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11	The Physiological Cost of Antibiotic Resistance Macvanin, Mirjana January 2003 (has links) Becoming antibiotic resistant is often associated with fitness costs for the resistant bacteria. This is seen as a loss of competitiveness against the antibiotic-sensitive wild-type in an antibiotic-free environment. In this study, the physiological alterations associated with fitness cost of antibiotic resistance in vitro (in the laboratory medium), and in vivo (in a mouse infection model), are identified in the model system of fusidic acid resistant (FusR) Salmonella enterica serovar Typhimurium. FusR mutants have mutations in fusA, the gene that encodes translation elongation factor G (EF-G). FusR EF-G has a slow rate of regeneration of active EF-G·GTP off the ribosome, resulting in a slow rate of protein synthesis. The low fitness of FusR mutants in vitro, and in vivo, can be explained in part by a slow rate of protein synthesis and resulting slow growth. However, some FusR mutants with normal rates of protein synthesis still suffer from reduced fitness in vivo. We observed that FusR mutants have perturbed levels of the global regulatory molecule ppGpp. One consequence of this is an inefficient induction of RpoS, a regulator of general stress reponse and an important virulence factor for Salmonella. In addition, we found that FusR mutants have reduced amounts of heme, a co-factor of catalases and cytochromes. As a consequence of the heme defect, FusR mutants have a reduced ability to withstand oxidative stress and a low rate of aerobic respiration. The pleiotropic phenotypes of FusR mutants suggest that antibiotic resistance can be associated with broad changes in bacterial physiology. Knowledge of physiological alterations that reduce the fitness of antibiotic-resistant mutants can be useful in identifying novel targets for antimicrobial agents. Drugs that alter the levels of global transcriptional regulators such as ppGpp or RpoS deserve attention as potential antimicrobial agents. Finally, the observation that FusR mutants have increased sensitivity to several unrelated classes of antibiotics suggests that the identification of physiological cost of resistance can help in optimizing treatment of resistant bacterial populations. Microbiology fusidic acid fitness cost protein synthesis EF-G ppGpp RpoS oxidative stress heme Mikrobiologi
12	Evolutionary Dynamics of Mutation and Gene Transfer in Bacteria Lind, Peter A January 2010 (has links) The study of bacterial evolution is fundamental for addressing current problems of antibiotic resistance and emerging infectious diseases and lays a solid foundation for successful and rational design in biotechnology and synthetic biology. The main aim of this thesis is to test evolutionary hypotheses, largely based on theoretical considerations and sequence analysis, by designing scenarios in a laboratory setting to obtain experimental data. Paper I examines how genomic GC-content can be reduced following a change in mutation rate and spectrum. Transcription-related biases in mutation location were found, but no replicative bias was detected. Paper II explores the distribution of fitness effects of random substitutions in two ribosomal protein genes using a highly sensitive fitness assay. The substitutions had a weakly deleterious effect, with low frequencies of both neutral and inactivating mutations. The surprising finding that synonymous and non-synonymous substitutions have very similar distribution of fitness effects suggests that, at least for these genes, fitness constraints are present mainly on the level of mRNA instead of protein. Paper III examines selective barriers to inter-species gene transfer by constructing mutants with a native gene replaced by an orthologue from another species. Results suggest that the fitness costs of these gene replacements are large enough to provide a barrier to this kind of horizontal gene transfer in nature. The paper also examines possible compensatory mechanisms that can reduce the cost of the poorly functioning alien genes and found that gene amplification acts as a first step to improve the selective contribution after transfer. Paper IV investigates the fitness constraints on horizontal gene transfer by inserting DNA from other species into the Salmonella chromosome. Results suggest that insertion of foreign DNA often is neutral and the manuscript provides new experimental data for theoretical analysis of interspecies genome variation and horizontal gene transfer between species. fitness cost bacterial evolution gene amplification mutational biases GC content synonymous substitutions horizontal gene transfer experimental evolution Bacteriology Bakteriologi Microbiology Mikrobiologi Genetics Genetik Biology Biologi
