Journal ArticleDOI
Selbstassoziierende [3]‐Catenane
Peter R. Ashton,Christopher L. Brown,Ewan J. T. Chrystal,Timothy T. Goodnow,Angel E. Kaifer,Keith P. Parry,Alexandra M. Z. Slawin,Neil Spencer,J. Fraser Stoddart,David J. Williams +9 more
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This article is published in Angewandte Chemie.The article was published on 1991-08-01. It has received 25 citations till now. The article focuses on the topics: Catenane & Cyclophane.read more
Citations
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Journal ArticleDOI
Catenanes: Fifty Years of Molecular Links
TL;DR: The diverse strategies that exist for synthesizing catenanes in the 21st century are outlined and their emerging applications and the challenges that still exist for the synthesis of more complex topologies are examined.
Journal ArticleDOI
Selbstorganisation in natürlichen und in nichtnatürlichen Systemen
Douglas Philp,J. Fraser Stoddart +1 more
TL;DR: In this article, the authors present a programmierung derartiger erkennungsprozesse and somit auch der korrekte Aufbau der Uberstrukturen setzen ein fundamentales Verstandnis und die Nutzung inter- sowie intramolekularer nichtkovalenter bindender Wechselwirkungen voraus.
Journal ArticleDOI
A Photochemically Driven Molecular Machine
Roberto Ballardini,Vincenzo Balzani,Maria Teresa Gandolfi,Luca Prodi,Margherita Venturi,Douglas Philp,Howard G. Ricketts,J. Fraser Stoddart +7 more
Journal ArticleDOI
Cyclodextrine als Bausteine supramolekularer Strukturen und Funktionseinheiten
TL;DR: Cyclodextrine werden gerne als Bausteine eingesetzt, da sie sich gezielt sowohl kovalent, als auch nichtkovalent verknupfen lassen.
Journal ArticleDOI
Catenane: fünfzig Jahre molekulare Verschlingungen
TL;DR: In this paper, a number of komplizierter, haufig schoner, verzahnter Systeme hoherer Ordnung, darunter Salomonische Verschlingungen, Borromaische Ringe and ein Davidstern-Catenan, were untersucht.
References
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Journal ArticleDOI
The nature of .pi.-.pi. interactions
Journal ArticleDOI
Aromatic-aromatic interaction: a mechanism of protein structure stabilization
TL;DR: Analysis of neighboring aromatic groups in four biphenyl peptides or peptide analogs and 34 proteins reveals a specific aromatic-aromatic interaction that helps stabilize tertiary structure, and 20 percent stabilize quaternary structure.
Journal ArticleDOI
Aromatic-aromatic interactions: free energy profiles for the benzene dimer in water, chloroform, and liquid benzene
Journal ArticleDOI
Amino-aromatic interactions in proteins
TL;DR: Positively charged or δ(+) amino groups of lysine, arginine, asparagine, glutamine and histidine are preferentially located within 6 Å of the ring centroids of phenylalanine, tyrosine and trytophan, where they make van der Waals' contact with theδ(−) π‐electrons and avoid the δ(* ring edge.
Book ChapterDOI
Weakly Polar Interactions In Proteins
TL;DR: The physical bases of the noncovalent electrostatic interactions that stabilize protein structure are discussed and the four types of weakly polar interactions that have been shown to occur in proteins are described with reference to some biologically significant examples of protein structure stabilization and protein–ligand binding.
Related Papers (5)
Interlocking of molecular threads: from the statistical approach to the templated synthesis of catenands
Quantitative self-assembly of a [2]catenane from two preformed molecular rings
Molecular meccano. 1. [2]Rotaxanes and a [2]catenane made to order
Pier Lucio Anelli,Peter R. Ashton,Douglas Philp,Marek Pietraszkiewicz,Mark V. Reddington,Neil Spencer,J. Fraser Stoddart,Cristina Vicent,Roberto Ballardini,Vincenzo Balzani,Maria Teresa Gandolfi,Luca Prodi,Milagros. Delgado,Timothy T. Goodnow,Angel E. Kaifer,Alexandra M. Z. Slawin,David J. Williams +16 more