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1. Tetrel Bond Affects the Self‐Assembly of Acetylcholine and its Analogues and is an Ancillary Interaction in Protein Binding.

Author

Daolio, Andrea, Calabrese, Miriam, Pizzi, Andrea, Lo Iacono, Cristina, Demitri, Nicola, Beccaria, Roberta, Gomila, Rosa M., Frontera, Antonio, and Resnati, Giuseppe

Subjects
*ATOMS in molecules theory, *SMALL molecules, *PROTEIN binding, *NATURAL orbitals, *CARRIER proteins
Abstract

The −N+(CH3)3 residue is present in acetylcholine (ACh) and in many of its analogues which are used as selective ACh agonist or antagonists for human therapy. The X‐ray structures of four ACh derivatives show the presence of short and linear contacts between the C atoms of −N+(CH3)3 groups and lone pair possessing atoms. These contacts can be rationalized as tetrel bonds (TtBs) thanks to their geometric features. Interrogation of the Protein Data Bank suggests that similar −N+−C⋅⋅⋅nucleophile contacts affect the details of the binding of ACh and its derivatives to proteins. Quantum theory of atoms in molecules, noncovalent interaction plot, and natural bond orbital analyses consistently confirm that the −N+−C⋅⋅⋅nucleophile contacts observed in small molecule crystals and in substrate/protein complexes are attractive in nature and can be rationalized as TtBs. TtBs involving methyl groups of the −N+(CH3)3 moiety can be proposed as a new item in the palette of interactions allowing the compounds containing this pharmacophoric unit to bind to their target protein and/or to express their biological/pharmacological properties. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Solid State Machinery of Multiple Dynamic Elements in a Metal–Organic Framework

Author

Perego, Jacopo, primary, Daolio, Andrea, additional, Bezuidenhout, Charl X., additional, Piva, Sergio, additional, Prando, Giacomo, additional, Costarella, Benjamin, additional, Carretta, Pietro, additional, Marchiò, Luciano, additional, Kubicki, Dominik, additional, Sozzani, Piero, additional, Bracco, Silvia, additional, and Comotti, Angiolina, additional

Published
2024
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5. Osme Bond: Geometric and Energetic Features in the Adducts between OsO4 and Lewis Bases.

Author

Calabrese, Miriam, Pizzi, Andrea, Daolio, Andrea, Beccaria, Roberta, Lo Iacono, Cristina, Scheiner, Steve, and Resnati, Giuseppe

Subjects
LEWIS bases, DENSITY functional theory, METAL bonding, X-ray diffraction, SINGLE crystals, DNA adducts
Abstract

Adducts between OsO4 and Lewis bases exert a role in important oxidation processes such as epoxidation and dihydroxylation. It has been shown that the attractive interaction driving the formation of these adducts is a σ‐hole bond involving the metal as the electrophilic species; the term Osme Bond (OmB) was proposed for designating it. Here some new adducts between OsO4 and various bases have been characterized through single crystal x‐ray diffraction (XRD) and computational studies (density functional theory, DFT), confirming the existence of a robust correlation between σ‐hole interaction energy and deformation of the tetrahedral geometry of OsO4. Also, some adducts formed by RuO4 with nucleophiles were investigated computationally. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Fluoride Anions: Unexploited but Effective Halogen Bond Acceptors.

Author

Daolio, Andrea, Pizzi, Andrea, Nayak, Susanta K., Dominikowska, Justyna, Terraneo, Giancarlo, Metrangolo, Pierangelo, and Resnati, Giuseppe

Subjects
*ELECTRON density, *FLUORIDES, *HALOGENS, *ANIONS, *ELECTRON donors, *HALIDES
Abstract

Due to their high electron density, fluoride anions can be considered the most effective halogen bond (HaB) acceptors among the halides. However, under common experimental conditions, F− uncommonly acts as HaB acceptor, expectedly as it is present in hydrated form. Herein we report that under specific crystallization conditions a hydrogen bond‐free F− functioning as donor of electron density can be obtained, with the formed HaBs constituting the driving force of the observed crystal packings. Computations confirm the strength of these HaBs compared to analogous interactions involving other halides. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Thiazolium Salts as Chalcogen Bond Donors

Author

Konidaris, Kostantis, primary, Daolio, Andrea, additional, Pizzi, Andrea, additional, Scilabra, Patrick, additional, Terraneo, Giancarlo, additional, Quici, Silvio, additional, Murray, Jane S., additional, Politzer, Peter, additional, and Resnati, Giuseppe, additional

Published
2022
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17. Benchmark Dynamics of Dipolar Molecular Rotors in Fluorinated Metal‐Organic Frameworks.

