纳米机器结构可重构设计RNA结构。

Kai Jiao, Yaya Hao, Fei Wang, Lihua Wang, Chunhai Fan, Jiang Li
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引用次数: 1

摘要

结构上可重构的RNA结构使功能状态的动态转变能够响应不同的分子刺激,这是遗传和表观遗传调控的基础。受大自然的启发,合理设计具有响应性可重构基序的RNA结构已被开发为构建工程纳米机器的可切换组件,这在合成生物学应用中具有前景。在这篇综述中,我们总结了用于纳米机器的工程可重构RNA结构的设计、合成和集成的最新进展。我们重点介绍了他们最近的目标应用,如生物计算和智能治疗。我们还讨论了它们的优势、挑战以及可能的解决方案。我们进一步展望了它们在未来合成生物学中的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Structurally reconfigurable designer RNA structures for nanomachines.

Structurally reconfigurable designer RNA structures for nanomachines.

Structurally reconfigurable designer RNA structures for nanomachines.

Structurally reconfigurable designer RNA structures for nanomachines.

Structurally reconfigurable RNA structures enable dynamic transitions of the functional states in response to diverse molecular stimuli, which are fundamental in genetic and epigenetic regulations. Inspired by nature, rationally designed RNA structures with responsively reconfigurable motifs have been developed to serve as switchable components for building engineered nanomachines, which hold promise in synthetic biological applications. In this review, we summarize recent progress in the design, synthesis, and integration of engineered reconfigurable RNA structures for nanomachines. We highlight recent examples of their targeted applications such as biocomputing and smart theranostics. We also discuss their advantages, challenges as well as possible solutions. We further provide an outlook of their potential in future synthetic biology.

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CiteScore
1.30
自引率
0.00%
发文量
117
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