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Coal seam gas (CSG) accounts for about one-quarter of natural gas production in Australia and rapidly increasing amounts globally. This is the first study worldwide using airborne measurement techniques to quantify methane (CH4) emissions from a producing CSG field: the Surat Basin, Queensland, Australia. Spatially resolved CH4 emissions were quantified from all major sources based on top-down (TD) and bottom-up (BU) approaches, the latter using Australia's UNFCCC reporting workflow. Based on our TD-validated BU inventory, CSG sources emit about 0.4% of the produced gas, comparable to onshore dry gas fields in the USA and The Netherlands, but substantially smaller than in other onshore regions, especially those where oil is co-produced (wet gas). The CSG CH4 emission per unit of gas production determined in this study is two to three times higher than existing inventories for the region. Our results indicate that the BU emission factors for feedlots and grazing cattle need review, possibly requiring an increase for Queensland's conditions. In some subregions, the BU estimate for gathering and boosting stations is potentially too high. The results from our iterative BU inventory process, which feeds into TD data, illustrate how global characterization of CH4 emissions could be improved by incorporating empirical TD verification surveys into national reporting. This article is part of a discussion meeting issue 'Rising methane: is warming feeding warming? (part 1)'.
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Classification of outdoor point clouds is an intensely studied topic, particularly with respect to the separation of vegetation from the terrain and manmade structures. In the presence of many overhanging and vertical structures, the (relative) height is no longer a reliable criterion for such a separation. An alternative would be to apply supervised classification; however, thousands of examples are typically required for appropriate training. In this paper, an unsupervised and rotation-invariant method is presented and evaluated for three datasets with very different characteristics. The method allows us to detect planar patches by filtering and clustering so-called superpoints, whereby the well-known but suitably modified random sampling and consensus (RANSAC) approach plays a key role for plane estimation in outlier-rich data. The performance of our method is compared to that produced by supervised classifiers common for remote sensing settings: random forest as learner and feature sets for point cloud processing, like covariance-based features or point descriptors. It is shown that for point clouds resulting from airborne laser scans, the detection accuracy of the proposed method is over 96% and, as such, higher than that of standard supervised classification approaches. Because of artifacts caused by interpolation during 3D stereo matching, the overall accuracy was lower for photogrammetric point clouds (74-77%). However, using additional salient features, such as the normalized green-red difference index, the results became more accurate and less dependent on the data source.
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Algoritmos , Mapeo Geográfico , Fenómenos Geológicos , Plantas , Tecnología de Sensores Remotos , Arqueología , Materiales de Construcción , Conjuntos de Datos como Asunto , Geografía , Alemania , Imagenología Tridimensional/métodos , Italia , Rayos Láser , Fotogrametría , Queensland , Erosión del SueloRESUMEN
Tuberculosis (TB), caused by Mycobacterium tuberculosis (M. tuberculosis), is the leading infectious disease which claims one human life every 15-20s globally. The persistence of this deadly disease in human population can be attributed to the ability of the bacterium to stay in latent form. M. tuberculosis possesses a plethora of mechanisms not only to survive latently under harsh conditions inside the host but also modulate the host immune cells in its favour. Various M. tuberculosis gene families have also been described to play a role in this process. Recently, human bone marrow derived mesenchymal stem cells (MSCs) have been reported as a niche for dormant M. tuberculosis. MSCs possess abilities to alter the host immune response. The bacterium finds this self-renewal and immune privileged nature of MSCs very favourable not only to modulate the host immune system, with some help from its own genes, but also to avoid the external drug pressure. We suggest that the MSCs not only provide a resting place for M. tuberculosis but could also, by virtue of their intrinsic ability to disseminate in the body, explain the genesis of extra-pulmonary TB. A similar exploitation of stem cells by other bacterial pathogens is a distinct possibility. It may be likely that other intracellular bacterial pathogens adopt this strategy to 'piggy-back' on to ovarian stem cells to ensure vertical transmission and successful propagation to the next generation.
