Optimizing Component–Component Interaction Energies in the Self-Assembly of Finite, Multicomponent Structures

Zenk, John; Billups, Matthew; Schulman, Rebecca

doi:10.1021/acsomega.8b02303

Title: Optimizing Component–Component Interaction Energies in the Self-Assembly of Finite, Multicomponent Structures

Journal Article · Fri Dec 28 00:00:00 EST 2018 · ACS Omega

DOI:https://doi.org/10.1021/acsomega.8b02303· OSTI ID:1489060

Zenk, John; Billups, Matthew;

Components of multicomponent biological self-assembly processes generally have interfaces that are optimized to enable the process to proceed quickly and reliably. Analogous principles for designing such interfaces for engineered multicomponent self-assembly processes, such as those involving nucleic acid components, are still being developed. Inspired by biological systems, here, we use stochastic kinetic computer simulations to understand how to tune the strength of interfaces to achieve maximal yields in an addressable self-assembly process. We find that high yields of a desired product can be achieved across a broad range of isothermal assembly conditions by appropriately choosing the interaction energies between components and that heterogeneous (i.e., nonuniform) component–component interaction energies can improve self-assembly outcomes, especially because uniform interfacial energies have unusually low assembly rates. In particular, the structures that assemble with the highest yields under isothermal conditions often include a strong–strong–strong–weak interface motif in closed ring substructures. We apply this process for optimizing interfacial energies to a previously characterized set of components for a self-assembly process using measured kinetic and thermodynamic parameters and show that the initial design of the assembling complex could be improved (i.e., made to assemble with higher yield) by 20–60% using different interface designs. This work suggests that this type of iterative, computational optimization can improve the design cycle for an engineered complex by suggesting next-generation complex designs and preventing the need to experimentally test many different designs.

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Research Organization:: Johns Hopkins Univ., Baltimore, MD (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Basic Energy Sciences (BES)

Grant/Contract Number:: SC0010426

OSTI ID:: 1489060

Alternate ID(s):: OSTI ID: 1508829; OSTI ID: 1595305; OSTI ID: 1659417

Journal Information:: ACS Omega, Journal Name: ACS Omega Vol. 3 Journal Issue: 12; ISSN 2470-1343

Publisher:: American Chemical Society (ACS)Copyright Statement

Country of Publication:: United States

Language:: English

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Title: Optimizing Component–Component Interaction Energies in the Self-Assembly of Finite, Multicomponent Structures

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