Facile synthesis of block copolypeptides of defined architecture

Many natural polymeric materials (particularly structural proteins) display a hierarchy of structure over several length scales. Block copolymers are able to self-assemble into ordered nanostructures,, but the random-coiled nature of their polymer chains usually suppresses any further levels of orga...

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Veröffentlicht in:	Nature (London) 1997-11, Vol.390 (6658), p.386-389
1. Verfasser:	Deming, Timothy J
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acids - chemistry Aminoacid polymers Applied sciences Biomaterials Biomimetics Biopolymers Chemical reactions Chemistry Exact sciences and technology Humanities and Social Sciences letter Lysine - analogs & derivatives Lysine - chemical synthesis Lysine - chemistry Materials science multidisciplinary Organometallic Compounds - chemistry Peptides Peptides - chemical synthesis Physicochemistry of polymers Polyglutamic Acid - analogs & derivatives Polyglutamic Acid - chemical synthesis Polyglutamic Acid - chemistry Polymers Science Science (multidisciplinary) Synthetic biopolymers
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creator	Deming, Timothy J
description	Many natural polymeric materials (particularly structural proteins) display a hierarchy of structure over several length scales. Block copolymers are able to self-assemble into ordered nanostructures,, but the random-coiled nature of their polymer chains usually suppresses any further levels of organization. The use of components with regular structures, such as rigid-rod polymers, can increase the extent of spatial organization in self-assembling materials. But the synthesis of such polymeric components typically involves complicated reaction steps that are not suitable for large-scale production. Proteins form hierarchically organized structures in which the fundamental motifs are generally α-helical coils and β-sheets. Attempts to synthesize polypeptides with well-defined amino-acid sequences, which might adopt similar organized structures, have been plagued by unwanted side reactions that give rise to products with a wide range of molecular weights, hampering the formation of well-defined peptide block copolymers. Here I describe a polymerization strategy that overcomes these difficulties by using organonickel initiators which suppress chain-transfer and termination side reactions. This approach allows the facile synthesis of block copolypeptides with well-defined sequences, which might provide new peptide-based biomaterials with potential applications in tissue engineering, drug delivery and biomimetic composite formation.
doi_str_mv	10.1038/37084
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Here I describe a polymerization strategy that overcomes these difficulties by using organonickel initiators which suppress chain-transfer and termination side reactions. 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Block copolymers are able to self-assemble into ordered nanostructures,, but the random-coiled nature of their polymer chains usually suppresses any further levels of organization. The use of components with regular structures, such as rigid-rod polymers, can increase the extent of spatial organization in self-assembling materials. But the synthesis of such polymeric components typically involves complicated reaction steps that are not suitable for large-scale production. Proteins form hierarchically organized structures in which the fundamental motifs are generally α-helical coils and β-sheets. Attempts to synthesize polypeptides with well-defined amino-acid sequences, which might adopt similar organized structures, have been plagued by unwanted side reactions that give rise to products with a wide range of molecular weights, hampering the formation of well-defined peptide block copolymers. Here I describe a polymerization strategy that overcomes these difficulties by using organonickel initiators which suppress chain-transfer and termination side reactions. This approach allows the facile synthesis of block copolypeptides with well-defined sequences, which might provide new peptide-based biomaterials with potential applications in tissue engineering, drug delivery and biomimetic composite formation.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>9389476</pmid><doi>10.1038/37084</doi><tpages>4</tpages></addata></record>
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subjects	Amino Acids - chemistry Aminoacid polymers Applied sciences Biomaterials Biomimetics Biopolymers Chemical reactions Chemistry Exact sciences and technology Humanities and Social Sciences letter Lysine - analogs & derivatives Lysine - chemical synthesis Lysine - chemistry Materials science multidisciplinary Organometallic Compounds - chemistry Peptides Peptides - chemical synthesis Physicochemistry of polymers Polyglutamic Acid - analogs & derivatives Polyglutamic Acid - chemical synthesis Polyglutamic Acid - chemistry Polymers Science Science (multidisciplinary) Synthetic biopolymers
title	Facile synthesis of block copolypeptides of defined architecture
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