2020
DOI: 10.1021/acs.chemrev.0c00294
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DNA Functional Materials Assembled from Branched DNA: Design, Synthesis, and Applications

Abstract: DNA is traditionally known as a central genetic biomolecule in living systems. From an alternative perspective, DNA is a versatile molecular building-block for the construction of functional materials, in particular biomaterials, due to its intrinsic biological attributes, molecular recognition capability, sequence programmability, and biocompatibility. The topologies of DNA building-blocks mainly include linear, circular, and branched types. Branched DNA recently has been extensively employed as a versatile b… Show more

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Cited by 390 publications
(258 citation statements)
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“…Due to the high structural programmability, high biocompatibility, tailorable shape, and size, the emerging DNA nanostructure carriers have been widely explored for drug delivery and disease therapy. [18,151,163,176,177] As a template, the DNA origami alone could be used for anticancer drug delivery. For example, Ding and co-workers reported the doxorubicin (DOX) could be non-covalently attached to the triangle DNA origami nanostructures through intercalation.…”
Section: Dna Nanostructures For Drug Deliverymentioning
confidence: 99%
“…Due to the high structural programmability, high biocompatibility, tailorable shape, and size, the emerging DNA nanostructure carriers have been widely explored for drug delivery and disease therapy. [18,151,163,176,177] As a template, the DNA origami alone could be used for anticancer drug delivery. For example, Ding and co-workers reported the doxorubicin (DOX) could be non-covalently attached to the triangle DNA origami nanostructures through intercalation.…”
Section: Dna Nanostructures For Drug Deliverymentioning
confidence: 99%
“…DNA, the genetic information carrier, has been playing wide roles as an attractive material for the construction of nanoscale structures [83][84][85]. Pioneering work by Paul Rothemund has significantly expanded the potential for designing and building arbitrarily shaped, complex, two-and three-dimensional nanostructures with DNA (DNA origami) [86].…”
Section: Dna Origami and Control Of Dna Foldingmentioning
confidence: 99%
“…The interfaces, in most cases solid–liquid interfaces, provide anti‐interference for DNA logic operations through separation and elimination of invalid inputs and verbose outputs in solution, and thus introduce significant potential for enhancing logic operation complexity 31 . The most widely employed interfaces include the surfaces of metal or inorganic nanoparticles, 30 two‐dimensional layered nanocomposites, 32 electrodes, 31b DNA origami, 33 microfluidic channels, 34 and so on.…”
Section: Dlg Biosensors At Interfacesmentioning
confidence: 99%