O'Grady

Subjects

medicine.anatomical_structure, Symbiosis, Metagenomics, Host (biology), medicine, Computational biology, Microbiome, Biology, Digestion, Genome, Small intestine, Function (biology)

Abstract

BackgroundComplex carbohydrates that escape digestion in the small intestine, are broken down in the large intestine by enzymes encoded by the gut microbiome. This is a symbiotic relationship between particular microbes and the host, resulting in metabolic products that influence host gut health and are exploited by other microbes. However, the role of carbohydrate structure in directing microbiota community composition and the succession of carbohydrate-degrading microbes is not fully understood. Here we take the approach of combining data from long and short read sequencing allowing recovery of large numbers of high quality genomes, from which we can predict carbohydrate degrading functions, and impact of carbohydrate on microbial communities.ResultsIn this study we evaluate species-level compositional variation within a single microbiome in response to six structurally distinct carbohydrates in a controlled model gut using hybrid metagenome assemblies. We identified 509 high-quality metagenome-assembled genomes (MAGs) belonging to ten bacterial classes and 28 bacterial families. We found dynamic variations in the microbiome amongst carbohydrate treatments, and over time. Using these data, the MAGs were characterised as primary (0h to 6h) and secondary degraders (12h to 24h). Annotating the MAG’s with the Carbohydrate Active Enzyme (CAZyme) database we are able to identify species which are enriched through time and have the potential to actively degrade carbohydrate substrates.ConclusionsRecent advances in sequencing technology allowed us to identify significant unexplored diversity amongst starch degrading species in the human gut microbiota including CAZyme profiles and complete MAGs. We have identified changes in microbial community composition in response to structurally distinct carbohydrate substrates, which can be directly related to the CAZyme complement of the enriched MAG’s. Through this approach, we have identified a number of species which have not previously been implicated in starch degradation, but which have the potential to play an important role.

Published

2021

14. Metagenomic investigation of the equine faecal microbiome reveals extensive taxonomic and functional diversity

Author

Mark J. Pallen, Aharon Oren, Joy Leng, La Ragione Rm, Christopher J. Proudman, Anuradha Ravi, Rachel Gilroy, Evelien M. Adriaenssens, and Dave Baker

Subjects

Bacteriophage, Functional diversity, biology, Metagenomics, Evolutionary biology, Candidatus, Hindgut, Microbiome, biology.organism_classification, Genome, Archaea

Abstract

BackgroundThe horse plays crucial roles across the globe, including in horseracing, as a working and companion animal and as a food animal. The horse hindgut microbiome makes a key contribution in turning a high fiber diet into body mass and horsepower. However, despite its importance, the horse hindgut microbiome remains largely undefined. Here, we applied culture-independent shotgun metagenomics to thoroughbred equine faecal samples to deliver novel insights into this complex microbial community.ResultsWe performed metagenomic sequencing on five equine faecal samples to construct 123 high- or medium-quality metagenome-assembled genomes from Bacteria and Archaea. In addition, we recovered nearly 200 bacteriophage genomes. We document surprising taxonomic and functional diversity, encompassing dozens of novel or unnamed bacterial genera and species, to which we have assigned new Candidatus names. Many of these genera are conserved across a range of mammalian gut microbiomes.ConclusionsOur metagenomic analyses provide new insights into the bacterial, archaeal and bacteriophage components of the horse gut microbiome. The resulting datasets provide a key resource for future high-resolution taxonomic and functional studies on the equine gut microbiome.

Published

2021

15. The oesophageal microbiome and cancer: hope or hype?

Author

Mark J. Pallen, Stephen Lam, Rachel Gilroy, Mina Adam, and Bhaskar Kumar

Subjects

Microbiology (medical), medicine.medical_specialty, Esophageal Neoplasms, Microbiota, Cancer, Oesophageal adenocarcinoma, Biology, medicine.disease, Microbiology, Barrett Esophagus, Infectious Diseases, Metagenomics, Virology, Neoplasms, Barrett's oesophagus, medicine, Humans, Microbiome, Intensive care medicine

Abstract

The human oesophagus is home to a complex microbial community, the oesophageal microbiome. Despite decades of work, we still have only a poor, low-resolution view of this community, which makes it hard to distinguish hope from hype when it comes to assessing links between the oesophageal microbiome and cancer. Here we review the potential importance of this microbiome and discuss new approaches, including culturomics, metagenomics, and recovery of whole-genome sequences, that bring renewed hope for an in-depth characterisation of this community that could deliver translational impact.

Published

2021

16. A Genomic Census of the Chicken Gut Microbiome using Metagenomics and Culture

Author

Ebenezer Foster-Nyarko, Mark J. Pallen, Aharon Oren, Sheikh Jarju, Roberto M. La Ragione, Evelien M. Adriaenssens, Falk Hildebrand, Mick Watson, Neil Hall, Isabella Pursley, Rachel Gilroy, Arss Secka, Roy R. Chaudhuri, Martin Antonio, Nabil-Fareed Alikhan, Karim Gharbi, David Baker, Daniel L. Horton, Anuradha Ravi, and María Getino

Subjects

Metagenomics, Computational biology, Biology, Census, Gut microbiome

Abstract

Background. The chicken is the most abundant food animal in the world. However, despite its importance, the chicken gut microbiome remains largely undefined. Here, we exploit culture-independent and culture-dependent approaches to deliver a genomic blueprint of this complex microbial community.Results. We performed metagenomic sequencing of fifty chicken faecal samples from two breeds and analysed these, alongside all (n=582) relevant publicly available chicken metagenomes, to cluster over 20 million non-redundant genes and to construct over 5,500 metagenome-assembled bacterial genomes. In addition, we recovered nearly 600 bacteriophage genomes This represents the most comprehensive view of the chicken gut associated microbiome to date, encompassing dozens of novel candidate bacterial genera and hundreds of novel candidate species. Keen to provide a stable, clear and memorable nomenclature for novel species, we devised a scalable combinatorial system for the creation of hundreds of well-formed Latin binomials. We cultured and genome-sequenced bacterial isolates from faeces, documenting thirty novel species, together with three species from the genus Escherichia, including the newly named species Escherichia whittamii.Conclusions. Our metagenomic and culture-based analyses provide new insights into the bacterial, archaeal and bacteriophage components of the chicken gut microbiome. The resulting datasets expand the known diversity of the chicken gut microbiome and provides a key resource for future high-resolution taxonomic and functional studies on the chicken gut microbiome.

Published

2020

17. The Next Million Names for Archaea and Bacteria

Author

Aharon Oren, Mark J. Pallen, and Andrea Telatin

Subjects

Microbiology (medical), 0303 health sciences, Bacteria, 030306 microbiology, Biology, Concatenation (mathematics), Microbiology, Archaea, Genealogy, 03 medical and health sciences, Microbial genomics, Infectious Diseases, Metagenomics, Virology, anatomy_morphology, Off the shelf, Road map, Nomenclature, Phylogeny, 030304 developmental biology

Abstract

Latin binomials, popularised in the eighteenth century by the Swedish naturalist Linnaeus, have stood the test of time in providing a stable, clear and memorable system of nomenclature across biology. However, relentless and ever-deeper exploration and analysis of the microbial world has created an urgent unmet need for huge numbers of new names for Archaea and Bacteria. Manual creation of such names remains difficult and slow and typically relies on expert-driven nomenclatural quality control. Keen to ensure the legacy of Linnaeus lives on in the age of microbial genomics and metagenomics, we propose an automated approach, employing combinatorial concatenation of roots from Latin and Greek to create linguistically correct names for genera and species that can be used off the shelf as needed. As proof of principle, we document over a million new names for Bacteria and Archaea. We are confident that our approach provides a road map for how to create new names for decades to come.

Published

2020

18. Genomic diversity of

Author

Ebenezer, Foster-Nyarko, Nabil-Fareed, Alikhan, Anuradha, Ravi, Gaëtan, Thilliez, Nicholas M, Thomson, David, Baker, Gemma, Kay, Jennifer D, Cramer, Justin, O'Grady, Martin, Antonio, and Mark J, Pallen

Subjects

Primates, phylogenomic diversity, Genomic Islands, Whole Genome Sequencing, Virulence Factors, Escherichia coli Proteins, High-Throughput Nucleotide Sequencing, Microbial evolution and epidemiology: Zoonosis/anthroponosis, Feces, Extraintestinal pathogenic E. coli, Drug Resistance, Bacterial, Escherichia coli, Animals, Humans, Gambia, Phylogeny, Research Article, Non-human primates

Abstract

Increasing contact between humans and non-human primates provides an opportunity for the transfer of potential pathogens or antimicrobial resistance between host species. We have investigated genomic diversity and antimicrobial resistance in Escherichia coli isolates from four species of non-human primates in the Gambia: Papio papio (n=22), Chlorocebus sabaeus (n=14), Piliocolobus badius (n=6) and Erythrocebus patas (n=1). We performed Illumina whole-genome sequencing on 101 isolates from 43 stools, followed by nanopore long-read sequencing on 11 isolates. We identified 43 sequence types (STs) by the Achtman scheme (ten of which are novel), spanning five of the eight known phylogroups of E. coli . The majority of simian isolates belong to phylogroup B2 – characterized by strains that cause human extraintestinal infections – and encode factors associated with extraintestinal disease. A subset of the B2 strains (ST73, ST681 and ST127) carry the pks genomic island, which encodes colibactin, a genotoxin associated with colorectal cancer. We found little antimicrobial resistance and only one example of multi-drug resistance among the simian isolates. Hierarchical clustering showed that simian isolates from ST442 and ST349 are closely related to isolates recovered from human clinical cases (differences in 50 and 7 alleles, respectively), suggesting recent exchange between the two host species. Conversely, simian isolates from ST73, ST681 and ST127 were distinct from human isolates, while five simian isolates belong to unique core-genome ST complexes – indicating novel diversity specific to the primate niche. Our results are of planetary health importance, considering the increasing contact between humans and wild non-human primates.

