Title :
Light-Induced In Situ Patterning of DNA-Tagged Biomolecules and Nanoparticles
Author :
Städler, Brigitte M. ; Huwiler, Christoph B. ; Vörös, Janos ; Grandin, H. Michelle
Author_Institution :
Dynamic BioInterfaces Group, Zurich
Abstract :
We present an in situ method for the selective manipulation of DNA-tagged nano-objects such as vesicles or gold colloids in aqueous solution, at neutral pH. The method makes use of the photosensitizer concept found in photodynamic therapy. Here, single-stranded DNA is immobilized onto a surface via the biotin/streptavidin linkage. If the streptavidin is fluorescently labeled, reactive species will be created during laser-induced photobleaching of the label. These reactive species can then completely or partly suppress the DNA hybridization and cause the removal of the streptavidin. The technique thereby enables a dynamic on-off control over surface density of immobilized DNA-tagged nano-objects. Furthermore, combining this in situ manipulation of DNA with prepatterning of single-stranded DNA in the micro and later in the nano range provides a means for the dynamic patterning required for applications in biosensing and nanotechnology
Keywords :
DNA; biological techniques; biotechnology; colloids; fluorescence; gold; molecular biophysics; nanoparticles; nanopatterning; optical saturable absorption; proteins; Au; DNA hybridization; DNA-tagged biomolecules; biosensing; biotin; fluorescence labeling; gold colloids; laser-induced photobleaching; light-induced in situ patterning; nanoparticles; nanotechnology; photodynamic therapy; photosensitizer; reactive species; streptavidin; surface density; vesicles; Biosensors; Couplings; DNA; Fluorescence; Gold; Manipulator dynamics; Medical treatment; Molecular biophysics; Nanoparticles; Photobleaching; DNA-tagged nano-object; in situ patterning; photobleaching induced removal;
Journal_Title :
NanoBioscience, IEEE Transactions on
DOI :
10.1109/TNB.2006.880839