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Interacciones Huésped-Patógeno , Evasión Inmune , Células Madre Mesenquimatosas/microbiología , Mycobacterium tuberculosis/inmunología , Mycobacterium tuberculosis/fisiología , HumanosRESUMEN
Savanna ecosystems comprise 22% of the global terrestrial surface and 25% of Australia (almost 1.9 million km2) and provide significant ecosystem services through carbon and water cycles and the maintenance of biodiversity. The current structure, composition and distribution of Australian savannas have coevolved with fire, yet remain driven by the dynamic constraints of their bioclimatic niche. Fire in Australian savannas influences both the biophysical and biogeochemical processes at multiple scales from leaf to landscape. Here, we present the latest emission estimates from Australian savanna biomass burning and their contribution to global greenhouse gas budgets. We then review our understanding of the impacts of fire on ecosystem function and local surface water and heat balances, which in turn influence regional climate. We show how savanna fires are coupled to the global climate through the carbon cycle and fire regimes. We present new research that climate change is likely to alter the structure and function of savannas through shifts in moisture availability and increases in atmospheric carbon dioxide, in turn altering fire regimes with further feedbacks to climate. We explore opportunities to reduce net greenhouse gas emissions from savanna ecosystems through changes in savanna fire management.
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Incendios , Pradera , Australia , Carbono/química , Clima , Cambio Climático , Ecosistema , AguaRESUMEN
Escherichia coli is a paradigm for a versatile bacterial species which comprises harmless commensal as well as different pathogenic variants with the ability to either cause intestinal or extraintestinal diseases in humans and many animal hosts. Because of this broad spectrum of lifestyles and phenotypes, E. coli is a well-suited model organism to study bacterial evolution and adaptation to different growth conditions and niches. The geno- and phenotypic diversity, however, also hampers risk assessment and strain typing. A marked genome plasticity is the key to the great variability seen in this species. Acquisition of genetic information by horizontal gene transfer, gene loss as well as other genomic modifications, like DNA rearrangements and point mutations, can constantly alter the genome content and thus the fitness and competitiveness of individual variants in certain niches. Specific gene subsets and traits have been correlated with an increased potential of E. coli strains to cause intestinal or extraintestinal disease. Intestinal pathogenic E. coli strains can be reliably discriminated from non-pathogenic, commensal, or from extraintestinal E. coli pathogens based on genome content and phenotypic traits. An unambiguous distinction of extraintestinal pathogenic E. coli and commensals is, nevertheless, not so easy, as strains with the ability to cause extraintestinal infection are facultative pathogens and belong to the normal flora of many healthy individuals. Here, we compare insights into phylogeny, geno-, and phenotypic traits of commensal and pathogenic E. coli. We demonstrate that the borderline between extraintestinal virulence and intestinal fitness can be blurred as improved adaptability and competitiveness may promote intestinal colonization as well as extraintestinal infection by E. coli.
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Infecciones por Escherichia coli/microbiología , Escherichia coli/fisiología , Escherichia coli/patogenicidad , Intestinos/microbiología , Simbiosis , Animales , Escherichia coli/clasificación , Escherichia coli/genética , Infecciones por Escherichia coli/metabolismo , Genómica , Humanos , Mucosa Intestinal/metabolismo , FilogeniaRESUMEN
On September 20-22 September 2023, the international conference 'Microbiology 2023: from single cell to microbiome and host' convened microbiologists from across the globe for a very successful symposium, showcasing cutting-edge research in the field. Invited lecturers delivered exceptional presentations covering a wide range of topics, with a major emphasis on phages and microbiomes, on the relevant bacteria within these ecosystems, and their multifaceted roles in diverse environments. Discussions also spanned the intricate analysis of fundamental bacterial processes, such as cell division, stress resistance, and interactions with phages. Organized by four renowned Academies, the German Leopoldina, the French Académie des sciences, the Royal Society UK, and the Royal Swedish Academy of Sciences, the symposium provided a dynamic platform for experts to share insights and discoveries, leaving participants inspired and eager to integrate new knowledge into their respective projects. The success of Microbiology 2023 prompted the decision to host the next quadrennial academic meeting in Sweden. This choice underscores the commitment to fostering international collaboration and advancing the frontiers of microbiological knowledge. The transition to Sweden promises to be an exciting step in the ongoing global dialogue and specific collaborations on microbiology, a field where researchers will continue to push the boundaries of knowledge, understanding, and innovation not only in health and disease but also in ecology.
