Your search keyword '"Hunt, Martin"' showing total 10 results

1. Genome-wide association studies of global Mycobacterium tuberculosis resistance to 13 antimicrobials in 10,228 genomes identify new resistance mechanisms.

Author

Crook, Derrick W., Rodrigues, Camilla, Ismail, Nazir Ahmed, Mistry, Nerges, Iqbal, Zamin, Merker, Matthias, Moore, David, Walker, A. Sarah, Thwaites, Guy, Niemann, Stefan, Wilson, Daniel J., Cirillo, Daniela Maria, Lachapelle, Alexander S., Clifton, David A., Peto, Timothy E. A., Hunt, Martin, Knaggs, Jeff, Fowler, Philip W., Earle, Sarah G., and Grazian, Clara

Subjects

GENOME-wide association studies, MYCOBACTERIUM tuberculosis, TUBERCULOSIS, GENOMES, ANTI-infective agents, PUBLIC health, RIFAMPIN

Abstract

The emergence of drug-resistant tuberculosis is a major global public health concern that threatens the ability to control the disease. Whole-genome sequencing as a tool to rapidly diagnose resistant infections can transform patient treatment and clinical practice. While resistance mechanisms are well understood for some drugs, there are likely many mechanisms yet to be uncovered, particularly for new and repurposed drugs. We sequenced 10,228 Mycobacterium tuberculosis (MTB) isolates worldwide and determined the minimum inhibitory concentration (MIC) on a grid of 2-fold concentration dilutions for 13 antimicrobials using quantitative microtiter plate assays. We performed oligopeptide- and oligonucleotide-based genome-wide association studies using linear mixed models to discover resistance-conferring mechanisms not currently catalogued. Use of MIC over binary resistance phenotypes increased sample heritability for the new and repurposed drugs by 26% to 37%, increasing our ability to detect novel associations. For all drugs, we discovered uncatalogued variants associated with MIC, including in the Rv1218c promoter binding site of the transcriptional repressor Rv1219c (isoniazid), upstream of the vapBC20 operon that cleaves 23S rRNA (linezolid) and in the region encoding an α-helix lining the active site of Cyp142 (clofazimine, all p < 10−7.7). We observed that artefactual signals of cross-resistance could be unravelled based on the relative effect size on MIC. Our study demonstrates the ability of very large-scale studies to substantially improve our knowledge of genetic variants associated with antimicrobial resistance in M. tuberculosis. The emergence of drug resistant tuberculosis is a major global public health concern that threatens the ability to control the disease. Phenotyping and sequencing 10,000 Mycobacterium tuberculosis genomes identifies previously uncatalogued genetic variants associated with resistance to thirteen new and repurposed, second line and first line drugs. [ABSTRACT FROM AUTHOR]

Published

2022

2. A data compendium associating the genomes of 12,289 Mycobacterium tuberculosis isolates with quantitative resistance phenotypes to 13 antibiotics.

Author

Crook, Derrick W., Peto, Timothy E. A., Hoosdally, Sarah J., Cruz, Ana Lúıza Gibertoni, Walker, A. Sarah, Walker, Timothy M., Fowler, Philip W., Iqbal, Zamin, Cirillo, Daniela Maria, Brankin, Alice, Malone, Kerri M., Hunt, Martin, Knaggs, Jeff, Mistry, Nerges, Rodrigues, Camilla, Moore, David, Ismail, Nazir Ahmed, Niemann, Stefan, Roohi, Aysha, and Letcher, Brice

Subjects

MYCOBACTERIUM tuberculosis, PHARMACOGENOMICS, ANTIBIOTICS, ANTITUBERCULAR agents, PHENOTYPES, GENOMES

