AI Article Synopsis
- Typhoid fever is primarily spread through contaminated food and water, with poor sanitation being a significant factor, and the bacteria responsible have developed resistance to many antibiotics, complicating treatment efforts.
- This study collected 80 clinical isolates to investigate the molecular basis of fluoroquinolone resistance, confirming that 60% of these isolates were resistant to ciprofloxacin, a common treatment.
- Key mutations were found in specific bacterial genes, affecting drug binding and resistance mechanisms, indicating a need for further experimental studies to create effective treatments for antibiotic-resistant typhoid.
Article Abstract
spreads typhoid infection in humans through the consumption of contaminated food and water. Poor sanitation plays a pivotal role in its dissemination. Over time, the bacterium has acquired resistance to many promising antibiotics, posing a growing global health concern and hindering the achievement of sustainable development goals. This study aims to elucidate the molecular complexity of fluoroquinolone resistance, a first-line treatment for typhoid infection. To achieve this aim, 80 clinical isolates were collected from various diagnostic laboratories. These isolates were confirmed based on morphological characteristics and biochemical tests. Multidrug-resistant (MDR) and extensively drug-resistant (XDR) isolates were identified using the Kirby-Bauer disc diffusion method. The mechanism of ciprofloxacin resistance was investigated by sequencing the quinolone resistance-determining region (QRDR) genes and identifying the presence of the gene. As a result of this study, 60 % of isolates showed resistance to ciprofloxacin. At the same time, gene was present in all the selected strains while mutation analysis identified significant mutation in QRDR of DNA gyrase subunit A ) and Topoisomerase IV () gene. The combinatorial effect was further investigated by downloading 286 draft genomes. The Mutation analysis reveals significant mutations at S83F D87N S83Y S464F S80I L416F. Additionally, docking analysis indicates reduced binding affinity and altered solvent accessibility, which show the structural changes at mutation sites. This study provides crucial insights that mutation reduces the binding affinity while acts as a transport channel to extrude the ciprofloxacin. In the future, further validation through experimental mutagenesis is recommended, for targeted therapeutic interventions against the mounting threat of antibiotic-resistant
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11470425 | PMC |
| http://dx.doi.org/10.1016/j.heliyon.2024.e38333 | DOI Listing |
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