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1. D -Mannosamine hydrochloride (2-amino-2-deoxy- D -mannose hydrochloride): ionic hydrogen bonding in saccharides involving chloride and aminium ions

   https://doi.org/10.1107/S2053229622002121  

   Lin, Jieye ; Oliver, Allen G. ; Serianni, Anthony S. ( April 2022 , Acta Crystallographica Section C Structural Chemistry)

   D-Mannosamine hydrochloride (2-amino-2-deoxy-D-mannose hydrochloride), C 6 H 14 NO 5 + ·Cl − , (I), crystallized from a methanol/ethyl acetate/ n -hexane solvent mixture at room temperature in a 4 C 1 chair conformation that is slightly distorted towards the C3,O5 B form. A comparison of the structural parameters of (I) with the corresponding parameters in α-D-glucosamine hydrochloride, (II), and β-D-galactosamine hydrochloride, (III)/(III′), was undertaken to evaluate the effects of ionic hydrogen bonding on structural properties. Three types of ionic hydrogen bonds are present in the crystals of (I)–(III)/(III′), i.e. N + —H...O, N + —H...Cl − , and O—H...Cl − . The exocyclic structural parameters in (I), (II), and (III)/(III′) appear to be most influenced by this bonding, especially the exocyclic hydroxy groups, which adopt eclipsed conformations enabled by ionic hydrogen bonding to the chloride anion. Anomeric disorder was observed in crystals of (I), with an α:β ratio of 37:63. However, anomeric configuration appears to exert minimal structural effects; that is, bond lengths, bond angles, and torsion angles are essentially identical in both anomers. The observed disorder at the anomeric C atom of (I) appears to be caused by the presence of the chloride anion and atom O3 or O4 in proximal voids, which provide opportunities for hydrogen bonding to atom O1 in both axial and equatorial orientations. 

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2. Glycosidic linkage, N -acetyl side-chain, and other structural properties of methyl 2-acetamido-2-deoxy-β- D -glucopyranosyl-(1→4)-β- D -mannopyranoside monohydrate and related compounds

   https://doi.org/10.1107/S2053229620001515  

   Zhang, Wenhui ; Meredith, Reagan J. ; Oliver, Allen G. ; Carmichael, Ian ; Serianni, Anthony S. ( March 2020 , Acta Crystallographica Section C Structural Chemistry)

   null (Ed.)

   The crystal structure of methyl 2-acetamido-2-deoxy-β-D-glycopyranosyl-(1→4)-β-D-mannopyranoside monohydrate, C 15 H 27 NO 11 ·H 2 O, was determined and its structural properties compared to those in a set of mono- and disaccharides bearing N -acetyl side-chains in βGlcNAc aldohexopyranosyl rings. Valence bond angles and torsion angles in these side chains are relatively uniform, but C—N (amide) and C—O (carbonyl) bond lengths depend on the state of hydrogen bonding to the carbonyl O atom and N—H hydrogen. Relative to N -acetyl side chains devoid of hydrogen bonding, those in which the carbonyl O atom serves as a hydrogen-bond acceptor display elongated C—O and shortened C—N bonds. This behavior is reproduced by density functional theory (DFT) calculations, indicating that the relative contributions of amide resonance forms to experimental C—N and C—O bond lengths depend on the solvation state, leading to expectations that activation barriers to amide cis – trans isomerization will depend on the polarity of the environment. DFT calculations also revealed useful predictive information on the dependencies of inter-residue hydrogen bonding and some bond angles in or proximal to β-(1→4) O -glycosidic linkages on linkage torsion angles ϕ and ψ. Hypersurfaces correlating ϕ and ψ with the linkage C—O—C bond angle and total energy are sufficiently similar to render the former a proxy of the latter. 

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3. Syntheses and crystal structures of the anhydride 4-oxatetracyclo[5.3.2.0 2,6 .0 8,10 ]dodec-11-ene-3,5-dione and the related imide 4-(4-bromophenyl)-4-azatetracyclo[5.3.2.0 2,6 .0 8,10 ]dodec-11-ene-3,5-dione

   https://doi.org/10.1107/S2056989020009512  

   Hulsman, Andrew ; Lorenzana, Isabel ; Schultz, Theodore ; Squires, Breezy ; Stenfors, Brock A. ; Tolonen, Mason ; Staples, Richard J. ; Biros, Shannon M. ; Winchester, William R. ( August 2020 , Acta Crystallographica Section E Crystallographic Communications)

   null (Ed.)

