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Programming colloidal bonding using DNA strand-displacement circuitry.


ABSTRACT: As a strategy for regulating entropy, thermal annealing is a commonly adopted approach for controlling dynamic pathways in colloid assembly. By coupling DNA strand-displacement circuits with DNA-functionalized colloid assembly, we developed an enthalpy-mediated strategy for achieving the same goal while working at a constant temperature. Using this tractable approach allows colloidal bonding to be programmed for synchronization with colloid assembly, thereby realizing the optimal programmability of DNA-functionalized colloids. We applied this strategy to conditionally activate colloid assembly and dynamically switch colloid identities by reconfiguring DNA molecular architectures, thereby achieving orderly structural transformations; leveraging the advantage of room-temperature assembly, we used this method to prepare a lattice of temperature-sensitive proteins and gold nanoparticles. This approach bridges two subfields: dynamic DNA nanotechnology and DNA-functionalized colloid programming.

SUBMITTER: Zhou X 

PROVIDER: S-EPMC7084094 | biostudies-literature | 2020 Mar

REPOSITORIES: biostudies-literature

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Programming colloidal bonding using DNA strand-displacement circuitry.

Zhou Xiang X   Yao Dongbao D   Hua Wenqiang W   Huang Ningdong N   Chen Xiaowei X   Li Liangbin L   He Miao M   Zhang Yunhan Y   Guo Yijun Y   Xiao Shiyan S   Bian Fenggang F   Liang Haojun H  

Proceedings of the National Academy of Sciences of the United States of America 20200304 11


As a strategy for regulating entropy, thermal annealing is a commonly adopted approach for controlling dynamic pathways in colloid assembly. By coupling DNA strand-displacement circuits with DNA-functionalized colloid assembly, we developed an enthalpy-mediated strategy for achieving the same goal while working at a constant temperature. Using this tractable approach allows colloidal bonding to be programmed for synchronization with colloid assembly, thereby realizing the optimal programmability  ...[more]

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