13	Resistência a acaricidas em Phytoseiulus macropilis (Banks) (Acari: Phytoseiidae) / Resistance of Phytoseiulus macropilis to acaricides (Banks) (Acari:Phytoseiidae) Rezende, Daniela Duarte Monteiro 27 June 2010 (has links) Made available in DSpace on 2015-03-26T13:30:32Z (GMT). No. of bitstreams: 1 texto completo.pdf: 316593 bytes, checksum: 9211416fdf4f9f4ea32b6492965b28a1 (MD5) Previous issue date: 2010-06-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The predatory mite Phytoseiulus macropilis (Banks) (Acari: Phytoseiidae) has great potential as a biological control agent of spider mite Tetranychus urticae Koch (Acari: Tetranychidae). However, chemical control may adversely affect the effectiveness of this predator. An alternative that would exploit the potential presented by P. macropilis as natural enemy of spider mite would be the selection of individuals resistant to pesticides from major collections in the areas of cash crops, since these individuals would be under constant selective pressure of one or more pesticides. Thus, the objective was to identify individuals of P. macropilis resistant to acaricides abamectin and dimethoate and possible fitness cost linked to this resistance. It took account of these two pesticides with insecticide-acaricide action because they are more invested in strawberry crops in the state of Minas Gerais for the control of spider mite. To that end, this dissertation were evaluated: i) the lethal toxicity of the acaricides abamectin and dimethoate on two populations of P. macropilis, coming from a conventional farming in the region of Barbacena-MG and the other from a greenhouse on the campus of Universidade Federal de Viçosa, ii) the instantaneous rate of increase (ri), rate of predation on spider mite and capacity foraging to volatile plant infested with spider mite for the two populations of P. macropilis. It was concluded that the population collected in conventional system in the region of Barbacena showed resistance to dimethoate and that this resistance is not associated with fitness cost compared to susceptible individuals. / O ácaro predador Phytoseiulus macropilis (Banks) (Acari: Phytoseiidae) possui grande potencial como agente de controle biológico do ácaro-rajado Tetranychus urticae Koch (Acari: Tetranychidae). No entanto, o controle químico pode interferir negativamente na efetividade deste predador. Uma alternativa que permitiria explorar o potencial apresentado por P. macropilis como inimigo natural do ácaro-rajado seria a seleção de indivíduos resistentes aos principais pesticidas a partir de coletas em áreas de cultivos comerciais, pois estes indivíduos estariam sob pressão seletiva constante de um ou mais pesticidas. Desse modo, o objetivo deste trabalho foi identificar indivíduos de P. macropilis resistentes aos acaricidas abamectina e dimetoato e o possível custo adaptativo ligado a esta resistência. Levou-se em consideração estes dois pesticidas com ação acaricida-inseticida por serem os mais aplicados em cultivos de morangueiro no estado de Minas Gerais para o controle do ácaro-rajado. Para tanto, nesta dissertação foram avaliados: i) A toxicidade letal dos acaricidas abamectina e dimetoato sobre duas populações de P. macropilis, uma oriunda de cultivo convencional da região de Barbacena-MG e a outra proveniente de casa de vegetação do campus da Universidade Federal de Viçosa; ii) A taxa instantânea de crescimento populacional (ri), taxa de predação sobre o ácaro-rajado e capacidade de forrageamento a voláteis de plantas infestadas com o ácaro-rajado para as duas populações de P. macropilis. Concluiu-se que a população coletada em cultivo convencional na região de Barbacena apresentou resistência a dimetoato e que esta resistência não está associada a custo adaptativo em relação a indivíduos susceptíveis. Abamectina Dimetoato Efeito letal Efeito subletal Custo adaptativo Abamectin Dimethoate Lethal effect Sublethal effect Fitness cost
