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51. Comprehensive assignment of roles for Salmonella typhimurium genes in intestinal colonization of food-producing animals.

Author

Roy R Chaudhuri, Eirwen Morgan, Sarah E Peters, Stephen J Pleasance, Debra L Hudson, Holly M Davies, Jinhong Wang, Pauline M van Diemen, Anthony M Buckley, Alison J Bowen, Gillian D Pullinger, Daniel J Turner, Gemma C Langridge, A Keith Turner, Julian Parkhill, Ian G Charles, Duncan J Maskell, and Mark P Stevens

Subjects
Genetics, QH426-470
Abstract

Chickens, pigs, and cattle are key reservoirs of Salmonella enterica, a foodborne pathogen of worldwide importance. Though a decade has elapsed since publication of the first Salmonella genome, thousands of genes remain of hypothetical or unknown function, and the basis of colonization of reservoir hosts is ill-defined. Moreover, previous surveys of the role of Salmonella genes in vivo have focused on systemic virulence in murine typhoid models, and the genetic basis of intestinal persistence and thus zoonotic transmission have received little study. We therefore screened pools of random insertion mutants of S. enterica serovar Typhimurium in chickens, pigs, and cattle by transposon-directed insertion-site sequencing (TraDIS). The identity and relative fitness in each host of 7,702 mutants was simultaneously assigned by massively parallel sequencing of transposon-flanking regions. Phenotypes were assigned to 2,715 different genes, providing a phenotype-genotype map of unprecedented resolution. The data are self-consistent in that multiple independent mutations in a given gene or pathway were observed to exert a similar fitness cost. Phenotypes were further validated by screening defined null mutants in chickens. Our data indicate that a core set of genes is required for infection of all three host species, and smaller sets of genes may mediate persistence in specific hosts. By assigning roles to thousands of Salmonella genes in key reservoir hosts, our data facilitate systems approaches to understand pathogenesis and the rational design of novel cross-protective vaccines and inhibitors. Moreover, by simultaneously assigning the genotype and phenotype of over 90% of mutants screened in complex pools, our data establish TraDIS as a powerful tool to apply rich functional annotation to microbial genomes with minimal animal use.

Published
2013
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52. 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
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53. Architecture and Self-Assembly of Clostridium sporogenes and Clostridium botulinum Spore Surfaces Illustrate a General Protective Strategy across Spore Formers

Author

Anne Moir, Nic Mullin, Ainhoa Dafis-Sagarmendi, Jason Brunt, Sandra C. Stringer, Jamie K. Hobbs, Per A. Bullough, Svetomir B. Tzokov, Roy R. Chaudhuri, Robert P. Fagan, and Thamarai K. Janganan

Subjects
Molecular Biology and Physiology, sporulation, Clostridium sporogenes, lcsh:QR1-502, Bacillus cereus, Protein structure function, Bacillus subtilis, medicine.disease_cause, Microbiology, lcsh:Microbiology, bacillus anthracis, 03 medical and health sciences, Bacterial Proteins, bacillus subtilis, Cell Wall, Clostridium botulinum, Escherichia coli, medicine, disulfide bonding, Cysteine, Molecular Biology, nanomaterials, 030304 developmental biology, Clostridium, Spores, Bacterial, 0303 health sciences, atomic force microscopy, botulism, electron microscopy, biology, 030306 microbiology, Chemistry, bacillus cereus, fungi, protein structure-function, Exosporium, anaerobes, clostridium difficile, biology.organism_classification, Spore, Bacillus anthracis, Biochemistry, Research Article
Abstract

Bacteria such as those causing botulism and anthrax survive harsh conditions and spread disease as spores. Distantly related species have similar spore architectures with protective proteinaceous layers aiding adhesion and targeting. The structures that confer these common properties are largely unstudied, and the proteins involved can be very dissimilar in sequence. We identify CsxA as a cysteine-rich protein that self-assembles in a two-dimensional lattice enveloping the spores of several Clostridium species. We show that apparently unrelated cysteine-rich proteins from very different species can self-assemble to form remarkably similar and robust structures. We propose that diverse cysteine-rich proteins identified in the genomes of a broad range of spore formers may adopt a similar strategy for assembly., Spores, the infectious agents of many Firmicutes, are remarkably resilient cell forms. Even distant relatives can have similar spore architectures although some display unique features; they all incorporate protective proteinaceous envelopes. We previously found that Bacillus spores can achieve these protective properties through extensive disulfide cross-linking of self-assembled arrays of cysteine-rich proteins. We predicted that this could be a mechanism employed by spore formers in general, even those from other genera. Here, we tested this by revealing in nanometer detail how the outer envelope (exosporium) in Clostridium sporogenes (surrogate for C. botulinum group I), and in other clostridial relatives, forms a hexagonally symmetric semipermeable array. A cysteine-rich protein, CsxA, when expressed in Escherichia coli, self-assembles into a highly thermally stable structure identical to that of the native exosporium. Like the exosporium, CsxA arrays require harsh “reducing” conditions for disassembly. We conclude that in vivo, CsxA self-organizes into a highly resilient, disulfide cross-linked array decorated with additional protein appendages enveloping the forespore. This pattern is remarkably similar to that in Bacillus spores, despite a lack of protein homology. In both cases, intracellular disulfide formation is favored by the high lattice symmetry. We have identified cysteine-rich proteins in many distantly related spore formers and propose that they may adopt a similar strategy for intracellular assembly of robust protective structures. IMPORTANCE Bacteria such as those causing botulism and anthrax survive harsh conditions and spread disease as spores. Distantly related species have similar spore architectures with protective proteinaceous layers aiding adhesion and targeting. The structures that confer these common properties are largely unstudied, and the proteins involved can be very dissimilar in sequence. We identify CsxA as a cysteine-rich protein that self-assembles in a two-dimensional lattice enveloping the spores of several Clostridium species. We show that apparently unrelated cysteine-rich proteins from very different species can self-assemble to form remarkably similar and robust structures. We propose that diverse cysteine-rich proteins identified in the genomes of a broad range of spore formers may adopt a similar strategy for assembly.