Published

2020

19. Genomic diversity of Escherichia coli isolates from healthy children in rural Gambia

Author

Nabil-Fareed Alikhan, Catherine Okoi, Peggy-Estelle Tientcheu, M Jahangir Hossain, Sarwar Golam, Justin O'Grady, Mark J. Pallen, Martin Antonio, Usman N. Ikumapayi, Marianne Defernez, and Ebenezer Foster-Nyarko

Subjects

Genetics, business.industry, Host (biology), Biology, biology.organism_classification, medicine.disease_cause, Genome, Escherichia, Genotype, medicine, Population study, Livestock, business, Clade, Escherichia coli

Abstract

Little is known about the genomic diversity of Escherichia coli in healthy children from sub-Saharan Africa, even though this is pertinent to understanding bacterial evolution and ecology and their role in infection. We isolated and whole-genome sequenced up to five colonies of faecal E. coli from 66 asymptomatic children aged three-to-five years in rural Gambia (n=88 isolates from 21 positive stools). We identified 56 genotypes, with an average of 2.7 genotypes per host. These were spread over 37 seven-allele sequence types and the E. coli phylogroups A, B1, B2, C, D, E, F and Escherichia cryptic clade I. Immigration events accounted for three-quarters of the diversity within our study population, while one-quarter of variants appeared to have arisen from within-host evolution. Several study strains were closely related to isolates that caused disease in humans or originated from livestock. Our results suggest that within-host evolution plays a minor role in the generation of diversity than independent immigration and the establishment of strains among our study population. Also, this study adds significantly to the number of commensal E. coli genomes, a group that has been traditionally underrepresented in the sequencing of this species.

Published

2020

20. A Genomic Blueprint of the Chicken Gut Microbiome

Author

Mick Watson, Roy R. Chaudhuri, María Getino, Evelien M. Adriaenssens, Rachel Gilroy, David Baker, Sheikh Jarju, Mark J. Pallen, Ebenezer Foster-Nyarko, Falk Hildebrand, Daniel L. Horton, Aharon Oren, Neil Hall, Nabil-Fareed Alikhan, Karim Gharbi, Martin Antonio, Arss Secka, Anuradha Ravi, and Isabella Pursley

Subjects

Blueprint, Computational biology, Biology, Gut microbiome

Abstract

Background: The chicken is the most abundant food animal in the world. However, despite its importance, the chicken gut microbiome remains largely undefined. Here, we exploit culture-independent and culture-dependent approaches to deliver a genomic blueprint of this complex microbial community. Results: We performed metagenomic sequencing of fifty chicken faecal samples from two breeds and analysed these, alongside all (n=582) relevant publicly available chicken metagenomes, to cluster over 20 million non-redundant genes and to construct over 5,500 metagenome-assembled bacterial genomes. In addition, we recovered nearly 600 bacteriophage genomes This represents the most comprehensive view of the chicken gut associated microbiome to date, encompassing dozens of novel candidate bacterial genera and hundreds of novel candidate species. Keen to provide a stable, clear and memorable nomenclature for novel species, we devised a scalable combinatorial system for the creation of hundreds of well-formed Latin binomials. We cultured bacterial isolates from faeces to deliver 282 whole genome sequences, incorporating thirty novel species, together with three species from the genus Escherichia, including the newly named species Escherichia whittamii.Conclusions: Our metagenomic and culture-based analyses provide new insights into the bacterial, archaeal and bacteriophage components of the chicken gut microbiome. The resulting datasets expand the known diversity of the chicken gut microbiome and provides a key resource for future high-resolution taxonomic and functional studies on the chicken gut microbiome.

Published

2020

21. Non-human primates in the Gambia harbour human-associated pathogenic Escherichia coli strains

Author

Justin O'Grady, Martin Antonio, David Baker, Gaetan Thilliez, Nicholas M. Thomson, Jennifer Danzy Cramer, Anuradha Ravi, Mark J. Pallen, Gemma L. Kay, Ebenezer Foster-Nyarko, and Nabil-Fareed Alikhan

Subjects

education.field_of_study, Genetic diversity, Shotgun sequencing, Population, Virulence, Biology, biology.organism_classification, medicine.disease_cause, Microbiology, Antibiotic resistance, Patas monkey, Pathogenic Escherichia coli, medicine, General Materials Science, education, Escherichia coli

Abstract

Increasing contact between humans and non-human primates provides an opportunity for the transfer of potential pathogens or antimicrobial resistance between different host species. We have investigated genetic diversity and antimicrobial resistance in Escherichia coli isolates from a range of non-human primates dispersed across the Gambia: patas monkey (n=1), western colobus monkey (n=6), green monkey (n=14) and guinea baboon (n=22). From 43 stools, we recovered 99 isolates. We performed Illumina whole-genome shotgun sequencing on all isolates and nanopore long-read sequencing on isolates with antimicrobial resistance genes. We inferred the evolution of E. coli in this population using the EnteroBase software environment. We identified 43 sequence types (ten of them novel), spanning five of the eight known phylogroups of E. coli. Many of the observed sequence types and phylotypes from non-human primates have been associated with human extra-intestinal infection and carry virulence characteristics associated with disease in humans, particularly ST73, ST217 and ST681. However, we found a low prevalence of antimicrobial resistance genes in isolates from non-human primates. Hierarchical clustering showed that ST442 and ST349 from non-human primates are closely related to isolates from human infections, suggesting recent exchange of bacteria between humans and monkeys. Our results are of public health importance, considering the increasing contact between humans and wild primates.

Published

2020

22. Gambian poultry isolates from hyperendemic group of AMR Escherichia coli strains in sub-Saharan Africa

Author

Nicholas M. Thomson, Mark J. Pallen, Nabil-Fareed Alikhan, Ebenezer Foster-Nyarko, Arss Secka, Sheikh Jarju, Martin Antonio, and Anuradha Ravi

Subjects

Veterinary medicine, Sub saharan, business.industry, medicine.drug_class, Antibiotics, Virulence, Sequence types, Biology, Disease cluster, medicine.disease_cause, Antibiotic resistance, parasitic diseases, medicine, General Materials Science, Livestock, business, Escherichia coli

Abstract

Chickens and guinea fowl are commonly reared in Gambian homes as affordable sources of protein. Using standard microbiological techniques, we obtained 68 caecal isolates of Escherichia coli from ten chickens and nine guinea fowl in rural Gambia. After Illumina whole-genome sequencing, 28 sequence types were detected in the isolates (four of them novel), of which ST155 was the most common (22/68, 32%). These strains span four of the eight main phylogroups of E. coli, with phylogroups B1 and A being most prevalent. Nearly a third of the isolates harboured at least one antimicrobial resistance gene, while most of the ST155 isolates (14/22, 64%) encoded resistance to ≥3 classes of clinically relevant antibiotics, as well as putative virulence factors, suggesting pathogenic potential in humans. Furthermore, hierarchical clustering revealed that several Gambian poultry strains were closely related to isolates from humans. Although the ST155 lineage is common in poultry from Africa and South America, the Gambian ST155 isolates sit within a tight genomic cluster (100 alleles difference) of strains from poultry and livestock in sub-Saharan Africa (the Gambia, Uganda and Kenya). Continued surveillance of E. coli and other potential pathogens in rural backyard poultry from sub-Saharan Africa is warranted.