14	Bases genéticas e moleculares da resistência de Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) a spinosad / Genetic and molecular basis of Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) resistance to spinosad Daniela Miyuki Okuma 23 October 2015 (has links) O inseticida spinosad tem sido um dos mais utilizados para o controle de Spodoptera frugiperda (J. E. Smith) no Brasil, devido à sua eficácia e ao seu mecanismo de ação único (modulador alostérico de receptores nicotínicos da acetilcolina). Para fornecer subsídios a um programa de manejo da resistência, foram realizados estudos para compreender as bases genéticas e moleculares da resistência de S. frugiperda a este inseticida. Inicialmente, foi selecionada uma linhagem de S. frugiperda resistente a spinosad (Spin-res) em laboratório por meio da técnica \"F2 screen\". A razão de resistência, baseada na CL50, foi de aproximadamente 890 vezes. A partir de cruzamentos recíprocos entre a linhagem suscetível (Sus) e Spin-res, constatou-se que o padrão de herança da resistência de S. frugiperda a spinosad é autossômica e incompletamente recessiva. Retrocruzamentos da progênie F1 de cruzamentos recíprocos com a linhagem Spin-res confirmaram a hipótese de herança poligênica da resistência, com número mínimo de segregações independentes variando de 1,86 a 2,45. Além disso, observou-se um elevado custo adaptativo associado à resistência de S. frugiperda a spinosad, baseado nos parâmetros da tabela de vida e fertilidade. A partir dos dados de seqüenciamento de quatro bibliotecas de cDNA de lagartas de quarto ínstar das linhagens Sus e Spin-res (expostas ou não a spinosad), utilizando a plataforma HiScan1000® (Illumina©), foi realizada a comparação do perfil de transcrição e expressão diferencial de genes entre as linhagens Sus e Spin-R. O transcritoma foi montado utilizando a estratégia de novo contendo cerca de 19 milhões de leituras single-end com qualidades de score acima de 30, gerando 42406 transcritos com o N50 de 598 pb. A busca por similaridade no banco de dados não-redundante (nr) do NCBI, possibilitou a anotação funcional de 24980 (59%) transcritos, alinhando-se a Bombyx mori L., Helicoverpa armigera (Hübner) e Spodoptera spp. com 22,5; 3,81 e 3,6% das sequências respectivamente. Foram identificados 2903 transcritos apresentando expressão diferencial (P <= 0,05, t-test; fold-change > 2) entre as linhagens Spin-res e Sus. Dentre os transcritos relacionados a enzimas do complexo metabólico, 23 P450 monooxigenases, 13 glutathiona S-transferases, uma carboxilesterase e uma esterase foram superexpressas na linhagem Spin-res. Além disso, foi observada a superexpressão de 15 genes relacionados à produção energética na linhagem Spin-res, o que pode estar relacionada ao elevado custo adaptativo associado à resistência. Análises de PCR quantitativo em tempo real confirmaram que os padrões de expressão foram consistentes com os resultados de RNA-seq. Bioensaios com os sinergistas PBO e DEM mostraram pouco envolvimento de enzimas P450 e nenhum envolvimento de glutationa S-transferases na resistência de S. frugiperda a spinosad. O sequenciamento da subunidade α6 do receptor nicotínico de acetilcolina de ambas linhagens demonstrou a existência de uma mutação sinônima entre as duas linhagens (G567A), indicando que a subunidade α6 não é a única relacionada à resistência de S. frugiperda a spinosad. / Spinosad has been one of the most used insecticides to manage Spodoptera frugiperda (J. E. Smith) in Brazil, due to its efficacy and unique mode of action (nicotinic acetylcholine receptor allosteric modulator). To support an insect resistance management program (IRM), we selected and characterized in laboratory a spinosad-resistant strain (Spin-res) of S. frugiperda using the F2 screen method. The resistance ratio, based on LC50, was ≈ 890-fold. Based on reciprocal crosses between susceptible (Sus) and Spin-res, the inheritance of spinosad resistance in S. frugiperda was autosomal incompletely recessive. Backcrosses between the F1 from reciprocal crosses and the parental Spin-res revealed a polygenic resistance, with