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544 related items for PubMed ID: 17023497

  • 1. Role of the CmeABC efflux pump in the emergence of fluoroquinolone-resistant Campylobacter under selection pressure.
    Yan M, Sahin O, Lin J, Zhang Q.
    J Antimicrob Chemother; 2006 Dec; 58(6):1154-9. PubMed ID: 17023497
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  • 2. Role of efflux pumps and topoisomerase mutations in fluoroquinolone resistance in Campylobacter jejuni and Campylobacter coli.
    Ge B, McDermott PF, White DG, Meng J.
    Antimicrob Agents Chemother; 2005 Aug; 49(8):3347-54. PubMed ID: 16048946
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  • 6. The acquisition of full fluoroquinolone resistance in Salmonella Typhi by accumulation of point mutations in the topoisomerase targets.
    Turner AK, Nair S, Wain J.
    J Antimicrob Chemother; 2006 Oct; 58(4):733-40. PubMed ID: 16895934
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  • 7. Regulation of the expression of the CmeABC efflux pump in Campylobacter jejuni: identification of a point mutation abolishing the binding of the CmeR repressor in an in vitro-selected multidrug-resistant mutant.
    Cagliero C, Maurel MC, Cloeckaert A, Payot S.
    FEMS Microbiol Lett; 2007 Feb; 267(1):89-94. PubMed ID: 17166222
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  • 9. Evidence for multiple-antibiotic resistance in Campylobacter jejuni not mediated by CmeB or CmeF.
    Pumbwe L, Randall LP, Woodward MJ, Piddock LJ.
    Antimicrob Agents Chemother; 2005 Apr; 49(4):1289-93. PubMed ID: 15793099
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  • 12. Role of type II topoisomerase mutations and AcrAB efflux pump in fluoroquinolone-resistant clinical isolates of Proteus mirabilis.
    Saito R, Sato K, Kumita W, Inami N, Nishiyama H, Okamura N, Moriya K, Koike K.
    J Antimicrob Chemother; 2006 Sep; 58(3):673-7. PubMed ID: 16870650
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  • 13. Evaluation of quinolone resistance-determining region mutations and efflux pump expression in Neisseria meningitidis resistant to fluoroquinolones.
    Castanheira M, Deshpande LM, Jones RN, Farrell DJ.
    Diagn Microbiol Infect Dis; 2012 Mar; 72(3):263-6. PubMed ID: 22321998
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  • 14. Expression of the efflux pump genes cmeB, cmeF and the porin gene porA in multiple-antibiotic-resistant Campylobacter jejuni.
    Pumbwe L, Randall LP, Woodward MJ, Piddock LJ.
    J Antimicrob Chemother; 2004 Aug; 54(2):341-7. PubMed ID: 15201231
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  • 15. Interaction of CmeABC and CmeDEF in conferring antimicrobial resistance and maintaining cell viability in Campylobacter jejuni.
    Akiba M, Lin J, Barton YW, Zhang Q.
    J Antimicrob Chemother; 2006 Jan; 57(1):52-60. PubMed ID: 16303882
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  • 16. The role of intra- and extragenic compensatory mutations in the suppression of fluoroquinolone resistance in a Salmonella Typhimurium gyrA mutant (D87G).
    Preisler A, Heisig P.
    J Antimicrob Chemother; 2009 Feb; 63(2):290-4. PubMed ID: 19033246
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  • 17. Patterns of quinolone susceptibility in Campylobacter jejuni associated with different gyrA mutations.
    McIver C, Hogan T, White P, Tapsall J.
    Pathology; 2004 Apr; 36(2):166-9. PubMed ID: 15203753
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  • 18. Droplet Digital PCR-Based Detection and Quantification of GyrA Thr-86-Ile Mutation Based Fluoroquinolone-Resistant Campylobacter jejuni.
    Luo Y, Zhang W, Cheng Y, Lu Q, Guo Y, Wen G, Shao H, Cheng Z, Luo Q, Zhang T.
    Microbiol Spectr; 2022 Apr 27; 10(2):e0276921. PubMed ID: 35412390
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  • 19. Two distinct mutations in gyrA lead to ciprofloxacin and nalidixic acid resistance in Campylobacter coli and Campylobacter jejuni isolated from chickens and beef cattle.
    Jesse TW, Englen MD, Pittenger-Alley LG, Fedorka-Cray PJ.
    J Appl Microbiol; 2006 Apr 27; 100(4):682-8. PubMed ID: 16553723
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  • 20. Fluoroquinolone-resistant Brucella melitensis mutants obtained in vitro.
    Lázaro FG, Rodríguez-Tarazona RE, García-Rodríguez JA, Muñoz-Bellido JL.
    Int J Antimicrob Agents; 2009 Sep 27; 34(3):252-4. PubMed ID: 19243922
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