Abstract

The Comprehensive Resistance Prediction for Tuberculosis: an International Consortium (CRyPTIC) presents here a data compendium of 12,289 Mycobacterium tuberculosis global clinical isolates, all of which have undergone whole-genome sequencing and have had their minimum inhibitory concentrations to 13 antitubercular drugs measured in a single assay. It is the largest matched phenotypic and genotypic dataset for M. tuberculosis to date. Here, we provide a summary detailing the breadth of data collected, along with a description of how the isolates were selected, collected, and uniformly processed in CRyPTIC partner laboratories across 23 countries. The compendium contains 6,814 isolates resistant to at least 1 drug, including 2,129 samples that fully satisfy the clinical definitions of rifampicin resistant (RR), multidrug resistant (MDR), pre-extensively drug resistant (pre-XDR), or extensively drug resistant (XDR). The data are enriched for rare resistance-associated variants, and the current limits of genotypic prediction of resistance status (sensitive/resistant) are presented by using a genetic mutation catalogue, along with the presence of suspected resistance-conferring mutations for isolates resistant to the newly introduced drugs bedaquiline, clofazimine, delamanid, and linezolid. Finally, a case study of rifampicin monoresistance demonstrates how this compendium could be used to advance our genetic understanding of rare resistance phenotypes. The data compendium is fully open source and it is hoped that it will facilitate and inspire future research for years to come. This study by the CRyPTIC consortium presents an open-source dataset of 12,289 Mycobacterium tuberculosis clinical isolates from 23 countries on five continents. To facilitate faster and more targeted treatment of drug-resistant tuberculosis, the authors determined the genomic sequence and susceptibility profile for 13 drugs of each isolate. [ABSTRACT FROM AUTHOR]

Published

2022

3. Sim2Ls: FAIR simulation workflows and data.

Author

Hunt, Martin, Clark, Steven, Mejia, Daniel, Desai, Saaketh, and Strachan, Alejandro

Subjects

*WORKFLOW software, *WORKFLOW, *BEST practices, *OPTICAL character recognition

Abstract

Just like the scientific data they generate, simulation workflows for research should be findable, accessible, interoperable, and reusable (FAIR). However, while significant progress has been made towards FAIR data, the majority of science and engineering workflows used in research remain poorly documented and often unavailable, involving ad hoc scripts and manual steps, hindering reproducibility and stifling progress. We introduce Sim2Ls (pronounced simtools) and the Sim2L Python library that allow developers to create and share end-to-end computational workflows with well-defined and verified inputs and outputs. The Sim2L library makes Sim2Ls, their requirements, and their services discoverable, verifies inputs and outputs, and automatically stores results in a globally-accessible simulation cache and results database. This simulation ecosystem is available in nanoHUB, an open platform that also provides publication services for Sim2Ls, a computational environment for developers and users, and the hardware to execute runs and store results at no cost. We exemplify the use of Sim2Ls using two applications and discuss best practices towards FAIR simulation workflows and associated data. [ABSTRACT FROM AUTHOR]

Published

2022

4. Exploring bacterial diversity via a curated and searchable snapshot of archived DNA sequences.

Author

Blackwell, Grace A., Hunt, Martin, Malone, Kerri M., Lima, Leandro, Horesh, Gal, Alako, Blaise T. F., Thomson, Nicholas R., and Iqbal, Zamin

Subjects

*DNA sequencing, *BACTERIAL diversity, *BACTERIAL evolution, *BACTERIAL genomes, *INFORMATION sharing, *GENOMES

Abstract

The open sharing of genomic data provides an incredibly rich resource for the study of bacterial evolution and function and even anthropogenic activities such as the widespread use of antimicrobials. However, these data consist of genomes assembled with different tools and levels of quality checking, and of large volumes of completely unprocessed raw sequence data. In both cases, considerable computational effort is required before biological questions can be addressed. Here, we assembled and characterised 661,405 bacterial genomes retrieved from the European Nucleotide Archive (ENA) in November of 2018 using a uniform standardised approach. Of these, 311,006 did not previously have an assembly. We produced a searchable COmpact Bit-sliced Signature (COBS) index, facilitating the easy interrogation of the entire dataset for a specific sequence (e.g., gene, mutation, or plasmid). Additional MinHash and pp-sketch indices support genome-wide comparisons and estimations of genomic distance. Combined, this resource will allow data to be easily subset and searched, phylogenetic relationships between genomes to be quickly elucidated, and hypotheses rapidly generated and tested. We believe that this combination of uniform processing and variety of search/filter functionalities will make this a resource of very wide utility. In terms of diversity within the data, a breakdown of the 639,981 high-quality genomes emphasised the uneven species composition of the ENA/public databases, with just 20 of the total 2,336 species making up 90% of the genomes. The overrepresented species tend to be acute/common human pathogens, aligning with research priorities at different levels from individual interests to funding bodies and national and global public health agencies. This study presents the first uniformly assembled, comprehensively described and searchable dataset of 661,405 bacterial genomes; this resource will empower more scientists to harness the multitude of data in public sequencing archives, but also reveals the biased composition of these archives, with 90% of the data originating from just 20 species. [ABSTRACT FROM AUTHOR]

Published

2021

5. MiR-277/4989 regulate transcriptional landscape during juvenile to adult transition in the parasitic helminth Schistosoma mansoni.

