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1. P1.12-05 Combining Anti-HER3 Antibody, HMBD-001, with EGFR Inhibition and Chemotherapy may Improve Treatment Outcomes in SqNSCLC

Author

Toy, W., primary, Thakkar, D., additional, Luu, K., additional, Bui, N.L.C., additional, Chau, K.F., additional, Lai, J., additional, Ray, D., additional, Wu, S., additional, Poi, M., additional, Gandhi, N.A., additional, Mas, A., additional, Paszkiewicz, K., additional, Ingram, P., additional, and Boyd-Kirkup, J., additional

Published
2023
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7. De Novo Genome Assembly of the Meadow Brown Butterfly, Maniola jurtina

Author

Singh, KS, Hosken, DJ, Wedell, N, Ffrench-Constant, R, Bass, C, Baxter, S, Paszkiewicz, K, Sharma, MD, Singh, KS, Hosken, DJ, Wedell, N, Ffrench-Constant, R, Bass, C, Baxter, S, Paszkiewicz, K, and Sharma, MD

Abstract

Meadow brown butterflies (Maniola jurtina) on the Isles of Scilly represent an ideal model in which to dissect the links between genotype, phenotype and long-term patterns of selection in the wild - a largely unfulfilled but fundamental aim of modern biology. To meet this aim, a clear description of genotype is required. Here we present the draft genome sequence of M. jurtina to serve as a founding genetic resource for this species. Seven libraries were constructed using pooled DNA from five wild caught spotted females and sequenced using Illumina, PacBio RSII and MinION technology. A novel hybrid assembly approach was employed to generate a final assembly with an N50 of 214 kb (longest scaffold 2.9 Mb). The sequence assembly described here predicts a gene count of 36,294 and includes variants and gene duplicates from five genotypes. Core BUSCO (Benchmarking Universal Single-Copy Orthologs) gene sets of Arthropoda and Insecta recovered 90.5% and 88.7% complete and single-copy genes respectively. Comparisons with 17 other Lepidopteran species placed 86.5% of the assembled genes in orthogroups. Our results provide the first high-quality draft genome and annotation of the butterfly M. jurtina.

Published
2020

9. HIGH EXPRESSION OF OSMOTICALLY RESPONSIVE GENES1 Is Required for Circadian Periodicity through the Promotion of Nucleo-Cytoplasmic mRNA Export in Arabidopsis

Author

MacGregor, D. R., primary, Gould, P., additional, Foreman, J., additional, Griffiths, J., additional, Bird, S., additional, Page, R., additional, Stewart, K., additional, Steel, G., additional, Young, J., additional, Paszkiewicz, K., additional, Millar, A. J., additional, Halliday, K. J., additional, Hall, A. J., additional, and Penfield, S., additional

Published
2013
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18. From "crisis to recovery": A complete insight into the mechanisms of chlorine injury in the lung.

Author

Clark GC, Elfsmark L, Armstrong S, Essex-Lopresti A, Gustafsson Å, Ryan Y, Moore K, Paszkiewicz K, Green AC, Hiscox JA, David J, and Jonasson S

Subjects
Mice, Humans, Animals, Proteomics, Lung, Bronchoalveolar Lavage Fluid, Chlorine toxicity, Proteome
Abstract

Chlorine (Cl 2 ) gas is a toxic industrial chemical (TIC) that poses a hazard to human health following accidental and/or intentional (e.g. terrorist) release. By using a murine model of sub-lethal Cl 2 exposure we have examined the airway hyper responsiveness, cellular infiltrates, transcriptomic and proteomic responses of the lung. In the "crisis" phase at 2 h and 6 h there is a significant decreases in leukocytes within bronchoalveolar lavage fluid accompanied by an upregulation within the proteome of immune pathways ultimately resulting in neutrophil influx at 24 h. A flip towards "repair" in the transcriptome and proteome occurs at 24 h, neutrophil influx and an associated drop in the lung function persisting until 14 d post-exposure and subsequent "recovery" after 28 days. Collectively, this research provides new insights into the mechanisms of damage, early global responses and processes of repair induced in the lung following the inhalation of Cl 2 ., (Crown Copyright © 2022. Published by Elsevier Inc. All rights reserved.)

Published
2023
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19. Transcriptomic analysis of the trade-off between endurance and burst-performance in the frog Xenopus allofraseri.

Author

Ducret V, Richards AJ, Videlier M, Scalvenzi T, Moore KA, Paszkiewicz K, Bonneaud C, Pollet N, and Herrel A

Subjects
Animals, Anura, Xenopus, Xenopus laevis, Gene Expression Profiling, Transcriptome
Abstract

Background: Variation in locomotor capacity among animals often reflects adaptations to different environments. Despite evidence that physical performance is heritable, the molecular basis of locomotor performance and performance trade-offs remains poorly understood. In this study we identify the genes, signaling pathways, and regulatory processes possibly responsible for the trade-off between burst performance and endurance observed in Xenopus allofraseri, using a transcriptomic approach., Results: We obtained a total of about 121 million paired-end reads from Illumina RNA sequencing and analyzed 218,541 transcripts obtained from a de novo assembly. We identified 109 transcripts with a significant differential expression between endurant and burst performant individuals (FDR ≤ 0.05 and logFC ≥2), and blast searches resulted in 103 protein-coding genes. We found major differences between endurant and burst-performant individuals in the expression of genes involved in the polymerization and ATPase activity of actin filaments, cellular trafficking, proteoglycans and extracellular proteins secreted, lipid metabolism, mitochondrial activity and regulators of signaling cascades. Remarkably, we revealed transcript isoforms of key genes with functions in metabolism, apoptosis, nuclear export and as a transcriptional corepressor, expressed in either burst-performant or endurant individuals. Lastly, we find two up-regulated transcripts in burst-performant individuals that correspond to the expression of myosin-binding protein C fast-type (mybpc2). This suggests the presence of mybpc2 homoeologs and may have been favored by selection to permit fast and powerful locomotion., Conclusion: These results suggest that the differential expression of genes belonging to the pathways of calcium signaling, endoplasmic reticulum stress responses and striated muscle contraction, in addition to the use of alternative splicing and effectors of cellular activity underlie locomotor performance trade-offs. Ultimately, our transcriptomic analysis offers new perspectives for future analyses of the role of single nucleotide variants, homoeology and alternative splicing in the evolution of locomotor performance trade-offs.

Published
2021
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20. De Novo Genome Assembly of the Meadow Brown Butterfly, Maniola jurtina .