Published

2020

23. Genomic diversity of Escherichia coli isolates from backyard chickens and guinea fowl in the Gambia

Author

Arss Secka, Nicholas M. Thomson, Justin O'Grady, Mark J. Pallen, Nabil-Fareed Alikhan, Sheikh Jarju, Anuradha Ravi, Ebenezer Foster-Nyarko, Brenda Kwambana-Adams, and Martin Antonio

Subjects

Veterinary medicine, Transmission (medicine), Host (biology), business.industry, Virulence, Biology, Disease cluster, medicine.disease_cause, Antibiotic resistance, GenBank, medicine, Livestock, business, Escherichia coli

Abstract

Chickens and guinea fowl are commonly reared in Gambian homes as affordable sources of protein. Using standard microbiological techniques, we obtained 68 caecal isolates of Escherichia coli from ten chickens and nine guinea fowl in rural Gambia. After Illumina whole-genome sequencing, 28 sequence types were detected in the isolates (four of them novel), of which ST155 was the most common (22/68, 32%). These strains span four of the eight main phylogroups of E. coli, with phylogroups B1 and A being most prevalent. Nearly a third of the isolates harboured at least one antimicrobial resistance gene, while most of the ST155 isolates (14/22, 64%) encoded resistance to ≥3 classes of clinically relevant antibiotics, as well as putative virulence factors, suggesting pathogenic potential in humans. Furthermore, hierarchical clustering revealed that several Gambian poultry strains were closely related to isolates from humans. Although the ST155 lineage is common in poultry from Africa and South America, the Gambian ST155 isolates belong to a unique cgMLST cluster comprised of closely related (38-39 alleles differences) isolates from poultry and livestock from sub-Saharan Africa—suggesting that strains can be exchanged between poultry and livestock in this setting. Continued surveillance of E. coli and other potential pathogens in rural backyard poultry from sub-Saharan Africa is warranted.Author notesAll supporting data and protocols have been provided within the article or as supplementary data files. Eleven supplementary figures and eight supplementary files are available with the online version of this article.Data summaryThe genomic assemblies for the isolates reported here are available for download from EnteroBase (http://enterobase.warwick.ac.uk/species/index/ecoli) and the EnteroBase assembly barcodes are provided in File S2.Sequences have been deposited in the NCBI SRA, under the BioProject ID: PRJNA616250 and accession numbers SAMN14485281 to SAMN14485348 (File S2). Assemblies have been deposited in GenBank under the BioProject ID: PRJNA616250 and accession numbers CP053258 and CP053259.Impact statementDomestic birds play a crucial role in human society, in particular contributing to food security in low-income countries. Many households in Sub-Saharan Africa rear free-range chickens and guinea fowl, which are often left to scavenge for feed in and around the family compound, where they are frequently exposed to humans, other animals and the environment. Such proximity between backyard poultry and humans is likely to facilitate transmission of pathogens such as Escherichia coli or antimicrobial resistance between the two host species. Little is known about the population structure of E. coli in rural chickens and guinea fowl, although this information is needed to contextualise the potential risks of transmission of bacterial strains between humans and rural backyard poultry. Thus, we sought to investigate the genomic diversity of E. coli in backyard poultry from rural Gambia.

Published

2020

24. Metagenomic investigation of the equine faecal microbiome reveals extensive taxonomic diversity

Author

Rachel Gilroy, Joy Leng, Anuradha Ravi, Evelien M. Adriaenssens, Aharon Oren, Dave Baker, Roberto M. La Ragione, Christopher Proudman, and Mark J. Pallen

Subjects

General Neuroscience, General Medicine, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

Background The horse plays crucial roles across the globe, including in horseracing, as a working and companion animal and as a food animal. The horse hindgut microbiome makes a key contribution in turning a high fibre diet into body mass and horsepower. However, despite its importance, the horse hindgut microbiome remains largely undefined. Here, we applied culture-independent shotgun metagenomics to thoroughbred equine faecal samples to deliver novel insights into this complex microbial community. Results We performed metagenomic sequencing on five equine faecal samples to construct 123 high- or medium-quality metagenome-assembled genomes from Bacteria and Archaea. In addition, we recovered nearly 200 bacteriophage genomes. We document surprising taxonomic diversity, encompassing dozens of novel or unnamed bacterial genera and species, to which we have assigned new Candidatus names. Many of these genera are conserved across a range of mammalian gut microbiomes. Conclusions Our metagenomic analyses provide new insights into the bacterial, archaeal and bacteriophage components of the horse gut microbiome. The resulting datasets provide a key resource for future high-resolution taxonomic and functional studies on the equine gut microbiome.

Published

2022

25. Identification of the anti-mycobacterial functional properties of piperidinol derivatives

Author

Trisha L. Bailey, Daniel J. Phillips, Mark J. Pallen, Elizabeth Fullam, Collette S. Guy, Andrew D. Millard, Christopher M. Furze, Esther Tichauer, Gemma L. Kay, Matthew I. Gibson, and James Harrison

Subjects

0301 basic medicine, Pharmacology, Whole genome sequencing, Tuberculosis, biology, Mycobacterium smegmatis, 030106 microbiology, Single-nucleotide polymorphism, medicine.disease_cause, medicine.disease, biology.organism_classification, 3. Good health, Microbiology, Mycobacterium tuberculosis, 03 medical and health sciences, 030104 developmental biology, medicine, Structure–activity relationship, Cytotoxicity, Escherichia coli

Abstract

Background and purpose: Tuberculosis (TB) remains a major global health threat and is now the leading cause of death from a single infectious agent worldwide. The current TB drug regimen is inadequate and new anti-tubercular agents are urgently required to be able to successfully combat the increasing prevalence of drug-resistant TB. The purpose of this study was to investigate a piperidinol compound derivative that is highly active against the Mycobacterium tuberculosis bacillus. Experimental approach: The antibacterial properties of the piperidinol compound and its corresponding bis-Mannich base analogue were evaluated against Mycobacterium smegmatis and Gram-negative organisms. Cytotoxicity studies were undertaken in order to determine the selectivity index for these compounds. Spontaneous resistant mutants of Mycobacterium smegmatis were generated against the piperidinol and corresponding bis-Mannich base lead derivatives and whole genome sequencing employed to determine genetic modifications as result to selection pressure in the presence of these compounds. Key results: The piperidinol and the bis-Mannich base analogue were found to be selective for mycobacteria and rapidly kill this organism with a cytotoxicity selectivity index for mycobacteria of >30 fold. Whole genome sequencing of M. smegmatis strains resistant to the lead compounds led to the identification of a number of single nucleotide polymorphisms (SNPs) indicating multiple-targets. Conclusion and implications: Our results indicate that the piperidinol moiety represents an attractive compound class in the pursuit of novel anti-tubercular agents.

Published

2017

26. Extensive microbial diversity within the chicken gut microbiome revealed by metagenomics and culture

Author

Aharon Oren, Anuradha Ravi, María Getino, Karim Gharbi, Dave Baker, Rachel Gilroy, Evelien M. Adriaenssens, Sheikh Jarju, Roy R. Chaudhuri, Mark J. Pallen, Arss Secka, Roberto M. La Ragione, Daniel L. Horton, Mick Watson, Nabil-Fareed Alikhan, Falk Hildebrand, Ebenezer Foster-Nyarko, Martin Antonio, Isabella Pursley, and Neil Hall

Subjects

Candidatus, Biodiversity, lcsh:Medicine, Metagenome-assembled genome, Bacterial genome size, Microbiology, Genome, General Biochemistry, Genetics and Molecular Biology, Bacteriophage, 03 medical and health sciences, Escherichia, Bacterial nomenclature, Agricultural Science, Feces, Taxonomy, 030304 developmental biology, Gut microbiome, 0303 health sciences, biology, 030306 microbiology, General Neuroscience, lcsh:R, Uncultured bacteria, Genomics, General Medicine, biology.organism_classification, Metagenomics, Evolutionary biology, General Agricultural and Biological Sciences, Chickens

Abstract

Background The chicken is the most abundant food animal in the world. However, despite its importance, the chicken gut microbiome remains largely undefined. Here, we exploit culture-independent and culture-dependent approaches to reveal extensive taxonomic diversity within this complex microbial community. Results We performed metagenomic sequencing of fifty chicken faecal samples from two breeds and analysed these, alongside all (n = 582) relevant publicly available chicken metagenomes, to cluster over 20 million non-redundant genes and to construct over 5,500 metagenome-assembled bacterial genomes. In addition, we recovered nearly 600 bacteriophage genomes. This represents the most comprehensive view of taxonomic diversity within the chicken gut microbiome to date, encompassing hundreds of novel candidate bacterial genera and species. To provide a stable, clear and memorable nomenclature for novel species, we devised a scalable combinatorial system for the creation of hundreds of well-formed Latin binomials. We cultured and genome-sequenced bacterial isolates from chicken faeces, documenting over forty novel species, together with three species from the genus Escherichia, including the newly named species Escherichia whittamii. Conclusions Our metagenomic and culture-based analyses provide new insights into the bacterial, archaeal and bacteriophage components of the chicken gut microbiome. The resulting datasets expand the known diversity of the chicken gut microbiome and provide a key resource for future high-resolution taxonomic and functional studies on the chicken gut microbiome.

