Silica Mineralization by a Peptide Template Having a High Charge Relay Effect

The influence of the charge relay effects of peptide organic templates on silica mineralization has been investigated. β‐Sheet‐type peptide showed higher catalytic activity towards the condensation of trimethylsilanol than random‐coil peptides. The higher activity of the β‐sheet peptide was attribut...

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Veröffentlicht in:	ChemPlusChem (Weinheim, Germany) Germany), 2014-04, Vol.79 (4), p.531-535
Hauptverfasser:	Murai, Kazuki, Higuchi, Masahiro, Kuno, Tatsuya, Kato, Katsuya
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Sprache:	eng
Schlagworte:	charge relay effect morphological control organic-inorganic hybrid composites peptides silica mineralization
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description	The influence of the charge relay effects of peptide organic templates on silica mineralization has been investigated. β‐Sheet‐type peptide showed higher catalytic activity towards the condensation of trimethylsilanol than random‐coil peptides. The higher activity of the β‐sheet peptide was attributed to an effective charge relay effect between the His and Glu residues of the β‐sheet assembly. Furthermore, the silica mineralized on the VHVEVS peptide template formed a flat surface, which was affected by the peptide morphology. This result implied that the growth of the silica occurred at the surface of the peptide template in a manner very similar to that of the enzyme reaction. Thus, by using a specific structural design strategy, this process could be used for the preparation of specific silica particles. In charge: The influence of the charge relay effects of peptide organic templates on silica mineralization has been investigated. β‐Sheet‐type peptide shows higher catalytic activity toward the condensation of trimethylsilanol than random‐coil peptide (see figure). Silica mineralized on the Val‐His‐Val‐Glu‐Val‐Ser (VHVEVS) peptide template forms a flat surface, which is affected by the peptide morphology.
doi_str_mv	10.1002/cplu.201300321
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subjects	charge relay effect morphological control organic-inorganic hybrid composites peptides silica mineralization
title	Silica Mineralization by a Peptide Template Having a High Charge Relay Effect
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