Automated Parameterization of Coarse-Grained Polyethylenimine Under Martini Framework

15 December 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

As a versatile polymer in many applications, synthesized polyethylenimine (PEI) is polydisperse with diverse branched structures that attain pH-dependent protonation states. Understanding the structure-function relationship of PEI is necessary for enhancing its efficacy in various applications. Coarse-grained (CG) simulations can be performed at length- and timescales directly comparable with experimental data while maintaining the molecular perspective. However, manually developing CG forcefields for complex PEI structures is time-consuming and prone to human errors. This article presents a fully automated algorithm that can coarse-grain any branched architecture of PEI from its all-atom (AA) simulation trajectories and topology. The algorithm is demonstrated by coarse-graining a branched 2 kDa PEI, which can replicate the AA diffusion coefficient, radius of gyration, and end-to-end distance of the longest linear chain. Commercially available 25 kDa and 2 kDa Millipore-Sigma PEIs are used for experimental validation. Specifically, branched PEI architectures are proposed, coarse-grained using the automated algorithm, and then simulated at different mass concentrations. The CG-PEIs can reproduce existing experimental data on PEI’s diffusion coefficient and Stokes-Einstein radius at infinite dilution, as well as its intrinsic viscosity. This suggests a strategy where probable chemical structures of synthetic PEIs can be inferred computationally using the developed algorithm. The coarse-graining methodology presented here can also be extended to other polymers.

Keywords

Automated coarse-graining
Adaptive gradient descent
graph analysis
theoretical and experimental comparison
polyethylenimine structure prediction

Supplementary materials

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Description
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Supporting Information
Description
Modified SMILE strings for coarse-grained polyethylenimine, CG time scaling factor, comparing reference and CG bonded distribution, z-score between CG and AA data, effects of equilibrium concentration and water model on CG-PEI properties, determining protonation ratio from buffering capacity, determining the number of primary, secondary, tertiary, and protonated beads in PEI, and z-score between CG and experimental data.
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