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91). Nearly 6.37% of TBP hospitalizations also had active pulmonary TB. Conclusion Although TBP is uncommon in the United States, it should be considered in patients presenting with abdominal pain and fever and a history of HIV, continuous peritoneal dialysis, malnutrition, liver cirrhosis, or liver cirrhosis sequelae.Background Mycobacterium smegmatis and other nontuberculous mycobacteria (NTM) are widely distributed in the environment, but a significant increase of NTM infections has taken place in the last few decades. The objective of this study was to determine the role of toxin-antitoxin (TA) vapBC and mazEF systems that act as effectors of persistence in the stress response of NTM. Methods The growth ability and the biofilm formation of NTM were evaluated by conventional methods. Bacterial cell viability was determined using MTT staining, agar plating, or the method of limiting dilutions. The minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of antibiotics were estimated using broth and agar dilution methods. Results Despite a comparable growth dynamics and biofilm formation on solid/liquid interface with the wild type, a M. smegmatis vapBC, mazEF, and vapBC × mazEF deletion mutant produced more abundant pellicle and were more susceptible to heat shock. Significant differences were also found in the resistance wild type of NTM to isoniazid and ciprofloxacin reflected by higher MBC/MIC ratios. The proposed method of cultivation of agar blocks without visible growth after MIC determination into a liquid medium allows us to detect transition of all wild type of NTM strains to a dormant state in the presence of subMICs of isoniazid and ciprofloxacin while all deletion mutants failed to form dormant cells. Conclusion Our data suggest that both vapBC and mazEF TA systems putatively involved in the heat and antibiotic stress response of NTM via their key role in transition to the dormant state.Background Tuberculosis (TB), has been serious disease to the global human population causing millions of deaths worldwide. The recent increase in the number of multi-drug resistant clinical isolates of Mycobacterium tuberculosis has created an urgent need for the discovery and development of new anti-TB drugs. Medicinal plants have had a great influence on the daily lives of people living in developing countries, particularly in India. Medicinal plants were selected, and they were evaluated for its anti-TB activity against the pathogenic strain of M. tuberculosis H37Rv. Methods Eleven medicinal plants were selected on the basis of its literature survey, and three different extracts were prepared. Antimycobacterial activities were screened using two in vitro assays, namely agar dilution assay and microplate resazurin assay against M. tuberculosis H37Rv at different concentrations of prepared extracts. We analyzed minimal inhibition concentrations and percentage of inhibition of the used strain of Mycobacteria. Isoniazid was used as a standard anti-TB drug. Results The results of this study showed that aqueous extracts four selected medicinal plants Ocimum sanctum, Adhatoda vasica, Leptadenia reticulata, and Cocculus hirsutus having minimum inhibitory concentration at 500 μg/ml, 500 μg/ml, 250 μg/ml, and 250 μg/ml, respectively, and O. sanctum (60.24%), A. vasica (62.89%), L. reticulata (74.26%), and C. hirsutus (81.67%) showed significant anti-TB activity against M. tuberculosis. Conclusion This study helps society to found new anti-TB agents having better anti-TB activity with lesser or no side effects.Background Pulmonary mycosis (PM) poses a great diagnostic challenge due to the lack of pathognomonic and radiological features, especially in the absence of mycology laboratory tests. This study was aimed to isolate, phenotypically identify, determine the prevalence of pulmonary fungal pathogens and antifungal susceptibility pattern of isolates of presumptive tuberculosis (PTB) patients attending Federal Teaching Hospital (FTH) Gombe, Nigeria. Methods After ethical approval, three consecutive early morning sputa were collected from 216 participants with presumptive of PTB attending FTH Gombe, between May 2, 2017 and May 30, 2018. Samples were processed using standard mycological staining, microscopy, sugar biochemistry, and antifungal susceptibility test protocols. Sociodemographic variables and risk factors of pulmonary fungal infection were assessed through structured questionnaires. Pulmonary fungal infection was defined by the positive culture in at least two sputa. PTB was defined by Genexpert® nested pnt to fluconazole. It's recommended that persons should do away with or minimize risk factors for pulmonary fungal pathogens identified in this study.Background Polyamines are widespread intracellular molecules able to influence antibiotic susceptibility, but almost nothing is known on their occurrence and physiological role in mycobacteria. Methods here, we analyzed transcriptomic, proteomic and biochemical data and obtained the first evidence for the post-transcriptional expression of some genes attributed to polyamine metabolism and polyamine transport in Mycolicibacterium smegmatis (basionym Mycobacterium smegmatis). Results in our experiments, exponentially growing cells demonstrated transcription of 21 polyamine-associated genes and possessed 7 enzymes of polyamine metabolism and 2 polyamine transport proteins. Conclusion Mycolicibacterium smegmatis putrescine synthesizing enzyme agmatinase SpeB was originally shown to catalyze agmatine conversion to putrescine in vitro. Nevertheless, we have not found any polyamines in mycobacterial cells.Background Rifampicin (RIF) resistance in Mycobacterium tuberculosis is frequently caused by mutations in the rpoB gene. These mutations are associated with a fitness cost, which can be overcome by compensatory mutations in other genes, among which rpoC may be the most important. We analyzed 469 Peruvian M. ASP2215 cell line tuberculosis clinical isolates to identify compensatory mutations in rpoC/rpoA associated with RIF resistance. Methods The M. tuberculosis isolates were collected and tested for RIF susceptibility and spoligotyping. Samples were sequenced and aligned to the reference genome to identify mutations. By analyzing the sequences and the metadata, we identified a list of rpoC mutations exclusively associated with RIF resistance and mutations in rpoB. We then evaluated the distribution of these mutations along the protein sequence and tridimensional structure. Results One hundred and twenty-five strains were RIF susceptible and 346 were resistant. We identified 35 potential new compensatory mutations, some of which were distributed on the interface surface between rpoB and rpoC, arising in clusters and suggesting the presence of hotspots for compensatory mutations.
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