Selective Antimicrobial Activity Associated with Sulfur Nanoparticles

Overview

Journal J Biomed Nanotechnol

Publisher American Scientific Publishers

Specialties Biomedical Engineering
Biotechnology

Date 2011 Aug 12

PMID 21830480

Citations 16

Authors

Thomas Schneider

Alexander Baldauf

Lalla A Ba

Vincent Jamier

Khairan Khairan

Mohammed-Bader Sarakbi

Nico Reum

Marc Schneider

Anne Roseler

Katja Becker

Torsten Burkholz

Paul G Winyard

Mareike Kelkel

Marc Diederich

Claus Jacob

Affiliations

Soon will be listed here.

Abstract

Many sulfur compounds are known to exhibit widespread antimicrobial activity. The latter is often the result of an intricate redox biochemistry whereby reactive sulfur species, such as organic polysulfanes, interact with pivotal cellular signaling pathways. The S8 unit in elemental sulfur resembles certain aspects of the chemistry of polysulfanes. As a consequence, water-soluble S8-sulfur nanoparticles are active against some smaller organisms, including nematodes, yet are non-toxic against human cells. In contrast, selenium and tellurium nanoparticles are less active. Together, the ease of production of the sulfur nanoparticles, their chemical stability in aqueous dispersion, amenable physical properties and selective toxicity, turn sulfur nanoparticles into promising antimicrobial prototypes for medical as well as agricultural applications.

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