an estimation of at least 1.86 to 2.45 genes related to spinosad resistance. Furthermore, it was observed a strong fitness cost associated to spinosad-resistance in Spin-res strain, based on the life table and fertility parameters. The characterization of the transcriptional profile and the differential gene expression comparison between susceptible and spinosad-resistant strains of Spodoptera frugiperda were obtained from the sequencing of cDNA libraries from fourth instar larvae of Sus and Spin-res strains (exposed or not to spinosad) using a HiScan1000® platform (Illumina©). The transcriptome was de novo assembled using nearly 19 million single-end reads with quality score over 30, yielding 42,406 transcripts with a N50 of 598 bp. Based on similarity search in the non-redundant (nr) nucleotide database, 24,980 (59%) transcripts were annotated. Most of the transcripts aligned to Bombyx mori L., Helicoverpa armigera (Hübner) and Spodoptera spp., with 22.5%, 3.81, and 3.6, respectively. We identified 2,032 differentially expressed transcripts (P <= 0.05, t-test; fold-change > 2) between the susceptible and spinosad-resistant strains. Among metabolic enzyme transcripts, 23 P450 monooxigenases, 13 glutathione S-transferases, one carboxylesterase and one esterase were up-regulated in the spinosad-resistant strain. In addition, it was observed 15 genes superexpressed in spinosad-resistant strain related to energy production, which can be related to the high fitness cost associated with resistance. Quantitative real-time PCR analysis showed that patterns of gene expression were consistent with RNA-seq results. Synergistic bioassays using PBO and DEM showed little involvement of P450s in spinosad-resistance and lack of involvement regarding the glutathione Stransferases. Furthermore, we sequenced and compared the subunit α6 from the nicotinic acetylcholine receptor of S. frugiperda Spin-res and Sus strains. Only one synonymous mutation within the two strains (G567A) was found, showing that the α6 is not the only subunit involved in S. frugiperda resistance to spinosad. Spodoptera frugiperda Custo adaptativo Expressão diferencial de genes Herança Resistência de insetos a inseticidas Spinosad Transcritoma Spodoptera frugiperda Differential gene expression Fitness cost Inheritance Insecticide resistance Spinosad Transcriptome analysis
15	An integrative approach to understanding the fitness cost of rifampicin resistance in Pseudomonas aeruginosa Qi, Qin January 2014 (has links) Antibiotic resistance in bacteria is acquired through spontaneous chromosomal mutations or horizontal gene transfer. In the absence of antibiotics, resistant mutants generally show reduced fitness due to compromised growth rate, competitive ability and virulence compared to their antibiotic-sensitive ancestors. The focus of my research is to dissect the molecular underpinnings of the variations in the fitness cost of chromosomal antibiotic resistance using a systems-level approach. From an evolutionary perspective, my research aims are to understand how the fitness cost influences adaptation in resistant populations in an antibiotic-free environment. Using rifampicin resistance in Pseudomonas aeruginosa as a model, my work shows that most of the variation in the fitness cost of rifampicin resistance can be attributed to the direct effect of rifampicin resistance mutations on transcriptional efficiency. Through RNA-Seq transcriptome profiling, I demonstrate that global changes in gene expression levels associated with resistance mutations are surprisingly subtle, suggesting that the transcriptional regulatory network of P. aeruginosa is robust against compromised transcriptional efficiency. Using experimental evolution and whole-genome sequencing, my work reveals a systematic difference in the genetic basis of adaptation in mutants that were propagated in the absence of antibiotics. During compensatory adaptation, resistant mutants can recover the fitness cost of resistance by fixing second-site mutations that directly offset the deleterious effects of resistance mutations. Amongst resistant mutant populations with low fitness costs, general adaptation limits compensatory adaptation, which is most likely to be due to the rarity of compensatory mutations and clonal