Author

Perego, Jacopo, Bezuidenhout, Charl X., Bracco, Silvia, Piva, Sergio, Prando, Giacomo, Aloisi, Cristian, Carretta, Pietro, Kaleta, Jiří, Le, Thi Phuong, Sozzani, Piero, Daolio, Andrea, and Comotti, Angiolina

Subjects
METAL-organic frameworks, DENSITY functional theory, SYNCHROTRON radiation, RELAXATION phenomena, ROTORS, MOLECULAR dynamics, TRP channels
Abstract

Fluorinated Metal‐Organic Frameworks (MOFs), comprising a wheel‐shaped ligand with geminal rotating fluorine atoms, produced benchmark mobility of correlated dipolar rotors at 2 K, with practically null activation energy (Ea=17 cal mol−1). 1H T1 NMR revealed multiple relaxation phenomena due to the exchange among correlated dipole‐rotor configurations. Synchrotron radiation X‐ray diffraction at 4 K, Density Functional Theory, Molecular Dynamics and phonon calculations showed the fluid landscape and pointed out a cascade mechanism converting dipole configurations into each other. Gas accessibility, shown by hyperpolarized‐Xe NMR, allowed for chemical stimuli intervention: CO2 triggered dipole reorientation, reducing their collective dynamics and stimulating a dipole configuration change in the crystal. Dynamic materials under limited thermal noise and high responsiveness enable the fabrication of molecular machines with low energy dissipation and controllable dynamics. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Cover Feature: Tetrel Bond Affects the Self‐Assembly of Acetylcholine and its Analogues and is an Ancillary Interaction in Protein Binding (Chem. Eur. J. 59/2024).

Author

Daolio, Andrea, Calabrese, Miriam, Pizzi, Andrea, Lo Iacono, Cristina, Demitri, Nicola, Beccaria, Roberta, Gomila, Rosa M., Frontera, Antonio, and Resnati, Giuseppe

Subjects
*PROTEIN binding, *CARRIER proteins, *BIOCHEMISTS, *CHEMISTS, *PROTEIN-protein interactions
Abstract

The article in Chemistry - A European Journal discusses how the −CH3 groups of choline and its derivatives can form tetrel bonds with nucleophiles, impacting the self-assembly of these molecules and their binding to proteins. The authors suggest that understanding these tetrel bonds is crucial for chemists and biochemists. For more details, readers can refer to the Research Article by G. Resnati and co‐workers. [Extracted from the article]

Published
2024
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29. Binding motif of ebselen in solution: Chalcogen and hydrogen bonds team up

Author

Daolio, Andrea, Scilabra, Patrick, Di Pietro, Maria Enrica, Resnati, Chiara, Rissanen, Kari, and Resnati, Giuseppe

Subjects
chemistry.chemical_classification, Stereochemistry, Ebselen, Hydrogen bond, Synthon, Supramolecular chemistry, General Chemistry, Catalysis, drugs, supramolecular chemistry, chemistry.chemical_compound, Chalcogen, chemistry, covid-19, Covalent bond, Materials Chemistry, Thiol, Molecule, selenium, drugs, covid-19, chalcogen bond, supramolecular chemistry, selenium, chalcogen bond
Abstract

Ebselen (2-phenyl-1,2-benzoselenazol-3(2H)one), a glutathione peroxidase mimic, is active against several RNA viruses, among others the retrovirus responsible for the COVID-19 pandemic. In this paper 77Se and 1H NMR studies of ebselen are reported and they identify the chalcogen bond (ChB) and hydrogen bond (HB) that are central in the landscape of interactions formed by the compound in solution. The selenium atom and the hydrogen atom at the C7 carbon act as ChB and HB donors and the O and N atoms of neutral molecules function as acceptors. The ChB and HB give rise to a bifurcated supramolecular synthon, which fastens the interaction acceptor opposite to the N–Se covalent bond of the selenazole ring. It is known that the biologically important reaction of ebselen with cysteine thiol groups is favoured when selenium acts as a chalcogen bond donor.

