具有磁驱动导航运动能力的超软超弹 DNA 机器人用于受限空间内的细胞递运

Super-Soft and Super-Elastic DNA Robot with Magnetically Driven Navigational Locomotion for Cell Delivery in Confined Space.

机构信息

Frontier Science Center for Synthetic Biology, Key Laboratory of Systems Bioengineering (MOE), School of Chemical Engineering and Technology, Tianjin University, Tianjin, 300350, P. R. China.

School of Chemical Engineering and Australian, Centre for NanoMedicine, University of New South Wales, Sydney, NSW, 2052, Australia.

出版信息

Angew Chem Int Ed Engl. 2020 Feb 3;59(6):2490-2495. doi: 10.1002/anie.201913549. Epub 2019 Dec 23.

DOI:10.1002/anie.201913549

PMID:31769147

Abstract

Soft organisms such as earthworms can access confined, narrow spaces, inspiring scientists to fabricate soft robots for in vivo manipulation of cells or tissues and minimally invasive surgery. We report a super-soft and super-elastic magnetic DNA hydrogel-based soft robot (DNA robot), which presents a shape-adaptive property and enables magnetically driven navigational locomotion in confined and unstructured space. The DNA hydrogel is designed with a combinational dynamic and permanent crosslinking network through chain entanglement and DNA hybridization, resulting in shear-thinning and cyclic strain properties. DNA robot completes a series of complex magnetically driven navigational locomotion such as passing through narrow channels and pipes, entering grooves and itinerating in a maze by adapting and recovering its shape. DNA robot successfully works as a vehicle to deliver cells in confined space by virtue of the 3D porous networked structure and great biocompatibility.

摘要

柔软的生物体，如蚯蚓，可以进入封闭、狭窄的空间，这启发科学家们制造出用于细胞或组织的体内操作以及微创手术的柔软机器人。我们报告了一种超软超弹的基于磁性 DNA 水凝胶的软体机器人（DNA 机器人），它具有形状自适应特性，并能够在封闭和非结构化的空间中进行磁性驱动的导航运动。该 DNA 水凝胶通过链缠结和 DNA 杂交设计了一个组合的动态和永久交联网络，从而产生剪切稀化和循环应变特性。DNA 机器人通过适应和恢复形状，成功地完成了一系列复杂的磁性驱动导航运动，例如穿过狭窄的通道和管道、进入凹槽以及在迷宫中巡游。由于具有 3D 多孔网络结构和良好的生物相容性，DNA 机器人可作为一种在封闭空间中运送细胞的载体。

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具有磁驱动导航运动能力的超软超弹 DNA 机器人用于受限空间内的细胞递运

Super-Soft and Super-Elastic DNA Robot with Magnetically Driven Navigational Locomotion for Cell Delivery in Confined Space.

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