Author

Singh KS, Hosken DJ, Wedell N, Ffrench-Constant R, Bass C, Baxter S, Paszkiewicz K, and Sharma MD

Subjects
Animals, Female, Genome, Grassland, Insecta, Phenotype, Butterflies genetics
Abstract

Meadow brown butterflies ( Maniola jurtina ) on the Isles of Scilly represent an ideal model in which to dissect the links between genotype, phenotype and long-term patterns of selection in the wild - a largely unfulfilled but fundamental aim of modern biology. To meet this aim, a clear description of genotype is required. Here we present the draft genome sequence of M. jurtina to serve as a founding genetic resource for this species. Seven libraries were constructed using pooled DNA from five wild caught spotted females and sequenced using Illumina, PacBio RSII and MinION technology. A novel hybrid assembly approach was employed to generate a final assembly with an N50 of 214 kb (longest scaffold 2.9 Mb). The sequence assembly described here predicts a gene count of 36,294 and includes variants and gene duplicates from five genotypes. Core BUSCO (Benchmarking Universal Single-Copy Orthologs) gene sets of Arthropoda and Insecta recovered 90.5% and 88.7% complete and single-copy genes respectively. Comparisons with 17 other Lepidopteran species placed 86.5% of the assembled genes in orthogroups. Our results provide the first high-quality draft genome and annotation of the butterfly M. jurtina ., (Copyright © 2020 Singh et al.)

Published
2020
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21. Common Host Responses in Murine Aerosol Models of Infection Caused by Highly Virulent Gram-Negative Bacteria from the Genera Burkholderia, Francisella and Yersinia.

Author

Clark GC, Essex-Lopresti A, Moore KA, Williamson ED, Lukaszewski R, Paszkiewicz K, and David J

Abstract

Highly virulent bacterial pathogens cause acute infections which are exceptionally difficult to treat with conventional antibiotic therapies alone. Understanding the chain of events that are triggered during an infection of a host has the potential to lead to new therapeutic strategies. For the first time, the transcriptomic responses within the lungs of Balb/C mice have been compared during an acute infection with the intracellular pathogens Burkholderia pseudomallei , Francisella tularensis and Yersinia pestis . Temporal changes were determined using RNAseq and a bioinformatics pipeline; expression of protein was also studied from the same sample. Collectively it was found that early transcriptomic responses within the infected host were associated with the (a) slowing down of critical cellular functions, (b) production of circulatory system components, (c) lung tissue integrity, and (d) intracellular regulatory processes. One common molecule was identified, Errfi1 (ErbB receptor feedback inhibitor 1); upregulated in response to all three pathogens and a potential novel marker of acute infection. Based upon the pro-inflammatory responses observed, we sought to synchronise each infection and report that 24 h p.i. of B. pseudomallei infection closely aligned with 48 h p.i. of infection with F. tularensis and Y. pestis . Post-transcriptional modulation of RANTES expression occurred across all pathogens, suggesting that these infections directly or indirectly modulate cell trafficking through chemokine expression/detection. Collectively, this unbiased NGS approach has provided an in-depth characterisation of the host transcriptome following infection with these highly virulent pathogens ultimately aiding in the development of host-directed therapies as adjuncts or alternatives to antibiotic treatment.

Published
2019
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22. The Culture Environment Influences Both Gene Regulation and Phenotypic Heterogeneity in Escherichia coli .

Author

Smith A, Kaczmar A, Bamford RA, Smith C, Frustaci S, Kovacs-Simon A, O'Neill P, Moore K, Paszkiewicz K, Titball RW, and Pagliara S

Abstract

Microorganisms shape the composition of the medium they are growing in, which in turn has profound consequences on the reprogramming of the population gene-expression profile. In this paper, we investigate the progressive changes in pH and sugar availability in the medium of a growing Escherichia coli ( E. coli ) culture. We show how these changes have an effect on both the cellular heterogeneity within the microbial community and the gene-expression profile of the microbial population. We measure the changes in gene-expression as E. coli moves from lag, to exponential, and finally into stationary phase. We found that pathways linked to the changes in the medium composition such as ribosomal, tricarboxylic acid cycle (TCA), transport, and metabolism pathways are strongly regulated during the different growth phases. In order to quantify the corresponding temporal changes in the population heterogeneity, we measure the fraction of E. coli persisters surviving different antibiotic treatments during the various phases of growth. We show that the composition of the medium in which β-lactams or quinolones, but not aminoglycosides, are dissolved strongly affects the measured phenotypic heterogeneity within the culture. Our findings contribute to a better understanding on how the composition of the culture medium influences both the reprogramming in the population gene-expression and the emergence of phenotypic variants.

Published
2018
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23. Comparative genomic analysis of the 'pseudofungus' Hyphochytrium catenoides .

Author

Leonard G, Labarre A, Milner DS, Monier A, Soanes D, Wideman JG, Maguire F, Stevens S, Sain D, Grau-Bové X, Sebé-Pedrós A, Stajich JE, Paszkiewicz K, Brown MW, Hall N, Wickstead B, and Richards TA

Subjects
Animals, Molecular Sequence Annotation, Rhinosporidium classification, Rhinosporidium pathogenicity, Whole Genome Sequencing, Genome, Phylogeny, Rhinosporidium genetics
Abstract

Eukaryotic microbes have three primary mechanisms for obtaining nutrients and energy: phagotrophy, photosynthesis and osmotrophy. Traits associated with the latter two functions arose independently multiple times in the eukaryotes. The Fungi successfully coupled osmotrophy with filamentous growth, and similar traits are also manifested in the Pseudofungi (oomycetes and hyphochytriomycetes). Both the Fungi and the Pseudofungi encompass a diversity of plant and animal parasites. Genome-sequencing efforts have focused on host-associated microbes (mutualistic symbionts or parasites), providing limited comparisons with free-living relatives. Here we report the first draft genome sequence of a hyphochytriomycete 'pseudofungus'; Hyphochytrium catenoides Using phylogenomic approaches, we identify genes of recent viral ancestry, with related viral derived genes also present on the genomes of oomycetes, suggesting a complex history of viral coevolution and integration across the Pseudofungi. H. catenoides has a complex life cycle involving diverse filamentous structures and a flagellated zoospore with a single anterior tinselate flagellum. We use genome comparisons, drug sensitivity analysis and high-throughput culture arrays to investigate the ancestry of oomycete/pseudofungal characteristics, demonstrating that many of the genetic features associated with parasitic traits evolved specifically within the oomycete radiation. Comparative genomics also identified differences in the repertoire of genes associated with filamentous growth between the Fungi and the Pseudofungi, including differences in vesicle trafficking systems, cell-wall synthesis pathways and motor protein repertoire, demonstrating that unique cellular systems underpinned the convergent evolution of filamentous osmotrophic growth in these two eukaryotic groups., (© 2018 The Authors.)

Published
2018
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24. Genome-wide chromatin mapping with size resolution reveals a dynamic sub-nucleosomal landscape in Arabidopsis.

