Controlling Lipid Micelle Stability Using Oligonucleotide Headgroups
Journal of the American Chemical Society2015Vol. 137(6), pp. 2171–2174
Citations Over TimeTop 20% of 2015 papers
Abstract
Lipid-based micelles provide an attractive option for therapeutic and diagnostic applications because of their small size (24 h. Using antisense oligonucleotides we demonstrated that disruption of the quadruplex leads to micelle destabilization and cargo release. The ability to use oligonucleotide interactions to control lipid particle stability represents a new approach in the design of programmed nanoscale devices.
Related Papers
- → Micelle molecular weight of dodecyldimethylammonium chloride in aqueous solutions, and the transition of micelle shape in concentrated NaCl solutions(1980)115 cited
- → Theory of DNA–cationic micelle complexation(2012)15 cited
- → Micelle Formation and Micellar Size by a Light Scattering Technique(1988)10 cited
- STUDY OF MICELLE FORMATION OF CTAB BY MICROCALORIMETRIC METHOD(2002)
- MICELLAR SHAPES AND SOLUBILIZATION PROPERTIES OF DETERGENT SOLUTIONS(1984)