Published
2020
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54. 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
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55. Increasing prevalence of a fluoroquinolone resistance mutation amongst Campylobacter jejuni isolates from four human infectious intestinal disease studies in the United Kingdom

Author

John Kenny, Christiane Hertz-Fowler, Norval J. C. Strachan, F. J. Bolton, Craig Winstanley, Sam Haldenby, Jane A. Pulman, Neil Hall, Nicola J. Williams, Christina Bronowski, Roy R. Chaudhuri, C. Martínez-Rodríguez, Sarah J. O'Brien, Tom J. Humphrey, Ken J. Forbes, Caroline E. Corless, Charlotte Nelson, and Ian N. Winstanley

Subjects
Antibiotics, Disease, Pathology and Laboratory Medicine, medicine.disease_cause, Poultry, Database and Informatics Methods, Prevalence, Medicine and Health Sciences, Child, Phylogeny, Data Management, 0303 health sciences, education.field_of_study, Multidisciplinary, biology, Antimicrobials, Campylobacter, Eukaryota, Drugs, Agriculture, Phylogenetic Analysis, Genomics, Resistance mutation, Bacterial Pathogens, 3. Good health, Phylogenetics, Medical Microbiology, Vertebrates, Mutation (genetic algorithm), Medicine, Pathogens, Fluoroquinolones, Research Article, Computer and Information Sciences, medicine.medical_specialty, Livestock, medicine.drug_class, Science, Population, Research and Analysis Methods, Polymorphism, Single Nucleotide, Microbiology, Campylobacter jejuni, Molecular Genetics, Birds, 03 medical and health sciences, Microbial Control, Molecular genetics, Drug Resistance, Bacterial, Genetics, medicine, Humans, Animals, Evolutionary Systematics, education, Microbial Pathogens, Molecular Biology, Taxonomy, 030304 developmental biology, Pharmacology, Evolutionary Biology, Sequence Assembly Tools, Bacteria, 030306 microbiology, Organisms, Biology and Life Sciences, Computational Biology, Genome Analysis, biology.organism_classification, United Kingdom, Intestinal Diseases, Biological Databases, Mutation, Amniotes, Mutation Databases, Genome, Bacterial
Abstract

Background:\ud Campylobacter jejuni is the most common bacterial cause of human infectious intestinal disease.\ud \ud Methods:\ud We genome sequenced 601 human C. jejuni isolates, obtained from two large prospective studies of infectious intestinal disease (IID1 [isolates from 1993–1996; n = 293] and IID2 [isolates from 2008–2009; n = 93]), the INTEGRATE project [isolates from 2016–2017; n = 52] and the ENIGMA project [isolates from 2017; n = 163].\ud \ud Results:\ud There was a significant increase in the prevalence of the T86I mutation conferring resistance to fluoroquinolone between each of the three later studies (IID2, INTEGRATE and ENIGMA) and IID1. Although the distribution of major multilocus sequence types (STs) was similar between the studies, there were changes in both the abundance of minority STs associated with the T86I mutation, and the abundance of clones within single STs associated with the T86I mutation.\ud \ud Discussion:\ud Four population-based studies of community diarrhoea over a 25 year period revealed an increase over time in the prevalence of the T86I amongst isolates of C. jejuni associated with human gastrointestinal disease in the UK. Although associated with many STs, much of the increase is due to the expansion of clones associated with the resistance mutation.

Published
2020

56. Architecture and self-assembly of the Clostridium sporogenes/botulinum spore surface illustrate a general protective strategy across spore formers

Author

Anne Moir, Sandra C. Stringer, Svetomir B. Tzokov, Nic Mullin, Ainhoa Dafis-Sagarmendi, Jason Brunt, Thamarai K. Janganan, Jamie K. Hobbs, Per A. Bullough, Robert P. Fagan, and Roy R. Chaudhuri

Subjects
0303 health sciences, biology, 030306 microbiology, Chemistry, Firmicutes, Clostridium sporogenes, fungi, Exosporium, biology.organism_classification, Lattice symmetry, Spore, 03 medical and health sciences, Biophysics, Protein homology, Self-assembly, Intracellular, 030304 developmental biology
Abstract

Spores, the infectious agents of many Firmicutes, are remarkably resilient cell forms. Even distant relatives have similar spore architectures incorporating protective proteinaceous envelopes. We reveal in nanometer detail how the outer envelope (exosporium) inClostridium sporogenes(surrogate forC. botulinumgroup I), and in other Clostridial relatives, forms a hexagonally symmetric molecular filter. A cysteine-rich protein, CsxA, when expressed inE. coli, self-assembles into a highly thermally stable structure identical to native exosporium. Like exosporium, CsxA arrays require harsh reducing conditions for disassembly. We conclude thatin vivo, CsxA self-organises into a highly resilient, disulphide cross-linked array decorated with additional protein appendages enveloping the forespore. This pattern is remarkably similar inBacillusspores, despite lack of protein homology. In both cases,intracellulardisulphide formation is favoured by the high lattice symmetry. We propose that cysteine-rich proteins identified in distantly related spore formers may adopt a similar strategy for intracellular assembly of robust protective structures.

Published
2020
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58. Efficacy and tolerability of erenumab for prevention of episodic migraine in India

Author

Debashish, Chowdhury, Jaydip R, Chaudhuri, Pahari, Ghosh, Rahul, Kulkarni, Sumit, Singh, Sneha, Thakur, and Anup V, Thorat

Subjects
Neurology (clinical)
Abstract

EMPOwER, a 12-week, double-blind (DB), randomized, placebo-controlled study evaluated the efficacy and safety of erenumab in adult patients with episodic migraine (EM) from Asia, the Middle East, and Latin America. This study analyzes the Indian experience for the use of erunumab for prevention of episodic migraine.The study aimed to evaluate the efficacy and tolerability of erenumab (70 mg and 140 mg) in EM patients from India.Randomized patients received monthly subcutaneous injections of placebo and erenumab 70 mg or 140 mg for 3 months. The primary endpoint was a change from the baseline in monthly migraine days (MMDs) at month 3. Other endpoints included achievement of ≥50%, ≥75%, and 100% reduction in MMD; a change in monthly acute migraine-specific medication treatment days; a change in patient-reported outcomes; and safety assessment.Of the 539 patients screened, 351 patients were randomized (erenumab, 70 mg:Both doses of erenumab showed numerical improvement for efficacy endpoints and were well-tolerated in the Indian population. No new safety signals were reported.

Published
2022
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60. Complete genome sequence and comparative metabolic profiling of the prototypical enteroaggregative Escherichia coli strain 042.

Author

Roy R Chaudhuri, Mohammed Sebaihia, Jon L Hobman, Mark A Webber, Denisse L Leyton, Martin D Goldberg, Adam F Cunningham, Anthony Scott-Tucker, Paul R Ferguson, Christopher M Thomas, Gad Frankel, Christoph M Tang, Edward G Dudley, Ian S Roberts, David A Rasko, Mark J Pallen, Julian Parkhill, James P Nataro, Nicholas R Thomson, and Ian R Henderson

Subjects
Medicine, Science
Abstract

Escherichia coli can experience a multifaceted life, in some cases acting as a commensal while in other cases causing intestinal and/or extraintestinal disease. Several studies suggest enteroaggregative E. coli are the predominant cause of E. coli-mediated diarrhea in the developed world and are second only to Campylobacter sp. as a cause of bacterial-mediated diarrhea. Furthermore, enteroaggregative E. coli are a predominant cause of persistent diarrhea in the developing world where infection has been associated with malnourishment and growth retardation.In this study we determined the complete genomic sequence of E. coli 042, the prototypical member of the enteroaggregative E. coli, which has been shown to cause disease in volunteer studies. We performed genomic and phylogenetic comparisons with other E. coli strains revealing previously uncharacterised virulence factors including a variety of secreted proteins and a capsular polysaccharide biosynthetic locus. In addition, by using Biolog Phenotype Microarrays we have provided a full metabolic profiling of E. coli 042 and the non-pathogenic lab strain E. coli K-12. We have highlighted the genetic basis for many of the metabolic differences between E. coli 042 and E. coli K-12.This study provides a genetic context for the vast amount of experimental and epidemiological data published thus far and provides a template for future diagnostic and intervention strategies.