Author

Pass DA, Sornay E, Marchbank A, Crawford MR, Paszkiewicz K, Kent NA, and Murray JAH

Subjects
Chromatin Assembly and Disassembly, Chromosome Mapping, Micrococcal Nuclease genetics, Nucleosomes metabolism, Promoter Regions, Genetic, Transcription Factors genetics, Transcription Initiation Site, Arabidopsis genetics, Chromatin genetics, Genome, Plant, Nucleosomes genetics
Abstract

All eukaryotic genomes are packaged as chromatin, with DNA interlaced with both regularly patterned nucleosomes and sub-nucleosomal-sized protein structures such as mobile and labile transcription factors (TF) and initiation complexes, together forming a dynamic chromatin landscape. Whilst details of nucleosome position in Arabidopsis have been previously analysed, there is less understanding of their relationship to more dynamic sub-nucleosomal particles (subNSPs) defined as protected regions shorter than the ~150bp typical of nucleosomes. The genome-wide profile of these subNSPs has not been previously analysed in plants and this study investigates the relationship of dynamic bound particles with transcriptional control. Here we combine differential micrococcal nuclease (MNase) digestion and a modified paired-end sequencing protocol to reveal the chromatin structure landscape of Arabidopsis cells across a wide particle size range. Linking this data to RNAseq expression analysis provides detailed insight into the relationship of identified DNA-bound particles with transcriptional activity. The use of differential digestion reveals sensitive positions, including a labile -1 nucleosome positioned upstream of the transcription start site (TSS) of active genes. We investigated the response of the chromatin landscape to changes in environmental conditions using light and dark growth, given the large transcriptional changes resulting from this simple alteration. The resulting shifts in the suites of expressed and repressed genes show little correspondence to changes in nucleosome positioning, but led to significant alterations in the profile of subNSPs upstream of TSS both globally and locally. We examined previously mapped positions for the TFs PIF3, PIF4 and CCA1, which regulate light responses, and found that changes in subNSPs co-localized with these binding sites. This small particle structure is detected only under low levels of MNase digestion and is lost on more complete digestion of chromatin to nucleosomes. We conclude that wide-spectrum analysis of the Arabidopsis genome by differential MNase digestion allows detection of sensitive features hereto obscured, and the comparisons between genome-wide subNSP profiles reveals dynamic changes in their distribution, particularly at distinct genomic locations (i.e. 5'UTRs). The method here employed allows insight into the complex influence of genetic and extrinsic factors in modifying the sub-nucleosomal landscape in association with transcriptional changes.

Published
2017
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25. Molecular epidemiology of Pseudomonas aeruginosa in an unsegregated bronchiectasis cohort sharing hospital facilities with a cystic fibrosis cohort.

Author

Mitchelmore PJ, Randall J, Bull MJ, Moore KA, O'Neill PA, Paszkiewicz K, Mahenthiralingam E, Scotton CJ, Sheldon CD, Withers NJ, and Brown AR

Abstract

While Pseudomonas aeruginosa (PA) cross-infection is well documented among patients with cystic fibrosis (CF), the equivalent risk among patients with non-CF bronchiectasis (NCFB) is unclear, particularly those managed alongside patients with CF. We performed analysis of PA within a single centre that manages an unsegregated NCFB cohort alongside a segregated CF cohort. We found no evidence of cross-infection between the two cohorts or within the segregated CF cohort. However, within the unsegregated NCFB cohort, evidence of cross-infection was found between three (of 46) patients. While we do not presently advocate any change in the management of our NCFB cohort, longitudinal surveillance is clearly warranted., Competing Interests: Competing interests: EM declares a grant from AlgiPharma AS held as a service contract on a CF clinical trial (unrelated to this work)., (© Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2017. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published
2017
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26. Meiotic Genes in Colpodean Ciliates Support Secretive Sexuality.

Author

Dunthorn M, Zufall RA, Chi J, Paszkiewicz K, Moore K, and Mahé F

Subjects
Ciliophora cytology, Ciliophora physiology, Evolution, Molecular, Genetic Variation, Genome, Protozoan, Phylogeny, Protozoan Proteins metabolism, Reproduction, Ciliophora genetics, Meiosis, Protozoan Proteins genetics
Abstract

The putatively asexual Colpodean ciliates potentially pose a problem to macro-organismic theories of evolution. They are extremely ancient (although asexuality is thought to hasten extinction), and yet there is one apparently derived sexual species (implying an unlikely regain of a complex trait). If macro-organismic theories of evolution also broadly apply to microbial eukaryotes, though, then most or all of the colpodean ciliates should merely be secretively sexual. Here we show using de novo genome sequencing, that colpodean ciliates have the meiotic genes required for sex and these genes are under functional constraint. Along with these genomic data, we argue that these ciliates are sexual given the cytological observations of both micronuclei and macronuclei within their cells, and the behavioral observations of brief fusions as if the cells were mating. The challenge that colpodean ciliates pose is therefore not to evolutionary theory, but to our ability to induce microbial eukaryotic sex in the laboratory., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2017
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27. A Pelagic Microbiome (Viruses to Protists) from a Small Cup of Seawater.

Author

Flaviani F, Schroeder DC, Balestreri C, Schroeder JL, Moore K, Paszkiewicz K, Pfaff MC, and Rybicki EP

Subjects
Bacteria genetics, Eukaryota genetics, Viruses genetics, Bacteria classification, Eukaryota classification, Microbiota, Seawater microbiology, Viruses classification
Abstract

The aquatic microbiome is composed of a multi-phylotype community of microbes, ranging from the numerically dominant viruses to the phylogenetically diverse unicellular phytoplankton. They influence key biogeochemical processes and form the base of marine food webs, becoming food for secondary consumers. Due to recent advances in next-generation sequencing, this previously overlooked component of our hydrosphere is starting to reveal its true diversity and biological complexity. We report here that 250 mL of seawater is sufficient to provide a comprehensive description of the microbial diversity in an oceanic environment. We found that there was a dominance of the order Caudovirales (59%), with the family Myoviridae being the most prevalent. The families Phycodnaviridae and Mimiviridae made up the remainder of pelagic double-stranded DNA (dsDNA) virome. Consistent with this analysis, the Cyanobacteria dominate (52%) the prokaryotic diversity. While the dinoflagellates and their endosymbionts, the superphylum Alveolata dominates (92%) the microbial eukaryotic diversity. A total of 834 prokaryotic, 346 eukaryotic and 254 unique virus phylotypes were recorded in this relatively small sample of water. We also provide evidence, through a metagenomic-barcoding comparative analysis, that viruses are the likely source of microbial environmental DNA (meDNA). This study opens the door to a more integrated approach to oceanographic sampling and data analysis.

Published
2017
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28. A Noise Trimming and Positional Significance of Transposon Insertion System to Identify Essential Genes in Yersinia pestis.

