Dataset Information

Toward Overcoming Staphylococcus aureus Aminoglycoside Resistance Mechanisms with a Functionally Designed Neomycin Analogue.

ABSTRACT: Deoxygenation of the diol groups in rings A and D of neomycin in combination with the introduction of an N1-(l)-HABA group in the 2-deoxystreptamine subunit (ring B) leads to a novel and potent antibiotic (1) with activity against strains of S. aureus carrying known aminoglycoside resistance determinants, as well as against an extended panel of Methicillin-resistant S. aureus isolates (n = 50). Antibiotic 1 displayed >64 fold improvement in MIC50 and MIC90 against this MRSA collection when compared to the clinically relevant aminoglycosides amikacin and gentamicin. The synthesis was achieved in six steps and 15% overall yield.

SUBMITTER: Hanessian S

PROVIDER: S-EPMC4018147 | biostudies-other | 2011 Dec

REPOSITORIES: biostudies-other

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Toward Overcoming Staphylococcus aureus Aminoglycoside Resistance Mechanisms with a Functionally Designed Neomycin Analogue.

Hanessian Stephen S Giguère Alexandre A Grzyb Justyna J Maianti Juan Pablo JP Saavedra Oscar M OM Aggen James B JB Linsell Martin S MS Goldblum Adam A AA Hildebrandt Darin J DJ Kane Timothy R TR Dozzo Paola P Gliedt Micah J MJ Matias Rowena D RD Feeney Lee Ann LA Armstrong Eliana S ES

ACS medicinal chemistry letters 20110929 12

Deoxygenation of the diol groups in rings A and D of neomycin in combination with the introduction of an N1-(l)-HABA group in the 2-deoxystreptamine subunit (ring B) leads to a novel and potent antibiotic (1) with activity against strains of S. aureus carrying known aminoglycoside resistance determinants, as well as against an extended panel of Methicillin-resistant S. aureus isolates (n = 50). Antibiotic 1 displayed >64 fold improvement in MIC50 and MIC90 against this MRSA collection when compa ...[more]

PMID: 24900282

Dataset Information

Toward Overcoming Staphylococcus aureus Aminoglycoside Resistance Mechanisms with a Functionally Designed Neomycin Analogue.

Publications

Toward Overcoming Staphylococcus aureus Aminoglycoside Resistance Mechanisms with a Functionally Designed Neomycin Analogue.

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