Published
2010
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61. Comprehensive identification of Salmonella enterica serovar typhimurium genes required for infection of BALB/c mice.

Author

Roy R Chaudhuri, Sarah E Peters, Stephen J Pleasance, Helen Northen, Chrissie Willers, Gavin K Paterson, Danielle B Cone, Andrew G Allen, Paul J Owen, Gil Shalom, Dov J Stekel, Ian G Charles, and Duncan J Maskell

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Genes required for infection of mice by Salmonella Typhimurium can be identified by the interrogation of random transposon mutant libraries for mutants that cannot survive in vivo. Inactivation of such genes produces attenuated S. Typhimurium strains that have potential for use as live attenuated vaccines. A quantitative screen, Transposon Mediated Differential Hybridisation (TMDH), has been developed that identifies those members of a large library of transposon mutants that are attenuated. TMDH employs custom transposons with outward-facing T7 and SP6 promoters. Fluorescently-labelled transcripts from the promoters are hybridised to whole-genome tiling microarrays, to allow the position of the transposon insertions to be determined. Comparison of microarray data from the mutant library grown in vitro (input) with equivalent data produced after passage of the library through mice (output) enables an attenuation score to be determined for each transposon mutant. These scores are significantly correlated with bacterial counts obtained during infection of mice using mutants with individual defined deletions of the same genes. Defined deletion mutants of several novel targets identified in the TMDH screen are effective live vaccines.

Published
2009
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63. Diagnosis and Treatment of Sin

Author

K Chaudhuri, Tapan, primary, K Chowdhury, Tushar, additional, R Chaudhuri, Tandra, additional, K Chowdhury, Taposh, additional, and R Chowdhury, Bulu, additional

Published
2020
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65. The cost-effectiveness of levodopa/carbidopa intestinal gel compared to standard care in advanced Parkinson’s disease

Author

Thomas S. Marshall, Rakhi Baj, Julia Lowin, Henrietta Konwea, Kavita Sail, Yash J. Jalundhwala, and K R Chaudhuri

Subjects
Male, medicine.medical_specialty, Parkinson's disease, Cost effectiveness, Cost-Benefit Analysis, macromolecular substances, Disease, Antiparkinson Agents, Levodopa, 03 medical and health sciences, 0302 clinical medicine, Standard care, Humans, Medicine, 030212 general & internal medicine, Severely disabling, business.industry, Health Policy, Carbidopa, Parkinson Disease, medicine.disease, Markov Chains, Drug Combinations, Levodopa carbidopa, Physical therapy, Health Resources, Female, Quality-Adjusted Life Years, Health Expenditures, business, Gels, Ireland, human activities, 030217 neurology & neurosurgery
Abstract

Parkinson's disease (PD) is an incurable, progressive neurological condition, with symptoms impacting movement, walking, and posture that eventually become severely disabling. Advanced PD (aPD) has a significant impact on quality-of-life (QoL) for patients and their caregivers/families. Levodopa/carbidopa intestinal gel (LCIG) is indicated for the treatment of advanced levodopa-responsive PD with severe motor fluctuations and hyper-/dyskinesia when available combinations of therapy have not given satisfactory results.To determine the cost-effectiveness of LCIG vs standard of care (SoC) for the treatment of aPD patients.A Markov model was used to evaluate LCIG vs SoC in a hypothetical cohort of 100 aPD patients with severe motor fluctuations from an Irish healthcare perspective. Model health states were defined by HoehnYahr (HY) scale-combined with amount of time in OFF-time-and death. SoC comprised of standard oral therapy ± subcutaneous apomorphine infusion and standard follow-up visits. Clinical efficacy, utilities, and transition probabilities were derived from published studies. Resource use was estimated from individual patient-level data from Adelphi 2012 UK dataset, using Irish costs, where possible. Time horizon was 20 years. Costs and outcomes were discounted at 4%. Both one-way and probabilistic sensitivity analyses were conducted.The incremental cost-effectiveness ratio for LCIG vs SOC was €26,944/quality adjusted life year (QALY) (total costs and QALYs for LCIG vs SoC: €537,687 vs €514,037 and 4.37 vs 3.49, respectively). LCIG is cost-effective at a payer threshold of €45,000. The model was most sensitive to health state costs.LCIG is a cost-effective treatment option compared with SoC in patients with aPD.

Published
2017
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66. P147 How accurate are primary care electronic databases at counting asthma exacerbations?

Author

Wtn Lee, SJ Smith, Roy R. Chaudhuri, Malcolm Shepherd, JF Yang, and Neil C. Thomson

Subjects
Asthma exacerbations, Database, Exacerbation, business.industry, Nice, computer.software_genre, medicine.disease, Health care, Prednisolone, Medicine, Medical prescription, business, computer, Mepolizumab, medicine.drug, computer.programming_language, Asthma
Abstract

Background There is a growing use of electronic databases for asthma studies, many of which use exacerbations to assess asthma control, severity and determine eligibility for biologic treatment.1 Databases identify severe exacerbations based on prednisolone prescriptions, however its accuracy in counting exacerbations is not validated. We determined whether healthcare databases accurately identify asthma exacerbation numbers and the true proportion of UK primary care patients eligible for treatment with mepolizumab. Methods Demographic and treatment information were collected from adults with asthma from ten UK general practices over a 12 months period. Frequent exacerbators (FE) were defined as ≥2 exacerbations in the past year. Oral corticosteroid (OCS) prescriptions were manually checked against clinical records for FE identified by database search. Prescriptions for non-asthma indications, dose Results Of 2639 patients with active asthma, 254 (10%) FE were identified using electronic database searches. Whereas 185 (7%) FE were confirmed after manually reviewing OCS prescriptions. Database search overestimated FE by 37% and has a positive predictive value of 73%. Of 1000 prescriptions examined from eight practices, 302 (30%) prescriptions were discounted as an asthma exacerbation. The most common reason for overcounting of exacerbations was consecutive prescriptions given within 7 days. Less common reasons included OCS prescribed for other conditions, low dose maintenance OCS or emergency supply prescriptions. 30 patients had ≥4 exacerbations in the past year and/or were on maintenance OCS dose ≥5mg daily. 22 (73%) had BEC recorded in the past year. Twelve patients were eligible for mepolizumab according to NICE criteria. Conclusion Primary care electronic database searches overestimated FE by 37%. Accuracy can be improved by adding the date, indication and daily dose of OCS in the search algorithm. Using confirmed exacerbation numbers and applying blood eosinophil criteria where available, 0.5% of patients with active asthma attending primary care in an urban area could be considered for mepolizumab. References Kerkhof, et al. Thorax 2018;73:116–124.

