Trigger sequence can influence final morphology in the self-assembly of asymmetric telechelic polymers

We report on a numerical study of polymer network formation of asymmetric biomimetic telechelic polymers with two reactive ends based on a self-assembling collagen, elastin or silk-like polypeptide sequence. The two reactive ends of the polymer can be activated independently using physicochemical tr...

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Veröffentlicht in:	Soft matter 2016-02, Vol.12 (7), p.295-217
Hauptverfasser:	Kumar, Aatish, Lowe, Christopher P, Cohen Stuart, Martien A, Bolhuis, Peter G
Format:	Artikel
Sprache:	eng
Schlagworte:	Asymmetry Biomimetics Chains (polymeric) Collagens Mathematical morphology Physical Chemistry and Soft Matter Polymers Self assembly Strength
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container_title	Soft matter
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creator	Kumar, Aatish Lowe, Christopher P Cohen Stuart, Martien A Bolhuis, Peter G
description	We report on a numerical study of polymer network formation of asymmetric biomimetic telechelic polymers with two reactive ends based on a self-assembling collagen, elastin or silk-like polypeptide sequence. The two reactive ends of the polymer can be activated independently using physicochemical triggers such as temperature and pH. We show, using a simple coarse grained model that the order in which this triggering occurs influences the final morphology. For both of collagen-silk and elastin-silk topologies we find that for relatively short connector chains the morphology of the assembly is greatly influenced by the order of the trigger, whereas for longer chains the equilibrium situation is more easily achieved. Moreover, self-assembly is greatly enhanced at moderate collagen interaction strength, due to facilitated binding and unbinding of the peptides. This finding indicates that both the trigger sequence and strength can be used to steer self-assembly in these biomimetic polymer systems. We report on a numerical study of polymer network formation of asymmetric biomimetic telechelic polymers with two reactive ends based on a self-assembling collagen, elastin or silk-like polypeptide sequence.
doi_str_mv	10.1039/c5sm01453k
format	Article
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source	Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects	Asymmetry Biomimetics Chains (polymeric) Collagens Mathematical morphology Physical Chemistry and Soft Matter Polymers Self assembly Strength
title	Trigger sequence can influence final morphology in the self-assembly of asymmetric telechelic polymers
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