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DNA‐Based Micelles: Synthesis,Micellar Properties and Size‐Dependent Cell Permeability
Authors:Haipeng Liu Dr.  Zhi Zhu  Huaizhi Kang  Yanrong Wu  Kwame Sefan  Weihong Tan Prof.
Affiliation:Center for Research at the Bio/Nano Interface, Department of Chemistry, Shands Cancer Center, UF Genetics Institute and McKnight Brain Institute, University of Florida, Gainesville, Florida 32611‐7200 (USA), Fax: (+1) 352‐846‐2410
Abstract:Functional nanomaterials based on molecular self‐assembly hold great promise for applications in biomedicine and biotechnology. However, their efficacy could be a problem and can be improved by precisely controlling the size, structure, and functions. This would require a molecular engineering design capable of producing monodispersed functional materials characterized by beneficial changes in size, shape, and chemical structure. To address this challenge, we have designed and constructed a series of amphiphilic oligonucleotide molecules. In aqueous solutions, the amphiphilic oligonucleotide molecules, consisting of a hydrophilic oligonucleotide covalently linked to hydrophobic diacyllipid tails, spontaneously self‐assemble into monodispersed, three‐dimensional micellar nanostructures with a lipid core and a DNA corona. These hierarchical architectures are results of intermolecular hydrophobic interactions. Experimental testing further showed that these types of micelles have excellent thermal stability and their size can be fine‐tuned by changing the length of the DNA sequence. Moreover, in the micelle system, the molecular recognition properties of DNA are intact, thus, our DNA micelles can hybridize with complimentary sequences while retaining their structural integrity. Importantly, when interacting with cell membranes, the highly charged DNA micelles are able to disintegrate themselves and insert into the cell membrane, completing the process of internalization by endocytosis. Interestingly, the fluorescence was found accumulated in confined regions of cytosole. Finally, we show that the kinetics of this internalization process is size‐dependent. Therefore, cell permeability, combined with small sizes and natural nontoxicity are all excellent features that make our DNA–micelles highly suitable for a variety of applications in nanobiotechnology, cell biology, and drug delivery systems.
Keywords:amphiphiles  cell permeability  DNA  micelles  self‐assembly
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