Published
2019
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67. Draft Whole-Genome Sequences of 10 Aeromonas Strains from Clinical and Environmental Sources

Author

Roy R. Chaudhuri, Katie Gray, Jonathan G. Shaw, and Luke R. Green

Subjects
Genetics, 0303 health sciences, biology, 030306 microbiology, Genome Sequences, Pathogenicity, biology.organism_classification, Genome, 3. Good health, 03 medical and health sciences, Immunology and Microbiology (miscellaneous), Aeromonas, %22">Fish , Molecular Biology, Pathogen, Bacteria, 030304 developmental biology
Abstract

Aeromonas bacteria are able to cause disease in a wide range of animals from humans to fish. In this article, we report the draft whole-genome sequences of 10 Aeromonas strains from clinical and environmental sources. These genome sequences will provide a repository of information for further investigations into the pathogenicity of this enigmatic pathogen.

Published
2019

68. The fitness landscape of the African Salmonella Typhimurium ST313 strain D23580 reveals unique properties of the pBT1 plasmid

Author

Melita A. Gordon, Siân V. Owen, Michael Ibba, Roy R. Chaudhuri, Natalia Quinones-Olvera, Jay C. D. Hinton, Rocío Canals, and Rebecca E. Steiner

Subjects
Genetics, Transposable element, 0303 health sciences, biology, 030306 microbiology, Mutagenesis (molecular biology technique), Virulence, biology.organism_classification, 03 medical and health sciences, Plasmid, Intergenic region, Salmonella enterica, Transfer RNA, Gene, 030304 developmental biology
Abstract

We have used a transposon insertion sequencing (TIS) approach to establish the fitness landscape of the AfricanSalmonella entericaserovar Typhimurium ST313 strain D23580, to complement our previous comparative genomic and functional transcriptomic studies. We used a genome-wide transposon library with insertions every 10 nucleotides to identify genes required for survival and growthin vitroand during infection of murine macrophages. The analysis revealed genomic regions important for fitness under twoin vitrogrowth conditions. Overall, 724 coding genes were required for optimal growth in LB medium, and 851 coding genes were required for growth in SPI-2-inducing minimal medium. These findings were consistent with the essentiality analyses of otherS.Typhimurium ST19 and S. Typhi strains. The global mutagenesis approach also identified 60 sRNAs and 413 intergenic regions required for growth in at least onein vitrogrowth condition. By infecting murine macrophages with the transposon library, we identified 68 genes that were required for intra-macrophage replication but did not impact fitnessin vitro. None of these genes were unique toS.Typhimurium D23580, consistent with a high conservation of gene function betweenS.Typhimurium ST313 and ST19 and suggesting that novel virulence factors are not involved in the interaction of strain D23580 with murine macrophages. We discovered that transposon insertions rarely occurred in many pBT1 plasmid-encoded genes (36), compared with genes carried by the pSLT-BT virulence plasmid and other bacterial plasmids. The key essential protein encoded by pBT1 is a cysteinyl-tRNA synthetase, and our enzymological analysis revealed that the plasmid-encoded CysRSpBT1had a lower ability to charge tRNA than the chromosomally-encoded CysRSchrenzyme. The presence of aminoacyl-tRNA synthetases in plasmids from a range of gram-negative and gram-positive bacteria suggests that plasmid-encoded essential genes are more common than had been appreciated.

Published
2019
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69. Proteomic Profiling, Transcription Factor Modeling, and Genomics of Evolved Tolerant Strains Elucidate Mechanisms of Vanillin Toxicity in Escherichia coli

Author

Mark O. Collins, David J. Kelly, Calum A. Pattrick, Jeffrey Green, Roy R. Chaudhuri, and Joseph P. Webb

Subjects
Physiology, Mutant, medicine.disease_cause, Biochemistry, Microbiology, aldehyde, stress responses, 03 medical and health sciences, chemistry.chemical_compound, proteomics, Gene expression, Genetics, medicine, Molecular Biology, Transcription factor, Escherichia coli, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, adaptive evolution, 030306 microbiology, Applied and Environmental Science, Vanillin, Editor's Pick, QR1-502, Computer Science Applications, SOXS, chemistry, Modeling and Simulation, copper, rpoS, citrate synthase, Research Article
Abstract

A particular problem for the biotechnological production of many of the valuable chemicals that we are now able to manufacture in bacterial cells is that these products often poison the cells producing them. Solutions to improve product yields or alleviate such toxicity using the techniques of modern molecular biology first require a detailed understanding of the mechanisms of product toxicity. Here we have studied the economically important flavor compound vanillin, an aromatic aldehyde that exerts significant toxic effects on bacterial cells. We used high-resolution protein abundance analysis as a starting point to determine which proteins are upregulated and which are downregulated by growth with vanillin, followed by gene expression and mutant studies to understand the mechanism of the response. In a second approach, we evolved bacterial strains with higher vanillin tolerance. Their genome sequences have yielded novel insights into vanillin tolerance that are complementary to the proteomics data set., Vanillin (4-hydroxy-3-methoxybenzaldehyde) is an economically important flavor compound that can be made in bacterial cell factories, but toxicity is a major problem for cells producing this aromatic aldehyde. Using (i) a global proteomic analysis supported by multiple physiological experiments, mutant analyses, and inferred transcription factor modeling and (ii) adaptive laboratory evolution (ALE) of vanillin tolerance combined with genome-wide analysis of the underlying mutations, mechanisms of vanillin toxicity in Escherichia coli have been elucidated. We identified 147 proteins that exhibited a significant change in abundance in response to vanillin, giving the first detailed insight into the cellular response to this aldehyde. Vanillin caused accumulation of reactive oxygen species invoking adaptations coordinated by a MarA, OxyR, and SoxS regulatory network and increased RpoS/DksA-dependent gene expression. Differential fumarase C upregulation was found to prevent oxidative damage to FumA and FumB during growth with vanillin. Surprisingly, vanillin-dependent reduction pf copper (II) to copper (I) led to upregulation of the copA gene and growth in the presence of vanillin was shown to be hypersensitive to inhibition by copper ions. AcrD and AaeAB were identified as potential vanillin efflux systems. Vanillin-tolerant strains isolated by ALE had distinct nonsynonymous single nucleotide polymorphisms (SNPs) in gltA that led to increased citrate synthase activity. Strain-specific mutations in cpdA, rob, and marC were also present. One strain had a large (∼10-kb) deletion that included the marRAB region. Our data provide new understanding of bacterial vanillin toxicity and identify novel gene targets for future engineering of vanillin-tolerant strains of E. coli. IMPORTANCE A particular problem for the biotechnological production of many of the valuable chemicals that we are now able to manufacture in bacterial cells is that these products often poison the cells producing them. Solutions to improve product yields or alleviate such toxicity using the techniques of modern molecular biology first require a detailed understanding of the mechanisms of product toxicity. Here we have studied the economically important flavor compound vanillin, an aromatic aldehyde that exerts significant toxic effects on bacterial cells. We used high-resolution protein abundance analysis as a starting point to determine which proteins are upregulated and which are downregulated by growth with vanillin, followed by gene expression and mutant studies to understand the mechanism of the response. In a second approach, we evolved bacterial strains with higher vanillin tolerance. Their genome sequences have yielded novel insights into vanillin tolerance that are complementary to the proteomics data set.