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Extraintestinal pathogenic Escherichia coli (ExPEC) are a common cause of disease in both mammals and birds. A vaccine to prevent such infections would be desirable given the increasing antibiotic resistance of these bacteria. We have determined the genome sequence of ExPEC IHE3034 (ST95) isolated from a case of neonatal meningitis and compared this to available genome sequences of other ExPEC strains and a few nonpathogenic E. coli. We found 19 genomic islands present in the genome of IHE3034, which are absent in the nonpathogenic E. coli isolates. By using subtractive reverse vaccinology we identified 230 antigens present in ExPEC but absent (or present with low similarity) in nonpathogenic strains. Nine antigens were protective in a mouse challenge model. Some of them were also present in other pathogenic non-ExPEC strains, suggesting that a broadly protective E. coli vaccine may be possible. The gene encoding the most protective antigen was detected in most of the E. coli isolates, highly conserved in sequence and found to be exported by a type II secretion system which seems to be nonfunctional in nonpathogenic strains.
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Antígenos Bacterianos/genética , Infecciones por Escherichia coli/prevención & control , Vacunas contra Escherichia coli/genética , Escherichia coli/genética , Genoma Bacteriano/genética , Meningitis por Escherichia coli/microbiología , Animales , Secuencia de Bases , Biología Computacional , Escherichia coli/inmunología , Finlandia , Islas Genómicas/genética , Humanos , Ratones , Datos de Secuencia Molecular , Vías Secretoras/genética , Análisis de Secuencia de ADNRESUMEN
[This corrects the article DOI: 10.1371/journal.pone.0233912.].
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Asymptomatic bacteriuria (ABU) is a condition where bacteria stably colonize the urinary tract, in a manner closely resembling commensalism at other mucosal sites. The patients carry >10(5) CFU/ml for extended periods of time and rarely develop symptoms. Contrasting the properties of ABU strains to those of uropathogenic isolates causing symptomatic infection is therefore highly relevant to understand mechanisms of bacterial adaptation. The prototype ABU strain Escherichia coli 83972 has a smaller genome than uropathogenic E. coli (UPEC) strains with deletions or point mutations in several virulence genes, suggesting that ABU strains undergo a programmed reductive evolution within human hosts. This study addressed if these observations can be generalized. Strains causing ABU in outpatients or hospitalized patients after catheterization or other invasive procedures were compared to commensal E. coli isolates from the intestinal flora of healthy individuals. Notably, clonal complex 73 (CC73) was a prominent phylogenetic lineage dominated by ABU isolates. ABU isolates from outpatients and hospitalized patients had a similar overall virulence gene repertoire, which distinguished them from many commensals, but typical UPEC virulence genes were less frequently attenuated in hospital strains than in outpatient strains or commensals. The decreased virulence potential of outpatient ABU isolates relative to that of ABU strains from hospitalized patients supports the hypothesis that loss of expression or decay of virulence genes facilitates long-term carriage and adaptation to host environments.