interference. Far from being the most ubiquitous mechanism in the evolution of resistance, compensatory adaptation is the exception that is more likely to be observed in resistant mutants with high fitness costs. In addition, I applied key elements of the integrative experimental approach developed in this work to dissect the molecular basis of the fitness cost associated with carriage of the pNUK73 small plasmid in P. aeruginosa, which carries the rep gene encoding a plasmid replication protein. My results confirmed that rep expression generates a significant fitness cost in P. aeruginosa and demonstrate how the molecular origins of the fitness cost of resistance can be dissected in a different biological context. 572.8
16	The Importance of Bacterial Replichore Balance Cerit, Ender Efe January 2021 (has links) In most bacterial pathogens, the genome is comprised within a single circular chromosome which is typically organized by the origin-to-terminus axis that divides the chromosome into equally-sized arms of replication (replichores). This similarity in length is presumed to be required for the synchronization of the two replication forks to meet at the terminus for efficient chromosome segregation. Transfer of genes between organisms, different from the route of parent to offspring, is called horizontal gene transfer (HGT). Acquiring foreign DNA through HGT is an important factor for the evolution of virulence in bacteria since it provides access to new features such as new toxins and antibiotic resistance genes. Chromosomes of many pathogenic bacteria such as Salmonella spp. carry such horizontally-transferred DNA fragments called pathogenicity islands. However, after such HGT events, the existing organization of chromosome can be disrupted and an imbalance between the two halves of the circular chromosome might occur. The predicted outcome of a replichore imbalance is the retardation of growth which in turn might result in the out-competition by other faster-growing bacteria in the environment. For that reason, we have investigated the association of the fitness cost and the replichore imbalance with isogenic strains with varying degrees of inter-replichore inversions. Our results showed that there is a correlation between the magnitude of replichore imbalance and fitness cost, for example 2.49-fold imbalance (one replichore 2.49-fold longer than the other) resulted in 11% reduction of fitness in comparison with balanced replichores. Therefore, our data suggest that the replichore imbalance could be utilized to predict the fitness cost of HGT events. Salmonella bacterial evolution fitness cost chromosome organization and structure chromosomal inversion replichore horizontal gene transfer Microbiology in the medical area
17	Impacts biochimiques et biologiques de mutations dans le gène sdhB codant la sous-unité B de la succinate déshydrogénase chez le champignon phytopathogène Botrytis cinerea / Biochemical and biological impacts of mutations in the sdhB gene encoding the B sub-unit of the succinate dehydrogenase enzyme complex in the phytopathogenic fungi Botrytis cinerea Lalève, Anaïs 31 May 2013 (has links) La succinate déshydrogénase (SDH) est à la fois une enzyme clé du cycle de Krebs oxydant le succinate en fumarate et le complexe II de la chaîne respiratoire mitochondriale impliqué dans le transfert des électrons et la réduction de l’ubiquinone. Des inhibiteurs de cette enzyme (SDHI) ont été développés ou sont en cours de développement comme antifongiques. Cette famille de fongicides est notamment utilisée pour lutter contre Botrytis cinerea, champignon phytopathogène responsable de la pourriture grise sur de nombreuses cultures dont la vigne. Des souches résistantes aux SDHI ont été isolées chez B. cinerea et d’autres champignons phytopathogènes. Chez ces isolats résistants, des mutations ont été identifiées dans les gènes codant la SDH. Au cours de cette thèse, nous avons étudié l’impact de mutations affectant la sous-unité B (SdhB) de la succinate déshydrogénase sur l’activité de l’enzyme, la biologie du champignon B. cinerea et la résistance aux inhibiteurs ciblant cette enzyme. Par mutagénèse dirigée du gène sdhB, nous avons obtenu des mutants dits « isogéniques » qui ont permis de confirmer l’implication de ces mutations