Metal–peptide rings form highly entangled topologically inequivalent frameworks with the same ring- and crossing-numbers

For interlocking ring structures, knot theory predicts that the number of topologically different links increases with ring and crossing number. Here, the authors use a peptide folding-and-assembly strategy to selectively realize two highly entangled catenanes with 4 rings and 12 crossings, represen...

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Auteurs principaux:	Tomohisa Sawada, Ami Saito, Kenki Tamiya, Koya Shimokawa, Yutaro Hisada, Makoto Fujita
Format:	article
Langue:	EN
Publié:	Nature Portfolio 2019
Sujets:	Science Q
Accès en ligne:	https://doaj.org/article/f85555a38c764ff59bba5713c9780de9
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https://doaj.org/article/f85555a38c764ff59bba5713c9780de9

Metal–peptide rings form highly entangled topologically inequivalent frameworks with the same ring- and crossing-numbers

Internet

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