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Synthesis of covalent bonding MWCNT-oligoethylene linezolid conjugates and their antibacterial activity against bacterial strains.

José A Alatorre-BarajasEleazar Alcántar-ZavalaM Graciela Gil-RivasEdgar Estrada-ZavalaAdrián Ochoa-TeránY Gochi-PonceJulio Montes-ÁvilaAlberto CabreraBalter Trujillo-NavarreteYazmin Yorely Rivera-LugoGabriel Alonso-NúñezEdgar A Reynoso-SotoJ L Medina-Franco
Published in: RSC advances (2021)
Nowadays, infectious diseases caused by drug-resistant bacteria have become especially important. Linezolid is an antibacterial drug active against clinically important Gram positive strains; however, resistance showed by these bacteria has been reported. Nanotechnology has improved a broad area of science, such as medicine, developing new drug delivery and transport systems. In this work, several covalently bounded conjugated nanomaterials were synthesized from multiwalled carbon nanotubes (MWCNTs), a different length oligoethylene chain ( S n ), and two linezolid precursors (4 and 7), and they were evaluated in antibacterial assays. Interestingly, due to the intrinsic antibacterial activity of the amino-oligoethylene linezolid analogues, these conjugated nanomaterials showed significant antibacterial activity against various tested bacterial strains in a radial diffusion assay and microdilution method, including Gram negative strains as Escherichia coli (11 mm, 6.25 μg mL -1 ) and Salmonella typhi (14 mm, ≤0.78 μg mL -1 ), which are not inhibited by linezolid. The results show a significant effect of the oligoethylene chain length over the antibacterial activity. Molecular docking of amino-oligoethylene linezolid analogs shows a more favorable interaction of the S 2 -7 analog in the PTC of E. coli .
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