Universitat de Barcelona
Morán Badenas, María del Carmen
Vinardell Martínez-Hidalgo, Ma. Pilar
2019-02-04T15:16:57Z
2019-02-04T15:16:57Z
2014-03
2019-02-04T15:16:57Z
A general understanding of interactions between DNA and oppositely charged compounds forms the basis for developing novel DNA-based materials, including gel particles. The association strength, which is altered by varying the chemical structure of the cationic cosolute, determines the spatial homogeneity of the gelation process, creating DNA reservoir devices and DNA matrix devices that can be designed to release either single- (ssDNA) or double-stranded (dsDNA). This review covers recent developments on the topic of DNA gel particles formed in water-water emulsion-type interfaces. The degree of DNA entrapment, particle morphology, swelling/dissolution behaviour and DNA release responses are discussed as a function of the nature of the cationic agent used. On the basis of designing DNA gel particles for therapeutic purposes, recent studies on the determination of the surface hydrophobicity, the haemolytic and the cytotoxic assessments of the obtained DNA gel particles have been also reported.
Article
Versió acceptada
Anglès
ADN; Agents tensioactius; Materials nanoestructurats; Polímers; Sistemes d'alliberament de medicaments; Nanopartícules; Col·loides en medicina; DNA; Surface active agents; Nanostructured materials; Polymers; Drug delivery systems; Nanoparticles; Colloids in medicine
Elsevier
Versió postprint del document publicat a: https://doi.org/10.1016/j.cis.2013.09.002
Advances in Colloid and Interface Science, 2014, vol. 205, p. 240-256
https://doi.org/10.1016/j.cis.2013.09.002
(c) Elsevier, 2014
