GREEN SYNTHESIS OF FUNCTIONAL POLYMER MICRODEVICES

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Polyurea dendrimer for efficient cytosolic siRNA delivery

Publication . Restani, Rita; Conde, João; Baptista, Pedro; Cidade, Maria Teresa Varanda; Bragança, Ana; Morgado, Jorge; Correia, Ilídio Joaquim Sobreira; Ricardo, Ana Aguiar; Bonifácio, Vasco

The design of small interfering RNA (siRNA) delivery materials showing efficacy in vivo is at the forefront of nanotherapeutics research. Polyurea (PURE-type) dendrimers are ‘smart’ biocompatible 3D polymers that unveil a dynamic and elegant back-folding mechanism involving hydrogen bonding between primary amines at the surface and tertiary amines and ureas at the core. Similarly, to a biological proton pump, they are able to automatically and reversibly transform their conformation in response to pH stimulus. Here, we show that PURE-G4 is a useful gene silencing platform showing no cellular toxicity. As a proof of concept we investigated the PURE-G4-siRNA dendriplex, which was shown to be an attractive platform with high transfection efficacy. The simplicity associated with the complexation of siRNA with polyurea dendrimers makes them a powerful tool for efficient cytosolic siRNA delivery.

2014-10-07Journal article

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Biocompatible Polyurea Dendrimers with pH‐Dependent Fluorescence

Publication . Restani, Rita; Morgado, Patrícia I.; Ribeiro, MP.; Correia, I.J.; Ricardo, Ana Aguiar; Bonifácio, Vasco

Biocompatible and biodegradable water‐soluble dendrimers comprising ureas within the interior and amino groups on the periphery were synthesized in supercritical carbon dioxide (dendrimer of generation 1 shown in picture). This novel class of dendrimers shows a pH‐dependent intrinsic blue fluorescence at very low concentrations, which makes them potential polymeric fluorescent cell markers.

2012-04-05Journal article

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