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Branched Kissing Loops for the Construction of Diverse RNA Homooligomeric Nanostructures

14 March 2019, Version 1
Working Paper
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

This study presents a robust homooligomeric self-assembly system based on RNA and DNA tiles that are folded from a single-strand of nucleic acid and assemble via a novel artificially designed branched kissing-loops (bKL) motif. By adjusting the geometry of individual tiles, we have constructed a total of 16 different structures that demonstrate our control over the curvature, torsion, and number of helices of assembled structures. Furthermore, bKL-based tiles can be assembled cotranscriptionally, and can be expressed in living bacterial cells.

Keywords

RNA nanotechnology
DNA nanotechnology
self-assembly
homooligomeric systems

Supplementary materials

Title
Description
Actions
Title
RNA-bKL SI1
Description
Actions
Title
RNA-bKL SI2
Description
Actions

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Now Published

Branched kissing loops for the construction of diverse RNA homooligomeric nanostructures [opens in a new tab]
Di Liu, Cody W. Geary, Gang Chen, Yaming Shao, Mo Li, Chengde Mao, Ebbe S. Andersen, Joseph A. Piccirilli, Paul W. K. Rothemund, Yossi Weizmann journal article
Nature Chemistry , Volume 12, Issue 3
Online publication date: Jan 20, 2020

Version History

Mar 14, 2019 Version 1

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The content is available under CC BY NC ND 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv.7837610.v1
D O I: 10.26434/chemrxiv.7837610.v1 [opens in a new tab]

Funding

Directorate for Mathematical & Physical Sciences
1555361
CAREER: Programmable Artificial DNA Topology for Biological and Medical Applications
https://app.dimensions.ai/details/grant/grant.4852197 [opens in a new tab]
National Institute of General Medical Sciences
R01GM102489
Chaperone-Assisted RNA Crystallography
https://app.dimensions.ai/details/grant/grant.2521786 [opens in a new tab]
ERC grant (683305)
Directorate for Computer & Information Science & Engineering
1317694
Collaborative Research: Molecular Programming Architectures, Abstractions, Algorithms, and Applications
https://app.dimensions.ai/details/grant/grant.3486327 [opens in a new tab]
Directorate for Engineering
1636364
Asymmetric DNA Shapes for Orienting Molecular Components within Hybrid Nanodevices
https://app.dimensions.ai/details/grant/grant.5545337 [opens in a new tab]
ONR grant (N00014-16-1-2159)

Author’s competing interest statement

No conflict of interest

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