Author

Protasio, Anna V., van Dongen, Stijn, Collins, Julie, Quintais, Leonor, Ribeiro, Diogo M., Sessler, Florian, Hunt, Martin, Rinaldi, Gabriel, Collins, James J., Enright, Anton J., and Berriman, Matthew

Subjects

SCHISTOSOMA, SCHISTOSOMA mansoni, MICRORNA, BIOINFORMATICS, HAIRPIN (Genetics)

Abstract

Schistosomes are parasitic helminths that cause schistosomiasis, a disease affecting circa 200 million people, primarily in underprivileged regions of the world. Schistosoma mansoni is the most experimentally tractable schistosome species due to its ease of propagation in the laboratory and the high quality of its genome assembly and annotation. Although there is growing interest in microRNAs (miRNAs) in trematodes, little is known about the role these molecules play in the context of developmental processes. We use the completely unaware “miRNA-blind” bioinformatics tool Sylamer to analyse the 3’-UTRs of transcripts differentially expressed between the juvenile and adult stages. We show that the miR-277/4989 family target sequence is the only one significantly enriched in the transition from juvenile to adult worms. Further, we describe a novel miRNA, sma-miR-4989 showing that its proximal genomic location to sma-miR-277 suggests that they form a miRNA cluster, and we propose hairpin folds for both miRNAs compatible with the miRNA pathway. In addition, we found that expression of sma-miR-277/4989 miRNAs are up-regulated in adults while their predicted targets are characterised by significant down-regulation in paired adult worms but remain largely undisturbed in immature “virgin” females. Finally, we show that sma-miR-4989 is expressed in tegumental cells located proximal to the oesophagus gland and also distributed throughout the male worms’ body. Our results indicate that sma-miR-277/4989 might play a dominant role in post-transcriptional regulation during development of juvenile worms and suggest an important role in the sexual development of female schistosomes. [ABSTRACT FROM AUTHOR]

Published

2017

6. Correction: MiR-277/4989 regulate transcriptional landscape during juvenile to adult transition in the parasitic helminth Schistosoma mansoni.

Author

Protasio, Anna V., Dongen, Stijn van, Collins, Julie, Quintais, Leonor, Ribeiro, Diogo M., Sessler, Florian, Hunt, Martin, Rinaldi, Gabriel, Collins, James J., Enright, Anton J., and Berriman, Matthew

Subjects

SCHISTOSOMA mansoni, REVERSE transcriptase

Abstract

Raw data files from qPCR output underlying Fig 4 and S3 Fig were not published. There is an error in the legend for S1 Fig. [Extracted from the article]

Published

2022

7. A Phylogenetic and Phenotypic Analysis of Salmonella enterica Serovar Weltevreden, an Emerging Agent of Diarrheal Disease in Tropical Regions.

Author

Makendi, Carine, Page, Andrew J., Wren, Brendan W., Le Thi Phuong, Tu, Clare, Simon, Hale, Christine, Goulding, David, Klemm, Elizabeth J., Pickard, Derek, Okoro, Chinyere, Hunt, Martin, Thompson, Corinne N., Phu Huong Lan, Nguyen, Tran Do Hoang, Nhu, Thwaites, Guy E., Le Hello, Simon, Brisabois, Anne, Weill, François-Xavier, Baker, Stephen, and Dougan, Gordon

Subjects

SALMONELLA enterica, BACTERIA phylogeny, VIRULENCE of bacteria, BACTERIAL genomes, LABORATORY mice

