The application of bio-active noble-metal-based nano-particles (NPs) with unique physico-chemical properties is multifaceted.
Among other roles, they can be used as anti-viral agents, and at the same time might serve as matrix to facilitate the transport of
various molecules for therapeutic purposes directly or via genetically modified microbes. For this reason, the influence of nano-materials
on viral infection in living cells is described in this study utilizing pseudo-typed lenti-viral particles based on human immuno-deficiency
virus 1 (HIV-1). Cells were exposed to various NPs and subsequently infected with lenti-virus. Transfection efficiency was quantified by
flow-cytometry analysis. Gold-based NPs increased, silver-containing NPs decreased, while other NPs had little or no effect on viral infection
rate. The opposing effect of NPs is determined by the size, chemical nature and surface chemistry of the nano-materials, which
govern their interactions with molecular species present in their environment. These characteristics enable the distinct use of different
NPs in various fields of bio-medicine.
Keywords: Cell culture, infection, lenti-virus, pseudo-typed lenti-viral particles, nano-material, nano-particle, transfection.
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