Thermoresponsive polymers: from natural proteins to amino acid based polymer synthesis

In polymer science, thermoresponsiveness refers to macromolecular systems that display a marked and discontinuous change in their physical properties with temperature. Such smart polymers are the focus of increasing attention as they provide new solutions to many applications (e.g., drug delivery, n...

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Veröffentlicht in:	Progress in polymer science 2023-12, Vol.147, p.101752, Article 101752
Hauptverfasser:	Badreldin, Mostafa, Ambrosio, Pedro Salas, Garanger, Elisabeth, Lecommandoux, Sébastien, Harrisson, Simon, Bonduelle, Colin
Format:	Artikel
Sprache:	eng
Schlagworte:	aggregation Chemical Sciences LCST phase transition Polymers polypeptide Protein-like polymers ring-opening polymerization thermoresponsive
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container_title	Progress in polymer science
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creator	Badreldin, Mostafa Ambrosio, Pedro Salas Garanger, Elisabeth Lecommandoux, Sébastien Harrisson, Simon Bonduelle, Colin
description	In polymer science, thermoresponsiveness refers to macromolecular systems that display a marked and discontinuous change in their physical properties with temperature. Such smart polymers are the focus of increasing attention as they provide new solutions to many applications (e.g., drug delivery, nanotechnology, tissue engineering and biotechnology). This review focuses on amino acid based polymers, mainly synthetic polypeptides that are obtained by ring-opening polymerization. These include polymers based on natural amino acids, synthetic or modified amino acids and N-alkylated glycine derivatives. Based on what is known about the behavior of natural proteins in response to temperature variations, this review provides a comprehensive overview of the state of the art of thermosensitive polypeptides through a detailed description i) of the structure/thermoresponsiveness relationship, ii) of the mechanisms involved at the molecular level, iii) of their possible applications both in materials science and in biomedical applications. [Display omitted]
doi_str_mv	10.1016/j.progpolymsci.2023.101752
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Such smart polymers are the focus of increasing attention as they provide new solutions to many applications (e.g., drug delivery, nanotechnology, tissue engineering and biotechnology). This review focuses on amino acid based polymers, mainly synthetic polypeptides that are obtained by ring-opening polymerization. These include polymers based on natural amino acids, synthetic or modified amino acids and N-alkylated glycine derivatives. Based on what is known about the behavior of natural proteins in response to temperature variations, this review provides a comprehensive overview of the state of the art of thermosensitive polypeptides through a detailed description i) of the structure/thermoresponsiveness relationship, ii) of the mechanisms involved at the molecular level, iii) of their possible applications both in materials science and in biomedical applications. 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subjects	aggregation Chemical Sciences LCST phase transition Polymers polypeptide Protein-like polymers ring-opening polymerization thermoresponsive
title	Thermoresponsive polymers: from natural proteins to amino acid based polymer synthesis
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