Published

2021

27. Metagenomic profiling of ticks: identification of novel rickettsial genomes and detection of tick borne canine parvovirus

Author

Ziad Abdeen, Amer Al-Jawabreh, Suheir Ereqat, Mark J. Pallen, Holly Hall, Omar Abu Shamma, Anuradha Ravi, and Abedelmajeed Nasereddin

Subjects

Whole genome sequencing, Genetics, Anaplasma ovis, Canine parvovirus, Biology, Tick, bacterial infections and mycoses, biology.organism_classification, Genome, Metagenomics, parasitic diseases, Candidatus, bacteria, Hyalomma

Abstract

BackgroundAcross the world, ticks act as vectors of human and animal pathogens. Ticks rely on bacterial endosymbionts, which often share close and complex evolutionary links with tick-borne pathogens. As the prevalence, diversity and virulence potential of tick-borne agents remain poorly understood, there is a pressing need for microbial surveillance of ticks as potential disease vectors.Methodology/Principal FindingsWe developed a two-stage protocol that includes 16S-amplicon screening of pooled samples of hard ticks collected from dogs, sheep and camels in Palestine, followed by shotgun metagenomics on individual ticks to detect and characterise tick-borne pathogens and endosymbionts. Two ticks isolated from sheep yielded an abundance of reads from the genusRickettsia, which were assembled into draft genomes. One of the resulting genomes was highly similar toRickettsia massiliaestrain MTU5. Analysis of signature genes showed that the other represents the first genome sequence of the potential pathogenCandidatusRickettsia barbariae. Ticks from a dog and a sheep yielded draft genome sequences of strains of the Coxiella-like endosymbiontCandidatusCoxeilla mudrowiae. A sheep tick yielded sequences from the sheep pathogenAnaplasma ovis, whileHyalommaticks from camels yielded sequences belonging toFrancisella-like endosymbionts. From the metagenome of a dog tick from Jericho, we generated a genome sequence of a canine parvovirus.SignificanceHere, we have shown how a cost-effective two-stage protocol can be used to detect and characterise tick-borne pathogens and endosymbionts. In recovering genome sequences from an unexpected pathogen (canine parvovirus) and a previously unsequenced pathogen (CandidatusRickettsia barbariae), we demonstrate the open-ended nature of metagenomics. We also provide evidence that ticks can carry canine parvovirus, raising the possibility that ticks might contribute to the spread of this troublesome virus.Author SummaryWe have shown how DNA sequencing can be used to detect and characterise potentially pathogenic microorganisms carried by ticks. We surveyed hard ticks collected from domesticated animals across the West Bank territory of Palestine. All the ticks came from species that are also capable of feeding on humans. We detected several important pathogens, including two species ofRickettsia, the sheep pathogenAnaplasma ovisand canine parvovirus. These findings highlight the importance of hard ticks and the hazards they present for human and animal health in Palestine and the opportunities presented by high-throughput sequencing and bioinformatics analyses of DNA sequences in this setting.

Published

2018

28. Twenty years of bacterial genome sequencing

Author

Mark J. Pallen and Nicholas J. Loman

Subjects

Whole genome sequencing, Genetics, General Immunology and Microbiology, Shotgun sequencing, Genomics, Bacterial genome size, Computational biology, Biology, Microbiology, Genome, DNA sequencing, Infectious Diseases, Metagenomics, Personal genomics

Abstract

Twenty years ago, the publication of the first bacterial genome sequence, from Haemophilus influenzae, shook the world of bacteriology. In this Timeline, we review the first two decades of bacterial genome sequencing, which have been marked by three revolutions: whole-genome shotgun sequencing, high-throughput sequencing and single-molecule long-read sequencing. We summarize the social history of sequencing and its impact on our understanding of the biology, diversity and evolution of bacteria, while also highlighting spin-offs and translational impact in the clinic. We look forward to a 'sequencing singularity', where sequencing becomes the method of choice for as-yet unthinkable applications in bacteriology and beyond.

Published

2015

29. Complete Genome Sequence of Pig-Tailed Macaque Rhadinovirus 2 and Its Evolutionary Relationship with Rhesus Macaque Rhadinovirus and Human Herpesvirus 8/Kaposi's Sarcoma-Associated Herpesvirus

Author

Anthony S. Haines, Adam Grundhoff, A. Gregory Bruce, Mark J. Pallen, Timothy M. Rose, and Margaret E. Thouless

Subjects

Rhadinovirus, Sequence analysis, viruses, Molecular Sequence Data, Immunology, Sequence Homology, Genome, Viral, Biology, medicine.disease_cause, Synteny, Microbiology, Genome, Macaque, Viral Proteins, Virology, biology.animal, medicine, Animals, Kaposi's sarcoma-associated herpesvirus, Gene, Phylogeny, Genetics, Whole genome sequencing, virus diseases, Sequence Analysis, DNA, biology.organism_classification, MicroRNAs, Genetic Diversity and Evolution, Simian AIDS, Insect Science, DNA, Viral, Herpesvirus 8, Human, Macaca nemestrina

Abstract

Two rhadinovirus lineages have been identified in Old World primates. The rhadinovirus 1 (RV1) lineage consists of human herpesvirus 8, Kaposi's sarcoma-associated herpesvirus (KSHV), and closely related rhadinoviruses of chimpanzees, gorillas, macaques and other Old World primates. The RV2 rhadinovirus lineage is distinct and consists of closely related viruses from the same Old World primate species. Rhesus macaque rhadinovirus (RRV) is the RV2 prototype, and two RRV isolates, 26-95 and 17577, were sequenced. We determined that the pig-tailed macaque RV2 rhadinovirus, MneRV2, is highly associated with lymphomas in macaques with simian AIDS. To further study the role of rhadinoviruses in the development of lymphoma, we sequenced the complete genome of MneRV2 and identified 87 protein coding genes and 17 candidate microRNAs (miRNAs). A strong genome colinearity and sequence homology were observed between MneRV2 and RRV26-95, although the open reading frame (ORF) encoding the KSHV ORFK15 homolog was disrupted in RRV26-95. Comparison with MneRV2 revealed several genomic anomalies in RRV17577 that were not present in other rhadinovirus genomes, including an N-terminal duplication in ORF4 and a recombinative exchange of more distantly related homologs of the ORF22/ORF47 interacting glycoprotein genes. The comparison with MneRV2 has revealed novel genes and important conservation of protein coding domains and transcription initiation, termination, and splicing signals, which have added to our knowledge of RV2 rhadinovirus genetics. Further comparisons with KSHV and other RV1 rhadinoviruses will provide important avenues for dissecting the biology, evolution, and pathology of these closely related tumor-inducing viruses in humans and other Old World primates. IMPORTANCE This work provides the sequence characterization of MneRV2, the pig-tailed macaque homolog of rhesus rhadinovirus (RRV). MneRV2 and RRV belong to the rhadinovirus 2 (RV2) rhadinovirus lineage of Old World primates and are distinct but related to Kaposi's sarcoma-associated herpesvirus (KSHV), the etiologic agent of Kaposi's sarcoma. Pig-tailed macaques provide important models of human disease, and our previous studies have indicated that MneRV2 plays a causal role in AIDS-related lymphomas in macaques. Delineation of the MneRV2 sequence has allowed a detailed characterization of the genome structure, and evolutionary comparisons with RRV and KSHV have identified conserved promoters, splice junctions, and novel genes. This comparison provides insight into RV2 rhadinovirus biology and sets the groundwork for more intensive next-generation (Next-Gen) transcript and genetic analysis of this class of tumor-inducing herpesvirus. This study supports the use of MneRV2 in pig-tailed macaques as an important model for studying rhadinovirus biology, transmission and pathology.

Published

2015

30. An

Author

Roderick M, Card, Shaun A, Cawthraw, Javier, Nunez-Garcia, Richard J, Ellis, Gemma, Kay, Mark J, Pallen, Martin J, Woodward, and Muna F, Anjum

Subjects

plasmids, Gene Transfer, Horizontal, Cefotaxime, enteric pathogens, Models, Theoretical, Anti-Bacterial Agents, Gastrointestinal Microbiome, Salmonella, Drug Resistance, Multiple, Bacterial, Escherichia coli, Animals, horizontal gene transfer, antimicrobial resistance, Cecum, Chickens, Research Article

Abstract

The chicken gastrointestinal tract is richly populated by commensal bacteria that fulfill various beneficial roles for the host, including helping to resist colonization by pathogens. It can also facilitate the conjugative transfer of multidrug resistance (MDR) plasmids between commensal and pathogenic bacteria which is a significant public and animal health concern as it may affect our ability to treat bacterial infections. We used an in vitro chemostat system to approximate the chicken cecal microbiota, simulate colonization by an MDR Salmonella pathogen, and examine the dynamics of transfer of its MDR plasmid harboring several genes, including the extended-spectrum beta-lactamase blaCTX-M1. We also evaluated the impact of cefotaxime administration on plasmid transfer and microbial diversity. Bacterial community profiles obtained by culture-independent methods showed that Salmonella inoculation resulted in no significant changes to bacterial community alpha diversity and beta diversity, whereas administration of cefotaxime caused significant alterations to both measures of diversity, which largely recovered. MDR plasmid transfer from Salmonella to commensal Escherichia coli was demonstrated by PCR and whole-genome sequencing of isolates purified from agar plates containing cefotaxime. Transfer occurred to seven E. coli sequence types at high rates, even in the absence of cefotaxime, with resistant strains isolated within 3 days. Our chemostat system provides a good representation of bacterial interactions, including antibiotic resistance transfer in vivo. It can be used as an ethical and relatively inexpensive approach to model dissemination of antibiotic resistance within the gut of any animal or human and refine interventions that mitigate its spread before employing in vivo studies., IMPORTANCE The spread of antimicrobial resistance presents a grave threat to public health and animal health and is affecting our ability to respond to bacterial infections. Transfer of antimicrobial resistance via plasmid exchange is of particular concern as it enables unrelated bacteria to acquire resistance. The gastrointestinal tract is replete with bacteria and provides an environment for plasmid transfer between commensals and pathogens. Here we use the chicken gut microbiota as an exemplar to model the effects of bacterial infection, antibiotic administration, and plasmid transfer. We show that transfer of a multidrug-resistant plasmid from the zoonotic pathogen Salmonella to commensal Escherichia coli occurs at a high rate, even in the absence of antibiotic administration. Our work demonstrates that the in vitro gut model provides a powerful screening tool that can be used to assess and refine interventions that mitigate the spread of antibiotic resistance in the gut before undertaking animal studies.