dans la résistance aux différentes molécules SDHI. Par ailleurs, nos résultats montrent que les modifications de la sous-unité SdhB affectent l’affinité des SDHI pour la SDH et les niveaux d’inhibition de l’activité SDH par les molécules inhibitrices ; ce qui explique - in fine - les spectres de résistance des mutants aux SDHI. Actuellement, tous les mutants sont résistants au boscalid et les mutants les plus fréquemment retrouvés au vignoble, sdhBH272R/Y, sont sensibles au fluopyram. Les travaux réalisés sur les mutants sdhB montrent que les mutations étudiées ont également un impact sur l’activité de l’enzyme et sur le développement du champignon, conséquences dépendantes du résidu substitué et de la substitution. En particulier, les mutations sdhBH272L/R affectent fortement l’activité de l’enzyme et la fitness du champignon alors que le mutant sdhBH272Y est peu affecté. Enfin, l’analyse de populations de pourriture grise de différentes origines (région, plantes hôtes) par rapport à la résistance aux SDHI réalisée sur les années 2009/2010 montre que les mutants sdhBH272R/Y sont toujours les plus fréquents mais leurs fréquences varient en fonction des situations agronomiques. Notamment la fréquence du mutant sdhBH272R augmente avec la pression de sélection exercée par les fongicides. Ce mutant attire particulièrement notre attention du fait de sa relation non linéaire entre fitness et fréquence au champ. / Succinate dehydrogenase is both a key enzyme of the TCA cycle, oxidizing succinate into fumarate and complex II of the mitochondrial respiratory chain involved in electron transfer and ubiquinone reduction. Inhibitors of this enzyme (SDHIs) have been developed or are in the developmental process as fungicides. Actually, SDHIs are registered to deal with Botrytis cinerea, a phytopathogenic fungus responsible for grey mold on many crops including grapevine. Strains of B. cinerea and other pathogenic fungi have been isolated for their resistance to SDHI. They mainly harbor mutations in genes encoding SDH subunits. During this thesis, we studied the impact of mutations modifying subunit B of succinate dehydrogenase on enzyme activity, fungal biology and resistance to SDHIs. “Isogenic” mutants obtained through site-directed mutagenesis and homologous recombination allowed us to confirm the role of sdhB mutations in SDHIs resistance. Our results also show that the substitutions in the SdhB subunit impact respectively the affinity of SDHIs to SDH and the inhibition levels of SDH activity by inhibitors, which explain – in fine – the resistance spectra observed for the mutants. Up to now, all sdhB mutants are resistant to boscalid and the most frequent mutants observed in grapevines, sdhBH272R/Y, are susceptible to fluopyram. Studies on sdhB mutants reveal that the mutations also impact the enzymatic activity and the fungal development depending on the substitution. In particular, sdhBH272L/R mutations have the strongest impact on enzyme activity and the fitness of the fungus, whereas these parameters are almost not altered in the sdhBH272Y mutant. Finally, grey mold populations from different origins (country, plant host) were analyzed for their SDHI resistance pheno- and genotypes. Yet, the sdhBH272R/Y mutants were the most frequent, but these frequencies varied according to the agronomical situation. Interestingly, the frequencies of the sdhBH272R mutant seem to increase with the selective pressure exerted by fungicides. This mutant is of particular interest because of the absence of correlation between the fitness we measured and the frequencies we observed in natura. Activité enzymatique Respiration Affinitérésistance aux fongicides Botrytis cinerea Fitness Traits de vie ,population Enzyme activity Respiration Affinity Fungicide resistance Succinate-dehydrogenase inhibitors Fitness cost Grey mold Population
18	A multiscale framework for microbial evolution to identify the emergence of antibiotic resistance Ton, Anh-Tien 08 1900 (has links) No description available. Résistance aux antibiotiques Évolution Paysage d'aptitude Modèle évolutif Balayage mutationnel profond Coût d’aptitude Antibiotic resistance Evolution Fitness landscape Evolutionary model Deep mutational scanning Fitness cost

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