Author

Yang ZR, Bullifent HL, Moore K, Paszkiewicz K, Saint RJ, Southern SJ, Champion OL, Senior NJ, Sarkar-Tyson M, Oyston PC, Atkins TP, and Titball RW

Subjects
Computational Biology, Gene Expression Regulation, Bacterial, Genome, Bacterial, Phenotype, Virulence, Bacterial Proteins genetics, Genes, Essential, High-Throughput Nucleotide Sequencing methods, Mutation, Plague microbiology, Yersinia pestis genetics, Yersinia pestis growth & development
Abstract

Massively parallel sequencing technology coupled with saturation mutagenesis has provided new and global insights into gene functions and roles. At a simplistic level, the frequency of mutations within genes can indicate the degree of essentiality. However, this approach neglects to take account of the positional significance of mutations - the function of a gene is less likely to be disrupted by a mutation close to the distal ends. Therefore, a systematic bioinformatics approach to improve the reliability of essential gene identification is desirable. We report here a parametric model which introduces a novel mutation feature together with a noise trimming approach to predict the biological significance of Tn5 mutations. We show improved performance of essential gene prediction in the bacterium Yersinia pestis, the causative agent of plague. This method would have broad applicability to other organisms and to the identification of genes which are essential for competitiveness or survival under a broad range of stresses., Competing Interests: The authors declare no competing financial interests.

Published
2017
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29. Transcriptional reprogramming underpins enhanced plant growth promotion by the biocontrol fungus Trichoderma hamatum GD12 during antagonistic interactions with Sclerotinia sclerotiorum in soil.

Author

Shaw S, Le Cocq K, Paszkiewicz K, Moore K, Winsbury R, de Torres Zabala M, Studholme DJ, Salmon D, Thornton CR, and Grant MR

Subjects
Cluster Analysis, Gene Expression Profiling, Gene Expression Regulation, Fungal, RNA, Messenger genetics, RNA, Messenger metabolism, Secondary Metabolism genetics, Sequence Analysis, RNA, Species Specificity, Time Factors, Up-Regulation genetics, Ascomycota physiology, Lactuca growth & development, Lactuca microbiology, Pest Control, Biological, Soil, Soil Microbiology, Transcription, Genetic, Trichoderma genetics
Abstract

The free-living soil fungus Trichoderma hamatum strain GD12 is notable amongst Trichoderma strains in both controlling plant diseases and stimulating plant growth, a property enhanced during its antagonistic interactions with pathogens in soil. These attributes, alongside its markedly expanded genome and proteome compared with other biocontrol and plant growth-promoting Trichoderma strains, imply a rich potential for sustainable alternatives to synthetic pesticides and fertilizers for the control of plant disease and for increasing yields. The purpose of this study was to investigate the transcriptional responses of GD12 underpinning its biocontrol and plant growth promotion capabilities during antagonistic interactions with the pathogen Sclerotinia sclerotiorum in soil. Using an extensive mRNA-seq study capturing different time points during the pathogen-antagonist interaction in soil, we show that dynamic and biphasic signatures in the GD12 transcriptome underpin its biocontrol and plant (lettuce) growth-promoting activities. Functional predictions of differentially expressed genes demonstrate the enrichment of transcripts encoding proteins involved in transportation and oxidation-reduction reactions during both processes and an over-representation of siderophores. We identify a biphasic response during biocontrol characterized by a significant induction of transcripts encoding small-secreted cysteine-rich proteins, secondary metabolite-producing gene clusters and genes unique to GD12. These data support the hypothesis that Sclerotinia biocontrol is mediated by the synthesis and secretion of antifungal compounds and that GD12's unique reservoir of uncharacterized genes is actively recruited during the effective biological control of a plurivorous plant pathogen., (© 2016 The Authors. Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)

Published
2016
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30. Anaerobic choline metabolism in microcompartments promotes growth and swarming of Proteus mirabilis.

Author

Jameson E, Fu T, Brown IR, Paszkiewicz K, Purdy KJ, Frank S, and Chen Y

Subjects
Anaerobiosis, Lyases genetics, Mutagenesis, Proteus mirabilis genetics, Proteus mirabilis growth & development, Proteus mirabilis ultrastructure, Choline metabolism, Proteus mirabilis metabolism
Abstract

Gammaproteobacteria are important gut microbes but only persist at low levels in the healthy gut. The ecology of Gammaproteobacteria in the gut environment is poorly understood. Here, we demonstrate that choline is an important growth substrate for representatives of Gammaproteobacteria. Using Proteus mirabilis as a model, we investigate the role of choline metabolism and demonstrate that the cutC gene, encoding a choline-trimethylamine lyase, is essential for choline degradation to trimethylamine by targeted mutagenesis of cutC and subsequent complementation experiments. Proteus mirabilis can rapidly utilize choline to enhance growth rate and cell yield in broth culture. Importantly, choline also enhances swarming-associated colony expansion of P. mirabilis under anaerobic conditions on a solid surface. Comparative transcriptomics demonstrated that choline not only induces choline-trimethylamine lyase but also genes encoding shell proteins for the formation of bacterial microcompartments. Subsequent analyses by transmission electron microscopy confirmed the presence of such novel microcompartments in cells cultivated in liquid broth and hyper-flagellated swarmer cells from solid medium. Together, our study reveals choline metabolism as an adaptation strategy for P. mirabilis and contributes to better understand the ecology of this bacterium in health and disease., (© 2015 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2016
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31. Increase in bacteraemia cases in the East Midlands region of the UK due to MDR Escherichia coli ST73: high levels of genomic and plasmid diversity in causative isolates.

Author

Alhashash F, Wang X, Paszkiewicz K, Diggle M, Zong Z, and McNally A

Subjects
Bacteremia microbiology, Computational Biology, Electrophoresis, Gel, Pulsed-Field, Epidemiologic Studies, Escherichia coli drug effects, Escherichia coli isolation & purification, Escherichia coli Infections microbiology, Genome, Bacterial, High-Throughput Nucleotide Sequencing, Humans, Incidence, Molecular Typing, Plasmids analysis, Sequence Analysis, DNA, United Kingdom epidemiology, Bacteremia epidemiology, Drug Resistance, Multiple, Bacterial, Escherichia coli classification, Escherichia coli genetics, Escherichia coli Infections epidemiology, Genetic Variation
Abstract

Objectives: The objective of this study was to determine the population structure of Escherichia coli ST73 isolated from human bacteraemia and urinary tract infections., Methods: The genomes of 22 E. coli ST73 isolates were sequenced using the Illumina HiSeq platform. High-resolution SNP typing was used to create a phylogenetic tree. Comparative genomics were also performed using a pangenome approach. In silico and S1-PFGE plasmid profiling was conducted, and isolates were checked for their ability to survive exposure to human serum., Results: E. coli ST73 isolates circulating in clinically unrelated episodes show a high degree of diversity at a whole-genome level, but exhibit conservation in gene content, particularly in virulence-associated gene carriage. The isolates also contain a highly diverse plasmid pool that confers MDR via carriage of CTX-M genes., Conclusions: Our data show that a rise in incidence of MDR E. coli ST73 clinical isolates is not due to a circulating outbreak strain as in E. coli ST131. Rather the ST73 circulating strains are distantly related and carry a diverse set of resistance plasmids. This suggests that the evolutionary events behind emergence of drug-resistant E. coli differ between lineages., (© The Author 2015. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published
2016
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32. Abo1, a conserved bromodomain AAA-ATPase, maintains global nucleosome occupancy and organisation.