Published
2019

71. Applying transposon-directed insertion site sequencing to industrially important, solventogenic species Clostridium saccharoperbutylacetonicum

Author

Roy R. Chaudhuri, Robert P. Fagan, and Laurence de Lussy-Kubisa

Subjects
Transposable element, Clostridia, Clostridium, biology, General Materials Science, Fermentation, Transposon mutagenesis, Computational biology, Clostridium saccharoperbutylacetonicum, biology.organism_classification, Genome, DNA sequencing
Abstract

Solventogenic Clostridium spp. have significant potential as a source of renewable biochemicals. Production of solvents such as butanol and acetone from members of this genus is already being commercialised by industry. However, the scale of biological knowledge of these Clostridia lags behind the scale of their application. With the advent of next generation sequencing methods, transposon mutagenesis now provides a large-scale, high-throughput forward approach to understanding the genetics of these species. We are applying transposon directed insertion-site sequencing (TraDIS) to the industrially-relevant solventogenic species Clostridium saccharoperbutylacetonicum. We are utilising this robust TraDIS pipeline to uncover the essential genome of the species under laboratory conditions. Furthermore, we are investigating the species’ tolerance to butanol, a key limiting step in the fermentation process. In collaboration with Green Biologics, we are also examining the essential genome of the species under industrially important fermentation conditions. Understanding the genes that are conditionally essential in these contexts will be key in advancing the biological knowledge of the species as well as providing information that can improve the fermentation process.

Published
2019
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72. 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
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75. PRS68 HEALTHCARE RESOURCE USE IN PATIENTS WITH SEVERE EOSINOPHILIC ASTHMA AFTER THE INITIATION OF MEPOLIZUMAB IN REAL-LIFE SETTINGS - REALITI-A STUDY

Author

T.C. Köhler, R. Alfonso, J. Lee, Roy R. Chaudhuri, Sandra Joksaite, D. Ramos-Barbón, Shibing Yang, Aoife C. Maxwell, E.A. Pastorello, G. Steven, and F. Schleich

Subjects
medicine.medical_specialty, business.industry, Health Policy, Public Health, Environmental and Occupational Health, Eosinophilic asthma, Health care, medicine, In real life, Resource use, In patient, Intensive care medicine, business, Mepolizumab, medicine.drug
Published
2020
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76. PMD48 ROBOTIC TOTAL HYSTERECTOMY: ASSOCIATION OF SURGICAL INDICATION WITH USE OF ROBOTIC-ASSISTANCE AND RELATED HEALTHCARE RESOURCE UTILIZATION AND COSTS

Author

T. Amos, Stephen S. Johnston, P. Grange, Paul Coplan, B.H. Johnson, R. Chaudhuri, and S. Knippenberg

Subjects
Hysterectomy, business.industry, Health Policy, medicine.medical_treatment, Association (object-oriented programming), Health care, Public Health, Environmental and Occupational Health, Medicine, Medical emergency, business, medicine.disease, Resource utilization
Published
2020
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80. Rationally designedmarinervectors to allow functional genomic analysis ofActinobacillus pleuropneumoniaeand other bacteria by transposon-directed insertion-site sequencing (TraDIS)

Author

Leon G. Leanse, Andrew N. Rycroft, Jianxin Wang, Gareth A. Maglennon, Liqing Zhou, Alexander W. Tucker, Peters Se, Yingrui Li, Duncan J. Maskell, Janine T. Bossé, Paul R. Langford, M. T. G. Holden, Roy R. Chaudhuri, and Brendan W. Wren

Subjects
Genetics, Transposable element, 0303 health sciences, biology, 030306 microbiology, Mutant, biology.organism_classification, 03 medical and health sciences, Vector (molecular biology), Pasteurella multocida, Actinobacillus pleuropneumoniae, Gene, Transposase, Bacteria, 030304 developmental biology
Abstract

Transposon Directed Insertion Sequencing (TraDIS) is a high-throughput method for mapping insertion sites in large libraries of transposon mutants. TheHimar1(mariner) transposon is ideal for generating near-saturating mutant libraries, especially in AT-rich chromosomes, as the requirement for integration is a TA dinucleotide. In this study, we generated two novelmarinervectors, pTsodCPC9 and pTlacPC9 (differing only in the promoter driving expression of the transposase gene), in order to facilitate TraDIS identification of conditionally essential genes inActinobacillus pleuropneumoniaeand other bacteria. Using the pTlacPC9 vector, we have generated, for the first time, saturatingmarinermutant libraries in bothA. pleuropneumoniaeandPasteurella multocidathat showed a near random distribution of insertions around the respective chromosomes. A preliminary screen of 5000 mutants each identified 8 and 15 genes, respectively, that are required for growth under anaerobic conditions.

Published
2018
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81. Retrospective application of transposon-directed insertion-site sequencing to investigate niche-specific virulence of Salmonella Typhimurium in cattle

Author

Prerna, Vohra, Roy R, Chaudhuri, Matthew, Mayho, Christina, Vrettou, Cosmin, Chintoan-Uta, Nicholas R, Thomson, Jayne C, Hope, John, Hopkins, and Mark P, Stevens

Subjects
Salmonella typhimurium, Carbon-Oxygen Lyases, Cattle Diseases, Salmonella enterica, Intestines, Ileum, Salmonella, TraDIS, Zoonoses, Mutation, Salmonella Infections, DNA Transposable Elements, Animals, Humans, Cattle, Lymph Nodes, Disease Reservoirs, Research Article, Niche-specific virulence
Abstract