Abstract

Salmonella enterica serovar Weltevreden (S. Weltevreden) is an emerging cause of diarrheal and invasive disease in humans residing in tropical regions. Despite the regional and international emergence of this Salmonella serovar, relatively little is known about its genetic diversity, genomics or virulence potential in model systems. Here we used whole genome sequencing and bioinformatics analyses to define the phylogenetic structure of a diverse global selection of S. Weltevreden. Phylogenetic analysis of more than 100 isolates demonstrated that the population of S. Weltevreden can be segregated into two main phylogenetic clusters, one associated predominantly with continental Southeast Asia and the other more internationally dispersed. Subcluster analysis suggested the local evolution of S. Weltevreden within specific geographical regions. Four of the isolates were sequenced using long read sequencing to produce high quality reference genomes. Phenotypic analysis in Hep-2 cells and in a murine infection model indicated that S. Weltevreden were significantly attenuated in these models compared to the classical S. Typhimurium reference strain SL1344. Our work outlines novel insights into this important emerging pathogen and provides a baseline understanding for future research studies. [ABSTRACT FROM AUTHOR]

Published

2016

8. A Systematically Improved High Quality Genome and Transcriptome of the Human Blood Fluke Schistosoma mansoni.

Author

Protasio, Anna V., Tsai, Isheng J., Babbage, Anne, Nichol, Sarah, Hunt, Martin, Aslett, Martin A., De Silva, Nishadi, Velarde, Giles S., Anderson, Tim J. C., Clark, Richard C., Davidson, Claire, Dillon, Gary P., Holroyd, Nancy E., LoVerde, Philip T., Lloyd, Christine, McQuillan, Jacquelline, Oliveira, Guilherme, Otto, Thomas D., Parker-Manuel, Sophia J., and Quail, Michael A.

Subjects

SCHISTOSOMA mansoni, HUMAN genome, PARASITE life cycles, GENE expression profiling, PARASITIC diseases, PARASITOLOGY

Abstract

Schistosomiasis is one of the most prevalent parasitic diseases, affecting millions of people in developing countries. Amongst the human-infective species, Schistosoma mansoni is also the most commonly used in the laboratory and here we present the systematic improvement of its draft genome. We used Sanger capillary and deep-coverage Illumina sequencing from clonal worms to upgrade the highly fragmented draft 380 Mb genome to one with only 885 scaffolds and more than 81% of the bases organised into chromosomes. We have also used transcriptome sequencing (RNA-seq) from four time points in the parasite's life cycle to refine gene predictions and profile their expression. More than 45% of predicted genes have been extensively modified and the total number has been reduced from 11,807 to 10,852. Using the new version of the genome, we identified trans-splicing events occurring in at least 11% of genes and identified clear cases where it is used to resolve polycistronic transcripts. We have produced a high-resolution map of temporal changes in expression for 9,535 genes, covering an unprecedented dynamic range for this organism. All of these data have been consolidated into a searchable format within the GeneDB (www.genedb.org) and SchistoDB (www.schistodb.net) databases. With further transcriptional profiling and genome sequencing increasingly accessible, the upgraded genome will form a fundamental dataset to underpin further advances in schistosome research. Author Summary: Schistosomiasis is a disease caused by parasitic blood flukes of the genus Schistosoma. Human-infective species are prevalent in developing countries, where they represent a major disease burden as well as an impediment to socioeconomic development. In addition to its clinical relevance, Schistosoma mansoni is the species most widely used for laboratory experimentation. In 2009, the first draft of the S. mansoni and S. japonicum genomes were published. Both genome sequences represented a great step forward for schistosome research, but their highly fragmented nature compromised the quality of potential downstream analyses. In this study, we have substantially improved both the genome and the transcriptome resources for S. mansoni. We collated existing data and added deep DNA sequence data from clonal worms and RNA sequence data from four key time points in the life cycle of the parasite. We were able to identify transcribed regions to single-base resolution and have profiled gene expression from the free-living larvae to the early human parasitic stage. We uncovered extensive use of single transcripts from multiple genes, which the organism subsequently resolves by trans-splicing. All data from this study comprise a major new release of the genome, which is publicly and easily accessible. [ABSTRACT FROM AUTHOR]

Published

2012

9. Genomic Insights into the Origin of Parasitism in the Emerging Plant Pathogen Bursaphelenchus xylophilus.

Author

Kikuchi, Taisei, Cotton, James A., Dalzell, Jonathan J., Hasegawa, Koichi, Kanzaki, Natsumi, McVeigh, Paul, Takanashi, Takuma, Tsai, Isheng J., Assefa, Samuel A., Cock, Peter J. A., Otto, Thomas Dan, Hunt, Martin, Reid, Adam J., Sanchez-Flores, Alejandro, Tsuchihara, Kazuko, Yokoi, Toshiro, Larsson, Mattias C., Miwa, Johji, Maule, Aaron G., and Sahashi, Norio

