Add to ORKGA tetrahedral nanostructure whose edges are DNA double helices self-assembles spontaneously when four appropriately designed oligonucleotides are annealed together in solution; the ease of synthesis, rigidity, and adaptability of this construct make it a promising candidate as a cage for other large molecules and as a building block for more complicated nanostructures
Complex function arises in biology from the proximity and relations amongst different functional uni...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
We report the design and construction of a nanometer-sized tetrahedron from a single strand of DNA t...
Practical components for three-dimensional molecular nanofabrication must be simple to produce, ster...
Practical components for three-dimensional molecular nanofabrication must be simple to produce, ster...
Molecular self-assembly offers a 'bottom-up' route to fabrication with subnanometre precision of com...
We describe a strategy of scaffolded DNA origami to design and construct 3D molecular cages of tetra...
Molecular self-assembly offers a 'bottom-up' route to fabrication with subnanometre precision of com...
Molecular self-assembly offers a ‘bottom-up ’ route to fabrication with subnanometre precision of co...
Kinetically controlled isothermal growth is fundamental to biological development, yet it remains ch...
Many legs make light work: Tetrahedra are constructed with edges of double-stranded DNA and vertices...
The field of structural DNA nanotechnology utilizes DNA's powerful base-pairing molecular recognitio...
Complex function arises in biology from the proximity and relations amongst different functional uni...
Complex function arises in biology from the proximity and relations amongst different functional uni...
Complex function arises in biology from the proximity and relations amongst different functional uni...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
We report the design and construction of a nanometer-sized tetrahedron from a single strand of DNA t...
Practical components for three-dimensional molecular nanofabrication must be simple to produce, ster...
Practical components for three-dimensional molecular nanofabrication must be simple to produce, ster...
Molecular self-assembly offers a 'bottom-up' route to fabrication with subnanometre precision of com...
We describe a strategy of scaffolded DNA origami to design and construct 3D molecular cages of tetra...
Molecular self-assembly offers a 'bottom-up' route to fabrication with subnanometre precision of com...
Molecular self-assembly offers a ‘bottom-up ’ route to fabrication with subnanometre precision of co...
Kinetically controlled isothermal growth is fundamental to biological development, yet it remains ch...
Many legs make light work: Tetrahedra are constructed with edges of double-stranded DNA and vertices...
The field of structural DNA nanotechnology utilizes DNA's powerful base-pairing molecular recognitio...
Complex function arises in biology from the proximity and relations amongst different functional uni...
Complex function arises in biology from the proximity and relations amongst different functional uni...
Complex function arises in biology from the proximity and relations amongst different functional uni...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...
DNA is the molecule that encodes the hereditary information in living organisms. In the last years, ...