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Mobile Linkers on DNA-Coated Colloids: Valency without Patches

Stefano Angioletti-Uberti, Patrick Varilly, Bortolo M. Mognetti, and Daan Frenkel
Phys. Rev. Lett. 113, 128303 – Published 17 September 2014
Physics logo See Synopsis: Patchy Particles without the Patches
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Abstract

Colloids coated with single-stranded DNA (ssDNA) can bind selectively to other colloids coated with complementary ssDNA. The fact that DNA-coated colloids (DNACCs) can bind to specific partners opens the prospect of making colloidal “molecules.” However, in order to design DNACC-based molecules, we must be able to control the valency of the colloids, i.e., the number of partners to which a given DNACC can bind. One obvious, but not very simple approach is to decorate the colloidal surface with patches of single-stranded DNA that selectively bind those on other colloids. Here we propose a design principle that exploits many-body effects to control the valency of otherwise isotropic colloids. Using a combination of theory and simulation, we show that we can tune the valency of colloids coated with mobile ssDNA, simply by tuning the nonspecific repulsion between the particles. Our simulations show that the resulting effective interactions lead to low-valency colloids self-assembling in peculiar open structures, very different from those observed in DNACCs with immobile DNA linkers.

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  • Received 29 May 2014

DOI:https://doi.org/10.1103/PhysRevLett.113.128303

© 2014 American Physical Society

Synopsis

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Patchy Particles without the Patches

Published 17 September 2014

Mobile DNA strands could provide a different way to patch together DNA-coated particles to form colloidal structures whose structure and function can be tailored.

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Authors & Affiliations

Stefano Angioletti-Uberti*

  • Department of Physics, Humboldt University of Berlin, Newtonstrasse 15, 12489 Berlin, Germany

Patrick Varilly

  • Department of Chemistry, University of Cambridge, Lensfield Road, CB2 1EW Cambridge, United Kingdom

Bortolo M. Mognetti

  • Center for Nonlinear Phenomena and Complex Systems, Université Libre de Bruxelles, Code Postal 231, Campus Plaine, B-1050 Brussels, Belgium

Daan Frenkel

  • Department of Chemistry, University of Cambridge, Lensfield Road, CB2 1EW Cambridge, United Kingdom

  • *Corresponding author. sangiole@physik.hu-berlin.de

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Issue

Vol. 113, Iss. 12 — 19 September 2014

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