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Bacteriuria/microbiología , Infecciones por Escherichia coli/microbiología , Escherichia coli/genética , Escherichia coli/patogenicidad , Vejiga Urinaria/microbiología , Proteínas Bacterianas/genética , Proteínas Bacterianas/metabolismo , Niño , Análisis por Conglomerados , Femenino , Perfilación de la Expresión Génica , Regulación Bacteriana de la Expresión Génica , Hospitalización , Humanos , Datos de Secuencia Molecular , Filogenia , Selección Genética , Factores de Tiempo , VirulenciaRESUMEN
Bacteria lose or gain genetic material and through selection, new variants become fixed in the population. Here we provide the first, genome-wide example of a single bacterial strain's evolution in different deliberately colonized patients and the surprising insight that hosts appear to personalize their microflora. By first obtaining the complete genome sequence of the prototype asymptomatic bacteriuria strain E. coli 83972 and then resequencing its descendants after therapeutic bladder colonization of different patients, we identified 34 mutations, which affected metabolic and virulence-related genes. Further transcriptome and proteome analysis proved that these genome changes altered bacterial gene expression resulting in unique adaptation patterns in each patient. Our results provide evidence that, in addition to stochastic events, adaptive bacterial evolution is driven by individual host environments. Ongoing loss of gene function supports the hypothesis that evolution towards commensalism rather than virulence is favored during asymptomatic bladder colonization.
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Adaptación Fisiológica/genética , Infecciones por Escherichia coli/genética , Escherichia coli/genética , Evolución Molecular , Genoma Bacteriano/genética , Interacciones Huésped-Patógeno/genética , Electroforesis en Gel de Campo Pulsado , Ensayo de Cambio de Movilidad Electroforética , Escherichia coli/inmunología , Escherichia coli/patogenicidad , Infecciones por Escherichia coli/inmunología , Expresión Génica , Perfilación de la Expresión Génica , Interacciones Huésped-Patógeno/inmunología , Humanos , Análisis de Secuencia por Matrices de Oligonucleótidos , Reacción en Cadena de la Polimerasa de Transcriptasa Inversa , Espectrometría de Masa por Láser de Matriz Asistida de Ionización Desorción , Vejiga Urinaria/microbiología , Infecciones Urinarias/inmunología , Infecciones Urinarias/microbiología , Virulencia/genéticaRESUMEN
In this study the plasmid pTC, a 90 kb self-conjugative virulence plasmid of the porcine enterotoxigenic Escherichia coli (ETEC) strain EC2173 encoding the STa and STb heat-stable enterotoxins and tetracycline resistance, has been sequenced in two steps. As a result we identified five main distinct regions of pTC: (i) the maintenance region responsible for the extreme stability of the plasmid, (ii) the TSL (toxin-specific locus comprising the estA and estB genes) which is unique and characteristic for pTC, (iii) a Tn10 transposon, encoding tetracycline resistance, (iv) the tra (plasmid transfer) region, and (v) the colE1-like origin of replication. It is concluded that pTC is a self-transmissible composite plasmid harbouring antibiotic resistance and virulence genes. pTC belongs to a group of large conjugative E. coli plasmids represented by NR1 with a widespread tra backbone which might have evolved from a common ancestor. This is the first report of a completely sequenced animal ETEC virulence plasmid containing an antimicrobial resistance locus, thereby representing a selection advantage for spread of pathogenicity in the presence of antimicrobials leading to increased disease potential.