   The syntheses and crystal structures of the two title compounds, C 11 H 10 O 3 ( I ) and C 17 H 14 BrNO 2 ( II ), both containing the bicyclo[2.2.2]octene ring system, are reported here [the structure of I has been reported previously: White & Goh (2014). Private Communication (refcode HOKRIK). CCDC, Cambridge, England]. The bond lengths and angles of the bicyclo[2.2.2]octene ring system are similar for both structures. The imide functional group of II features carbonyl C=O bond lengths of 1.209 (2) and 1.210 (2) Å, with C—N bond lengths of 1.393 (2) and 1.397 (2) Å. The five-membered imide ring is nearly planar, and it is positioned exo relative to the alkene bridgehead carbon atoms of the bicyclo[2.2.2]octene ring system. Non-covalent interactions present in the crystal structure of II include a number of C—H...O interactions. The extended structure of II also features C—H...O hydrogen bonds as well as C—H...π and lone pair–π interactions, which combine together to create supramolecular sheets. 

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4. Co-operative halogen bonds and nonconventional sp -C—H...O hydrogen bonds in 1:1 cocrystals formed between diethynylpyridines and N -halosuccinimides

   https://doi.org/10.1107/S2053229622006635  

   Bosch, Eric ; Bowling, Nathan P. ( July 2022 , Acta Crystallographica Section C Structural Chemistry)

   The rapid evaporation of 1:1 solutions of diethynylpyridines and N -halosuccinimides, that react together to form haloalkynes, led to the isolation of unreacted 1:1 cocrystals of the two components. The 1:1 cocrystal formed between 2,6-diethynylpyridine and N -iodosuccinimide (C 4 H 4 INO 2 ·C 9 H 5 N) contains an N -iodosuccinimide–pyridine I...N halogen bond and two terminal alkyne–succinimide carbonyl C—H...O hydrogen bonds. The three-dimensional extended structure features interwoven double-stranded supramolecular polymers that are interconnected through halogen bonds. The cocrystal formed between 3,5-diethynylpyridine and N -iodosuccinimide (C 4 H 4 INO 2 ·C 9 H 5 N) also features an I...N halogen bond and two C—H...O hydrogen bonds. However, the components form essentially planar double-stranded one-dimensional zigzag supramolecular polymers. The cocrystal formed between 3,5-diethynylpyridine and N -bromosuccinimide (C 4 H 4 BrNO 2 ·C 9 H 5 N) is isomorphous to the cocrystal formed between 3,5-diethynylpyridine and N -iodosuccinimide, with a Br...N halogen bond instead of an I...N halogen bond. 

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5. Synthesis, structural analysis, and docking studies with SARS-CoV-2 of a trinuclear zinc complex with N -phenylanthranilic acid ligands

   https://doi.org/10.1107/S205322962200239X  

   Mbani O., Armel L. ; Bonnand, Evan F. ; Paboudam, Awawou G. ; Brannon, Jacob P. ; Gardner-Ricossa, Kevyn D. ; Stieber, S. Chantal ; Agwara, Moise O. ( April 2022 , Acta Crystallographica Section C Structural Chemistry)

   The structure of a trinuclear zinc complex, hexakis(μ 2 -2-anilinobenzoato)diaquatrizinc(II), [Zn 2 (C 13 H 10 NO 2 ) 6 (H 2 O) 2 ] or (NPA) 6 Zn 3 (H 2 O) 2 (NPA is 2-anilinobenzoate or N -phenylanthranilate), is reported. The complex crystallizes in the triclinic space group P -1 and the central Zn II atom is located on an inversion center. The NPA ligand is found to coordinate via the carboxylate O atoms with unique C—O bond lengths that support an unequal distribution of resonance over the carboxylate fragment. The axial H 2 O ligands form hydrogen bonds with neighboring molecules that stabilize the supramolecular system in rigid straight chains, with an angle of 180° along the c axis. π stacking is the primary stabilization along the a and b axes, resulting in a highly ordered supramolecular structure. Docking studies show that this unique supramolecular structure of a trinuclear zinc complex has potential for binding to the main protease (M pro ) in SARS-CoV-2 in a different location from Remdesivir, but with a similar binding strength. 

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