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1. Design and recognition of cucurbituril-secured platinum-bound oligopeptides

   https://doi.org/10.1039/d1sc02637b  

   Barbero, Héctor; Masson, Eric (July 2021, Chemical Science)

   null (Ed.)

   Platinum terpyridyl complexes, stacked on top of one another and secured as dimers with cucurbit[8]uril (CB[8]) in aqueous medium, were functionalized quantitatively and in situ with a pair of pentapeptides Phe-(Gly) 3 -Cys by grafting their cysteine residues to the Pt centers. The resulting CB[8]·(Pt·peptide) 2 assemblies were used to target secondary hosts CB[7] and CB[8] via their pair of phenylalanine residues, again in situ . A series of well-defined architectures, including a supramolecular “pendant necklace” with hybrid head-to-head and head-to-tail arrangements inside CB[8], were obtained during the self-sorting process after combining only 3 or 4 simple building units. 

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2. High‐Affinity Host–Guest Recognition for Efficient Assembly and Enzymatic Responsiveness of DNA Nanostructures

   https://doi.org/10.1002/smll.202307585  

   Narayanan, Raghu Pradeep; Prasad, Abhay; Buchberger, Alex; Zou, Lei; Bernal‐Chanchavac, Julio; MacCulloch, Tara; Fahmi, Nour Eddine; Yan, Hao; Zhang, Fei; Webber, Matthew J.; et al (October 2023, Small)

   Abstract The combination of multiple orthogonal interactions enables hierarchical complexity in self‐assembled nanoscale materials. Here, efficient supramolecular polymerization of DNA origami nanostructures is demonstrated using a multivalent display of small molecule host–guest interactions. Modification of DNA strands with cucurbit[7]uril (CB[7]) and its adamantane guest, yielding a supramolecular complex with an affinity of order 10¹⁰m⁻¹, directs hierarchical assembly of origami monomers into 1D nanofibers. This affinity regime enables efficient polymerization; a lower‐affinity β‐cyclodextrin–adamantane complex does not promote extended structures at a similar valency. Finally, the utility of the high‐affinity CB[7]–adamantane interactions is exploited to enable responsive enzymatic actuation of origami nanofibers assembled using peptide linkers. This work demonstrates the power of high‐affinity CB[7]–guest recognition as an orthogonal axis to drive self‐assembly in DNA nanotechnology. 

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3. Cucurbit[8]uril forms tight inclusion complexes with cationic triamantanes

   https://doi.org/10.1039/D3NJ00156C  

   King, David; Šumanovac, Tatjana; Murkli, Steven; Schreiner, Peter R.; Šekutor, Marina; Isaacs, Lyle (March 2023, New Journal of Chemistry)

   We report the synthesis of quaternary (di)cationic triamantane derivatives G1 and G3 by the permethylation of the corresponding primary ammonium ions G2 and G4. The complexation behaviors of G1–G4 toward CB[7] and CB[8] were examined by 1 H NMR spectroscopy, which reveals that CB[8] is capable of fully encapsulating G1–G4 whereas CB[7] forms inclusion complexes with G1, G2, and G4 but cannot fully encapsulate the central hydrophobic core of the bis-quaternary ammonium ion G3. The geometries of the CB[ n ]-guest complexes were determined by analyzing the complexation induced changes in chemical shifts and were further confirmed by molecular modelling using the Conformer–Rotamer Ensemble Sampling Tool (CREST) based on the GFN methods. Finally, the complexation thermodynamics were determined by a combination of 1 H NMR competitive experiments, direct isothermal titration calorimetry (ITC) measurements, and competitive ITC titrations using a tight binding ternary complex as a competitor. 

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4. Transient and Dissipative Host–Guest Hydrogels Regulated by Consumption of a Reactive Chemical Fuel

   https://doi.org/10.1002/ange.202216537  

   Su, Bo; Chi, Teng; Ye, Zhou; Xiang, Yuanhui; Dong, Ping; Liu, Dongping; Addonizio, Christopher J.; Webber, Matthew J. (January 2023, Angewandte Chemie)

   Abstract The transient self‐assembly of molecules under the direction of a consumable fuel source is fundamental to biological processes such as cellular organization and motility. Such biomolecular assemblies exist in an out‐of‐equilibrium state, requiring continuous consumption of high energy molecules. At the same time, the creation of bioinspired supramolecular hydrogels has traditionally focused on associations occurring at the thermodynamic equilibrium state. Here, hydrogels are prepared from cucurbit[7]uril host–guest supramolecular interactions through transient physical crosslinking driven by the consumption of a reactive chemical fuel. Upon action from this fuel, the affinity and dynamics of CB[7]–guest recognition are altered. In this way, the lifetime of transient hydrogel formation and the dynamic modulus obtained are governed by fuel consumption, rather than being directed by equilibrium complex formation. 

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5. Cucurbiturils mimicked by low polarizability solvents with pre-formed cavities: an empirical model to predict hydrocarbon selectivity

   https://doi.org/10.1039/D1SC06728A  

   Nazimuddin, Md; Barbero, Héctor; Rabbani, Ramin; Masson, Eric (April 2022, Chemical Science)

   Relative binding affinities of a series of nine rigid hydrocarbons towards the cavity formed by a portion of the inner wall of cucurbit[8]uril (CB[8]) and a positive auxiliary guest were determined by competitive 19 F NMR titrations in deuterium oxide. The corresponding free binding energies were corrected by the hydrocarbon computed solvation energies to obtain their free energies of transfer from the gas phase to the CB[8]/auxiliary guest cavity. These energies correlate linearly with the hydrocarbon static polarizabilities, thereby suggesting that the selectivity is driven, perhaps exclusively, by dispersive interactions between the hydrocarbons and the tailor-made cavity, regardless of the degree of unsaturation of the guests. The free energies of transfer also correlate linearly with the energy released upon introduction of the hydrocarbon into a pre-formed cavity extruded from a solvent (benzene) selected to mimic the polarity and polarizability of the CB[8]/auxiliary probe cavity – and this, with a unity slope. Among other features, this empirical model also accurately predicts the relative binding affinities of various rigid hydrocarbons to CB[6] and CB[7], as well as noble gases to CB[5], when the macrocycles are mimicked with pre-formed cavities in perfluorohexane or perfluorohexane/benzene mixtures, both being notoriously non-polar and non-polarizable environments. 

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