Synthetic β‑Barrel by Metal-Induced Folding and Assembly

The de novo construction of repeat proteins has received much attention from biologists and chemists, yet that of a β-barrel structure, one of the most well-known classes, has not been accomplished to date. Here, we report the first chemical construction of a β-barrel tertiary structure with a pore...

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Veröffentlicht in:	Journal of the American Chemical Society 2018-07, Vol.140 (28), p.8644-8647
Hauptverfasser:	Yamagami, Motoya, Sawada, Tomohisa, Fujita, Makoto
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Sprache:	eng
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creator	Yamagami, Motoya Sawada, Tomohisa Fujita, Makoto
description	The de novo construction of repeat proteins has received much attention from biologists and chemists, yet that of a β-barrel structure, one of the most well-known classes, has not been accomplished to date. Here, we report the first chemical construction of a β-barrel tertiary structure with a pore through a combination of peptide folding and metal-directed self-assembly. Coordination of zinc salts to an eight-residue peptide fragment bearing β-strand- and loop-forming sequences resulted in a β-barrel in which six-stranded cylindrical antiparallel β-sheets formed a hydrophobic pore with a specific shape.
doi_str_mv	10.1021/jacs.8b04284
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title	Synthetic β‑Barrel by Metal-Induced Folding and Assembly
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