Published

2017

31. Whole Genome Analysis of Mycobacterium tuberculosis in 18th-Century Natural Mummies from Vác, Hungary

Author

Andrew D. Millard, Gurdyal S. Besra, Mark J. Pallen, Helen D. Donoghue, Martin J. Sergeant, Jacqueline Z.-M. Chan, David E. Minnikin, Mark Spigelman, Oona Y.-C. Lee, Ildikó Szikossy, and Ildikó Pap

Subjects

Mycobacterium tuberculosis, Biology, biology.organism_classification, Genome, Virology, Natural (archaeology)

Published

2017

32. The Gut Microbiota and the Hepatologist: Will Our Bugs Prove to be the Missing Link?

Author

Mohammed Nabil Quraishi and Mark J. Pallen

Subjects

0301 basic medicine, medicine.medical_specialty, Gut flora, Chronic liver disease, Bioinformatics, digestive system, Gastroenterology, Primary sclerosing cholangitis, Pathogenesis, 03 medical and health sciences, Liver disease, 0302 clinical medicine, Immune system, Internal medicine, Medicine, Animals, Humans, Gut barrier, biology, Human studies, business.industry, Liver Diseases, Gastroenterologists, General Medicine, medicine.disease, biology.organism_classification, Gastrointestinal Microbiome, 030104 developmental biology, Disease Progression, 030211 gastroenterology & hepatology, business

Abstract

The advent of next-generation sequencing has enabled in-depth analysis to study the composition and function of the gut microbiota in a culture-independent manner. Consequently, this has led to rapid interest in understanding the pathogenesis and progression of chronic liver disease in relation to perturbations of the gut microbiota. Animal models and human studies have demonstrated its crucial role in contributing to disease mechanisms in alcoholic and non-alcoholic liver disease and more recently in primary sclerosing cholangitis. There is increasing evidence to suggest that the gut microbiota and its components influence the development and modulation of chronic liver damage through direct communication via the portal system, metabolite production, alterations in gut barrier integrity, liver/gut immune axis and bile acid metabolism. The impact of microbiota-directed therapies for liver disease is still in its infancy. Better understanding of its role in disease mechanisms will lead to a more targeted approach in modulation of gut microbiota to influence both progression and complications of liver disease. This review discusses the current evidence for the gut microbiota-liver axis and its role in the development, progression and treatment of liver disease.

Published

2017

33. Parallel 19: Cholestatic Liver Diseases

Author

Chrystala Constantinidou, Jacqueline Z.-M. Chan, Palak J. Trivedi, James Ferguson, Mohammed Nabil Quraishi, Martin J. Sergeant, David H. Adams, Gemma L. Kay, Gideon M. Hirschfield, Tariq Iqbal, and Mark J. Pallen

Subjects

Hepatology, Biology

Published

2014

34. Evolution of virulent genotypes and an emerging threat of multidrug resistant tuberculosis in Bamako, Mali

Author

Moumine Sanogo, Souleymane Diallo, Bocar Baya, Archibald Worwui, Abdul-Khalie Muhammad, Mark J. Pallen, Madikay Senghore, Susan Orsega, Seydou Doumbia, Martin Antonio, Jacob Otu, B.C. de Jong, Florian Gehre, and Bassirou Diarra

Subjects

Microbiology (medical), Lineage (genetic), Tuberculosis, Phylogenetic tree, Virulence, General Medicine, Biology, medicine.disease, Virology, Multiple drug resistance, Infectious Diseases, Phylogenetics, parasitic diseases, Genotype, medicine, Clade

Abstract

Background: Bamako, Mali, has a well-structured hierarchyfor tuberculosis (TB) case management. However, in recent yearsBamako has been faced with an emerging threat from multidrugresistant TB (MDR-TB). Here we present insights into the genomicepidemiology of TB and the evolutionary mechanisms driving theemergence of MDR-TB in Bamako.Methods & Materials:Isolates recovered from tuberculosispatients from local reference centers and the University Teach-ing Hospital at Point G, in Bamako, Mali between 2006 and 2012(n = 208), were tested for antimicrobial susceptibility at the MRCUnit The Gambia. A subset of 76 isolates were analysed using wholegenome sequencing. A time dated phylogenetic tree was recon-structed using BEAST. Lineage and resistance conferring mutationswere inferred using PhyResSe.Results:Patients included 21 females and 55 males agedbetween 3 to 78 years, among whom 12(16%) were infectedby MDR-TB. Most patients 61(80%) were new cases and among15 retreatment cases 9(60%) were MDR-TB. The phylogeny wasreconstructed from 8508 variant core genome sites. The dom-inant lineage was the Euro-American super lineage, lineage 4.Within lineage 4, the Cameroon genotype was the most preva-lent genotype (n = 20, 26%) followed by the Ghana genotype (n = 16,21%). Cameroon genotype isolates diverged from a common recentancestor∼161 years ago to form three clusters, one of whichemerged∼22 years ago and is likely to be involved in on-goingtransmission. Seven Ghana genotype isolates were MDR-TB repre-senting over half all MDR-TB in this dataset (7/12). Ghana genotypeisolates were more likely to cause MDR-TB than other genotypesafter controlling for treatment status (OR = 5.6, p-value = 0.043).The MDR-TB Ghana genotype isolates formed a clade that divergedapproximately 30 years ago, in which thekatGSer315Thr mutationwas conserved. Other Euro-American genotypes included the sixLAM, two H37Rv-like and one Uganda. Four patients were infectedwith closely related Beijing strains and five patients were infectedwith non-MDRMycobacterium africanum2.

Published

2018

35. Towards standardisation of naming novel prokaryotic taxa in the age of high-throughput microbiology

Author

Falk Hildebrand, Mark J. Pallen, and Peer Bork

Subjects

0301 basic medicine, Bacteria, Gastroenterology, Intestinal microbiology, Genealogy, Anti-Bacterial Agents, Gastrointestinal Microbiome, Prefix, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Human gut, Taxon, Geography, Candidatus, Humans, 030211 gastroenterology & hepatology, Taxonomic rank, Nomenclature, After treatment

Abstract

We thank Professor Oren for his interest in our work and for his constructive comments.1 In our recent article in Gut , we described the discovery of a new species that rose to high abundance in the human gut after treatment with ceftriaxone.2 We made the decision to propose taxonomic Latin names for this new species and for associated taxa because we wished to create a memorable, user-friendly, sustainable and transferable nomenclature that could be readily adopted by other researchers. Our proposals included the taxonomic hierarchy: UComantemales ord. nov., UComantemaea fam. nov., U Borkfalki gen. nov, U Borkfalki ceftriaxensis sp. nov. We adopted the superscript ‘U’ (for ‘uncultured’) prefix in line with a recent suggestion3 but accept that use of Candidatus has priority. However, in our defence, it is worth noting that recommendations for use of Candidatus cited by Professor Oren state that ‘this category …

Published

2019

36. Diagnostic metagenomics: potential applications to bacterial, viral and parasitic infections

Author

Mark J. Pallen

Subjects

diagnosis, Computational biology, Biology, Virus diseases, DNA sequencing, Parasitic Diseases, Animals, Humans, Parasites, metagenomics, Bacteria, Direct sequencing, business.industry, QH, High-Throughput Nucleotide Sequencing, Special Issue Article, high-throughput sequencing, Bacterial Infections, Sequence Analysis, DNA, Biotechnology, Infectious Diseases, Virus Diseases, Metagenomics, Viruses, Animal Science and Zoology, Parasitology, business, Shotgun metagenomics

Abstract

SUMMARYThe term ‘shotgun metagenomics’ is applied to the direct sequencing of DNA extracted from a sample without culture or target-specific amplification or capture. In diagnostic metagenomics, this approach is applied to clinical samples in the hope of detecting and characterizing pathogens. Here, I provide a conceptual overview, before reviewing several recent promising proof-of-principle applications of metagenomics in virus discovery, analysis of outbreaks and detection of pathogens in contemporary and historical samples. I also evaluate future prospects for diagnostic metagenomics in the light of relentless improvements in sequencing technologies.

