M. Plattner scite author profile

R-type bacteriocins are minimal contractile nanomachines that hold promise as precision antibiotics 1 – 4 . Each bactericidal complex uses a collar to bridge a hollow tube with a contractile sheath loaded in a metastable state by a baseplate scaffold 1 , 2 . Fine-tuning of such nucleic acid-free protein machines for precision medicine calls for an atomic description of the entire complex and contraction mechanism, which is not available from baseplate structures of (DNA-containing) T4 bacteriophage 5 . Here we report the atomic model of the complete R2 pyocin in its pre- and post-contraction states, each containing 384 subunits of 11 unique atomic models of 10 gene products. Comparison of these structures suggests the sequence of events during pyocin contraction: tail fibers trigger lateral dissociation of baseplate triplexes; the dissociation then initiates a cascade of events leading to sheath contraction; this contraction converts chemical energy into mechanical force to drive the iron-tipped tube across the bacterial cell surface, killing the bacterium.

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Epidemiologic, Phenotypic, and Structural Characterization of Aminoglycoside-Resistance Gene aac(3)-IV

Plattner

Gysin

Haldimann

et al. 2020

IJMS

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Aminoglycoside antibiotics are powerful bactericidal therapeutics that are often used in the treatment of critical Gram-negative systemic infections. The emergence and global spread of antibiotic resistance, however, has compromised the clinical utility of aminoglycosides to an extent similar to that found for all other antibiotic-drug classes. Apramycin, a drug candidate currently in clinical development, was suggested as a next-generation aminoglycoside antibiotic with minimal cross-resistance to all other standard-of-care aminoglycosides. Here, we analyzed 591,140 pathogen genomes deposited in the NCBI National Database of Antibiotic Resistant Organisms (NDARO) for annotations of apramycin-resistance genes, and compared them to the genotypic prevalence of carbapenem resistance and 16S-rRNA methyltransferase (RMTase) genes. The 3-N-acetyltransferase gene aac(3)-IV was found to be the only apramycin-resistance gene of clinical relevance, at an average prevalence of 0.7%, which was four-fold lower than that of RMTase genes. In the important subpopulation of carbapenemase-positive isolates, aac(3)-IV was nine-fold less prevalent than RMTase genes. The phenotypic profiling of selected clinical isolates and recombinant strains expressing the aac(3)-IV gene confirmed resistance to not only apramycin, but also gentamicin, tobramycin, and paromomycin. Probing the structure–activity relationship of such substrate promiscuity by site-directed mutagenesis of the aminoglycoside-binding pocket in the acetyltransferase AAC(3)-IV revealed the molecular contacts to His124, Glu185, and Asp187 to be equally critical in binding to apramycin and gentamicin, whereas Asp67 was found to be a discriminating contact. Our findings suggest that aminoglycoside cross-resistance to apramycin in clinical isolates is limited to the substrate promiscuity of a single gene, rendering apramycin best-in-class for the coverage of carbapenem- and aminoglycoside-resistant bacterial infections.

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Feasibility of ¹H-High Resolution-Magic Angle Spinning NMR Spectroscopy in the Analysis of Viscous Cosmetic and Pharmaceutical Formulations

et al. 2013

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The feasibility of (1)H-High Resolution-Magic Angle Spinning (HR-MAS) nuclear magnetic resonance (NMR) spectroscopy for the direct analysis of viscous cosmetic and pharmaceutical formulations such as creams, gels, and pastes is presented. Three examples are described: (i) the detection of chitosan in toothpaste, (ii) the analysis of dexamethasone acetate (DMA) in a cream, and (iii) the analysis of the local anesthetics, lidocaine and prilocaine, in a gel and a cream. All active components could be directly detected in their original commercial formulations without the need for laborious sample preparation steps. In addition, the possibility for HR-MAS-based quantifications and the analysis of dynamic properties of active components in different formulations applying HR-MAS diffusion-ordered NMR spectroscopy are shown.

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Genotypic and phenotypic analyses of aac(3) aminoglycoside-resistance gene diversity point to three distinct phenotypes of contemporary clinical relevance

Plattner

Goyet

Haldimann

et al. 2022

Journal of Global Antimicrobial Resistance

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Apo crystal structure of the colanidase tailspike protein gp150 of Phage Phi92

Leiman¹,

Browning²,

Gerardy‐Schahn³

et al. 2015

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C-terminal domain of the R-type pyocin baseplate protein PA0618

Plattner¹,

Buth²,

Shneider³

et al. 2016

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Crystal structure of Bacteriophage CBA120 tailspike protein 3 (TSP3, orf212)

Plattner¹,

Shneider²,

Leiman³

2018

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12 3

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M. Plattner

Structure and Function of the Branched Receptor-Binding Complex of Bacteriophage CBA120

Action of a minimal contractile bactericidal nanomachine

Epidemiologic, Phenotypic, and Structural Characterization of Aminoglycoside-Resistance Gene aac(3)-IV

Feasibility of ¹H-High Resolution-Magic Angle Spinning NMR Spectroscopy in the Analysis of Viscous Cosmetic and Pharmaceutical Formulations

Genotypic and phenotypic analyses of aac(3) aminoglycoside-resistance gene diversity point to three distinct phenotypes of contemporary clinical relevance

Apo crystal structure of the colanidase tailspike protein gp150 of Phage Phi92

C-terminal domain of the R-type pyocin baseplate protein PA0618

Crystal structure of Bacteriophage CBA120 tailspike protein 3 (TSP3, orf212)

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M. Plattner

Structure and Function of the Branched Receptor-Binding Complex of Bacteriophage CBA120

Action of a minimal contractile bactericidal nanomachine

Epidemiologic, Phenotypic, and Structural Characterization of Aminoglycoside-Resistance Gene aac(3)-IV

Feasibility of 1H-High Resolution-Magic Angle Spinning NMR Spectroscopy in the Analysis of Viscous Cosmetic and Pharmaceutical Formulations

Genotypic and phenotypic analyses of aac(3) aminoglycoside-resistance gene diversity point to three distinct phenotypes of contemporary clinical relevance

Apo crystal structure of the colanidase tailspike protein gp150 of Phage Phi92

C-terminal domain of the R-type pyocin baseplate protein PA0618

Crystal structure of Bacteriophage CBA120 tailspike protein 3 (TSP3, orf212)

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Product

Resources

About

Feasibility of ¹H-High Resolution-Magic Angle Spinning NMR Spectroscopy in the Analysis of Viscous Cosmetic and Pharmaceutical Formulations