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The Escherichia coli Keio mutant collection has been a tool for assessing the role of specific genes and determining their role in E. coli physiology and uncovering novel functions. In this work, specific mutants in the DNA repair pathways and oxidative stress response were evaluated to identify the primary targets of silver nanoparticles (NPs) and their mechanism of action. The results presented in this work suggest that NPs mainly target DNA via double-strand breaks and base modifications since the recA, uvrC, mutL, and nfo mutants rendered the most susceptible phenotype, rather than involving the oxidative stress response. Concomitantly, during the establishment of the control conditions for each mutant, the katG and sodA mutants showed a hypersensitive phenotype to mitomycin C, an alkylating agent. Thus, we propose that KatG catalase plays a key role as a cellular chaperone, as reported previously for the filamentous fungus Neurospora crassa, a large subunit catalase. The Keio collection mutants may also be a key tool for assessing the resistance mechanism to metallic NPs by using their potential to identify novel pathways involved in the resistance to NPs.

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In this work, the binding mechanism of new Polyketide Synthase 13 (Pks13) inhibitors has been studied through molecular dynamics simulation and free energy calculations. The drug Tam1 and its analogs, belonging to the benzofuran class, were submitted to 100 ns simulations, and according to the results obtained for root mean square deviation, all the simulations converged from approximately 30 ns. For the analysis of backbone flotation, the root mean square fluctuations were plotted for the Cα atoms; analysis revealed that the greatest fluctuation occurred in the residues that are part of the protein lid domain. The binding free energy value (ΔGbind) obtained for the Tam16 lead molecule was of -51.43 kcal/mol. When comparing this result with the ΔGbind values for the remaining analogs, the drug Tam16 was found to be the highest ranked: this result is in agreement with the experimental results obtained by Aggarwal and collaborators, where it was verified that the IC50 for Tam16 is the smallest necessary to inhibit the Pks13 (IC50 = 0.19 µM). The energy decomposition analysis suggested that the residues which most interact with inhibitors are: Ser1636, Tyr1637, Asn1640, Ala1667, Phe1670, and Tyr1674, from which the greatest energy contribution to Phe1670 was particularly notable. For the lead molecule Tam16, a hydrogen bond with the hydroxyl of the phenol not observed in the other analogs induced a more stable molecular structure. Aggarwal and colleagues reported this hydrogen bonding as being responsible for the stability of the molecule, optimizing its physic-chemical, toxicological, and pharmacokinetic properties.

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INTRODUCTION: Previous knowledge of molecular mechanisms related with multi-drug resistances in tuberculosis is important if molecular diagnostic procedures want to be used in specific geographical regions. For that reason, the aim of this study was to investigate the mutations at rpoB, katG and inhA in multi-drug resistant tuberculosis isolates from Southeast Mexico. METHODS: Isolates of tuberculosis with a confirmed resistance against rifampicin and isoniazid were collected and sequencing analysis was performed of the rpoB rifampicin resistance-determining region, the katG and the encoding region of inhA. RESULT: Of 74 isolates with multidrug resistance, 34 (46%) presented six mutations in katG; the most abundant was katG315 in 29 (39%) isolates. At inhA, nine (11%) isolates presented three mutations; the most frequent was inhA21, located in five (6%) strains. Eleven polymorphisms were observed at rpoB in 61 (82%) isolates, prevailing rpoB531 and rpoB 526 in 48 (64%) and ten (12%) isolates, respectively. Eleven double combinations were observed in 39 (52%) isolates, the most common of which was rpoB531+katG315, found in 22 (29%) strains. CONCLUSION: This study provides valuable information on the diversity of polymorphisms in genes related to multidrug-resistant tuberculosis, as well as the presence of new mutations not previously described; this information should be considered in the implementation of molecular diagnostic tests.

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Objetivo: determinar la mutación S315T del gen katG en aislados de Mycobacterium tuberculosis resistentes a isoniacida mediante la técnica PCR-RFLP. Materiales y métodos: A partir de 68 aislados de Mycobacterium tuberculosis se realizó el análisis de polimorfismo en productos de amplificación de 1054 y 630 pb que contenían la mutación S315T del gen katG mediante PCR-RFLP empleando las enzimas de restricción MspI y SatI. Mediante SPSS se determinó sensibilidad, especificidad, valores predictivo positivo y negativo, coeficientes de probabilidad positivo y negativo. Resultados: El 74,46% de aislados fenotípicamente resistentes y 4,76% fenotípicamente sensibles presentaron la mutación del gen katG S315T. La PCR-RFLP para S315T del gen katG presentó 85,4% de sensibilidad y 95,2% de especificidad con MspI y 85,4% de sensibilidad y 94,4% de especificidad con SatI. Discusión: La PCR-RFLP tiene una alta capacidad resolutiva que depende de la enzima que se emplee como se observó en estudios previos. La presencia de la mutación S315T en pacientes vírgenes al tratamiento sugiere la circulación de aislados resistentes a Isoniacida. Conclusión: La PCR-RFLP resultó una alternativa válida y rápida para el diagnóstico de la resistencia a isoniacida, mediante la detección de la mutación S315T del gen katG en comparación con el método convencional de las proporciones.

