• Corpus ID: 244714904

NanoFrame: A web-based DNA wireframe design tool for 3D structures

@inproceedings{Petrosyan2021NanoFrameAW,
  title={NanoFrame: A web-based DNA wireframe design tool for 3D structures},
  author={Samson Petrosyan and Grigory Tikhomirov},
  year={2021}
}
The rapid development of the DNA nanotechnology field has been facilitated by advances in CAD software. However, as more complex concepts arose, the lag between the needs and software capabilities appeared. Further derailed by manual installation and software incompatibility across different platforms and often tedious library management issues, the software has become hard-to-use for many. Here we present NanoFrame, a web-based DNA wireframe design tool for making 3D nanostructures from a… 
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References

SHOWING 1-10 OF 19 REFERENCES

Rapid prototyping of 3D DNA-origami shapes with caDNAno

DNA nanotechnology exploits the programmable specificity afforded by base-pairing to produce self-assembling macromolecular objects of custom shape. For building megadalton-scale DNA nanostructures,

Adenita: interactive 3D modelling and visualization of DNA nanostructures

The novel software tool Adenita, which spearheads a new generation of DNA nanostructure modelling software, is presented by re-using a large nanorod to create a new nanost structure through user interactions that employ different editors to modify the originalnanorod.

Automated Sequence Design of 3D Polyhedral Wireframe DNA Origami with Honeycomb Edges.

The scaffolded DNA origami sequence design algorithm TALOS is introduced, which is a generalized procedure for the fully automated design of wireframe 3D polyhedra composed of edges of any cross section with an even number of duplexes, and applied to DNA-NPs composed uniformly of single honeycomb edges.

Autonomously designed free-form 2D DNA origami

This work presents a fully autonomous procedure to design all DNA staple sequences needed to fold any free-form 2D scaffolded DNA origami wireframe object and enables the full autonomy of scaffold routing and staple sequence design with arbitrary network edge lengths and vertex angles.

DNA rendering of polyhedral meshes at the nanoscale

This work presents a general method of folding arbitrary polygonal digital meshes in DNA that readily produces structures that would be very difficult to realize using previous approaches.

Designer nanoscale DNA assemblies programmed from the top down

This work presents a general solution to this problem that offers the ability for nonspecialists to design and synthesize nearly arbitrary DNA-based nanoparticles using only a simple surface-based representation of target 3D geometry to automatically generate the ssDNA needed to synthesize the object.

DNA Origami: Scaffolds for Creating Higher Order Structures.

This review provides a comprehensive survey of recent developments in DNA origami structure, design, assembly, and directed self-assembly, as well as its broad applications.

DNA origami: an outstanding platform for functions in nanophotonics and cancer therapy.

The crucial progress in the development of DNA Origami design, assembly and structural analysis is surveyed and available applications in nanophotonics and cancer therapy based on the object-dressed DNA origami complex are summarized.

DNA Origami Nanophotonics and Plasmonics at Interfaces

This Feature Article focuses on the DNA-origami-based nanophotonics and plasmonics—especially on the methods that take advantage of various substrates and interfaces for the foreseen applications.

scadnano: A Browser-Based, Scriptable Tool for Designing DNA Nanostructures

A computational tool for designing synthetic DNA structures based heavily on cadnano, which is closely aligned with the scripting library, intended to be helpful when debugging scripts or interfacing with other software.