Molecular Transformation for Self-reproducing Vesicles and Underlying Analysis Methods

Closed bilayer membranes of amphiphiles in water, termed vesicles, represent one of the promising models of primitive cellular compartments. Herein, we reviewed studies on the design and construction of vesicle-based cell models capable of sequential growth and division and their underlying analysis...

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Veröffentlicht in:	Chemical & pharmaceutical bulletin 2021/10/01, Vol.69(10), pp.947-952
Hauptverfasser:	Toyota, Taro, Ohtani, Atsufumi, Sugiyama, Hironori
Format:	Artikel
Sprache:	eng
Schlagworte:	amphiphile Cell culture Cell membranes lipid world hypothesis molecular transformation self-reproduction vesicle Vesicles
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creator	Toyota, Taro Ohtani, Atsufumi Sugiyama, Hironori
description	Closed bilayer membranes of amphiphiles in water, termed vesicles, represent one of the promising models of primitive cellular compartments. Herein, we reviewed studies on the design and construction of vesicle-based cell models capable of sequential growth and division and their underlying analysis methods. We discussed the potential contribution of these studies to the universal understanding of the chemical/physical logics behind the steady reproduction of cellular membranes.
doi_str_mv	10.1248/cpb.c21-00216
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subjects	amphiphile Cell culture Cell membranes lipid world hypothesis molecular transformation self-reproduction vesicle Vesicles
title	Molecular Transformation for Self-reproducing Vesicles and Underlying Analysis Methods
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