Published
2020

35. Chalcogen Bonds in Selenocysteine Seleninic Acid, a Functional GPx Constituent, and in Other Seleninic or Sulfinic Acid Derivatives.

Author

Tripathi, Abhishek, Daolio, Andrea, Pizzi, Andrea, Guo, Zhifang, Turner, David R., Baggioli, Alberto, Famulari, Antonino, Deacon, Glen B., Resnati, Giuseppe, and Singh, Harkesh B.

Subjects
*SULFINIC acids, *ACID derivatives, *SELENOCYSTEINE, *ATOMS in molecules theory, *ELECTRIC potential
Abstract

The controlled oxidation reaction of L‐selenocystine under neutral pH conditions affords selenocysteine seleninic acid (3‐selenino‐L‐alanine) which is characterized also by means of single‐crystal X‐ray diffraction. This technique shows that selenium forms three chalcogen bonds (ChBs), one of them being outstandingly short. A survey of seleninic acid derivatives in the Cambridge Structural Database (CSD) confirms that the C−Se(=O)O− functionality tends to act as a ChB donor robust enough to systematically influence the interactional landscape in the solid. Quantum Theory of Atom in Molecules (QTAIM) analysis proves the attractive nature of the short contacts observed in crystals containing the seleninic functionality and calculation of surface molecular electrostatic potential (MEP) reveals that remarkably positive σ‐holes can frequently be found opposite to the covalent bonds at selenium. Both CSD searches and QTAIM and MEP approaches show that also the sulfinic acid moiety can function as a ChB donor, albeit less frequently than the seleninic acid one. These findings may contribute to a better understanding, at the atomic level, of the mechanism of action of the enzymes that control oxidative stress and ROS deactivation and that contain selenocysteine seleninic acid and cysteine sulfinic acid in the active site. [ABSTRACT FROM AUTHOR]

Published
2021
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37. 4,4′-Dipyridyl Dioxide·SbF3Cocrystal: Pnictogen Bond Prevails over Halogen and Hydrogen Bonds in Driving Self-Assembly

Author

Scilabra, Patrick, Terraneo, Giancarlo, Daolio, Andrea, Baggioli, Alberto, Famulari, Antonino, Leroy, Cesar, Bryce, David L., and Resnati, Giuseppe

Abstract

The SbF3·4,4′-dipyridyl N,N′-dioxide cocrystal is prepared and characterized via infrared spectroscopy and 121Sb and 123Sb nuclear quadrupole resonance. Single crystal X-ray analysis proves that a major role in cocrystal formation is played by Sb···O pnictogen bonds, the attractive interactions wherein antimony and oxygen act as the electrophilic and nucleophilic sites, respectively. Molecular electrostatic potential and natural bond orbital analyses confirm the relevance of this interaction in the self-assembly process. Dipyridyl dioxide also forms hydrogen bonded and halogen bonded cocrystal, e.g., when water and 1,4-diiodo-tetrafluoro-benzene function as acceptors of electron density. Experiments of competitive cocrystal formation indicate that under the adopted conditions the pnictogen bond prevails over the halogen bond and the hydrogen bond in identifying the tecton involved in cocrystal formation with dipyridyl dioxide.

Published
2020
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38. Osme Bond: Geometric and Energetic Features in the Adducts between OsO 4 and Lewis Bases.

Author

Calabrese M, Pizzi A, Daolio A, Beccaria R, Lo Iacono C, Scheiner S, and Resnati G

Abstract

Adducts between OsO 4 and Lewis bases exert a role in important oxidation processes such as epoxidation and dihydroxylation. It has been shown that the attractive interaction driving the formation of these adducts is a σ-hole bond involving the metal as the electrophilic species; the term Osme Bond (OmB) was proposed for designating it. Here some new adducts between OsO 4 and various bases have been characterized through single crystal x-ray diffraction (XRD) and computational studies (density functional theory, DFT), confirming the existence of a robust correlation between σ-hole interaction energy and deformation of the tetrahedral geometry of OsO 4 . Also, some adducts formed by RuO 4 with nucleophiles were investigated computationally., (© 2024 Wiley‐VCH GmbH.)

