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Direct observation and rational design of nucleation behavior in addressable self-assembly.


ABSTRACT: To optimize a self-assembly reaction, it is essential to understand the factors that govern its pathway. Here, we examine the influence of nucleation pathways in a model system for addressable, multicomponent self-assembly based on a prototypical "DNA-brick" structure. By combining temperature-dependent dynamic light scattering and atomic force microscopy with coarse-grained simulations, we show how subtle changes in the nucleation pathway profoundly affect the yield of the correctly formed structures. In particular, we can increase the range of conditions over which self-assembly occurs by using stable multisubunit clusters that lower the nucleation barrier for assembling subunits in the interior of the structure. Consequently, modifying only a small portion of a structure is sufficient to optimize its assembly. Due to the generality of our coarse-grained model and the excellent agreement that we find with our experimental results, the design principles reported here are likely to apply generically to addressable, multicomponent self-assembly.

SUBMITTER: Sajfutdinow M 

PROVIDER: S-EPMC6042111 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Direct observation and rational design of nucleation behavior in addressable self-assembly.

Sajfutdinow Martin M   Jacobs William M WM   Reinhardt Aleks A   Schneider Christoph C   Smith David M DM  

Proceedings of the National Academy of Sciences of the United States of America 20180611 26


To optimize a self-assembly reaction, it is essential to understand the factors that govern its pathway. Here, we examine the influence of nucleation pathways in a model system for addressable, multicomponent self-assembly based on a prototypical "DNA-brick" structure. By combining temperature-dependent dynamic light scattering and atomic force microscopy with coarse-grained simulations, we show how subtle changes in the nucleation pathway profoundly affect the yield of the correctly formed stru  ...[more]

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