Author

Gal C, Murton HE, Subramanian L, Whale AJ, Moore KM, Paszkiewicz K, Codlin S, Bähler J, Creamer KM, Partridge JF, Allshire RC, Kent NA, and Whitehall SK

Subjects
Adenosine Triphosphatases chemistry, Adenosine Triphosphatases genetics, Chromatin Assembly and Disassembly, Chromosomal Proteins, Non-Histone metabolism, Chromosome Segregation, DNA, Intergenic, Gene Silencing, Histone Chaperones genetics, Histone Chaperones metabolism, Histones genetics, Histones metabolism, Nucleosomes genetics, Promoter Regions, Genetic, RNA Polymerase II genetics, Schizosaccharomyces pombe Proteins chemistry, Schizosaccharomyces pombe Proteins genetics, Transcription Factors metabolism, Transcription, Genetic, Adenosine Triphosphatases metabolism, Chromatin genetics, Chromatin metabolism, Nucleosomes metabolism, Schizosaccharomyces genetics, Schizosaccharomyces metabolism, Schizosaccharomyces pombe Proteins metabolism
Abstract

Maintenance of the correct level and organisation of nucleosomes is crucial for genome function. Here, we uncover a role for a conserved bromodomain AAA-ATPase, Abo1, in the maintenance of nucleosome architecture in fission yeast. Cells lacking abo1(+) experience both a reduction and mis-positioning of nucleosomes at transcribed sequences in addition to increased intragenic transcription, phenotypes that are hallmarks of defective chromatin re-establishment behind RNA polymerase II. Abo1 is recruited to gene sequences and associates with histone H3 and the histone chaperone FACT. Furthermore, the distribution of Abo1 on chromatin is disturbed by impaired FACT function. The role of Abo1 extends to some promoters and also to silent heterochromatin. Abo1 is recruited to pericentromeric heterochromatin independently of the HP1 ortholog, Swi6, where it enforces proper nucleosome occupancy. Consequently, loss of Abo1 alleviates silencing and causes elevated chromosome mis-segregation. We suggest that Abo1 provides a histone chaperone function that maintains nucleosome architecture genome-wide., (© 2015 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2016
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33. The molecular characterisation of Escherichia coli K1 isolated from neonatal nasogastric feeding tubes.

Author

Alkeskas A, Ogrodzki P, Saad M, Masood N, Rhoma NR, Moore K, Farbos A, Paszkiewicz K, and Forsythe S

Subjects
Animals, Anti-Bacterial Agents pharmacology, Caco-2 Cells, Cell Line, Electrophoresis, Gel, Pulsed-Field, Escherichia coli drug effects, Escherichia coli isolation & purification, Escherichia coli Infections microbiology, Escherichia coli Proteins genetics, Genotype, Humans, Intubation, Gastrointestinal, Meningitis microbiology, Multilocus Sequence Typing, Phylogeny, Rats, Serotyping, Virulence Factors genetics, DNA, Bacterial analysis, Escherichia coli genetics, Escherichia coli Infections diagnosis, Meningitis diagnosis
Abstract

Background: The most common cause of Gram-negative bacterial neonatal meningitis is E. coli K1. It has a mortality rate of 10-15 %, and neurological sequelae in 30-50 % of cases. Infections can be attributable to nosocomial sources, however the pre-colonisation of enteral feeding tubes has not been considered as a specific risk factor., Methods: Thirty E. coli strains, which had been isolated in an earlier study, from the residual lumen liquid and biofilms of neonatal nasogastric feeding tubes were genotyped using pulsed-field gel electrophoresis, and 7-loci multilocus sequence typing. Potential pathogenicity and biofilm associated traits were determined using specific PCR probes, genome analysis, and in vitro tissue culture assays., Results: The E. coli strains clustered into five pulsotypes, which were genotyped as sequence types (ST) 95, 73, 127, 394 and 2076 (Achman scheme). The extra-intestinal pathogenic E. coli (ExPEC) phylogenetic group B2 ST95 serotype O1:K1:NM strains had been isolated over a 2 week period from 11 neonates who were on different feeding regimes. The E. coli K1 ST95 strains encoded for various virulence traits associated with neonatal meningitis and extracellular matrix formation. These strains attached and invaded intestinal, and both human and rat brain cell lines, and persisted for 48 h in U937 macrophages. E. coli STs 73, 394 and 2076 also persisted in macrophages and invaded Caco-2 and human brain cells, but only ST394 invaded rat brain cells. E. coli ST127 was notable as it did not invade any cell lines., Conclusions: Routes by which E. coli K1 can be disseminated within a neonatal intensive care unit are uncertain, however the colonisation of neonatal enteral feeding tubes may be one reservoir source which could constitute a serious health risk to neonates following ingestion.

Published
2015
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34. Genomic dissection of the 1994 Cronobacter sakazakii outbreak in a French neonatal intensive care unit.

Author

Masood N, Moore K, Farbos A, Paszkiewicz K, Dickins B, McNally A, and Forsythe S

Subjects
Cronobacter sakazakii classification, Enterobacteriaceae Infections history, France epidemiology, Genome, Bacterial, Genotype, High-Throughput Nucleotide Sequencing, History, 20th Century, Humans, Infant, Infant, Newborn, Phylogeny, Polymorphism, Single Nucleotide, Cronobacter sakazakii genetics, Cross Infection, Disease Outbreaks, Enterobacteriaceae Infections epidemiology, Enterobacteriaceae Infections microbiology, Intensive Care Units, Neonatal
Abstract

Background: Cronobacter sakazakii is a member of the genus Cronobacter that has frequently been isolated from powdered infant formula (PIF) and linked with rare but fatal neonatal infections such as meningitis and necrotising enterocolitis. The Cronobacter MLST scheme has reported over 400 sequence types and 42 clonal complexes; however C. sakazakii clonal complex 4 (CC4) has been linked strongly with neonatal infections, especially meningitis. There have been a number of reported Cronobacter outbreaks over the last three decades. The largest outbreak of C. sakazakii was in a neonatal intensive care unit (NICU) in France (1994) that lasted over 3 months and claimed the lives of three neonates. The present study used whole genome sequencing data of 26 isolates obtained from this outbreak to reveal their relatedness. This study is first of its kind to use whole genome sequencing data to analyse a Cronobacter outbreak., Methods: Whole genome sequencing data was generated for 26 C. sakazakii isolates on the Illumina MiSeq platform. The whole genome phylogeny was determined using Mugsy and RaxML. SNP calls were determined using SMALT and SAMtools, and filtered using VCFtools., Results: The whole genome phylogeny suggested 3 distant clusters of C. sakazakii isolates were associated with the outbreak. SNP typing and phylogeny indicate the source of the C. sakazakii could have been from extrinsic contamination of reconstituted infant formula from the NICU environment and personnel. This pool of strains would have contributed to the prolonged duration of the outbreak, which was up to 3 months. Furthermore 3 neonates were co-infected with C. sakazakii from two different genotype clusters., Conclusion: The genomic investigation revealed the outbreak consisted of an heterogeneous population of C. sakazakii isolates. The source of the outbreak was not identified, but probably was due to environmental and personnel reservoirs resulting in extrinsic contamination of the neonatal feeds. It also indicated that C. sakazakii isolates from different genotype clusters have the ability to co-infect neonates.

