0000000000008055

AUTHOR

Julian Parkhill

0000-0002-7069-5958

showing 7 related works from this author

Salmonella bongori Provides Insights into the Evolution of the Salmonellae

2011

The genus Salmonella contains two species, S. bongori and S. enterica. Compared to the well-studied S. enterica there is a marked lack of information regarding the genetic makeup and diversity of S. bongori. S. bongori has been found predominantly associated with cold-blooded animals, but it can infect humans. To define the phylogeny of this species, and compare it to S. enterica, we have sequenced 28 isolates representing most of the known diversity of S. bongori. This cross-species analysis allowed us to confidently differentiate ancestral functions from those acquired following speciation, which include both metabolic and virulence-associated capacities. We show that, although S. bongori…

Salmonellamedicine.disease_causeSettore MED/42 - Igiene Generale E ApplicataTranslocation GeneticEnteropathogenic Escherichia coli1108 Medical MicrobiologySalmonellaCOMPLETE GENOME SEQUENCEIII SECRETION SYSTEMBiology (General)PATHOGENICITY ISLAND 2PhylogenyGenetics0303 health sciencesbiologyVirulenceEffectorPARASITOLOGYENTERICA SEROVAR TYPHIMURIUMSalmonella entericaGenomicsSalmonella bongori evolutionary genomicsBiological EvolutionUREIDOGLYCOLLATE LYASEInfectious DiseasesSalmonella enterica1107 ImmunologyQR180MedicineKLEBSIELLA-PNEUMONIAELife Sciences & BiomedicineResearch Article0605 MicrobiologySalmonella bongoriMICROBIOLOGYESCHERICHIA-COLI K-12Genomic IslandsQH301-705.5Sequence analysisVirulence FactorsImmunologyVirulenceVIROLOGYENCODED EFFECTORsalmonella; salmonella bongori; evoluzione geneticaMicrobiologyQH30103 medical and health sciencesVirologyGeneticsmedicineMICROARRAY ANALYSISAnimalsHumansEnteropathogenic Escherichia coliBiologyMolecular BiologyGene030304 developmental biologyEvolutionary BiologyScience & Technology030306 microbiologyANTIBIOTIC-RESISTANCESequence Analysis DNARC581-607biology.organism_classificationGenes BacterialImmunologic diseases. Allergy
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Mycobacterium tuberculosiscomplex lineage 5 exhibits high levels of within-lineage genomic diversity and differing gene content compared to the type …

2020

AbstractPathogens of theMycobacterium tuberculosiscomplex (MTBC) are considered monomorphic, with little gene content variation between strains. Nevertheless, several genotypic and phenotypic factors separate the different MTBC lineages (L), especially L5 and L6 (traditionally termedMycobacterium africanum), from each other. However, genome variability and gene content especially of L5 and L6 strains have not been fully explored and may be potentially important for pathobiology and current approaches for genomic analysis of MTBC isolates, including transmission studies.We compared the genomes of 358 L5 clinical isolates (including 3 completed genomes and 355 Illumina WGS (whole genome seque…

Genetics0303 health sciencesLineage (genetic)030306 microbiologySequence assemblySingle-nucleotide polymorphismBiologybiology.organism_classificationGenome3. Good health03 medical and health sciencesMycobacterium tuberculosis complexGeneMycobacterium africanum030304 developmental biologyReference genome
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Phylogenomics of Mycobacterium africanum reveals a new lineage and a complex evolutionary history.

2021

Coscolla et al.

0301 basic medicineEvolutionmycobacteriaLineage (evolution)030106 microbiologyPopulation610 Medicine & healthSystems Microbiology: Large-scale comparative genomicsGenomediversityMycobacterium tuberculosisEvolution Molecular03 medical and health sciences360 Social problems & social servicesPhylogenomicsevolutionDrug Resistance BacterialHumansTuberculosiseducationgenomePhylogeny030304 developmental biology0303 health scienceseducation.field_of_studyGenetic diversityDiversityGenomeMycobacterium africanumbiologyWhole Genome Sequencing030306 microbiologyMycobacteriaHigh-Throughput Nucleotide SequencingGeneral MedicineMycobacterium tuberculosisAfrica Easternbiology.organism_classification3. Good healthPhylogeographyAfrica WesternPhylogeography030104 developmental biologyMycobacterium tuberculosis complexEvolutionary biologyMycobacterium africanumGenome BacterialResearch Article
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Comparative genomics and proteomics of Helicobacter mustelae, an ulcerogenic and carcinogenic gastric pathogen

2010

Abstract Background Helicobacter mustelae causes gastritis, ulcers and gastric cancer in ferrets and other mustelids. H. mustelae remains the only helicobacter other than H. pylori that causes gastric ulceration and cancer in its natural host. To improve understanding of H. mustelae pathogenesis, and the ulcerogenic and carcinogenic potential of helicobacters in general, we sequenced the H. mustelae genome, and identified 425 expressed proteins in the envelope and cytosolic proteome. Results The H. mustelae genome lacks orthologs of major H. pylori virulence factors including CagA, VacA, BabA, SabA and OipA. However, it encodes ten autotransporter surface proteins, seven of which were detec…

