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Journal Abstract Search

184 related items for PubMed ID: 34310207

  • 1. Kinetic and Structural Characterization of the First B3 Metallo-β-Lactamase with an Active-Site Glutamic Acid.
    Wilson LA, Knaven EG, Morris MT, Monteiro Pedroso M, Schofield CJ, Brück TB, Boden M, Waite DW, Hugenholtz P, Guddat L, Schenk G.
    Antimicrob Agents Chemother; 2021 Sep 17; 65(10):e0093621. PubMed ID: 34310207
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  • 2. 4-Amino-2-Sulfanylbenzoic Acid as a Potent Subclass B3 Metallo-β-Lactamase-Specific Inhibitor Applicable for Distinguishing Metallo-β-Lactamase Subclasses.
    Wachino JI, Kanechi R, Nishino E, Mochizuki M, Jin W, Kimura K, Kurosaki H, Arakawa Y.
    Antimicrob Agents Chemother; 2019 Oct 17; 63(10):. PubMed ID: 31405855
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  • 3. Structural insights into the subclass B3 metallo-β-lactamase SMB-1 and the mode of inhibition by the common metallo-β-lactamase inhibitor mercaptoacetate.
    Wachino J, Yamaguchi Y, Mori S, Kurosaki H, Arakawa Y, Shibayama K.
    Antimicrob Agents Chemother; 2013 Jan 17; 57(1):101-9. PubMed ID: 23070156
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  • 4. Crystal structure of the mobile metallo-β-lactamase AIM-1 from Pseudomonas aeruginosa: insights into antibiotic binding and the role of Gln157.
    Leiros HK, Borra PS, Brandsdal BO, Edvardsen KS, Spencer J, Walsh TR, Samuelsen O.
    Antimicrob Agents Chemother; 2012 Aug 17; 56(8):4341-53. PubMed ID: 22664968
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  • 5. Cross-class metallo-β-lactamase inhibition by bisthiazolidines reveals multiple binding modes.
    Hinchliffe P, González MM, Mojica MF, González JM, Castillo V, Saiz C, Kosmopoulou M, Tooke CL, Llarrull LI, Mahler G, Bonomo RA, Vila AJ, Spencer J.
    Proc Natl Acad Sci U S A; 2016 Jun 28; 113(26):E3745-54. PubMed ID: 27303030
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  • 6. Dual activity of PNGM-1 pinpoints the evolutionary origin of subclass B3 metallo-β-lactamases: a molecular and evolutionary study.
    Lee JH, Takahashi M, Jeon JH, Kang LW, Seki M, Park KS, Hong MK, Park YS, Kim TY, Karim AM, Lee JH, Nashimoto M, Lee SH.
    Emerg Microbes Infect; 2019 Jun 28; 8(1):1688-1700. PubMed ID: 31749408
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  • 7. Crystal Structure of the Metallo-β-Lactamase GOB in the Periplasmic Dizinc Form Reveals an Unusual Metal Site.
    Morán-Barrio J, Lisa MN, Larrieux N, Drusin SI, Viale AM, Moreno DM, Buschiazzo A, Vila AJ.
    Antimicrob Agents Chemother; 2016 Oct 28; 60(10):6013-22. PubMed ID: 27458232
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  • 8. Structural Insights for Core Scaffold and Substrate Specificity of B1, B2, and B3 Metallo-β-Lactamases.
    Yun Y, Han S, Park YS, Park H, Kim D, Kim Y, Kwon Y, Kim S, Lee JH, Jeon JH, Lee SH, Kang LW.
    Front Microbiol; 2021 Oct 28; 12():752535. PubMed ID: 35095785
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  • 10. Structural and Biochemical Characterization of Rm3, a Subclass B3 Metallo-β-Lactamase Identified from a Functional Metagenomic Study.
    Salimraj R, Zhang L, Hinchliffe P, Wellington EM, Brem J, Schofield CJ, Gaze WH, Spencer J.
    Antimicrob Agents Chemother; 2016 Oct 28; 60(10):5828-40. PubMed ID: 27431213
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  • 11. 2-Mercaptomethyl Thiazolidines (MMTZs) Inhibit All Metallo-β-Lactamase Classes by Maintaining a Conserved Binding Mode.
    Hinchliffe P, Moreno DM, Rossi MA, Mojica MF, Martinez V, Villamil V, Spellberg B, Drusano GL, Banchio C, Mahler G, Bonomo RA, Vila AJ, Spencer J.
    ACS Infect Dis; 2021 Sep 10; 7(9):2697-2706. PubMed ID: 34355567
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  • 12. Suppression of β-Lactam Resistance by Aspergillomarasmine A Is Influenced by both the Metallo-β-Lactamase Target and the Antibiotic Partner.
    Rotondo CM, Sychantha D, Koteva K, Wright GD.
    Antimicrob Agents Chemother; 2020 Mar 24; 64(4):. PubMed ID: 31932375
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  • 15. Chromophore-linked substrate (CLS405): probing metallo-β-lactamase activity and inhibition.
    Makena A, van Berkel SS, Lejeune C, Owens RJ, Verma A, Salimraj R, Spencer J, Brem J, Schofield CJ.
    ChemMedChem; 2013 Dec 24; 8(12):1923-9. PubMed ID: 24166830
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  • 17. The Continuing Challenge of Metallo-β-Lactamase Inhibition: Mechanism Matters.
    Ju LC, Cheng Z, Fast W, Bonomo RA, Crowder MW.
    Trends Pharmacol Sci; 2018 Jul 24; 39(7):635-647. PubMed ID: 29680579
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