Published
2024
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39. Chalcogen Bonding (ChB) as a Robust Supramolecular Recognition Motif of Benzisothiazolinone Antibacterials.

Author

Pizzi A, Daolio A, Beccaria R, Demitri N, Viani F, and Resnati G

Subjects
Gram-Positive Bacteria, Sulfur chemistry, Anti-Bacterial Agents pharmacology, Gram-Negative Bacteria
Abstract

1,2-benzisothiazol-3(2H)-one derivatives are highly active against a broad spectrum of fungi as well as Gram positive and Gram negative bacteria. For this reason they are extensively used, for example, as additives in detergents, leather products, paper coatings, and antifouling paintings. In this paper experimental findings are reported proving that the sulfur atom of benzisothiazolinones have a remarkable tendency to form short and directional chalcogen bondings on the extension of the covalent N-S bond and, to a lesser extent, of the C-S bond. Analyses of the Cambridge Structural Database confirm the interaction as a primary recognition motif of these systems. The electrophilicity of sulfur is crucial in the chemical reactions initiating the cascade of events resulting in the biopharmacological activities of benzisothiazolinones. The reported results suggest that the electrophility of sulfur may play a role also at earlier stages than the reactive ones, namely it may pin the compounds at the active site of target enzymes via chalcogen bondings that preorganize the system in the conformation required for the bonds formation/cleavage determining the biopharmacological activity., (© 2023 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published
2023
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40. The N , N , N -trimethylammonium moiety as tetrel bond donor site: crystallographic and computational studies.

Author

Daolio A, Wieduwilt EK, Pizzi A, Genoni A, Resnati G, and Terraneo G

Abstract

Five structures bearing the N , N , N -trimethylammonium unit have been investigated to address the ability of the N + -CH 3 unit to function as a tetrel bond donor site. Charged and neutral electron density donors display close contacts with different carbon atoms of methyl groups on the ammonium moiety. The Hirshfeld atom refinement (HAR) technique was used on selected structures to accurately and precisely determine the hydrogen atom positions and, consequently, to get better insights into the N + -C⋯Nu (Nu = nucleophile) interactions occurring in the crystals. In particular, the performed analyses highlighted specific geometrical features of the moieties involved in the interactions and allowed distinguishing between tetrel and hydrogen bonds.

Published
2022
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41. Molecular Electrostatic Potential and Noncovalent Interactions in Derivatives of Group 8 Elements.

Author

Daolio A, Pizzi A, Calabrese M, Terraneo G, Bordignon S, Frontera A, and Resnati G

Abstract

This communication reports experimental and theoretical evidences of σ-hole interactions in adducts between nitrogen or oxygen nucleophiles and tetroxides of osmium or other group 8 elements. Cocrystals between pyridine or pyridine N-oxide derivatives and osmium tetroxide are characterized through various techniques and rationalized as σ-hole interactions using DFT calculations and several other computational tools. We propose the term "osme bond" (OmB, Om=Fe, Ru, Os, (Hs)) for naming the noncovalent interactions wherein group 8 elements have the role of the electrophile. The word osme is the transcription of ὀσμή, the ancient Greek word for smell that was used to name the heaviest group 8 element in relation to the smoky odor of its tetroxide., (© 2021 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2021
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42. The Relevance of Size Matching in Self-assembly: Impact on Regio- and Chemoselective Cocrystallizations.

Author

Lin JX, Daolio A, Scilabra P, Terraneo G, Li H, Resnati G, and Cao R

Abstract

Decamethonium diiodide is reported to perform the chemo- and regioselective encapsulation of para-dihalobenzenes through the competitive formation of halogen-bonded cocrystals starting from solutions that also contain ortho and meta isomers. Selective caging in the solid occurs even when an excess ortho or meta isomers, or even a mixture of them, is present in the solution. A prime matching between the size and shape of the dication and the formed dianions plays a key role in enabling the selective self-assembly, as proven by successful encapsulation of halogen-bond donors as weak as 1,4-dichlorobenzene and by the results of cocrystallization trials involving mismatching tectons. Encapsulated para-dihalobenzenes guest molecules can be removed quantitatively by heating the cocrystals under reduced pressure and be recovered as pure materials. The residual decamethonium diiodide can be recycled with no reduction in selectivity., (© 2020 Wiley-VCH GmbH.)

Published
2020
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