DNA BacterialProteomicslcsh:QH426-470Proteomelcsh:BiotechnologyMolecular Sequence DataVirulenceCarcinogenicHelicobacter mustelaeProteomicsFN555004MicrobiologyUlcerogenic03 medical and health sciencesBacterial ProteinsHelicobacterlcsh:TP248.13-248.65medicineGeneticsCagAHelicobacterAmino Acid SequencePhylogeny030304 developmental biology0303 health sciencesComparative Genomic HybridizationbiologyHelicobacter pyloriVirulence030306 microbiologyCancerGene Expression Regulation BacterialGenomicsSequence Analysis DNAHelicobacter pylorimedicine.diseasebiology.organism_classificationdigestive system diseases3. Good healthlcsh:GeneticsProteomeGastritismedicine.symptomSequence AlignmentH. pyloriGenome BacterialBiotechnologyResearch ArticleBMC Genomics
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Molecular epidemiology and whole genome sequencing analysis of clinical Mycobacterium bovis from Ghana

2019

[Background]: Bovine tuberculosis (bTB) caused by Mycobacterium bovis is a re-emerging problem in both livestock and humans. The association of some M. bovis strains with hyper-virulence, MDR-TB and disseminated disease makes it imperative to understand the biology of the pathogen.

MaleBacterial Diseases0301 basic medicineBovine Tuberculosis in HumansHIV InfectionsComorbidityDrug resistanceGhanaBiochemistryMycobacterium BovisGeographical LocationsZoonosesMedicine and Health SciencesDisseminated diseaseBovine TuberculosisChildPathogenPhylogenyMolecular Epidemiology0303 health sciencesMycobacterium bovisMultidisciplinaryTransmission (medicine)QRAgricultureMiddle AgedLipids3. Good healthActinobacteriaInfectious DiseasesMedicineFemaleResearch ArticleAdultDNA BacterialLivestockTuberculosisAdolescentScience030106 microbiologyBiologyMycobacterium tuberculosisYoung Adult03 medical and health sciencesDrug Resistance BacterialmedicineAnimalsHumansTuberculosisTuberculosis PulmonaryAged030304 developmental biologyWhole genome sequencingWhole Genome SequencingBacteriaMolecular epidemiology030306 microbiologyOrganismsBiology and Life SciencesTropical DiseasesLipid MetabolismrpoBmedicine.diseasebiology.organism_classificationVirologyMetabolism030104 developmental biologyMutationPeople and PlacesAfricaCattleTuberculosis BovineMycobacterium Tuberculosis
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Sequencing ancient calcified dental plaque shows changes in oral microbiota with dietary shifts of the Neolithic and Industrial revolutions

2013

The importance of commensal microbes for human health is increasingly recognized, yet the impacts of evolutionary changes in human diet and culture on commensal microbiota remain almost unknown. Two of the greatest dietary shifts in human evolution involved the adoption of carbohydrate-rich Neolithic (farming) diets (beginning ∼10,000 years before the present) and the more recent advent of industrially processed flour and sugar (in ∼1850). Here, we show that calcified dental plaque (dental calculus) on ancient teeth preserves a detailed genetic record throughout this period. Data from 34 early European skeletons indicate that the transition from hunter-gatherer to farming shifted the oral m…

Dental PlaqueBiologyDental plaqueArticleCariogenic bacteriaOral MicrobiotaHuman healthGeneticsmedicineHumansIndustrybusiness.industryEcologyCalculus (dental)Mouth MucosaHigh-Throughput Nucleotide Sequencingmedicine.diseaseBiological EvolutionDietstomatognathic diseasesArchaeologyHuman evolutionAgricultureMetagenomicsMetagenomebusinessNature Genetics
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Mycobacterium tuberculosis complex lineage 5 exhibits high levels of within-lineage genomic diversity and differing gene content compared to the type…

2021

Pathogens of theMycobacterium tuberculosiscomplex (MTBC) are considered to be monomorphic, with little gene content variation between strains. Nevertheless, several genotypic and phenotypic factors separate strains of the different MTBC lineages (L), especially L5 and L6 (traditionally termedMycobacterium africanum) strains, from each other. However, this genome variability and gene content, especially of L5 strains, has not been fully explored and may be important for pathobiology and current approaches for genomic analysis of MTBC strains, including transmission studies. By comparing the genomes of 355 L5 clinical strains (including 3 complete genomes and 352 Illumina whole-genome sequenc…

0301 basic medicineLineage (genetic)Genotype030106 microbiologySequence assemblyPathogens and Epidemiologylineage 5Genomegenomic diversity03 medical and health sciencesSpecies SpecificityDrug Resistance Multiple BacterialGenotypeHumansTuberculosisH37RvBiologyGeneResearch Articlesreference genomewithin-lineage variabilityGeneticsWhole Genome SequencingbiologyChromosome MappingGenetic VariationHigh-Throughput Nucleotide SequencingMycobacterium tuberculosisSequence Analysis DNAgene presence/absenceGeneral Medicinebiology.organism_classification030104 developmental biologyL5.3.2Mycobacterium tuberculosis complexM. africanumHuman medicineMycobacterium africanumGenome BacterialReference genomeMicrobial Genomics
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