Algorithmic Design of 3D Wireframe RNA Polyhedra

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Abstract

We address the problem of de novo design and synthesis of nucleic acid nanostructures, a challenge that has been considered in the area of DNA nanotechnology since the 1980s and more recently in the area of RNA nanotechnology. Toward this goal, we introduce a general algorithmic design process and software pipeline for rendering 3D wireframe polyhedral nanostructures in single-stranded RNA. To initiate the pipeline, the user creates a model of the desired polyhedron using standard 3D graphic design software. As its output, the pipeline produces an RNA nucleotide sequence whose corresponding RNA primary structure can be transcribed from a DNA template and folded in the laboratory. As case examples, we design and characterize experimentally three 3D RNA nanostructures: a tetrahedron, a triangular bipyramid, and a triangular prism. The design software is openly available and also provides an export of the targeted 3D structure into the oxDNA molecular dynamics simulator for easy simulation and visualization.

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Elonen, A., Natarajan, A. K., Kawamata, I., Oesinghaus, L., Mohammed, A., Seitsonen, J., … Orponen, P. (2022). Algorithmic Design of 3D Wireframe RNA Polyhedra. ACS Nano, 16(10), 16608–16616. https://doi.org/10.1021/acsnano.2c06035

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