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Thermally Driven Dynamic Behaviors in Polymeric Vesicles.


ABSTRACT: Stimuli-responsive polymeric vesicles offer a versatile platform for mimicking dynamic cell-like behaviors for synthetic cell applications. In this study, thermally responsive polymeric droplets derived from poly(ethylene oxide)-poly(butylene oxide) (PEO-PBO) polymersomes, aiming to create synthetic cell models that mimic key biological functions are developed. Upon heating, the nanoscale vesicles undergo fusion, transforming into sponge-like microscale droplets enriched with membrane features. By modulating the temperature, these droplets display dynamic properties such as contractility, temperature-induced fusion, and cargo trapping, including small molecules and bacteria, thereby demonstrating their ability to dynamically interface with biological entities. The findings demonstrate the potential of our sponge-like droplets in synthetic cell applications, contributing to the understanding of PEO-PBO polymersomes' unique characteristics, expanding the capabilities of synthetic cell structures, and representing an exciting possibility for advancing soft matter engineering to cell-like behaviors.

SUBMITTER: Allen ME 

PROVIDER: S-EPMC12372441 | biostudies-literature | 2025 Aug

REPOSITORIES: biostudies-literature

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Thermally Driven Dynamic Behaviors in Polymeric Vesicles.

Allen Matthew E ME   Sun Yeyang Y   Chan Chi Long CL   Paez-Perez Miguel M   Ces Oscar O   Elani Yuval Y   Contini Claudia C  

Small (Weinheim an der Bergstrasse, Germany) 20250305 33


Stimuli-responsive polymeric vesicles offer a versatile platform for mimicking dynamic cell-like behaviors for synthetic cell applications. In this study, thermally responsive polymeric droplets derived from poly(ethylene oxide)-poly(butylene oxide) (PEO-PBO) polymersomes, aiming to create synthetic cell models that mimic key biological functions are developed. Upon heating, the nanoscale vesicles undergo fusion, transforming into sponge-like microscale droplets enriched with membrane features.  ...[more]

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