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Explore scientific publications on antimicrobial resistance
Explore scientific publications on antimicrobial resistance
Key Findings
The study identifies multiple genes and mutations that contribute to antibiotic tolerance in E. coli, revealing a large mutational target size for increasing drug resistance. Key findings include the role of genes involved in electron transport, flagella synthesis, and efflux pumps in modulating susceptibility to various antibiotics.
Ampicillin |
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Reslit |
| - |
| blaROB | 1 | Transcriptional activator | PiperacillinDoxycyclineTetracyclineNalidixic acid |
| Reslit | - |
| crrB | 1 | Enzyme IICBGlc | Amikacin |
| Reslit | - |
| folM | 1 | Dihydrofolate reductase | SulfamonomethoxineTrimethoprim |
| Reslit | - |
| folX | 1 | Dihydropteroate synthase | SulfamonomethoxineTrimethoprim |
| Reslit | - |
| mltB | 1 | Membrane-bound lytic murein transglycosylase | Ampicillin |
| Reslit | - |
| nuoG | 1 | NADH dehydrogenase subunit | Amikacin |
| Reslit | - |
| ptsH | 1 | Phosphoenolpyruvate--protein phosphotransferase | Amikacin |
| Reslit | - |
| ptsI | 1 | Enzyme IIAGlc | Amikacin |
| Reslit | - |
| sapD | 1 | Potassium transporter | PiperacillinDoxycyclineTetracyclineNalidixic acid |
| Reslit | - |
| trkA | 1 | Potassium transporter | PiperacillinDoxycyclineTetracyclineNalidixic acid |
| Reslit | - |
| trkH | 1 | Potassium transporter | PiperacillinDoxycyclineTetracyclineNalidixic acid |
| Reslit | - |
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