PREPRINTS WITH DOI - 2024_Man Nguyen Thi Hong

Title: Molecular Dynamics Simulations Unveil the Aggregation Patterns and Salting Out of Polyarginines at Zwitterionic POPC Bilayers in Solutions of Various Ionic Strengths.
Author(s): Man Nguyen Thi Hong, Mario Vazdar.
DOI: 10.1101/2024.04.24.590968
Publication Date: April 24, 2024.
Resource Type: Preprint (DOI provided).
Format: PDF.
Working Group: WG2.
Affiliation: Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences, Prague, Czech Republic;
University of Chemistry and Technology, Prague, Czech Republic.
Access Status: Open.
Keywords: Molecular dynamics, Polyarginines, Cell-penetrating peptides, Salting-out, POPC membranes, Peptide aggregation.

Description:
This preprint investigates the adsorption and aggregation behavior of polyarginine cell-penetrating peptides (CPPs), specifically modeled as R9 peptides, at zwitterionic phosphocholine (POPC) membranes under varying ionic strengths. Using molecular dynamics (MD) simulations, the study reveals an intriguing salting-out effect, where peptide aggregation at the membrane increases with peptide concentration and ionic strength. Larger aggregates, such as octamers, are observed in high ionic strength conditions, suggesting a significant impact on CPP translocation across cellular membranes. The results indicate that the unique properties of arginine, particularly its amphiphilic guanidinium (Gdm+) side chain, drive aggregation dynamics through hydrophobic-like Gdm+ – Gdm+ and salt-bridge Gdm+ – C-terminus interactions. This research contributes to the understanding of CPP membrane interactions and their potential role in translocation mechanisms.

Data last updated	18 dicembre 2024
Metadata last updated	22 marzo 2025
Creato	18 dicembre 2024
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Licenza	Creative Commons Attribuzione
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Package id	cc0585cc-c990-4d18-9a0a-86c543611723
State	active

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2024_Man Nguyen Thi Hong

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