Background Salmonella enterica subspecies enterica is an animal and zoonotic pathogen of global importance. Cattle are a significant reservoir of human non-typhoidal salmonellosis and can suffer enteric and systemic disease owing to the ability of Salmonella to survive within the bovine lymphatic system and intestines. Contamination of food can occur due to the incorporation of contaminated peripheral lymph nodes or by direct contamination of carcasses with gut contents. It is essential to understand the mechanisms used by Salmonella to enter and persist within the bovine lymphatic system and how they differ from those required for intestinal colonization to minimize zoonotic infections. Results Transposon-directed insertion site sequencing (TraDIS) was applied to pools of mutants recovered from mesenteric lymph nodes (MLNs) draining the distal ileum of calves after oral inoculation with a library of 8550 random S. Typhimurium mini-Tn5Km2 mutants in pools of 475 mutants per calf. A total of 8315 mutants representing 2852 different genes were detected in MLNs and their in vivo fitness was calculated. Using the same improved algorithm for analysis of transposon-flanking sequences, the identity and phenotype of mutants recovered from the distal ileal mucosa of the same calves was also defined, enabling comparison with previously published data and of mutant phenotypes across the tissues. Phenotypes observed for the majority of mutants were highly significantly correlated in the two tissues. However, 32 genes were identified in which transposon insertions consistently resulted in differential fitness in the ileal wall and MLNs, suggesting niche-specific roles for these genes in pathogenesis. Defined null mutations affecting ptsN and spvC were confirmed to result in tissue-specific phenotypes in calves, thus validating the TraDIS dataset. Conclusions This validation of the role of thousands of Salmonella genes and identification of genes with niche-specific roles in a key target species will inform the design of control strategies for bovine salmonellosis and zoonotic infections, for which efficacious and cross-protective vaccines are currently lacking. Electronic supplementary material The online version of this article (10.1186/s12864-018-5319-0) contains supplementary material, which is available to authorized users.

Published
2018

82. Challenges and solutions for the SKA TM Architectural Team (TMAT)

Author

Gerhard Le Roux, Subhajyoti R. Chaudhuri, Matteo Di Carlo, Alan Bridger, ITA, GBR, IND, and ZAF

Subjects
Telescope, Engineering management, Deliverable, Square kilometre array, Computer science, law, Architectural design, Architecture, Scheduling (computing), law.invention
Abstract

The SKA (Square Kilometre Array) Telescope Manager (TM) is the core package of the SKA Telescope: it is aimed at scheduling observations, controlling their execution, monitoring the telescope health status, diagnosing and fixing its faults and so on. Following the adoption of the Views and Beyond (V and B) approach [1] of the Software Engineering Institute (SEI [2]), it was discussed and agreed upon to take the opportunity to setup a TM Architecture Team (TMAT) composed by a combination of team members (who drove much of the work towards the main deliverables for the final review) and others (who can help shape the architectural design). The TMAT has to make sure that the main deliverables are well aligned with the overall TM architecture (including ensuring that the SEI approach is followed to the level agreed upon), and that there are no gaps and that cross-cutting issues are taken care of properly. This paper wants to analyze the challenges that the team has to face together with the solutions proposed to ensure that the quality of the deliverables are reached.

Published
2018
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83. A global perspective on acute exacerbation of idiopathic pulmonary fibrosis (AE-IPF): results from an international survey

Author

Kreuter, Michael Polke, Markus Walsh, Simon Collard, Harold R. Chaudhuri, Nazia Avdeev, Sergey Behr, Juergen and Calligero, Greg Corte, Tamera Flaherty, Kevin Funke, Manuela and Kolb, Martin Kondoh, Yasuhiro Maher, Toby M. Molina Molina, Maria Morais, Antonio Moor, Karen Morisset, Julie and Pereira, Carlos Quadrelli, Silvia Selman, Moises and Tzouvelekis, Argyrios Vancheri, Carlo Vicens-Zygmunt, Vanesa and Waelscher, Julia Wuyts, Wim Wijsenbeek, Marlies Cottin, Vincent Bendstrup, Elisabeth

Published
2018

89. Development of a Multiplex PCR Assay for Rapid Molecular Serotyping of Haemophilus parasuis

Author

Kate J, Howell, Sarah E, Peters, Jinhong, Wang, Juan, Hernandez-Garcia, Lucy A, Weinert, Shi-Lu, Luan, Roy R, Chaudhuri, Øystein, Angen, Virginia, Aragon, Susanna M, Williamson, Julian, Parkhill, Paul R, Langford, Andrew N, Rycroft, Brendan W, Wren, Duncan J, Maskell, Alexander W, Tucker, and Vanessa S, Terra

Subjects
Microbiology (medical), Bacterial capsule, Serotype, Haemophilus Infections, Time Factors, Genotyping Techniques, Swine, Locus (genetics), Sensitivity and Specificity, Clinical Veterinary Microbiology, Microbiology, Haemophilus parasuis, Genetic variation, Haemophilus, Multiplex polymerase chain reaction, Animals, Serotyping, Bacterial Capsules, Swine Diseases, biology, Pasteurellaceae, biology.organism_classification, Virology, genomic DNA, Genetic Loci, Multiplex Polymerase Chain Reaction
Abstract

Haemophilus parasuis causes Glässer's disease and pneumonia in pigs. Indirect hemagglutination (IHA) is typically used to serotype this bacterium, distinguishing 15 serovars with some nontypeable isolates. The capsule loci of the 15 reference strains have been annotated, and significant genetic variation was identified between serovars, with the exception of serovars 5 and 12. A capsule locus and in silico serovar were identified for all but two nontypeable isolates in our collection of >200 isolates. Here, we describe the development of a multiplex PCR, based on variation within the capsule loci of the 15 serovars of H. parasuis , for rapid molecular serotyping. The multiplex PCR (mPCR) distinguished between all previously described serovars except 5 and 12, which were detected by the same pair of primers. The detection limit of the mPCR was 4.29 × 10 5 ng/μl bacterial genomic DNA, and high specificity was indicated by the absence of reactivity against closely related commensal Pasteurellaceae and other bacterial pathogens of pigs. A subset of 150 isolates from a previously sequenced H. parasuis collection was used to validate the mPCR with 100% accuracy compared to the in silico results. In addition, the two in silico -nontypeable isolates were typeable using the mPCR. A further 84 isolates were analyzed by mPCR and compared to the IHA serotyping results with 90% concordance (excluding those that were nontypeable by IHA). The mPCR was faster, more sensitive, and more specific than IHA, enabling the differentiation of 14 of the 15 serovars of H. parasuis .

Published
2015
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91. 'Pathotyping' Multiplex PCR Assay for Haemophilus parasuis: a Tool for Prediction of Virulence

Author

Virginia Aragon, Alexander W. Tucker, Duncan J. Maskell, Susanna Williamson, Shi-Lu Luan, Øystein Angen, Lucy A. Weinert, Paul R. Langford, Sarah Peters, Kate J. Howell, Roy R. Chaudhuri, Andrew N. Rycroft, Jinhong Wang, Juan Hernandez-Garcia, Brendan W. Wren, Howell, Kate J [0000-0001-8069-920X], Langford, Paul R [0000-0002-6368-4724], Apollo - University of Cambridge Repository, Biotechnology and Biological Sciences Research Council (BBSRC), and Pfizer Limited (UK)