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Escherichia coli Enterotoxigénica/genética , Infecciones por Escherichia coli/microbiología , Plásmidos/genética , Enfermedades de los Porcinos/microbiología , Resistencia a la Tetraciclina/genética , Factores de Virulencia/genética , Animales , Antibacterianos/farmacología , Toxinas Bacterianas/genética , Secuencia de Bases , ADN Bacteriano/química , ADN Bacteriano/genética , Escherichia coli Enterotoxigénica/efectos de los fármacos , Escherichia coli Enterotoxigénica/patogenicidad , Enterotoxinas/genética , Proteínas de Escherichia coli/genética , Sitios Genéticos , Humanos , Anotación de Secuencia Molecular , Datos de Secuencia Molecular , Plásmidos/aislamiento & purificación , Análisis de Secuencia de ADN , Porcinos , Tetraciclina/farmacología , VirulenciaRESUMEN
The Legionella virulence factor Mip (macrophage infectivity potentiator) contributes to bacterial dissemination within infected lung tissue. The Mip protein, which belongs to the enzyme family of FK506-binding proteins (FKBP), binds specifically to collagen IV. We identified a surface-exposed Mip-binding sequence in the NC1 domain of human collagen IV α1. The corresponding collagen IV-derived peptide (P290) co-precipitated with Mip and competitively inhibited the Mip-collagen IV binding. Transmigration of Legionella pneumophila across a barrier of NCI-H292 lung epithelial cells and extracellular matrix was efficiently inhibited by P290. This significantly reduced transmigration was comparable to the inefficient transmigration of PPIase-negative Mip mutant or rapamycin-treated L. pneumophila. Based on NMR data and docking studies a model for the mode of interaction of P290 and Mip was developed. The amino acids of the hydrophobic cavity of Mip, D142 and to a lesser extent Y185 were identified to be part of the interaction surface. In the complex structure of Mip(77-213) and P290, both amino acid residues form hydrogen bonds to P290. Utilizing modelling, molecular dynamics (MD) simulations and structural data of human PPIase FKBP12, the most related human orthologue of Mip, we were able to propose optimized P290 variants with increased binding specificity and selectivity for the putative bacterial drug target Mip.
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Proteínas Bacterianas/metabolismo , Colágeno Tipo IV/metabolismo , Interacciones Huésped-Patógeno , Legionella pneumophila/patogenicidad , Isomerasa de Peptidilprolil/metabolismo , Migración Transendotelial y Transepitelial , Línea Celular , Células Epiteliales/microbiología , Humanos , Inmunoprecipitación , Espectroscopía de Resonancia Magnética , Modelos Moleculares , Simulación de Dinámica Molecular , Resonancia Magnética Nuclear Biomolecular , Unión Proteica , Mapeo de Interacción de ProteínasRESUMEN
Ultrafine particles (UFP) acting as cloud condensation nuclei (CCN) are the driving force behind changing rainfall patterns. Recently observed weather extremes like floods and drought might be due to changing anthropogenic UFP emissions. However, the sources and budgets of anthropogenic primary and secondary particles are not well known. Based on airborne measurements we identified as a major contribution modern fossil fuel flue gas cleaning techniques to cause a doubling of global primary UFP number emissions. The subsequent enhancement of CCN numbers has several side effects. It's changing the size of the cloud droplets and delays raindrop formation, suppressing certain types of rainfall and increasing the residence time of water vapour in the atmosphere. This additional latent energy reservoir is directly available for invigoration of rainfall extremes. Additionally it's a further contribution to the column density of water vapour as a greenhouse gas and important for the infrared radiation budget. The localized but ubiquitous fossil fuel related UFP emissions and their role in the hydrological cycle, may thus contribute to regional or continental climate trends, such as increasing drought and flooding, observed within recent decades.
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The nucleoid-associated protein H-NS is important for gene regulation in Escherichia coli. We have studied H-NS interaction with StpA and an uncharacterized H-NS-like protein, Hfp, in the uropathogenic E. coli isolate 536 that expresses all three nucleoid-associated proteins. We found distinct interactions of the three proteins at the protein level, resulting in the formation of heteromers, as well as differences in their gene expression at the transcriptional level. Mutants lacking either StpA or Hfp alone did not exhibit a phenotype at 37 degrees C, which is consistent with a low level of expression at that temperature. Expression of the hfp and stpA genes was found to be induced by apparently diametrical conditions, and StpA and Hfp levels could be correlated to modulatory effects on the expression of different H-NS targets, the bgl operon and operons for virulence factors such as fimbriae and capsular polysaccharide. The hns/hfp and hns/stpA double mutants displayed severe growth defects at low and high temperatures respectively. Our findings demonstrated different requirements for the alternative H-NS/Hfp/StpA combinations under these growth conditions. We propose that Hfp and StpA have distinct functions and roles in a dynamic pool of nucleoid-associated proteins that is adapting to requirements in a particular environment.