Published

2014

37. Doggerland and the Lost Frontiers Project (2015–2020)

Author

Garry Momber, Eleanor Ramsey, Richard Bates, Philip Murgatroyd, Simon Fitch, Robin G. Allaby, Mark J. Pallen, David Smith, Paul Garwood, Oliver Smith, Eugene Ch'ng, Vincent Gaffney, and Martin Bates

Subjects

Ancient DNA, Geography, Work (electrical), Remote sensing (archaeology), North west, Doggerland, North sea, Archaeology, Holocene, Mesolithic

Abstract

As this volume, the final monograph of the SPLASHCOS network, was being finalised, the European Research Council agreed to fund a major new project relating to the marine palaeolandscapes of the southern North Sea. Emerging from the earlier work of the North Sea Palaeolandscapes Project (NSPP), the Lost Frontiers project seeks to go beyond the maps generated by that ground-breaking research. Led by researchers in the fields of archaeogeophysics, molecular biology and computer simulation, the project seeks to develop a new paradigm for the study of past environments, ecological change and the transition between hunter gathering societies and farming in North West Europe. Following from earlier work, the project will seek to release the full potential of the available seismic reflectance data sets to generate topographical maps of the whole of early Holocene Doggerland that are as accurate and complete as possible. Using these data, the study will then reconstruct and simulate the emerging palaeoenvironments of Doggerland using conventional palaeoenvironmental data, as well as ancient DNA extracted directly from sediment cores along the routes of two submerged river valleys. Using this base data, the project aims to transform our understanding of the colonisation and development of floral, faunal and human life, to explore the Mesolithic landscapes and to identify incipient Neolithic signals indicating early contact and development within the region of Doggerland.

Published

2017

38. The emerging threat of pre-extensively drug-resistant tuberculosis in West Africa: preparing for large-scale tuberculosis research and drug resistance surveillance

Author

Leopold D. Tientcheu, Bassirou Diarra, Jacob Otu, Madikay Senghore, Florian Gehre, Mamadou Jallow, Essosimna A. Kadanga, Paulo Rabna, Bouke C. de Jong, Ignatius Baldeh, Richard A. Adegbola, C. C. Onubogu, Souleymane Mboup, Umberto D'Alessandro, Mark J. Pallen, Adama Sanou, Moumine Sanogo, Awewura Kwara, Samrat Kumar, Kayode Salako, Awa Ba-Diallo, Oludele Adebiyi, Beate Kampmann, Morto Mane, Kodjo Disse, E O Idigbe, Samuel Kudzawu, Brenda Kwambana-Adams, Adama Jallow, Assan Jaye, Lindsay Kendall, Zingue Dezemon, Nneka Onyejepu, Samba Ceesay, Edward Demba, Aisha Jallow, Tutty Isatou Faal-Jawara, Audrey Forson, Ifedayo M. O. Adetifa, Aïssatou Gaye-Diallo, Anoumou Yaotsè Dagnra, Martin Antonio, Aderemi Kehinde, and Tumani Corrah

Subjects

Adult, Male, medicine.medical_specialty, Tuberculosis, Extensively Drug-Resistant Tuberculosis, 030231 tropical medicine, Antitubercular Agents, Capacity building, Drug resistance, World Health Organization, 03 medical and health sciences, Medicine, General & Internal, 0302 clinical medicine, Acquired immunodeficiency syndrome (AIDS), General & Internal Medicine, Environmental health, West Africa, parasitic diseases, Prevalence, medicine, Humans, 030212 general & internal medicine, NIGERIA, Good clinical laboratory practice, Medicine(all), Science & Technology, Traditional medicine, business.industry, Public health, Extensively drug-resistant tuberculosis, 11 Medical And Health Sciences, Mycobacterium tuberculosis, General Medicine, medicine.disease, Drug-resistance surveillance, Africa, Western, TB, Practice Guidelines as Topic, Female, MYCOBACTERIUM-TUBERCULOSIS, business, Life Sciences & Biomedicine, Pre-Extensively Drug-Resistant Tuberculosis, Malaria, Research Article

Abstract

BACKGROUND: Drug-resistant tuberculosis (TB) is a global public health problem. Adequate management requires baseline drug-resistance prevalence data. In West Africa, due to a poor laboratory infrastructure and inadequate capacity, such data are scarce. Therefore, the true extent of drug-resistant TB was hitherto undetermined. In 2008, a new research network, the West African Network of Excellence for Tuberculosis, AIDS and Malaria (WANETAM), was founded, comprising nine study sites from eight West African countries (Burkina Faso, The Gambia, Ghana, Guinea-Bissau, Mali, Nigeria, Senegal and Togo). The goal was to establish Good Clinical Laboratory Practice (GCLP) principles and build capacity in standardised smear microscopy and mycobacterial culture across partnering laboratories to generate the first comprehensive West African drug-resistance data. METHODS: Following GCLP and laboratory training sessions, TB isolates were collected at sentinel referral sites between 2009-2013 and tested for first- and second-line drug resistance. RESULTS: From the analysis of 974 isolates, an unexpectedly high prevalence of multi-drug-resistant (MDR) strains was found in new (6 %) and retreatment patients (35 %) across all sentinel sites, with the highest prevalence amongst retreatment patients in Bamako, Mali (59 %) and the two Nigerian sites in Ibadan and Lagos (39 % and 66 %). In Lagos, MDR is already spreading actively amongst 32 % of new patients. Pre-extensively drug-resistant (pre-XDR) isolates are present in all sites, with Ghana showing the highest proportion (35 % of MDR). In Ghana and Togo, pre-XDR isolates are circulating amongst new patients. CONCLUSIONS: West African drug-resistance prevalence poses a previously underestimated, yet serious public health threat, and our estimates obtained differ significantly from previous World Health Organisation (WHO) estimates. Therefore, our data are reshaping current concepts and are essential in informing WHO and public health strategists to implement urgently needed surveillance and control interventions in West Africa.

Published

2016

39. Transmission of Staphylococcus aureus from Humans to Green Monkeys in The Gambia as Revealed by Whole-Genome Sequencing

Author

Emma L. Doughty, George M. Weinstock, Jainaba Manneh, Jennifer Danzy Cramer, Michel M. Dione, Brenda Kwambana-Adams, Nelson B. Freimer, Harry A. Thorpe, Christopher A. Schmitt, Henry Badji, Edward J. Feil, Trudy R. Turner, Mark J. Pallen, Martin Antonio, Sion C. Bayliss, Madikay Senghore, Chinelo Ebruke, Ebenezer Foster-Nyarko, Anna J. Jasinska, and Björkroth, J

Subjects

0301 basic medicine, Staphylococcus aureus, 030106 microbiology, Biology, medicine.disease_cause, Applied Microbiology and Biotechnology, Microbiology, Microbial Ecology, Cercopithecus aethiops, 03 medical and health sciences, Chlorocebus aethiops, medicine, Genetics, 2.2 Factors relating to the physical environment, Animals, Humans, Spotlight, Aetiology, Phylogeny, Whole genome sequencing, Genome, Ecology, Transmission (medicine), Human Genome, Monkey Diseases, Bacterial, Sequence Analysis, DNA, DNA, Staphylococcal Infections, Medical research, Virology, Infectious Diseases, Emerging Infectious Diseases, Homo sapiens, Carrier State, Gambia, African Green Monkey, Infection, Sequence Analysis, Genome, Bacterial, Food Science, Biotechnology

Abstract

Staphylococcus aureus is an important pathogen of humans and animals. We genome sequenced 90 S. aureus isolates from The Gambia: 46 isolates from invasive disease in humans, 13 human carriage isolates, and 31 monkey carriage isolates. We inferred multiple anthroponotic transmissions of S. aureus from humans to green monkeys ( Chlorocebus sabaeus ) in The Gambia over different time scales. We report a novel monkey-associated clade of S. aureus that emerged from a human-to-monkey switch estimated to have occurred 2,700 years ago. Adaptation of this lineage to the monkey host is accompanied by the loss of phage-carrying genes that are known to play an important role in human colonization. We also report recent anthroponotic transmission of the well-characterized human lineages sequence type 6 (ST6) and ST15 to monkeys, probably because of steadily increasing encroachment of humans into the monkeys' habitat. Although we have found no evidence of transmission of S. aureus from monkeys to humans, as the two species come into ever-closer contact, there might be an increased risk of additional interspecies exchanges of potential pathogens. IMPORTANCE The population structures of Staphylococcus aureus in humans and monkeys in sub-Saharan Africa have been previously described using multilocus sequence typing (MLST). However, these data lack the power to accurately infer details regarding the origin and maintenance of new adaptive lineages. Here, we describe the use of whole-genome sequencing to detect transmission of S. aureus between humans and nonhuman primates and to document the genetic changes accompanying host adaptation. We note that human-to-monkey switches tend to be more common than the reverse and that a novel monkey-associated clade is likely to have emerged from such a switch approximately 2,700 years ago. Moreover, analysis of the accessory genome provides important clues as to the genetic changes underpinning host adaptation and, in particular, shows that human-to-monkey switches tend to be associated with the loss of genes known to confer adaptation to the human host.