Objetive: To determine the S315T mutation of the katG gene in Mycobacterium tuberculosis isoniazid-resistant isolates by PCR-RFLP. Materials and Methods: Polymorphism analysis of 1054 and 630 bp products containing the S315T mutation of the katG gene was performed by PCR-RFLP using the MspI and SatI restriction enzymes from 68 Mycobacterium tuberculosis isolates. Sensitivity, specificity, positive and negative predictive values, positive and negative likelihood ratio were determined using SPSS. Results: 74.46% of isoniazid-resistant and 4.76% of isoniazid-sensitive isolates showed the S315T mutation in katG gene. The PCR-RFLP for S315T of the katG gene had 85.4% sensitivity and 95.2% specificity with MspI and 85.4% sensitivity and 94.4% specificity with SatI. Discussion: The PCR-RFLP has a high resolutive capacity that depends on the enzyme that is used as it was observed in previous studies. The presence of the S315T mutation in treatment-naive patients suggests the circulation of isolates resistant to isoniazid. Conclusion: PCR-RFLP is a valid and rapid alternative for the diagnosis of isoniazid resistance, by detection of S315T mutation in the katG gene compared to the conventional method of proportions.

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BACKGROUND: The projected long-term prevalence of multidrug-resistant (MDR) tuberculosis depends upon the relative fitness of MDR Mycobacterium tuberculosis strains, compared with non-MDR strains. While many experimental models have tested the in vitro or in vivo fitness costs of various drug resistance mutations, fewer epidemiologic studies have attempted to validate these experimental findings. METHODS: We performed a case-control study comparing drug resistance-associated mutations from MDR M. tuberculosis strains causing multiple cases in a household to matched MDR strains without evidence of secondary household cases. RESULTS: Eighty-eight multiple-case and 88 single-case household MDR strains were analyzed for 10 specific drug resistance-associated polymorphisms previously associated with fitness effects. We found that the isoniazid-resistant katG Ser315Thr mutation occurred more than twice as frequently in multiple-case households than in single-case households (odds ratio [OR], 2.39; 95% confidence interval [CI], 1.21-4.70), corroborating previous experimental findings. However, strains carrying both the katG Ser315Thr mutation and the rpsL Lys43Arg mutation were less likely to be found in multiple-case households (OR, 0.09; 95% CI, .01-.73), suggesting a negative epistatic interaction which contrasts previous findings. CONCLUSIONS: The case-control design presents a useful approach for assessing in vivo fitness effects of drug resistance mutations.

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BACKGROUND: Tuberculosis remains a serious global health problem involving one-third of the world population. A wide diversity of Mycobacterium tuberculosis strains cause about 1.5 million deaths/year worldwide, but in developing countries, the genetic diversity of M. tuberculosis strains remains largely unknown. We conducted a first insight into the population diversity of M. tuberculosis strains from Tamaulipas, Mexico. METHODS: Seventy-two M. tuberculosis strains were identified and genetic diversity determined by spoligotyping. Drug sensibility testing and punctual mutations in inhA, ahpC, rpoB, and katG genes were assessed. RESULTS: Spoligotyping analysis showed a higher prevalence of LAM9 > T1 > Haarlem3 subfamilies among 53 spoligotype patterns. Unexpectedly, five Beijing strains conforming four unique spoligopatterns were recovered. The more frequently isolated strains (LAM9 and T1), but none of the Beijing strains, were found resistant to INH or RIF. Also, no drug resistance was found among Haarlem3 isolates. The katG(315) gene mutation was found in 83% of INH-resistant strains, whereas rpoB(526) were associated in only 43% of RIF M. tuberculosis drug-resistant strains. CONCLUSIONS: This and other studies report a high rate of orphan spoligotypes, which highlights the need for genotyping implementation as a routine technique for better understanding of M. tuberculosis strains in developing countries such as Mexico.