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Proteínas Bacterianas/genética , Proteínas de Unión al ADN/genética , Escherichia coli/genética , Escherichia coli/patogenicidad , Regulación Bacteriana de la Expresión Génica , Secuencia de Aminoácidos , Cromosomas Bacterianos/genética , Ambiente , Infecciones por Escherichia coli/genética , Proteínas de Escherichia coli/genética , Proteínas de Escherichia coli/metabolismo , Proteínas Fimbrias/genética , Fimbrias Bacterianas/genética , Humanos , Intestinos/microbiología , Cinética , Chaperonas Moleculares/genética , Datos de Secuencia Molecular , Operón , Proteínas Represoras/genética , Alineación de Secuencia , Homología de Secuencia de Aminoácido , Virulencia/genéticaRESUMEN
BACKGROUND: A substantial amount of data has been accumulated supporting the important role of genomic islands (GEIs)--including pathogenicity islands (PAIs)--in bacterial genome plasticity and the evolution of bacterial pathogens. Their instability and the high level sequence similarity of different (partial) islands suggest an exchange of PAIs between strains of the same or even different bacterial species by horizontal gene transfer (HGT). Transfer events of archetypal large genomic islands of enterobacteria which often lack genes required for mobilisation or transfer have been rarely investigated so far. RESULTS: To study mobilisation of such large genomic regions in prototypic uropathogenic E. coli (UPEC) strain 536, PAI II536 was supplemented with the mobRP4 region, an origin of replication (oriVR6K), an origin of transfer (oriTRP4) and a chloramphenicol resistance selection marker. In the presence of helper plasmid RP4, conjugative transfer of the 107-kb PAI II536 construct occured from strain 536 into an E. coli K-12 recipient. In transconjugants, PAI II536 existed either as a cytoplasmic circular intermediate (CI) or integrated site-specifically into the recipient's chromosome at the leuX tRNA gene. This locus is the chromosomal integration site of PAI II536 in UPEC strain 536. From the E. coli K-12 recipient, the chromosomal PAI II536 construct as well as the CIs could be successfully remobilised and inserted into leuX in a PAI II536 deletion mutant of E. coli 536. CONCLUSIONS: Our results corroborate that mobilisation and conjugal transfer may contribute to evolution of bacterial pathogens through horizontal transfer of large chromosomal regions such as PAIs. Stabilisation of these mobile genetic elements in the bacterial chromosome result from selective loss of mobilisation and transfer functions of genomic islands.
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Conjugación Genética , Transferencia de Gen Horizontal , Islas Genómicas , Escherichia coli Uropatógena/genéticaRESUMEN
The bacterial pathogen Legionella pneumophila responds to environmental changes by differentiation. At least two forms are well described: replicative bacteria are avirulent; in contrast, transmissive bacteria express virulence traits and flagella. Phenotypic analysis, Western blotting, and electron microscopy of mutants of the regulatory genes encoding RpoN, FleQ, FleR, and FliA demonstrated that flagellin expression is strongly repressed and that the mutants are nonflagellated in the transmissive phase. Transcriptome analyses elucidated that RpoN, together with FleQ, enhances transcription of 14 out of 31 flagellar class II genes, which code for the basal body, hook, and regulatory proteins. Unexpectedly, FleQ independent of RpoN enhances the transcription of fliA encoding sigma 28. Expression analysis of a fliA mutant showed that FliA activates three out of the five remaining flagellar class III genes and the flagellar class IV genes. Surprisingly, FleR does not induce but inhibits expression of at least 14 flagellar class III genes on the transcriptional level. Thus, we propose that flagellar class II genes are controlled by FleQ and RpoN, whereas the transcription of the class III gene fliA is controlled in a FleQ-dependent but RpoN-independent manner. However, RpoN and FleR might influence flagellin synthesis on a posttranscriptional level. In contrast to the commonly accepted view that enhancer-binding proteins such as FleQ always interact with RpoN to fullfill their regulatory functions, our results strongly indicate that FleQ regulates gene expression that is RpoN dependent and RpoN independent. Finally, FliA induces expression of flagellar class III and IV genes leading to the complete synthesis of the flagellum.
