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A KDPG sensor RccR governs Pseudomonas aeruginosa carbon metabolism and aminoglycoside antibiotic tolerance

Nucleic Acids Res .. 2023-12; 
Yujue Wang , Zhipeng Wang , Weizhong Chen , Ze-Hui Ren , Hui Gao , Jiani Dai , Guan-Zheng Luo , Zhaowei Wu , Quanjiang Ji
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Molecular Biology Reagents To introduce certain residue substitution in RccR, mutations were created on the pACRISPR-NN2-rccR plasmid by circular polymerase extension cloning (CPEC) (21) using 2× Taq Master Mix (GenScript) Get A Quote

摘要

Pseudomonas aeruginosa harbors sophisticated transcription factor (TF) networks to coordinately regulate cellular metabolic states for rapidly adapting to changing environments. The extraordinary capacity in fine-tuning the metabolic states enables its success in tolerance to antibiotics and evading host immune defenses. However, the linkage among transcriptional regulation, metabolic states and antibiotic tolerance in P. aeruginosa remains largely unclear. By screening the P. aeruginosa TF mutant library constructed by CRISPR/Cas12k-guided transposase, we identify that rccR (PA5438) is a major genetic determinant in aminoglycoside antibiotic tolerance, the deletion of which substantially enhances bacterial tol... More

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