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Drug resistance is one of the major concerns regarding tuberculosis (TB) infection worldwide because it hampers control of the disease. Understanding the underlying mechanisms responsible for drug resistance development is of the highest importance. To investigate clinical data from drug-resistant TB patients at the Tropical Diseases Hospital, Goiás (GO), Brazil and to evaluate the molecular basis of rifampin (R) and isoniazid (H) resistance in Mycobacterium tuberculosis. Drug susceptibility testing was performed on 124 isolates from 100 patients and 24 isolates displayed resistance to R and/or H. Molecular analysis of drug resistance was performed by partial sequencing of the rpoB and katGgenes and analysis of the inhA promoter region. Similarity analysis of isolates was performed by 15 loci mycobacterial interspersed repetitive unit-variable number tandem repeat (MIRU-VNTR) typing. The molecular basis of drug resistance among the 24 isolates from 16 patients was confirmed in 18 isolates. Different susceptibility profiles among the isolates from the same individual were observed in five patients; using MIRU-VNTR, we have shown that those isolates were not genetically identical, with differences in one to three loci within the 15 analysed loci. Drug-resistant TB in GO is caused by M. tuberculosis strains with mutations in previously described sites of known genes and some patients harbour a mixed phenotype infection as a consequence of a single infective event; however, further and broader investigations are needed to support our findings.

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Mutations in the katG gene have been identified and correlated with isoniazid (INH) resistance in Mycobacterium tuberculosis isolates. The mutation AGC→ACC (Ser→Thr) at katG315 has been reported to be the most frequent and is associated with transmission and multidrug resistance. Rapid detection of this mutation could therefore improve the choice of an adequate anti-tuberculosis regimen, the epidemiological monitoring of INH resistance and, possibly, the tracking of transmission of resistant strains. An in house reverse hybridisation assay was designed in our laboratory and evaluated with 180 isolates of M. tuberculosis. It could successfully characterise the katG315 mutation in 100 percent of the samples as compared to DNA sequencing. The test is efficient and is a promising alternative for the rapid identification of INH resistance in regions with a high prevalence of katG315 mutants.

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Objetivo: Evaluar la sensibilidad y especificidad de la genotipificación, como instrumento de diagnóstico rápido y confiable parala detección de mutaciones en los genes rpoß y katG asociados a resistencia,en cepas de Mycobacterium tuberculosis de Bolivia.Diseño: Test Diagnóstico Metodología: Las cepas analizadas fueron aisladas y enviadas por los diferentes Laboratorios de la Red Nacional de Diagnósticode Tuberculosis de Bolivia entre febrero y diciembre de 2007. La muestra para el presente estudio estuvo constituida por un totalde 65 aislamientos previamente caracterizados por métodos fenotípicos de cultivo y pruebas de sensibilidad a la RIF e INH, porel método de las proporciones Canetti-Rist. La genotipificación ha sido realizada utilizando el kit Genotype MTBDR, basado enla utilización de métodos de amplificación e hibridización, para detectar mutaciones a nivel de los marcadores de resistencia rpoßy katG.Resultados: Se procedió al cálculo de la sensibilidad y especificidad de la prueba de diagnóstico; además de los valores predictivospositivo y negativo. Dicho análisis muestra los siguientes resultados: sensibilidad 74...

Objective:To evaluate the sensitivity and specificity of genotyping as a tool for rapid and reliable detection of mutations in rpoß and katG genes associated with resistance in Mycobacterium tuberculosisstrains from Bolivia. Design:Diagnostic Test Methodology: The strains analyzed were isolated and submitted by different laboratories of the National Network for Diagnosisof Tuberculosis of Bolivia between February and December 2007. The sample for this study consisted of 65 isolates previousl y characterized by phenotypic methods of culture and sensitivity testing to RIF and INH by the Canetti-Rist proportion method. Genotyping of these samples has been done using the MTBDR Genotype kit, according to amplification and hybridization methodsto detect mutations at the rpoß and katG resistance markers.Results:The sensitivity and specificity of the diagnostic tests were calculated, as well as the positive and negative predictivevalues. This analysis shows the following results: sensitivity 74%, specificity 92%, positive predictive value 92%, and negative predictive value 73%. Conclusions: The genotyping test using Genotype MTBDR, meeting validation criteria for a diagnostic test study in our country,constitutes a quick, useful and reliable tool for use in diagnosis and routine determination of sensitivity and resistance in MTBCstrains.

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