Published

2016

40. The Enigmatic Esx Proteins: Looking Beyond Mycobacteria

Author

Meera Unnikrishnan, Chrystala Constantinidou, Tracy Palmer, and Mark J. Pallen

Subjects

0301 basic medicine, Microbiology (medical), Antigens, Bacterial, Staphylococcus aureus, biology, 030106 microbiology, Mycobacterium tuberculosis, biology.organism_classification, Microbiology, Phylogenetic distribution, QR, Structure and function, 03 medical and health sciences, Protein Transport, Infectious Diseases, Bacterial Proteins, Evolutionary biology, Virology, Host-Pathogen Interactions, Type VII Secretion Systems, Secretion, Bacterial phyla, Bacteria, Bacillus subtilis

Abstract

Bacteria export proteins across membranes using a range of transport machineries. Type VII secretion systems (T7SSs), originally described in mycobacteria, are now known to be widespread across diverse bacterial phyla. Recent studies have characterized secretion components and mechanisms of type VII secretion in pathogenic and environmental bacteria. A variety of functions have been attributed to T7SS substrates, including interactions with eukaryotes and with other bacteria. Here, we evaluate the growing body of knowledge on T7SSs, with focus on the nonmycobacterial systems, reviewing their phylogenetic distribution, structure and function in diverse settings.\ud \ud

Published

2016

41. Microbial bioinformatics 2020

Author

Mark J. Pallen

Subjects

0301 basic medicine, Special Issue Articles, 030106 microbiology, Bioengineering, Genomics, Cloud computing, Biology, Bioinformatics, Applied Microbiology and Biotechnology, Biochemistry, 03 medical and health sciences, Data sequences, Ip address, Internet, business.industry, Computational Biology, Special Issue Article, 030104 developmental biology, Metagenomics, Microbial Taxonomy, The Internet, business, Databases, Nucleic Acid, Mobile device, Biotechnology

Abstract

Summary Microbial bioinformatics in 2020 will remain a vibrant, creative discipline, adding value to the ever‐growing flood of new sequence data, while embracing novel technologies and fresh approaches. Databases and search strategies will struggle to cope and manual curation will not be sustainable during the scale‐up to the million‐microbial‐genome era. Microbial taxonomy will have to adapt to a situation in which most microorganisms are discovered and characterised through the analysis of sequences. Genome sequencing will become a routine approach in clinical and research laboratories, with fresh demands for interpretable user‐friendly outputs. The “internet of things” will penetrate healthcare systems, so that even a piece of hospital plumbing might have its own IP address that can be integrated with pathogen genome sequences. Microbiome mania will continue, but the tide will turn from molecular barcoding towards metagenomics. Crowd‐sourced analyses will collide with cloud computing, but eternal vigilance will be the price of preventing the misinterpretation and overselling of microbial sequence data. Output from hand‐held sequencers will be analysed on mobile devices. Open‐source training materials will address the need for the development of a skilled labour force. As we boldly go into the third decade of the twenty‐first century, microbial sequence space will remain the final frontier!

Published

2016

42. An outbreak of pneumococcal meningitis among older children (≥5 years) and adults after the implementation of an infant vaccination programme with the 13-valent pneumococcal conjugate vaccine in Ghana

Author

Charles Okot, Archibald Worwui, Franklin Asiedu-Bekoe, Osei Kuffour Afreh, Kwame Amponsa-Achiano, Victor Bampoe, Badu Sarkodie, Syed M. A. Zaman, Mark J. Pallen, David Opare, Brenda Kwambana-Adams, Richard Bannerman, Ebenezer Foster-Nyarko, Godfred Owusu-Okyere, Jacob Otu, Ebenezer Appiah-Denkyira, Chinelo Ebruke, Gemma L. Kay, Owen Kaluwa, George Khumalo Kuma, Madikay Senghore, Umberto D'Alessandro, Sally-Ann Ohene, Catherine Okoi, Martin Antonio, Timothy Letsa, and Jason M. Mwenda

Subjects

0301 basic medicine, Serotype, Male, Neisseria meningitidis, medicine.disease_cause, Ghana, Pneumococcal conjugate vaccine, law.invention, Haemophilus influenzae, Disease Outbreaks, Pneumococcal Vaccines, 0302 clinical medicine, Medical microbiology, law, 030212 general & internal medicine, Child, Aged, 80 and over, Meningitis, Pneumococcal, Pneumococcus, Middle Aged, Anti-Bacterial Agents, Vaccination, Infectious Diseases, Gram staining, Streptococcus pneumoniae, Child, Preschool, Serotype 1, Female, Meningitis, medicine.drug, Research Article, Adult, Meningitis belt, medicine.medical_specialty, Adolescent, 030106 microbiology, Microbial Sensitivity Tests, Meningitis, Meningococcal, 03 medical and health sciences, Young Adult, Internal medicine, Trimethoprim, Sulfamethoxazole Drug Combination, West Africa, medicine, Humans, Aged, business.industry, Immunization Programs, Pneumococcal conjugate vaccine (PCV), Outbreak, Infant, medicine.disease, Virology, business

Abstract

Background An outbreak of pneumococcal meningitis among non-infant children and adults occurred in the Brong-Ahafo region of Ghana between December 2015 and April 2016 despite the recent nationwide implementation of a vaccination programme for infants with the 13-valent pneumococcal conjugate vaccine (PCV13). Methods Cerebrospinal fluid (CSF) specimens were collected from patients with suspected meningitis in the Brong-Ahafo region. CSF specimens were subjected to Gram staining, culture and rapid antigen testing. Quantitative PCR was performed to identify pneumococcus, meningococcus and Haemophilus influenzae. Latex agglutination and molecular serotyping were performed on samples. Antibiogram and whole genome sequencing were performed on pneumococcal isolates. Results Eight hundred eighty six patients were reported with suspected meningitis in the Brong-Ahafo region during the period of the outbreak. In the epicenter district, the prevalence was as high as 363 suspected cases per 100,000 people. Over 95 % of suspected cases occurred in non-infant children and adults, with a median age of 20 years. Bacterial meningitis was confirmed in just under a quarter of CSF specimens tested. Pneumococcus, meningococcus and Group B Streptococcus accounted for 77 %, 22 % and 1 % of confirmed cases respectively. The vast majority of serotyped pneumococci (80 %) belonged to serotype 1. Most of the pneumococcal isolates tested were susceptible to a broad range of antibiotics, with the exception of two pneumococcal serotype 1 strains that were resistant to both penicillin and trimethoprim-sulfamethoxazole. All sequenced pneumococcal serotype 1 strains belong to Sequence Type (ST) 303 in the hypervirulent ST217 clonal complex. Conclusion The occurrence of a pneumococcal serotype 1 meningitis outbreak three years after the introduction of PCV13 is alarming and calls for strengthening of meningitis surveillance and a re-evaluation of the current vaccination programme in high risk countries. Electronic supplementary material The online version of this article (doi:10.1186/s12879-016-1914-3) contains supplementary material, which is available to authorized users.

Published

2016

43. Draft Genome Sequences of 11 Clinical Isolates of Acinetobacter baumannii

Author

Mark J. Pallen, Harald Seifert, Jacqueline Z.-M. Chan, Paul G. Higgins, and Andrew D. Millard

Subjects

0301 basic medicine, Hospital setting, 030106 microbiology, biochemical phenomena, metabolism, and nutrition, Biology, bacterial infections and mycoses, biology.organism_classification, Genome, Microbiology, Acinetobacter baumannii, Single patient, 03 medical and health sciences, Antibiotic resistance, Genetics, Prokaryotes, Molecular Biology

Abstract

The development of multidrug-resistant Acinetobacter baumannii is of serious concern in the hospital setting. Here, we report draft genome sequences of 11 A. baumannii isolates that were isolated from a single patient over a 65-day period, during which time the isolates exhibited increased antimicrobial resistance.

Published

2016

44. Genome sequencing in clinical microbiology

Author

Beryl Oppenheim, Jacqueline Z.-M. Chan, Mark J. Pallen, and Chrystala Constantinidou

Subjects

Genetics, Cancer genome sequencing, Whole genome sequencing, Clinical microbiology, Biomedical Engineering, Molecular Medicine, Bioengineering, Biology, Applied Microbiology and Biotechnology, DNA sequencing, Biotechnology, Personal genomics

Abstract

High-throughput sequencing is being adopted to characterize microbial pathogens and track their evolution and spread.

Published

2012

45. Performance comparison of benchtop high-throughput sequencing platforms

Author

Raju Misra, Mark J. Pallen, Nicholas J. Loman, John Wain, Timothy J. Dallman, Saheer E. Gharbia, and Chrystala Constantinidou

Subjects

Genetics, Biomedical Engineering, Bioengineering, QH426 Genetics, Bacterial genome size, Ion semiconductor sequencing, Computational biology, Biology, Applied Microbiology and Biotechnology, DNA sequencing, Performance comparison, RA Public aspects of medicine, Molecular Medicine, QR180 Immunology, Indel, Throughput (business), Biotechnology

Abstract

Three benchtop high-throughput sequencing instruments are now available. The 454 GS Junior (Roche), MiSeq (Illumina) and Ion Torrent PGM (Life Technologies) are laser-printer sized and offer modest set-up and running costs. Each instrument can generate data required for a draft bacterial genome sequence in days, making them attractive for identifying and characterizing pathogens in the clinical setting. We compared the performance of these instruments by sequencing an isolate of Escherichia coli O104:H4, which caused an outbreak of food poisoning in Germany in 2011. The MiSeq had the highest throughput per run (1.6 Gb/run, 60 Mb/h) and lowest error rates. The 454 GS Junior generated the longest reads (up to 600 bases) and most contiguous assemblies but had the lowest throughput (70 Mb/run, 9 Mb/h). Run in 100-bp mode, the Ion Torrent PGM had the highest throughput (80–100 Mb/h). Unlike the MiSeq, the Ion Torrent PGM and 454 GS Junior both produced homopolymer-associated indel errors (1.5 and 0.38 errors per 100 bases, respectively).