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Proteínas Bacterianas/fisiología , Flagelos/fisiología , Regulación Bacteriana de la Expresión Génica , Legionella pneumophila/crecimiento & desarrollo , Legionella pneumophila/metabolismo , Animales , Proteínas Bacterianas/genética , Western Blotting , Línea Celular , GMP Cíclico/análogos & derivados , GMP Cíclico/metabolismo , GMP Cíclico/fisiología , Flagelos/genética , Flagelos/ultraestructura , Flagelina/genética , Flagelina/metabolismo , Regulación Bacteriana de la Expresión Génica/genética , Regulación Bacteriana de la Expresión Génica/fisiología , Legionella pneumophila/genética , Legionella pneumophila/ultraestructura , Ratones , Microscopía Electrónica de Transmisión , Mutación , Análisis de Secuencia por Matrices de Oligonucleótidos , Reacción en Cadena de la PolimerasaRESUMEN
BACKGROUND: The Enterobacteriaceae comprise a large number of clinically relevant species with several individual subspecies. Overlapping virulence-associated gene pools and the high overall genome plasticity often interferes with correct enterobacterial strain typing and risk assessment. Array technology offers a fast, reproducible and standardisable means for bacterial typing and thus provides many advantages for bacterial diagnostics, risk assessment and surveillance. The development of highly discriminative broad-range microbial diagnostic microarrays remains a challenge, because of marked genome plasticity of many bacterial pathogens. RESULTS: We developed a DNA microarray for strain typing and detection of major antimicrobial resistance genes of clinically relevant enterobacteria. For this purpose, we applied a global genome-wide probe selection strategy on 32 available complete enterobacterial genomes combined with a regression model for pathogen classification. The discriminative power of the probe set was further tested in silico on 15 additional complete enterobacterial genome sequences. DNA microarrays based on the selected probes were used to type 92 clinical enterobacterial isolates. Phenotypic tests confirmed the array-based typing results and corroborate that the selected probes allowed correct typing and prediction of major antibiotic resistances of clinically relevant Enterobacteriaceae, including the subspecies level, e.g. the reliable distinction of different E. coli pathotypes. CONCLUSIONS: Our results demonstrate that the global probe selection approach based on longest common factor statistics as well as the design of a DNA microarray with a restricted set of discriminative probes enables robust discrimination of different enterobacterial variants and represents a proof of concept that can be adopted for diagnostics of a wide range of microbial pathogens. Our approach circumvents misclassifications arising from the application of virulence markers, which are highly affected by horizontal gene transfer. Moreover, a broad range of pathogens have been covered by an efficient probe set size enabling the design of high-throughput diagnostics.