Published
2015
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35. Gene Loss and Lineage-Specific Restriction-Modification Systems Associated with Niche Differentiation in the Campylobacter jejuni Sequence Type 403 Clonal Complex.

Author

Morley L, McNally A, Paszkiewicz K, Corander J, Méric G, Sheppard SK, Blom J, and Manning G

Subjects
Animals, Campylobacter Infections microbiology, Campylobacter jejuni classification, Campylobacter jejuni isolation & purification, Codon, Nonsense, Evolution, Molecular, Multilocus Sequence Typing, Poultry microbiology, Campylobacter Infections veterinary, Campylobacter jejuni enzymology, Campylobacter jejuni genetics, DNA Restriction-Modification Enzymes, Gene Deletion, Recombination, Genetic
Abstract

Campylobacter jejuni is a highly diverse species of bacteria commonly associated with infectious intestinal disease of humans and zoonotic carriage in poultry, cattle, pigs, and other animals. The species contains a large number of distinct clonal complexes that vary from host generalist lineages commonly found in poultry, livestock, and human disease cases to host-adapted specialized lineages primarily associated with livestock or poultry. Here, we present novel data on the ST403 clonal complex of C. jejuni, a lineage that has not been reported in avian hosts. Our data show that the lineage exhibits a distinctive pattern of intralineage recombination that is accompanied by the presence of lineage-specific restriction-modification systems. Furthermore, we show that the ST403 complex has undergone gene decay at a number of loci. Our data provide a putative link between the lack of association with avian hosts of C. jejuni ST403 and both gene gain and gene loss through nonsense mutations in coding sequences of genes, resulting in pseudogene formation., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published
2015
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36. The cost of phage resistance in a plant pathogenic bacterium is context-dependent.

Author

Meaden S, Paszkiewicz K, and Koskella B

Subjects
Bacteriophages genetics, Solanum lycopersicum microbiology, Pseudomonas syringae pathogenicity, Pseudomonas syringae virology, Virulence genetics, Bacteriophages pathogenicity, Evolution, Molecular, Mutation, Pseudomonas syringae genetics, Selection, Genetic
Abstract

Parasites are ubiquitous features of living systems and many parasites severely reduce the fecundity or longevity of their hosts. This parasite-imposed selection on host populations should strongly favor the evolution of host resistance, but hosts typically face a trade-off between investment in reproductive fitness and investment in defense against parasites. The magnitude of such a trade-off is likely to be context-dependent, and accordingly costs that are key in shaping evolution in nature may not be easily observable in an artificial environment. We set out to assess the costs of phage resistance for a plant pathogenic bacterium in its natural plant host versus in a nutrient-rich, artificial medium. We demonstrate that mutants of Pseudomonas syringae that have evolved resistance via a single mutational step pay a substantial cost for this resistance when grown on their tomato plant hosts, but do not realize any measurable growth rate costs in nutrient-rich media. This work demonstrates that resistance to phage can significantly alter bacterial growth within plant hosts, and therefore that phage-mediated selection in nature is likely to be an important component of bacterial pathogenicity., (© 2015 The Author(s). Evolution published by Wiley Periodicals, Inc. on behalf of The Society for the Study of Evolution.)

Published
2015
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37. Recombination is a key driver of genomic and phenotypic diversity in a Pseudomonas aeruginosa population during cystic fibrosis infection.

Author

Darch SE, McNally A, Harrison F, Corander J, Barr HL, Paszkiewicz K, Holden S, Fogarty A, Crusz SA, and Diggle SP

Subjects
Anti-Bacterial Agents pharmacology, Drug Resistance, Microbial drug effects, Drug Resistance, Microbial genetics, Evolution, Molecular, Female, Genotype, Genotyping Techniques, Humans, Microbial Sensitivity Tests, Mutation genetics, Phenotype, Phylogeny, Polymorphism, Single Nucleotide genetics, Pseudomonas aeruginosa growth & development, Pseudomonas aeruginosa isolation & purification, Quorum Sensing drug effects, Sequence Alignment, Sputum microbiology, Young Adult, Cystic Fibrosis microbiology, Genetic Variation, Genome, Bacterial, Pseudomonas Infections microbiology, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa physiology, Recombination, Genetic drug effects
Abstract

The Cystic Fibrosis (CF) lung harbors a complex, polymicrobial ecosystem, in which Pseudomonas aeruginosa is capable of sustaining chronic infections, which are highly resistant to multiple antibiotics. Here, we investigate the phenotypic and genotypic diversity of 44 morphologically identical P. aeruginosa isolates taken from a single CF patient sputum sample. Comprehensive phenotypic analysis of isolates revealed large variances and trade-offs in growth, virulence factors and quorum sensing (QS) signals. Whole genome analysis of 22 isolates revealed high levels of intra-isolate diversity ranging from 5 to 64 SNPs and that recombination and not spontaneous mutation was the dominant driver of diversity in this population. Furthermore, phenotypic differences between isolates were not linked to mutations in known genes but were statistically associated with distinct recombination events. We also assessed antibiotic susceptibility of all isolates. Resistance to antibiotics significantly increased when multiple isolates were mixed together. Our results highlight the significant role of recombination in generating phenotypic and genetic diversification during in vivo chronic CF infection. We also discuss (i) how these findings could influence how patient-to-patient transmission studies are performed using whole genome sequencing, and (ii) the need to refine antibiotic susceptibility testing in sputum samples taken from patients with CF.

Published
2015
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38. Seed production temperature regulation of primary dormancy occurs through control of seed coat phenylpropanoid metabolism.

