Search Results - "ROTHEMUND, W"

Folding DNA to create nanoscale shapes and patterns by Rothemund, Paul W. K

“…'Bottom-up fabrication', which exploits the intrinsic properties of atoms and molecules to direct their self-organization, is widely used to make relatively…”
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A single-stranded architecture for cotranscriptional folding of RNA nanostructures by Geary, Cody, Rothemund, Paul W. K., Andersen, Ebbe S.

“…Artificial DNA and RNA structures have been used as scaffolds for a variety of nanoscale devices. In comparison to DNA structures, RNA structures have been…”
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Self-assembly of two-dimensional DNA origami lattices using cation-controlled surface diffusion by Woo, Sungwook, Rothemund, Paul W. K.

“…DNA origami has proven useful for organizing diverse nanoscale components into patterns with 6 nm resolution. However for many applications, such as…”
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Optimized Assembly and Covalent Coupling of Single-Molecule DNA Origami Nanoarrays by Gopinath, Ashwin, Rothemund, Paul W. K

“…Artificial DNA nanostructures, such as DNA origami, have great potential as templates for the bottom-up fabrication of both biological and nonbiological…”
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Engineering and mapping nanocavity emission via precision placement of DNA origami by Gopinath, Ashwin, Miyazono, Evan, Faraon, Andrei, Rothemund, Paul W. K.

“…The incorporation of large numbers of chemically diverse functional components into microfabricated structures at precise locations is challenging; now the…”
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Properties of DNA- and Protein-Scaffolded Lipid Nanodiscs by Maingi, Vishal, Rothemund, Paul W. K

“…The properties of natural lipid bilayers are vital to the regulation of many membrane proteins. Scaffolded nanodiscs provide an in vitro lipid bilayer platform…”
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Self-assembly of carbon nanotubes into two-dimensional geometries using DNA origami templates by Han, Si-ping, Maune, Hareem T, Barish, Robert D, Bockrath, Marc, III, William A. Goddard, Rothemund, Paul W. K, Winfree, Erik

“…A central challenge in nanotechnology is the parallel fabrication of complex geometries for nanodevices. Here we report a general method for arranging…”
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Algorithmic self-assembly of DNA Sierpinski triangles by Rothemund, Paul W K, Papadakis, Nick, Winfree, Erik

“…Algorithms and information, fundamental to technological and biological organization, are also an essential aspect of many elementary physical phenomena, such…”
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Placement and orientation of individual DNA shapes on lithographically patterned surfaces by Rothemund, Paul W. K, Wallraff, Gregory M, Kershner, Ryan J, Bozano, Luisa D, Micheel, Christine M, Hung, Albert M, Fornof, Ann R, Cha, Jennifer N, Rettner, Charles T, Bersani, Marco, Frommer, Jane

“…Artificial DNA nanostructures 1 , 2 show promise for the organization of functional materials 3 , 4 to create nanoelectronic 5 or nano-optical devices. DNA…”
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Branched kissing loops for the construction of diverse RNA homooligomeric nanostructures by Liu, Di, Geary, Cody W., Chen, Gang, Shao, Yaming, Li, Mo, Mao, Chengde, Andersen, Ebbe S., Piccirilli, Joseph A., Rothemund, Paul W. K., Weizmann, Yossi

“…In biological systems, large and complex structures are often assembled from multiple simpler identical subunits. This strategy—homooligomerization—allows…”
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RNA origami design tools enable cotranscriptional folding of kilobase-sized nanoscaffolds by Geary, Cody, Grossi, Guido, McRae, Ewan K. S., Rothemund, Paul W. K., Andersen, Ebbe S.

“…RNA origami is a framework for the modular design of nanoscaffolds that can be folded from a single strand of RNA and used to organize molecular components…”
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Bench-Top Fabrication of Single-Molecule Nanoarrays by DNA Origami Placement by Shetty, Rishabh M, Brady, Sarah R, Rothemund, Paul W. K, Hariadi, Rizal F, Gopinath, Ashwin

“…Large-scale nanoarrays of single biomolecules enable high-throughput assays while unmasking the underlying heterogeneity within ensemble populations. Until…”
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A population‐based temporal logic gate for timing and recording chemical events by Hsiao, Victoria, Hori, Yutaka, Rothemund, Paul WK, Murray, Richard M

“…Engineered bacterial sensors have potential applications in human health monitoring, environmental chemical detection, and materials biosynthesis. While such…”
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Modular RNA motifs for orthogonal phase separated compartments by Stewart, Jaimie Marie, Li, Shiyi, Tang, Anli A., Klocke, Melissa Ann, Gobry, Martin Vincent, Fabrini, Giacomo, Di Michele, Lorenzo, Rothemund, Paul W. K., Franco, Elisa

“…Recent discoveries in biology have highlighted the importance of protein and RNA-based condensates as an alternative to classical membrane-bound organelles…”
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An autonomous polymerization motor powered by DNA hybridization by Pierce, Niles A, Venkataraman, Suvir, Dirks, Robert M, Rothemund, Paul W. K, Winfree, Erik

“…We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspired by bacterial pathogens such as Rickettsia rickettsii,…”
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Digital nanoreactors to control absolute stoichiometry and spatiotemporal behavior of DNA receptors within lipid bilayers by Maingi, Vishal, Zhang, Zhao, Thachuk, Chris, Sarraf, Namita, Chapman, Edwin R., Rothemund, Paul W. K.

“…Interactions between membrane proteins are essential for cell survival but are often poorly understood. Even the biologically functional ratio of components…”
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Programmable molecular recognition based on the geometry of DNA nanostructures by Woo, Sungwook, Rothemund, Paul W. K.

“…From ligand–receptor binding to DNA hybridization, molecular recognition plays a central role in biology. Over the past several decades, chemists have…”
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Ray Optics for Gliders by Ross, Tyler D., Osmanović, Dino, Brady, John F., Rothemund, Paul W. K.

“…Control of self-propelled particles is central to the development of many microrobotic technologies, from dynamically reconfigurable materials to advanced…”
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information-bearing seed for nucleating algorithmic self-assembly by Barish, Robert D, Schulman, Rebecca, Rothemund, Paul W.K, Winfree, Erik

“…Self-assembly creates natural mineral, chemical, and biological structures of great complexity. Often, the same starting materials have the potential to form…”
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Co-transcriptional production of programmable RNA condensates and synthetic organelles by Fabrini, Giacomo, Farag, Nada, Nuccio, Sabrina Pia, Li, Shiyi, Stewart, Jaimie Marie, Tang, Anli A., McCoy, Reece, Owens, Róisín M., Rothemund, Paul W. K., Franco, Elisa, Di Antonio, Marco, Di Michele, Lorenzo

“…Condensation of RNA and proteins is central to cellular functions, and the ability to program it would be valuable in synthetic biology and synthetic cell…”
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