2005
DOI: 10.1021/la046790y
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Selective, Controllable, and Reversible Aggregation of Polystyrene Latex Microspheres via DNA Hybridization

Abstract: The directed three-dimensional self-assembly of microstructures and nanostructures through the selective hybridization of DNA is the focus of great interest toward the fabrication of new materials. Single-stranded DNA is covalently attached to polystyrene latex microspheres. Single-stranded DNA can function as a sequence-selective Velcro by only bonding to another strand of DNA that has a complementary sequence. The attachment of the DNA increases the charge stabilization of the microspheres and allows control… Show more

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Cited by 85 publications
(127 citation statements)
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“…In most of the cases the interaction of micron-sized particles is not mediated by a linker sequence [135]. Usually the particles are directly covered with complementary sequences that bypass the need of having a third component in solution.…”
Section: Dna-coated Particles and Their Interactionsmentioning
confidence: 99%
“…In most of the cases the interaction of micron-sized particles is not mediated by a linker sequence [135]. Usually the particles are directly covered with complementary sequences that bypass the need of having a third component in solution.…”
Section: Dna-coated Particles and Their Interactionsmentioning
confidence: 99%
“…The clear supernatant was carefully decanted and its nonhybridized TAMRA dye decorated ssDNA concentration was determined using UV-vis absorption spectroscopy. The surface DNA density on the substrate was determined from the difference between the amount of non-hybridized TAMRA dye and that added initially [44].…”
Section: Methodsmentioning
confidence: 99%
“…The DNA surface density on our carboxy/sulfate bifunctional microspheres was determined to be on the order of 1.5 × 10 -2 ssDNA nm -2 , following the method reported by Rogers et al [44] The near order-of-magnitude difference in carboxy functionality content (1.075 × 10 18 COOH nm -2 ) of the carboxy-modified latex microspheres of Rogers et al versus our bifunctional (carboxy/sulfate) microspheres (3.47 × 10 17 COOH nm -2 ) might justify the comparable reduction of DNA grafting density from 1.9 × 10 -1 to 1.5 × 10 -2 ssDNA nm -2 . Figure 2 illustrates the route utilized for grafting ssDNA oligomers onto glass or silicon substrates, the latter of which were covered with their native oxides.…”
Section: Full Papermentioning
confidence: 99%
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