Antibacterial Activity and Characteristics of Modified Ferrite Powder Coated with a Gemini Pyridinium Salt Molecule

This report describes the synthesis of an antibacterial material consisting of a gemini quaternary ammonium salt (gemini-QUAT) immobilized on ferrite powder, and its antibacterial activity. A gemini-QUAT containing two pyridinium residues per molecule, 4, 4'-[1, 3-(2, 2-dihydroxylmethy1-1, 3-di...

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Veröffentlicht in:	Biocontrol Science 2007/09/10, Vol.12(3), pp.83-91
Hauptverfasser:	SHIRAI, AKIHIRO, MAEDA, TAKUYA, OHKITA, MOTOAKI, NAGAMUNE, HIDEAKI, KOURAI, HIROKI
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Sprache:	eng
Schlagworte:	Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - chemistry Anti-Bacterial Agents - pharmacology Antibacterial activity Antibacterial characteristic Ferric Compounds - chemistry Ferric Compounds - pharmacology Ferrite powder Gemini pyridinium salt Immobilization Magnetic Resonance Spectroscopy Microbial Sensitivity Tests Microscopy, Electron, Scanning Pyridines - chemical synthesis Pyridines - chemistry Pyridines - pharmacology Quaternary Ammonium Compounds - chemical synthesis Quaternary Ammonium Compounds - chemistry Quaternary Ammonium Compounds - pharmacology
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container_title	Biocontrol Science
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creator	SHIRAI, AKIHIRO MAEDA, TAKUYA OHKITA, MOTOAKI NAGAMUNE, HIDEAKI KOURAI, HIROKI
description	This report describes the synthesis of an antibacterial material consisting of a gemini quaternary ammonium salt (gemini-QUAT) immobilized on ferrite powder, and its antibacterial activity. A gemini-QUAT containing two pyridinium residues per molecule, 4, 4'-[1, 3-(2, 2-dihydroxylmethy1-1, 3-dithiapropane)] bis (1-octylpyridinium bromide), was immobilized on ferrite powder by a reaction between the hydroxyl group of the QUAT and trimethoxysilane. Immobilization of the gemini-QUAT on ferrite (F-gemini-QUAT) was confirmed when the dye, bromophenol blue, was released from F-gemini-QUAT-dye after contact between ferrite and the dye. Elemental analysis of the QUAT-ferrite determined the molar amount of QUAT on the ferrite. The antibacterial effect of the ferrite was investigated using a batch treatment system, and this effect was compared with that of another QUAT-ferrite (F-mono-QUAT) binding a mono-QUAT, which possesses one pyridinium residue, prepared by the same immobilization method as F-gemini-QUAT. Results indicated the F-gemini QUAT possessed a higher bactericidal potency and broader antibacterial spectrum compared to F-mono-QUAT. In addition, this study suggested that gemini-QUATs possessed high bactericidal potency without being influenced by immobilization to materials, and the antibacterial activity and characteristics of Fgemini-QUAT could be attributed to the unique structure of the immobilized gemini-QUAT.
doi_str_mv	10.4265/bio.12.83
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A gemini-QUAT containing two pyridinium residues per molecule, 4, 4'-[1, 3-(2, 2-dihydroxylmethy1-1, 3-dithiapropane)] bis (1-octylpyridinium bromide), was immobilized on ferrite powder by a reaction between the hydroxyl group of the QUAT and trimethoxysilane. Immobilization of the gemini-QUAT on ferrite (F-gemini-QUAT) was confirmed when the dye, bromophenol blue, was released from F-gemini-QUAT-dye after contact between ferrite and the dye. Elemental analysis of the QUAT-ferrite determined the molar amount of QUAT on the ferrite. The antibacterial effect of the ferrite was investigated using a batch treatment system, and this effect was compared with that of another QUAT-ferrite (F-mono-QUAT) binding a mono-QUAT, which possesses one pyridinium residue, prepared by the same immobilization method as F-gemini-QUAT. Results indicated the F-gemini QUAT possessed a higher bactericidal potency and broader antibacterial spectrum compared to F-mono-QUAT. 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A gemini-QUAT containing two pyridinium residues per molecule, 4, 4'-[1, 3-(2, 2-dihydroxylmethy1-1, 3-dithiapropane)] bis (1-octylpyridinium bromide), was immobilized on ferrite powder by a reaction between the hydroxyl group of the QUAT and trimethoxysilane. Immobilization of the gemini-QUAT on ferrite (F-gemini-QUAT) was confirmed when the dye, bromophenol blue, was released from F-gemini-QUAT-dye after contact between ferrite and the dye. Elemental analysis of the QUAT-ferrite determined the molar amount of QUAT on the ferrite. The antibacterial effect of the ferrite was investigated using a batch treatment system, and this effect was compared with that of another QUAT-ferrite (F-mono-QUAT) binding a mono-QUAT, which possesses one pyridinium residue, prepared by the same immobilization method as F-gemini-QUAT. Results indicated the F-gemini QUAT possessed a higher bactericidal potency and broader antibacterial spectrum compared to F-mono-QUAT. 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A gemini-QUAT containing two pyridinium residues per molecule, 4, 4'-[1, 3-(2, 2-dihydroxylmethy1-1, 3-dithiapropane)] bis (1-octylpyridinium bromide), was immobilized on ferrite powder by a reaction between the hydroxyl group of the QUAT and trimethoxysilane. Immobilization of the gemini-QUAT on ferrite (F-gemini-QUAT) was confirmed when the dye, bromophenol blue, was released from F-gemini-QUAT-dye after contact between ferrite and the dye. Elemental analysis of the QUAT-ferrite determined the molar amount of QUAT on the ferrite. The antibacterial effect of the ferrite was investigated using a batch treatment system, and this effect was compared with that of another QUAT-ferrite (F-mono-QUAT) binding a mono-QUAT, which possesses one pyridinium residue, prepared by the same immobilization method as F-gemini-QUAT. Results indicated the F-gemini QUAT possessed a higher bactericidal potency and broader antibacterial spectrum compared to F-mono-QUAT. 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subjects	Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - chemistry Anti-Bacterial Agents - pharmacology Antibacterial activity Antibacterial characteristic Ferric Compounds - chemistry Ferric Compounds - pharmacology Ferrite powder Gemini pyridinium salt Immobilization Magnetic Resonance Spectroscopy Microbial Sensitivity Tests Microscopy, Electron, Scanning Pyridines - chemical synthesis Pyridines - chemistry Pyridines - pharmacology Quaternary Ammonium Compounds - chemical synthesis Quaternary Ammonium Compounds - chemistry Quaternary Ammonium Compounds - pharmacology
title	Antibacterial Activity and Characteristics of Modified Ferrite Powder Coated with a Gemini Pyridinium Salt Molecule
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