Author

MacGregor DR, Kendall SL, Florance H, Fedi F, Moore K, Paszkiewicz K, Smirnoff N, and Penfield S

Subjects
Arabidopsis metabolism, Arabidopsis Proteins, Flavonoids metabolism, Gene Expression Profiling, Gene Expression Regulation, Plant, Germination, Seeds metabolism, Temperature, Arabidopsis physiology, Plant Dormancy, Seeds growth & development
Abstract

Environmental changes during seed production are important drivers of lot-to-lot variation in seed behaviour and enable wild species to time their life history with seasonal cues. Temperature during seed set is the dominant environmental signal determining the depth of primary dormancy, although the mechanisms though which temperature changes impart changes in dormancy state are still only partly understood. We used molecular, genetic and biochemical techniques to examine the mechanism through which temperature variation affects Arabidopsis thaliana seed dormancy. Here we show that, in Arabidopsis, low temperatures during seed maturation result in an increase in phenylpropanoid gene expression in seeds and that this correlates with higher concentrations of seed coat procyanidins. Lower maturation temperatures cause differences in coat permeability to tetrazolium, and mutants with increased seed coat permeability and/or low procyanidin concentrations are less able to enter strongly dormant states after exposure to low temperatures during seed maturation. Our data show that maternal temperature signalling regulates seed coat properties, and this is an important pathway through which the environmental signals control primary dormancy depth., (© 2014 The Authors New Phytologist © 2014 New Phytologist Trust.)

Published
2015
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39. The impact of the HIRA histone chaperone upon global nucleosome architecture.

Author

Gal C, Moore KM, Paszkiewicz K, Kent NA, and Whitehall SK

Subjects
Chromatin metabolism, Chromatin Assembly and Disassembly, Histones metabolism, Promoter Regions, Genetic, RNA Polymerase II genetics, RNA Polymerase II metabolism, Schizosaccharomyces metabolism, Schizosaccharomyces pombe Proteins genetics, Transcription Factors genetics, Nucleosomes metabolism, Schizosaccharomyces pombe Proteins metabolism, Transcription Factors metabolism
Abstract

HIRA is an evolutionarily conserved histone chaperone that mediates replication-independent nucleosome assembly and is important for a variety of processes such as cell cycle progression, development, and senescence. Here we have used a chromatin sequencing approach to determine the genome-wide contribution of HIRA to nucleosome organization in Schizosaccharomyces pombe. Cells lacking HIRA experience a global reduction in nucleosome occupancy at gene sequences, consistent with the proposed role for HIRA in chromatin reassembly behind elongating RNA polymerase II. In addition, we find that at its target promoters, HIRA commonly maintains the full occupancy of the -1 nucleosome. HIRA does not affect global chromatin structure at replication origins or in rDNA repeats but is required for nucleosome occupancy in silent regions of the genome. Nucleosome organization associated with the heterochromatic (dg-dh) repeats located at the centromere is perturbed by loss of HIRA function and furthermore HIRA is required for normal nucleosome occupancy at Tf2 LTR retrotransposons. Overall, our data indicate that HIRA plays an important role in maintaining nucleosome architecture at both euchromatic and heterochromatic loci.

Published
2015
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40. Maternal temperature history activates Flowering Locus T in fruits to control progeny dormancy according to time of year.

Author

Chen M, MacGregor DR, Dave A, Florance H, Moore K, Paszkiewicz K, Smirnoff N, Graham IA, and Penfield S

Subjects
Florigen metabolism, Phloem genetics, Phloem metabolism, Proanthocyanidins biosynthesis, Proanthocyanidins genetics, Seeds genetics, Arabidopsis physiology, Genetic Loci physiology, Plant Dormancy physiology, Seeds metabolism, Signal Transduction physiology, Temperature
Abstract

Seasonal behavior is important for fitness in temperate environments but it is unclear how progeny gain their initial seasonal entrainment. Plants use temperature signals to measure time of year, and changes to life histories are therefore an important consequence of climate change. Here we show that in Arabidopsis the current and prior temperature experience of the mother plant is used to control germination of progeny seeds, via the activation of the florigen Flowering Locus T (FT) in fruit tissues. We demonstrate that maternal past and current temperature experience are transduced to the FT locus in silique phloem. In turn, FT controls seed dormancy through inhibition of proanthocyanidin synthesis in fruits, resulting in altered seed coat tannin content. Our data reveal that maternal temperature history is integrated through FT in the fruit to generate a metabolic signal that entrains the behavior of progeny seeds according to time of year.

Published
2014
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42. Draft Genome Sequence of Stenotrophomonas maltophilia SeITE02, a Gammaproteobacterium Isolated from Selenite-Contaminated Mining Soil.

Author

Bertolini C, van Aerle R, Lampis S, Moore KA, Paszkiewicz K, Butler CS, Vallini G, and van der Giezen M

Abstract

Stenotrophomonas maltophilia strain SeITE02 was isolated from the rhizosphere of the selenium-hyperaccumulating legume Astragalus bisculcatus. In this report, we provide the 4.56-Mb draft genome sequence of S. maltophilia SeITE02, a gammaproteobacterium that can withstand high concentrations of selenite and reduce these to elemental selenium.

Published
2014
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43. Characterizing DNA preservation in degraded specimens of Amara alpina (Carabidae: Coleoptera).

Author

Heintzman PD, Elias SA, Moore K, Paszkiewicz K, and Barnes I

Subjects
Animals, Coleoptera classification, DNA Contamination, DNA, Mitochondrial genetics, Molecular Sequence Data, Museums, Phylogeny, Preservation, Biological, Sequence Analysis, DNA, Coleoptera genetics, DNA genetics
Abstract

DNA preserved in degraded beetle (Coleoptera) specimens, including those derived from dry-stored museum and ancient permafrost-preserved environments, could provide a valuable resource for researchers interested in species and population histories over timescales from decades to millenia. However, the potential of these samples as genetic resources is currently unassessed. Here, using Sanger and Illumina shotgun sequence data, we explored DNA preservation in specimens of the ground beetle Amara alpina, from both museum and ancient environments. Nearly all museum specimens had amplifiable DNA, with the maximum amplifiable fragment length decreasing with age. Amplification of DNA was only possible in 45% of ancient specimens. Preserved mitochondrial DNA fragments were significantly longer than those of nuclear DNA in both museum and ancient specimens. Metagenomic characterization of extracted DNA demonstrated that parasite-derived sequences, including Wolbachia and Spiroplasma, are recoverable from museum beetle specimens. Ancient DNA extracts contained beetle DNA in amounts comparable to museum specimens. Overall, our data demonstrate that there is great potential for both museum and ancient specimens of beetles in future genetic studies, and we see no reason why this would not be the case for other orders of insect., (© 2013 John Wiley & Sons Ltd.)

Published
2014
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44. Genome Sequencing of Xanthomonas vasicola Pathovar vasculorum Reveals Variation in Plasmids and Genes Encoding Lipopolysaccharide Synthesis, Type-IV Pilus and Type-III Secretion Effectors.

