Titlebook: Visions of DNA Nanotechnology at 40 for the Next 40; A Tribute to Nadrian Nata?a Jonoska,Erik Winfree Book‘‘‘‘‘‘‘‘ 2023 The Editor(s) (if a

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DNA Assembly of?Dye Aggregates—A Possible Path to?Quantum Computingtechnology products. DNA-based self-assembly has been used to arrange chromophores (dye molecules) covalently linked to DNA to form F?rster resonant energy transfer and exciton-based devices. Here we explore the possibility of making coherent exciton information processing devices, including quantum

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Building with DNA: From Curiosity-Driven Research to Practiceprotein crystallization. Over the past four decades, this concept has evolved into a multidisciplinary research field with vast potential for applications. In this mini review, we present a brief introduction of selected topics in nucleic acid nanotechnology, focusing on scaling up DNA assembly, ach

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From Molecules to?Mathematicsethod to construct nanostructures gave impetus to an emerging branch of mathematics, called here ‘DNA mathematics’. DNA mathematics models and analyzes structures obtained as bottom-up assembly, as well as the process of self-assembly. Here we survey some of the new tools from DNA mathematics that c

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O,: A?Kinetic Model for?Locally Reconfigurable Molecular Systemsribed) out of its DNA template. This model is simple enough for further extension and also strong enough to study computational aspects of this phenomenon. Some of the structural motifs designed for Turing universal computations in oritatami have been demonstrated approximately in-vitro recently. Th

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Implementing a Theoretician’s Toolkit for Self-Assembly with DNA Components which to develop designs for molecular implementation, these models provide platforms to explore powers and limitations of self-assembling systems “in the limit” and to compare the relative strengths and weaknesses of systems and components of varying capabilities and constraints. As these models o

結(jié)合

Book‘‘‘‘‘‘‘‘ 2023 to Nadrian C. Seeman, who founded the field of DNA nanotechnology, the content is an exciting mixture of technical and non-technical material, reviews, tutorials, perspectives, new findings, and open questions. The book aims to inspire current researchers to sit back and think about the big picture

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Implementing a Theoretician’s Toolkit for Self-Assembly with DNA Componentses of systems in which errors are controlled with ever greater precision. In this article, we discuss several such models, current work toward physical implementations, and potential future work that could help lead engineered systems further down the road to the full potential of self-assembling systems based on DNA nanotechnology.