Polyhedra Self-Assembled from DNA Tripods and Characterized with 3D DNA-PAINT | Zendy

Ryosuke Iinuma | Zendy; Yonggang Ke | Zendy; Ralf Jungmann | Zendy; Thomas Schlichthaerle | Zendy; Johannes B. Woehrstein | Zendy; Peng Yin | Zendy

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Polyhedra Self-Assembled from DNA Tripods and Characterized with 3D DNA-PAINT

Author(s) -

Ryosuke Iinuma,

Yonggang Ke,

Ralf Jungmann,

Thomas Schlichthaerle,

Johannes B. Woehrstein,

Peng Yin

Publication year - 2014

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.1250944

Subject(s) - polyhedron , tetrahedron , flexibility (engineering) , hexagonal crystal system , dna origami , nanotechnology , nanometre , crystallography , nanostructure , materials science , geometry , optics , physics , chemistry , mathematics , statistics

DNA self-assembly has produced diverse synthetic three-dimensional polyhedra. These structures typically have a molecular weight no greater than 5 megadaltons. We report a simple, general strategy for one-step self-assembly of wireframe DNA polyhedra that are more massive than most previous structures. A stiff three-arm-junction DNA origami tile motif with precisely controlled angles and arm lengths was used for hierarchical assembly of polyhedra. We experimentally constructed a tetrahedron (20 megadaltons), a triangular prism (30 megadaltons), a cube (40 megadaltons), a pentagonal prism (50 megadaltons), and a hexagonal prism (60 megadaltons) with edge widths of 100 nanometers. The structures were visualized by means of transmission electron microscopy and three-dimensional DNA-PAINT super-resolution fluorescent microscopy of single molecules in solution.

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