Author

Wasukira A, Coulter M, Al-Sowayeh N, Thwaites R, Paszkiewicz K, Kubiriba J, Smith J, Grant M, and Studholme DJ

Abstract

Xanthomonas vasicola pathovar vasculorum (Xvv) is the bacterial agent causing gumming disease in sugarcane. Here, we compare complete genome sequences for five isolates of Xvv originating from sugarcane and one from maize. This identified two distinct types of lipopolysaccharide synthesis gene clusters among Xvv isolates: one is similar to that of Xanthomonas axonopodis pathovar citri (Xac) and is probably the ancestral type, while the other is similar to those of the sugarcane-inhabiting species, Xanthomonas sacchari. Four of six Xvv isolates harboured sequences similar to the Xac plasmid, pXAC47, and showed a distinct Type-IV pilus (T4P) sequence type, whereas the T4P locus of the other two isolates resembled that of the closely related banana pathogen, Xanthomonas campestris pathovar musacearum (Xcm). The Xvv isolate from maize has lost a gene encoding a homologue of the virulence effector, xopAF, which was present in all five of the sugarcane isolates, while xopL contained a premature stop codon in four out of six isolates. These findings shed new light on evolutionary events since the divergence of Xvv and Xcm, as well as further elucidating the relationships between the two closely related pathogens.

Published
2014
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45. Draft Genome Sequence of a Meningitic Isolate of Cronobacter sakazakii Clonal Complex 4, Strain 8399.

Author

Masood N, Moore K, Farbos A, Hariri S, Block C, Paszkiewicz K, Dickins B, McNally A, and Forsythe S

Abstract

The Cronobacter sakazakii clonal lineage defined as clonal complex 4 (CC4), composed of nine sequence types, is associated with severe cases of neonatal meningitis. To date, only closely related C. sakazakii sequence type 4 (ST4) strains have been sequenced. C. sakazakii strain 8399, isolated from a case of neonatal meningitis, was sequenced as the first non-ST4 C. sakazakii strain.

Published
2013
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46. Draft Genome Sequence of the Earliest Cronobacter sakazakii Sequence Type 4 Strain, NCIMB 8272.

Author

Masood N, Moore K, Farbos A, Hariri S, Paszkiewicz K, Dickins B, McNally A, and Forsythe S

Abstract

The Cronobacter sakazakii clonal lineage defined as sequence type 4 (ST4) is associated with severe cases of neonatal meningitis and persistence in powdered infant formula. For genome sequencing of the earliest deposited culture collection strain of Cronobacter sakazakii ST4, we used the strain NCIMB 8272, originally isolated from milk powder in 1950.

Published
2013
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47. Draft Genome Sequences of Three Newly Identified Species in the Genus Cronobacter, C. helveticus LMG23732T, C. pulveris LMG24059, and C. zurichensis LMG23730T.

Author

Masood N, Moore K, Farbos A, Hariri S, Paszkiewicz K, Dickins B, McNally A, and Forsythe S

Abstract

Cronobacter helveticus, Cronobacter pulveris, and Cronobacter zurichensis are newly described species in the Cronobacter genus, which is associated with serious infections of neonates. This is the first report of draft genome sequences for these species.

Published
2013
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48. Galaxy tools and workflows for sequence analysis with applications in molecular plant pathology.

Author

Cock PJ, Grüning BA, Paszkiewicz K, and Pritchard L

Abstract

The Galaxy Project offers the popular web browser-based platform Galaxy for running bioinformatics tools and constructing simple workflows. Here, we present a broad collection of additional Galaxy tools for large scale analysis of gene and protein sequences. The motivating research theme is the identification of specific genes of interest in a range of non-model organisms, and our central example is the identification and prediction of "effector" proteins produced by plant pathogens in order to manipulate their host plant. This functional annotation of a pathogen's predicted capacity for virulence is a key step in translating sequence data into potential applications in plant pathology. This collection includes novel tools, and widely-used third-party tools such as NCBI BLAST+ wrapped for use within Galaxy. Individual bioinformatics software tools are typically available separately as standalone packages, or in online browser-based form. The Galaxy framework enables the user to combine these and other tools to automate organism scale analyses as workflows, without demanding familiarity with command line tools and scripting. Workflows created using Galaxy can be saved and are reusable, so may be distributed within and between research groups, facilitating the construction of a set of standardised, reusable bioinformatic protocols. The Galaxy tools and workflows described in this manuscript are open source and freely available from the Galaxy Tool Shed (http://usegalaxy.org/toolshed or http://toolshed.g2.bx.psu.edu).

Published
2013
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49. An alternative beads-on-a-string chromatin architecture in Thermococcus kodakarensis.

Author

Maruyama H, Harwood JC, Moore KM, Paszkiewicz K, Durley SC, Fukushima H, Atomi H, Takeyasu K, and Kent NA

Subjects
Archaeal Proteins genetics, Archaeal Proteins metabolism, DNA, Archaeal genetics, DNA, Archaeal metabolism, Histones genetics, Histones metabolism, Nucleic Acid Conformation, Nucleosomes genetics, Nucleosomes metabolism, Protein Folding, Protein Multimerization, Thermococcus metabolism, Archaeal Proteins chemistry, DNA, Archaeal chemistry, Genome, Archaeal, Histones chemistry, Nucleosomes chemistry, Thermococcus genetics
Abstract

We have applied chromatin sequencing technology to the euryarchaeon Thermococcus kodakarensis, which is known to possess histone-like proteins. We detect positioned chromatin particles of variable sizes associated with lengths of DNA differing as multiples of 30 bp (ranging from 30 bp to >450 bp) consistent with formation from dynamic polymers of the archaeal histone dimer. T. kodakarensis chromatin particles have distinctive underlying DNA sequence suggesting a genomic particle-positioning code and are excluded from gene-regulatory DNA suggesting a functional organization. Beads-on-a-string chromatin is therefore conserved between eukaryotes and archaea but can derive from deployment of histone-fold proteins in a variety of multimeric forms.

Published
2013
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50. Molecular mechanisms of toxicity of silver nanoparticles in zebrafish embryos.

Author

van Aerle R, Lange A, Moorhouse A, Paszkiewicz K, Ball K, Johnston BD, de-Bastos E, Booth T, Tyler CR, and Santos EM

Subjects
Animals, Metal Nanoparticles toxicity, Silver chemistry, Zebrafish embryology
Abstract

Silver nanoparticles cause toxicity in exposed organisms and are an environmental health concern. The mechanisms of silver nanoparticle toxicity, however, remain unclear. We examined the effects of exposure to silver in nano-, bulk-, and ionic forms on zebrafish embryos (Danio rerio) using a Next Generation Sequencing approach in an Illumina platform (High-Throughput SuperSAGE). Significant alterations in gene expression were found for all treatments and many of the gene pathways affected, most notably those associated with oxidative phosphorylation and protein synthesis, overlapped strongly between the three treatments indicating similar mechanisms of toxicity for the three forms of silver studied. Changes in oxidative phosphorylation indicated a down-regulation of this pathway at 24 h of exposure, but with a recovery at 48 h. This finding was consistent with a dose-dependent decrease in oxygen consumption at 24 h, but not at 48 h, following exposure to silver ions. Overall, our data provide support for the hypothesis that the toxicity caused by silver nanoparticles is principally associated with bioavailable silver ions in exposed zebrafish embryos. These findings are important in the evaluation of the risk that silver particles may pose to exposed vertebrate organisms.

Published
2013
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