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Journal Abstract Search

98 related items for PubMed ID: 24100886

  • 1. Transcriptomic study of ciprofloxacin resistance in Streptomyces coelicolor A3(2).
    Patkari M, Mehra S.
    Mol Biosyst; 2013 Dec; 9(12):3101-16. PubMed ID: 24100886
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  • 2. Distinct transcriptomic response of S. coelicolor to ciprofloxacin in a nutrient-rich environment.
    Patkari M, Kumbhar C, Nag A, Mehra S.
    Appl Microbiol Biotechnol; 2018 Dec; 102(24):10623-10643. PubMed ID: 30327831
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  • 3. Proteomic analysis of Streptomyces coelicolor in response to Ciprofloxacin challenge.
    Rao AA, Patkari M, Reddy PJ, Srivastava R, Pendharkar N, Rapole S, Mehra S, Srivastava S.
    J Proteomics; 2014 Jan 31; 97():222-34. PubMed ID: 23994098
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  • 5. The WblC/WhiB7 Transcription Factor Controls Intrinsic Resistance to Translation-Targeting Antibiotics by Altering Ribosome Composition.
    Lee JH, Yoo JS, Kim Y, Kim JS, Lee EJ, Roe JH.
    mBio; 2020 Apr 14; 11(2):. PubMed ID: 32291305
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  • 6. A possible mechanism for lincomycin induction of secondary metabolism in Streptomyces coelicolor A3(2).
    Ishizuka M, Imai Y, Mukai K, Shimono K, Hamauzu R, Ochi K, Hosaka T.
    Antonie Van Leeuwenhoek; 2018 May 14; 111(5):705-716. PubMed ID: 29372424
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  • 7. Sublethal ciprofloxacin treatment leads to resistance via antioxidant systems in Proteus mirabilis.
    Aiassa V, Barnes AI, Smania AM, Albesa I.
    FEMS Microbiol Lett; 2012 Feb 14; 327(1):25-32. PubMed ID: 22092852
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  • 8. Transcriptional response to vancomycin in a highly vancomycin-resistant Streptomyces coelicolor mutant.
    Santos-Beneit F, Fernández-Martínez LT, Rodríguez-García A, Martín-Martín S, Ordóñez-Robles M, Yagüe P, Manteca A, Martín JF.
    Future Microbiol; 2014 Feb 14; 9(5):603-22. PubMed ID: 24957088
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  • 14. Induction of a stable sigma factor SigR by translation-inhibiting antibiotics confers resistance to antibiotics.
    Yoo JS, Oh GS, Ryoo S, Roe JH.
    Sci Rep; 2016 Jun 27; 6():28628. PubMed ID: 27346454
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  • 15. The evolution of no-cost resistance at sub-MIC concentrations of streptomycin in Streptomyces coelicolor.
    Westhoff S, van Leeuwe TM, Qachach O, Zhang Z, van Wezel GP, Rozen DE.
    ISME J; 2017 May 27; 11(5):1168-1178. PubMed ID: 28094796
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  • 16. Involvement of the SCO3366 efflux pump from S. coelicolor in rifampicin resistance and its regulation by a TetR regulator.
    Nag A, Mehra S.
    Appl Microbiol Biotechnol; 2022 Mar 27; 106(5-6):2175-2190. PubMed ID: 35194656
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  • 17. Bactericidal activity and target preference of a piperazinyl-cross-linked ciprofloxacin dimer with Staphylococcus aureus and Escherichia coli.
    Zhao X, Quinn B, Kerns R, Drlica K.
    J Antimicrob Chemother; 2006 Dec 27; 58(6):1283-6. PubMed ID: 17003060
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  • 18. Analysis of mechanisms involved in reduced susceptibility to ciprofloxacin in Salmonella enterica serotypes Typhi and Paratyphi A isolates from travellers to Southeast Asia.
    Hassing RJ, Menezes GA, van Pelt W, Petit PL, van Genderen PJ, Goessens WH.
    Int J Antimicrob Agents; 2011 Mar 27; 37(3):240-3. PubMed ID: 21227657
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  • 19. Production of specialized metabolites by Streptomyces coelicolor A3(2).
    van Keulen G, Dyson PJ.
    Adv Appl Microbiol; 2014 Mar 27; 89():217-66. PubMed ID: 25131404
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