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Sondas de ADN/metabolismo , Enterobacteriaceae/genética , Genoma Bacteriano/genética , Ensayos Analíticos de Alto Rendimiento/métodos , Técnicas de Diagnóstico Molecular/métodos , Análisis de Secuencia por Matrices de Oligonucleótidos/métodos , Antiinfecciosos/farmacología , Técnicas de Tipificación Bacteriana , ADN Bacteriano/genética , Árboles de Decisión , Farmacorresistencia Bacteriana/efectos de los fármacos , Farmacorresistencia Bacteriana/genética , Enterobacteriaceae/clasificación , Enterobacteriaceae/efectos de los fármacos , Enterobacteriaceae/aislamiento & purificación , Hibridación de Ácido Nucleico/efectos de los fármacos , Análisis de RegresiónRESUMEN
The mat (or ecp) fimbrial operon is ubiquitous and conserved in Escherichia coli, but its functions remain poorly described. In routine growth media newborn meningitis isolates of E. coli express the meningitis-associated and temperature-regulated (Mat) fimbria, also termed E. coli common pilus (ECP), at 20 degrees C, and here we show that the six-gene (matABCDEF)-encoded Mat fimbria is needed for temperature-dependent biofilm formation on abiotic surfaces. The matBCDEF deletion mutant of meningitis E. coli IHE 3034 was defective in an early stage of biofilm development and consequently unable to establish a detectable biofilm, contrasting with IHE 3034 derivatives deleted for flagella, type 1 fimbriae or S-fimbriae, which retained the wild-type biofilm phenotype. Furthermore, induced production of Mat fimbriae from expression plasmids enabled biofilm-deficient E. coli K-12 cells to form biofilm at 20 degrees C. No biofilm was detected with IHE 3034 or MG1655 strains grown at 37 degrees C. The surface expression of Mat fimbriae and the frequency of Mat-positive cells in the IHE 3034 population from 20 degrees C were high and remained unaltered during the transition from planktonic to biofilm growth and within the matured biofilm community. Considering the prevalence of the highly conserved mat locus in E. coli genomes, we hypothesize that Mat fimbria-mediated biofilm formation is an ancestral characteristic of E. coli.
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Biopelículas/crecimiento & desarrollo , Proteínas de Escherichia coli/metabolismo , Escherichia coli/crecimiento & desarrollo , Fimbrias Bacterianas/metabolismo , Familia de Multigenes , Adhesión Bacteriana , Escherichia coli/genética , Proteínas de Escherichia coli/genética , Genes Bacterianos , Meningitis por Escherichia coli/microbiología , Datos de Secuencia Molecular , Eliminación de SecuenciaRESUMEN
Bacterial pathogens with the ability to cause persistent infection have different strategies to withstand the induction of host immune responses and to successfully establish long-term colonization. In case of asymptomatic bacteriuria and other persistent infections, prolonged growth in the host is accompanied with genomic alterations that result in e.g., bacterial attenuation thus contributing to bacterial adaptation to their host niche and a reduced activation of host immune responses. The accumulating amount of information regarding bacterial adaptation during persistent infection helps to increase our understanding of driving forces of bacterial adaptation in vivo as well as of factors that contribute to symptomatic infection.
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Adaptación Fisiológica , Bacterias/patogenicidad , Infecciones Bacterianas/microbiología , Genoma Bacteriano , Bacterias/genética , Bacteriuria/microbiología , Humanos , VirulenciaRESUMEN
Avian pathogenic Escherichia coli (APEC) and human extraintestinal pathogenic E. coli (ExPEC) cause various diseases in humans and animals and cannot be clearly distinguished by molecular epidemiology and genome content. We characterized traits of eight representative human ExPEC and APEC variants to either support the zoonotic potential or indicate factors involved in host specificity. These strains were very similar regarding phylogeny, virulence gene content and allelic variation of adhesins. Host- or serogroup-specific differences in type 1-, P-, S/F1C-fimbriae, curli, flagella, colicin and aerobactin expression or in vivo virulence were not found. Serogroup-dependent differences in genome content may depend on the phylogenetic background. To identify traits involved in host specificity, we performed transcriptome analysis of human ExPEC IHE3034 and APEC BEN374 in response to human (37 degrees C) or avian (41 degrees C) body temperature. Both isolates displayed similar transcriptional profiles at both temperatures. Transcript levels of motility/chemotaxis genes were repressed at 41 degrees C. The hdeAB and cadA genes involved in acid stress resistance, although often induced at 41 degrees C, could not be correlated with host specificity. Beside strain-specific effects, the common behavior of both strains at human or avian body temperature supports the idea of a potential zoonotic risk of certain human ExPEC and APEC variants.