Subjects
0301 basic medicine, Microbiology (medical), Serotype, pathotyping, Haemophilus Infections, INDIRECT HEMAGGLUTINATION, Swine, DIVERSITY, virulence factors, Virulence, Genome, Microbiology, Clinical Veterinary Microbiology, molecular diagnostics, 03 medical and health sciences, Haemophilus parasuis, Haemophilus, Multiplex polymerase chain reaction, INFECTION, Animals, PIGS, Actinobacillus pleuropneumoniae, Swine Diseases, Science & Technology, biology, STRAINS, ACTINOBACILLUS-PLEUROPNEUMONIAE, 11 Medical And Health Sciences, 06 Biological Sciences, biology.organism_classification, Molecular diagnostics, Disease control, Virology, GENE, GLASSERS-DISEASE, SEROVAR, 030104 developmental biology, Molecular Diagnostic Techniques, 07 Agricultural And Veterinary Sciences, Life Sciences & Biomedicine, Multiplex Polymerase Chain Reaction
Abstract

Haemophilus parasuis is a diverse bacterial species that is found in the upper respiratory tracts of pigs and can also cause Glässer's disease and pneumonia. A previous pangenome study of H. parasuis identified 48 genes that were associated with clinical disease. Here, we describe the development of a generalized linear model (termed a pathotyping model) to predict the potential virulence of isolates of H. parasuis based on a subset of 10 genes from the pangenome. A multiplex PCR (mPCR) was constructed based on these genes, the results of which were entered into the pathotyping model to yield a prediction of virulence. This new diagnostic mPCR was tested on 143 field isolates of H. parasuis that had previously been whole-genome sequenced and a further 84 isolates from the United Kingdom from cases of H. parasuis- related disease in pigs collected between 2013 and 2014. The combination of the mPCR and the pathotyping model predicted the virulence of an isolate with 78% accuracy for the original isolate collection and 90% for the additional isolate collection, providing an overall accuracy of 83% (81% sensitivity and 93% specificity) compared with that of the “current standard” of detailed clinical metadata. This new pathotyping assay has the potential to aid surveillance and disease control in addition to serotyping data.

Published
2017
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92. Sequencing a piece of history: complete genome sequence of the original Escherichia coli strain

Author

Karl A. Dunne, Jeffrey A. Cole, Adam F. Cunningham, Derrick J. P. Squire, Irene Beriotto, Nicholas J. Loman, Roy R. Chaudhuri, Douglas F. Browning, Ian R. Henderson, and Amanda E. Rossiter

Subjects
0301 basic medicine, Virulence Factors, genome sequence, 030106 microbiology, Virulence, Systems Microbiology, Locus (genetics), Biology, medicine.disease_cause, Microbiology, 03 medical and health sciences, Genome Annotation, Metabolic Reconstructions, medicine, Escherichia coli, Gene, Antibacterial agent, Whole genome sequencing, Genetics, Antigens, Bacterial, Phylogenetic tree, Whole Genome Sequencing, Circular bacterial chromosome, Escherichia coli Proteins, Drug Resistance, Microbial, General Medicine, Theodor Escherich, 030104 developmental biology, Genome, Bacterial, Research Article
Abstract

In 1885, Theodor Escherich first described the Bacillus coli commune, which was subsequently renamed Escherichia coli. We report the complete genome sequence of this original strain (NCTC 86). The 5 144 392 bp circular chromosome encodes the genes for 4805 proteins, which include antigens, virulence factors, antimicrobial-resistance factors and secretion systems, of a commensal organism from the pre-antibiotic era. It is located in the E. coli A subgroup and is closely related to E. coli K-12 MG1655. E. coli strain NCTC 86 and the non-pathogenic K-12, C, B and HS strains share a common backbone that is largely co-linear. The exception is a large 2 803 932 bp inversion that spans the replication terminus from gmhB to clpB. Comparison with E. coli K-12 reveals 41 regions of difference (577 351 bp) distributed across the chromosome. For example, and contrary to current dogma, E. coli NCTC 86 includes a nine gene sil locus that encodes a silver-resistance efflux pump acquired before the current widespread use of silver nanoparticles as an antibacterial agent, possibly resulting from the widespread use of silver utensils and currency in Germany in the 1800s. In summary, phylogenetic comparisons with other E. coli strains confirmed that the original strain isolated by Escherich is most closely related to the non-pathogenic commensal strains. It is more distant from the root than the pathogenic organisms E. coli 042 and O157 : H7; therefore, it is not an ancestral state for the species.

Published
2017

93. Neuronal cells but not muscle cells are resistant to oxidative stress mediated protein misfolding and cell death: Role of molecular chaperones

Author

Asish R. Chaudhuri, Arunabh Bhattacharya, Rochelle Wei, and Ryan T. Hamilton

Subjects
Protein Folding, Programmed cell death, Cell Survival, Biophysics, Biology, medicine.disease_cause, Biochemistry, Cell Line, Mice, Heat shock protein, medicine, Animals, Myocyte, Molecular Biology, Cells, Cultured, Heat-Shock Proteins, Neurons, Muscle Cells, Cell Death, Amyotrophic Lateral Sclerosis, Skeletal muscle, Cell Biology, Spinal cord, Muscle atrophy, Cell biology, Mice, Inbred C57BL, Oxidative Stress, medicine.anatomical_structure, Neuron, medicine.symptom, Oxidative stress
Abstract

Our recent study in a mouse model of familial-Amyotrophic Lateral Sclerosis (f-ALS) revealed that muscle proteins are equally sensitive to misfolding as spinal cord proteins despite the presence of low mutant CuZn-superoxide dismutase, which is considered to be the key toxic element for initiation and progression of f-ALS. More importantly, we observed differential level of heat shock proteins (Hsp's) between skeletal muscle and spinal cord tissues prior to the onset and during disease progression; spinal cord maintains significantly higher level of Hsp's compared to skeletal muscle. In this study, we report two important observations; (i) muscle cells (but not neuronal cells) are extremely vulnerable to protein misfolding and cell death during challenge with oxidative stress and (ii) muscle cells fail to mount Hsp's during challenge unlike neuronal cells. These two findings can possibly explain why muscle atrophy precedes the death of motor neurons in f-ALS mice.

Published
2014
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97. Generation of a Tn5 transposon library in Haemophilus parasuis and analysis by transposon-directed insertion-site sequencing (TraDIS)

Author

Shi-Lu, Luan, Roy R, Chaudhuri, Sarah E, Peters, Matthew, Mayho, Lucy A, Weinert, Sarah A, Crowther, Jinhong, Wang, Paul R, Langford, Andrew, Rycroft, Brendan W, Wren, Alexander W, Tucker, Duncan J, Maskell, and Vanessa, Terra

Subjects
Transposable element, Molecular Sequence Data, Mutagenesis (molecular biology technique), Virulence, Microbiology, Genome, Transposition (music), Haemophilus parasuis, chemistry.chemical_compound, Bacterial Proteins, Haemophilus, Animals, Humans, Gene, Gene Library, Genetics, Base Sequence, General Veterinary, biology, General Medicine, biology.organism_classification, Mutagenesis, Insertional, Electroporation, chemistry, DNA Transposable Elements, DNA
Abstract

Haemophilus parasuis is an important respiratory tract pathogen of swine and the etiological agent of Glässer's disease. The molecular pathogenesis of H. parasuis is not well studied, mainly due to the lack of efficient tools for genetic manipulation of this bacterium. In this study we describe a Tn5-based random mutagenesis method for use in H. parasuis. A novel chloramphenicol-resistant Tn5 transposome was electroporated into the virulent H. parasuis serovar 5 strain 29755. High transposition efficiency of Tn5, up to 10(4) transformants/μg of transposon DNA, was obtained by modification of the Tn5 DNA in the H. parasuis strain HS071 and establishment of optimal electrotransformation conditions, and a library of approximately 10,500 mutants was constructed. Analysis of the library using transposon-directed insertion-site sequencing (TraDIS) revealed that the insertion of Tn5 was evenly distributed throughout the genome. 10,001 individual mutants were identified, with 1561 genes being disrupted (69.4% of the genome). This newly-developed, efficient mutagenesis approach will be a powerful tool for genetic manipulation of H. parasuis in order to study its physiology and pathogenesis.

