Designing Uniquely Addressable Bio-orthogonal Synthetic Scaffolds for DNA and RNA Origami

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Designing Uniquely Addressable Bio-orthogonal Synthetic Scaffolds for DNA and RNA Origami

机译：设计唯一可寻址的生物正交合成支架，用于DNA和RNA折纸

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Nanotechnology and synthetic biology are rapidly converging, with DNA origami being one of the leading bridging technologies. DNA origami was shown to work well in a wide array of biotic environments. However, the large majority of extant DNA origami scaffolds utilize bacteriophages or plasmid sequences thus severely limiting its future applicability as a bio-orthogonal nanotechnology platform. In this paper we present the design of biologically inert (i.e., "bio-orthogonal") origami scaffolds. The synthetic scaffolds have the additional advantage of being uniquely addressable (unlike biologically derived ones) and hence are better optimized for high-yield folding. We demonstrate our fully synthetic scaffold design with both DNA and RNA origamis uniquely addressable origami scaffolds. and describe a protocol to produce these bio-orthogonal and

机译：纳米技术和合成生物学迅速会聚，DNA折纸是领先的桥接技术之一。 DNA折纸被证明在各种各样的生物环境中运行良好。然而，大多数远端DNA折纸支架使用噬菌体或质粒序列，从而严重限制了其未来适用性作为生物正交纳米技术平台。本文介绍了生物学惰性（即“生物正交”）折纸支架的设计。合成支架具有唯一可寻址的额外优点（与生物学衍生的不同），因此最好优化用于高产折叠。我们展示了我们的完全合成的脚手架设计，具有DNA和RNA折簇唯一可寻址的折纸支架。并描述一种产生这些生物正交和的协议

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《ACS Synthetic Biology 》 |2017年第7期| 共10页
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正文语种 eng
中图分类分子生物学 ;
关键词
DNA origami; sequence design and optimization; nanotechnology; synthetic biology;

机译：DNA Origami;序列设计和优化;纳米技术;合成生物学;

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1. Designing Uniquely Addressable Bio-orthogonal Synthetic Scaffolds for DNA and RNA Origami [J] . ACS Synthetic Biology . 2017 ,第7期

机译：设计唯一可寻址的生物正交合成支架，用于DNA和RNA折纸
2. Human Mitochondrial RNA Polymerase: Evaluation of the Single-Nucleotide-Addition Cycle on Synthetic RNA/DNA Scaffolds [J] . Eric D. Smidansky Jamie J. Arnold Shelley L. Reynolds and Craig E. Cameron Biochemistry . 2011 ,第22期

机译：人线粒体RNA聚合酶：合成RNA / DNA支架上的单核苷酸加成循环的评估。
3. Human Mitochondrial RNA Polymerase: Evaluation of the Single-Nucleotide-Addition Cycle on Synthetic RNA/DNA Scaffolds [J] . Smidansky ED, Arnold JJ, Reynolds SL, Biochemistry . 2011 ,第22期

机译：人线粒体RNA聚合酶：合成RNA / DNA支架上的单核苷酸加成循环的评估。
4. Use DNA origami as a scaffold for self-assembly of optical metamolecules [C] . Yoon Jo Hwang, Shelley F. J. Wickham, Steven D. Perrault, Conference on Lasers and Electro-Optics Pacific Rim . 2015

机译：使用DNA折纸作为支架进行光学大分子的自组装
5. Designing recognition elements based on DNA scaffolds. [D] . Williams, Berea. 2010

机译：设计基于DNA支架的识别元件。
6. Human Mitochondrial RNA Polymerase: Evaluation of the Single-Nucleotide-Addition Cycle on Synthetic RNA/DNA Scaffolds [O] . Eric D. Smidansky, Jamie J. Arnold, Shelley L. Reynolds, -1

机译：人线粒体RNa聚合酶：单核苷酸加入循环的评价合成RNa / DNa支架
7. Designing Uniquely Addressable Bio-orthogonal Synthetic Scaffolds for DNA and RNA Origami [O] . Jerzy Kozyra, Alessandro Ceccarelli, Emanuela Torelli, 2017

机译：设计唯一可寻址的生物正交合成支架，用于DNA和RNA折纸

Designing Uniquely Addressable Bio-orthogonal Synthetic Scaffolds for DNA and RNA Origami

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