Add to ORKGThe first synthetic DNA nanostructures were created by self-assembly of a small number of oligonucleotides. Introduction of the DNA origami method provided a new paradigm for designing and creating two- and three-dimensional DNA nanostructures by folding a large single-stranded DNA and ‘stapling’ it together with a library of oligonucleotides. Despite its power and wide-ranging implementation, the DNA origami technique suffers from some limitations. Foremost among these is the limited number of useful single-stranded scaffolds of biological origin. This report describes a new approach to creating large DNA nanostructures exclusively from synthetic oligonucleotides. The essence of this approach is to replace the single-stranded scaffold in D...
The demand for memory storage will soon outrun the supply of naturally occurring silicon on Earth (Z...
DNA based nanostructures and advances in DNA origami techniques have shown great potential in fabric...
DNA origami, a method for constructing nanoscale objects, relies on a long single strand of DNA to a...
The first synthetic DNA nanostructures were created by self-assembly of a small number of oligonucle...
The first synthetic DNA nanostructures were created by self-assembly of a small number of oligonucle...
Over the last thirty years, DNA has proven to be a great candidate for engineering nanoscale archite...
Scaffolded DNA origami is a widely used technology for self-assembling precisely structured nanoscal...
DNA self-assembly is a powerful route to the production of very small, complex structures. When used...
Structural DNA nanotechnology, and specifically scaffolded DNA origami, is rapidly developing as a v...
Structural DNA nanotechnology, and specifically scaffolded DNA origami, is rapidly developing as a v...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
DNA origami is a powerful tool for the production of self-assembled nanostructures and has shown pro...
DNA self-assembly is a powerful route to the production of very small, complex structures. When used...
DNA self-assembly is a powerful route to the production of very small, complex structures. When used...
As a milestone in DNA self-assembly, DNA origami has demonstrated powerful applications in many fiel...
The demand for memory storage will soon outrun the supply of naturally occurring silicon on Earth (Z...
DNA based nanostructures and advances in DNA origami techniques have shown great potential in fabric...
DNA origami, a method for constructing nanoscale objects, relies on a long single strand of DNA to a...
The first synthetic DNA nanostructures were created by self-assembly of a small number of oligonucle...
The first synthetic DNA nanostructures were created by self-assembly of a small number of oligonucle...
Over the last thirty years, DNA has proven to be a great candidate for engineering nanoscale archite...
Scaffolded DNA origami is a widely used technology for self-assembling precisely structured nanoscal...
DNA self-assembly is a powerful route to the production of very small, complex structures. When used...
Structural DNA nanotechnology, and specifically scaffolded DNA origami, is rapidly developing as a v...
Structural DNA nanotechnology, and specifically scaffolded DNA origami, is rapidly developing as a v...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
DNA origami is a powerful tool for the production of self-assembled nanostructures and has shown pro...
DNA self-assembly is a powerful route to the production of very small, complex structures. When used...
DNA self-assembly is a powerful route to the production of very small, complex structures. When used...
As a milestone in DNA self-assembly, DNA origami has demonstrated powerful applications in many fiel...
The demand for memory storage will soon outrun the supply of naturally occurring silicon on Earth (Z...
DNA based nanostructures and advances in DNA origami techniques have shown great potential in fabric...
DNA origami, a method for constructing nanoscale objects, relies on a long single strand of DNA to a...