Subjects

GENOMICS, PARASITISM, PHYTOPATHOGENIC microorganisms, BURSAPHELENCHUS, PINEWOOD nematode

Abstract

Bursaphelenchus xylophilus is the nematode responsible for a devastating epidemic of pine wilt disease in Asia and Europe, and represents a recent, independent origin of plant parasitism in nematodes, ecologically and taxonomically distinct from other nematodes for which genomic data is available. As well as being an important pathogen, the B. xylophilus genome thus provides a unique opportunity to study the evolution and mechanism of plant parasitism. Here, we present a high-quality draft genome sequence from an inbred line of B. xylophilus, and use this to investigate the biological basis of its complex ecology which combines fungal feeding, plant parasitic and insect-associated stages. We focus particularly on putative parasitism genes as well as those linked to other key biological processes and demonstrate that B. xylophilus is well endowed with RNA interference effectors, peptidergic neurotransmitters (including the first description of ins genes in a parasite) stress response and developmental genes and has a contracted set of chemosensory receptors. B. xylophilus has the largest number of digestive proteases known for any nematode and displays expanded families of lysosome pathway genes, ABC transporters and cytochrome P450 pathway genes. This expansion in digestive and detoxification proteins may reflect the unusual diversity in foods it exploits and environments it encounters during its life cycle. In addition, B. xylophilus possesses a unique complement of plant cell wall modifying proteins acquired by horizontal gene transfer, underscoring the impact of this process on the evolution of plant parasitism by nematodes. Together with the lack of proteins homologous to effectors from other plant parasitic nematodes, this confirms the distinctive molecular basis of plant parasitism in the Bursaphelenchus lineage. The genome sequence of B. xylophilus adds to the diversity of genomic data for nematodes, and will be an important resource in understanding the biology of this unusual parasite. [ABSTRACT FROM AUTHOR]

Published

2011

10. Annotation of Two Large Contiguous Regions from the Haemonchus contortus Genome Using RNA-seq and Comparative Analysis with Caenorhabditis elegans.

Author

Laing, Roz, Hunt, Martin, Protasio, Anna V., Saunders, Gary, Mungall, Karen, Laing, Steven, Jackson, Frank, Quail, Michael, Beech, Robin, Berriman, Matthew, and Gilleard, John S.

Subjects

*HAEMONCHUS contortus, *GENOMES, *NUCLEOTIDE sequence, *COMPARATIVE studies, *CAENORHABDITIS elegans, *X chromosome, *RNA analysis, *HOMOLOGY (Biology)

Abstract

The genomes of numerous parasitic nematodes are currently being sequenced, but their complexity and size, together with high levels of intra-specific sequence variation and a lack of reference genomes, makes their assembly and annotation a challenging task. Haemonchus contortus is an economically significant parasite of livestock that is widely used for basic research as well as for vaccine development and drug discovery. It is one of many medically and economically important parasites within the strongylid nematode group. This group of parasites has the closest phylogenetic relationship with the model organism Caenorhabditis elegans, making comparative analysis a potentially powerful tool for genome annotation and functional studies. To investigate this hypothesis, we sequenced two contiguous fragments from the H. contortus genome and undertook detailed annotation and comparative analysis with C. elegans. The adult H. contortus transcriptome was sequenced using an Illumina platform and RNA-seq was used to annotate a 409 kb overlapping BAC tiling path relating to the X chromosome and a 181 kb BAC insert relating to chromosome I. In total, 40 genes and 12 putative transposable elements were identified. 97.5% of the annotated genes had detectable homologues in C. elegans of which 60% had putative orthologues, significantly higher than previous analyses based on EST analysis. Gene density appears to be less in H. contortus than in C. elegans, with annotated H. contortus genes being an average of two-to-three times larger than their putative C. elegans orthologues due to a greater intron number and size. Synteny appears high but gene order is generally poorly conserved, although areas of conserved microsynteny are apparent. C. elegans operons appear to be partially conserved in H. contortus. Our findings suggest that a combination of RNA-seq and comparative analysis with C. elegans is a powerful approach for the annotation and analysis of strongylid nematode genomes. [ABSTRACT FROM AUTHOR]

Published

2011