Published
2013
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98. Gene Content and Diversity of the Loci Encoding Biosynthesis of Capsular Polysaccharides of the 15 Serovar Reference Strains of Haemophilus parasuis

Author

Kate J, Howell, Lucy A, Weinert, Shi-Lu, Luan, Sarah E, Peters, Roy R, Chaudhuri, David, Harris, Oystein, Angen, Virginia, Aragon, Julian, Parkhill, Paul R, Langford, Andrew N, Rycroft, Brendan W, Wren, Alexander W, Tucker, Duncan J, Maskell, and Vanessa, Terra

Subjects
Serotype, Haemophilus Infections, Swine, Virulence Factors, Sequence analysis, Sus scrofa, Virulence, Locus (genetics), Biology, Microbiology, Homology (biology), Haemophilus parasuis, Bacterial Proteins, Species Specificity, Animals, Serotyping, Molecular Biology, Gene, Pathogen, Synteny, Swine Diseases, Genetics, Polysaccharides, Bacterial, Genetic Variation, Sequence Analysis, DNA, Articles, Bacterial Typing Techniques
Abstract

Haemophilus parasuis is the causative agent of Glässer's disease, a systemic disease of pigs, and is also associated with pneumonia. H. parasuis can be classified into 15 different serovars. Here we report, from the 15 serotyping reference strains, the DNA sequences of the loci containing genes for the biosynthesis of the group 1 capsular polysaccharides, which are potential virulence factors of this bacterium. We contend that these loci contain genes for polysaccharide capsule structures, and not a lipopolysaccharide O antigen, supported by the fact that they contain genes such as wza, wzb, and wzc, which are associated with the export of polysaccharide capsules in the current capsule classification system. A conserved region at the 3′ end of the locus, containing the wza, ptp, wzs, and iscR genes, is consistent with the characteristic export region 1 of the model group 1 capsule locus. A potential serovar-specific region (region 2) has been found by comparing the predicted coding sequences (CDSs) in all 15 loci for synteny and homology. The region is unique to each reference strain with the exception of those in serovars 5 and 12, which are identical in terms of gene content. The identification and characterization of this locus among the 15 serovars is the first step in understanding the genetic, molecular, and structural bases of serovar specificity in this poorly studied but important pathogen and opens up the possibility of developing an improved molecular serotyping system, which would greatly assist diagnosis and control of Glässer's disease.

Published
2013
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99. Elevated protein carbonylation and oxidative stress do not affect protein structure and function in the long-living naked-mole rat: A proteomic approach

Author

Asish R. Chaudhuri, Ryan T. Hamilton, Hanyu Liang, Rochelle Buffenstein, Anson Pierce, and Eric de Waal

Subjects
Proteomics, Aging, Spectrometry, Mass, Electrospray Ionization, Protein Carbonylation, Longevity, Biophysics, Cellular homeostasis, Oxidative phosphorylation, Biology, Peroxiredoxin 1, Kidney, medicine.disease_cause, Biochemistry, Mice, Cytosol, Species Specificity, medicine, Animals, Electrophoresis, Gel, Two-Dimensional, Molecular Biology, Mole Rats, Myocardium, Kidney metabolism, Peroxiredoxins, Cell Biology, Mice, Inbred C57BL, Oxidative Stress, Liver, Electrophoresis, Polyacrylamide Gel, Protein Multimerization, Peroxiredoxin, Oxidation-Reduction, Oxidative stress, Triose-Phosphate Isomerase
Abstract

The 'oxidative stress theory of aging' predicts that aging is primarily regulated by progressive accumulation of oxidized macromolecules that cause deleterious effects to cellular homeostasis and induces a decline in physiological function. However, our reports on the detection of higher level of oxidized protein carbonyls in the soluble cellular fractions of long-living rodent naked-mole rats (NMRs, lifespan ~30yrs) compared to short-lived mice (lifespan ~3.5yrs) apparently contradicts a key tenet of the oxidative theory. As oxidation often inactivates enzyme function and induces higher-order soluble oligomers, we performed a comprehensive study to measure global protein carbonyl level in different tissues of age-matched NMRs and mice to determine if the traditional concept of oxidation mediated impairment of function and induction of higher-order structures of proteins are upheld in the NMRs. We made three intriguing observations with NMRs proteins: (1) protein carbonyl is significantly elevated across different tissues despite of its exceptional longevity, (2) enzyme function is restored despite of experiencing higher level of protein carbonylation, and (3) enzymes show lesser sensitivity to form higher-order non-reducible oligomers compared to short-living mouse proteins in response to oxidative stress. These observations were made based on the global analysis of protein carbonyl and identification of two heavily carbonylated proteins in the kidney, triosephosphate isomerase (TPI) and cytosolic peroxiredoxin (Prdx1). These un-expected intriguing observations thus strongly suggest that oxidative modification may not be the only criteria for impairment of protein and enzyme function; cellular environment is likely be the critical determining factor in this process and may be the underlying mechanism for exceptional longevity of NMR.

Published
2013
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100. Draft Genome Sequences of Three Clinical Isolates of Tannerella forsythia Isolated from Subgingival Plaque from Periodontitis Patients in the United States

Author

Angela Ruscitto, Graham P. Stafford, Christina Schäffer, Roy R. Chaudhuri, Ashu Sharma, Kiyonobu Honma, Violet I. Haraszthy, and Valentin Friedrich

Subjects
0301 basic medicine, Periodontitis, 030106 microbiology, Biology, biology.organism_classification, medicine.disease, Genome, 3. Good health, Microbiology, 03 medical and health sciences, stomatognathic diseases, Genetics, medicine, Tannerella forsythia, Prokaryotes, Subgingival plaque, Molecular Biology
Abstract

We report the genome sequences of three clinical isolates of Tannerella forsythia from the subgingival plaque of periodontitis patients attending clinics at the School of Dental Medicine, University at Buffalo. The availability of these genome sequences will aid the understanding of the pathogenesis of periodontitis.

Published
2016

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