Published

2012

46. Deletion of Tn AbaR23 Results in both Expected and Unexpected Antibiogram Changes in a Multidrug-Resistant Acinetobacter baumannii Strain

Author

Jacqueline Z.-M. Chan, Mandira Kochar, Marialuisa Crosatti, Ewan M. Harrison, Chrystala Constantinidou, Mark J. Pallen, Kumar Rajakumar, Barbara Rieck, and Hong-Yu Ou

Subjects

Acinetobacter baumannii, DNA, Bacterial, Transposable element, Molecular Sequence Data, Microbial Sensitivity Tests, Drug resistance, medicine.disease_cause, Polymerase Chain Reaction, Microbiology, Antibiotic resistance, Plasmid, Mechanisms of Resistance, Drug Resistance, Multiple, Bacterial, Pulsed-field gel electrophoresis, medicine, Humans, Pharmacology (medical), Pharmacology, Genetics, Mutation, Strain (chemistry), biology, Chromosome Mapping, biology.organism_classification, Culture Media, Electrophoresis, Gel, Pulsed-Field, Infectious Diseases, Conjugation, Genetic, DNA Transposable Elements, Gene Deletion, Acinetobacter Infections, Plasmids

Abstract

Since the 2006 discovery of the Acinetobacter baumannii strain AYE AbaR1 resistance island, similar elements have been reported in numerous members of this species. As AbaR1 is distantly related to Tn 7 , we have renamed it Tn AbaR1 . Tn AbaR transposons are known to carry multiple antibiotic resistance- and efflux-associated genes, although none have been experimentally studied en bloc . We deleted the Tn AbaR transposon in A. baumannii A424, which we have designated Tn AbaR23 , and characterized independent deletion mutants DCO163 and DCO174. The NotI pulsed-field gel electrophoresis (PFGE) profile of strain DCO174 was consistent with targeted deletion of Tn AbaR23 alone, but strain DCO163 apparently harbored a second large genomic deletion. Nevertheless, “subtractive amplification” targeting 52 Tn AbaR and/or resistance-associated loci yielded identical results for both mutants and highlighted genes lost relative to strain A424. PCR mapping and genome sequencing revealed the entire 48.3-kb sequence of Tn AbaR23 . Consistent with Tn AbaR23 carrying two copies of sul1 , both mutants exhibited markedly increased susceptibility to sulfamethoxazole. In contrast, loss of tetAR (A) resulted in only a minor and variable increase in tetracycline susceptibility. Despite not exhibiting a growth handicap, strain DCO163 was more susceptible than strain DCO174 to 9 of 10 antibiotics associated with mutant-to-mutant variation in susceptibility, suggesting impairment of an undefined resistance-associated function. Remarkably, despite all three strains sharing identical gyrA and parC sequences, the ciprofloxacin MIC of DCO174 was >8-fold that of DCO163 and A424, suggesting a possible paradoxical role for Tn AbaR23 in promoting sensitivity to ciprofloxacin. This study highlights the importance of experimental scrutiny and challenges the assumption that resistance phenotypes can reliably be predicted from genotypes alone.

Published

2012

47. Cellulose mediates attachment of Salmonella enterica Serovar Typhimurium to tomatoes

Author

Iñigo Lasa, Cedric N. Berger, Gad Frankel, Jay C. D. Hinton, Begoña García, Mark J. Pallen, and Robert K. Shaw

Subjects

Serotype, biology, fungi, Mutant, food and beverages, Human pathogen, Flagellum, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Microbiology, Complementation, chemistry.chemical_compound, chemistry, Salmonella enterica, Cellulose, Solanum, Ecology, Evolution, Behavior and Systematics

Abstract

Fresh fruit and vegetables are important components of a healthy and balanced diet. However, they are increasingly being recognized as important vehicles for transmission of human pathogens that were traditionally classified as zoonotic. There is a significant gap in our knowledge and understanding of the mechanisms by which human pathogens colonize and survive on or in fruits and vegetables. In this study we investigated the binding of Salmonella enterica to tomato fruits (Solanum lycopersicum), which is becoming a major source of human infection. We report that Salmonella enterica serovars Typhimurium and Senftenberg bound to the surface of unripe tomatoes in an aggregative pattern, while serovar Thompson adhered diffusely. We found that while flagella did not have a role in binding, bcsC S. Typhimurim mutants, deficient in cellulose production, exhibited significantly reduced level of attachment to tomatoes. Trans complementation of the mutation restored adhesion to the wild-type level.

Published

2011

48. Time to recognise that mitochondria are bacteria?

Author

Mark J. Pallen

Subjects

Microbiology (medical), Bacteria, Phylogenetic tree, Biological evolution, Biology, Mitochondrion, biology.organism_classification, Biological Evolution, Microbiology, Mitochondria, Eukaryotic Cells, Infectious Diseases, Symbiosis, Evolutionary biology, Virology

Abstract

The scientific community is comfortable with recognising mitochondria as organelles that happen to be descendants of bacteria. Here, I playfully explore the arguments for and against a phylogenetic fundamentalism that states that mitochondria are bacteria and should be given their own taxonomic family, the Mitochondriaceae. I also explore the consequences of recognizing mitochondria as bacteria for our understanding of the systemic response to trauma and for the prospects of creating transgenic mitochondria.

Published

2011

49. Flagella mediate attachment of enterotoxigenic Escherichia coli to fresh salad leaves

Author

Mark J. Pallen, Åsa Sjöling, Gad Frankel, Robert K. Shaw, and Cedric N. Berger

Subjects

biology, Inoculation, Mutant, Flagellum, biology.organism_classification, medicine.disease_cause, Agricultural and Biological Sciences (miscellaneous), Microbiology, Diarrhea, Enterotoxigenic Escherichia coli, medicine, Spinach, Colonization, medicine.symptom, Ecology, Evolution, Behavior and Systematics, Eruca vesicaria

Abstract

Enterotoxigenic Escherichia coli (ETEC) causes child and travelers' diarrhea and is presumed to be water- and food-borne. Sporadic outbreaks were traced to consumption of contaminated fresh produce, particularly salad leaves as lettuce and parsley. Importantly, the mechanism by which ETEC binds salad leaves is not known. In this study we investigated the ability of clinical ETEC isolates to adhere to Eruca vesicaria (commonly known as rocket). Towards this end we inoculated pieces of cut E. vesicaria leaves with clinical ETEC isolates grown in Luria broth at 20°C, conditions that are not permissive for expression of the plasmid-encoded colonization factors and hence mimic the actual transmission pathways of ETEC through intake of contaminated food. We found that ETEC strains bind E. vesicaria at various efficiencies. Examination of representative strains by scanning electron microscopy revealed that they adhere to the E. vesicaria surface in a diffuse pattern by extended filaments resembling flagella. Using the prototype ETEC strain H10407 we found that it also binds to lettuce, basil and spinach leaves. Binding of H10407 was dependent on flagella as a fliC mutant attached to leaves at a much lower efficiency. Interestingly, under the employed environmental conditions EtpA, which forms a flagellar tip structure, and colonization factor I are dispensable for leaf attachment. The results show that ETEC can bind specifically to salad leaves, which might represent an important, yet less recognized, source of infection.

Published

2011

50. Organization of the LEE1 operon regulatory region of enterohaemorrhagic Escherichia coli O157:H7 and activation by GrlA

Author

Stephen J. W. Busby, Mark J. Pallen, Md. Shahidul Islam, and Lewis E. H. Bingle

Subjects

Regulation of gene expression, Genetics, Operon, Transcription (biology), gal operon, Promoter, Biology, L-arabinose operon, Molecular Biology, Microbiology, trp operon, Locus of enterocyte effacement

Abstract

Expression of the genes in the locus of enterocyte effacement (LEE) in enterohaemorrhagic Escherichia coli is primarily co-ordinated by expression of the LEE1 operon. GrlA is a LEE-encoded transcription regulator that has been proposed to be involved in the regulation of expression of the LEE1 operon. We describe a simple plasmid-based system to investigate the LEE1 operon regulatory region and to study GrlA-dependent effects. We report that GrlA can activate transcription initiation at the LEE1 P1 promoter by binding to a target located within the 18-base-pair spacer between the promoter -10 and -35 elements, which were defined by mutational analysis. Shortening this spacer to 17 base pairs increases P1 promoter activity and short-circuits GrlA-dependent activation. Hence, at the P1 promoter, the action of GrlA resembles that of many MerR family transcription activators at their target promoters.

Published

2010