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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, representing two of the 100 predicted topologies with this complexity.

Tomohisa Sawada
Ami Saito
Makoto Fujita
ResearchOpen Access22 Feb 2019
Nature Communications

Volume: 10, P: 1-7
Pathways of DNA unlinking: A story of stepwise simplification

Robert Stolz
Masaaki Yoshida
Mariel Vazquez
ResearchOpen Access29 Sept 2017
Scientific Reports

Volume: 7, P: 1-11
A metal–peptide capsule by multiple ring threading

Constructing molecular cages from entangled molecules is a complex task requiring precise topological control. Here, the authors thread together six metal-peptide rings into a giant cubic molecular capsule with a defined cavity and 24 crossover points.

Tomohisa Sawada
Yuuki Inomata
Makoto Fujita
ResearchOpen Access12 Dec 2019
Nature Communications

Volume: 10, P: 1-8

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