Linker-mediated Self-assembly of Mobile DNA-coated Colloids

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2020 Jul 9

PMID 32637586

Citations 5

Authors

Xiuyang Xia

Hao Hu

Massimo Pica Ciamarra

Ran Ni

Affiliations

Soon will be listed here.

Abstract

Developing construction methods of materials tailored for given applications with absolute control over building block placement poses an immense challenge. DNA-coated colloids offer the possibility of realising programmable self-assembly, which, in principle, can assemble almost any structure in equilibrium, but remains challenging experimentally. Here, we propose an innovative system of linker-mediated mobile DNA-coated colloids (mDNACCs), in which mDNACCs are bridged by the free DNA linkers in solution, whose two single-stranded DNA tails can bind with specific single-stranded DNA receptors of complementary sequence coated on colloids. We formulate a mean-field theory efficiently calculating the effective interaction between mDNACCs, where the entropy of DNA linkers plays a nontrivial role. Particularly, when the binding between free DNA linkers in solution and the corresponding receptors on mDNACCs is strong, the linker-mediated colloidal interaction is determined by the linker entropy depending on the linker concentration.

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