List of papers relating to the CH/π hydrogen bond

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Category: REVIEWS

[NEW] R. Taylor, P. A. Wood, Chem. Rev. 2019, 119, 9427–9477: A Million Crystal Structures: The Whole Is Greater than the Sum of Its Parts.

[NEW] M. Nishio, Y Kohno, Chem-Bio Informatics Journal 201818, 86-96: The Orbital-Effect-Myth.

[NEW] M. Nishio, Chem-Bio Informatics Journal 201818, 10-20: The Hydrogen Bond and its Surroundings Part 2. The Hydrophobic-Bond-Myth.

[NEW] M. Nishio, Chem-Bio Informatics Journal  201717, 85-92: Myths in Modern Science: The Hydrogen Bond and its Surroundings. Part 1. The Hydrogen-Bond-Myth.

[NEW] V. Spiwok, Molecules 2017, 22, 1038: CH/π Interactions in Carbohydrate Recognition.

[NEW] M. Nishio, Y. Umezawa, J. Fantini, M. S. Weiss, P. Chakrabarti, Phys. Chem. Chem. Phys. 201416, 12648-12683: CH–π hydrogen bonds in biological macromolecules.

[NEW] M. Nishio, Phys. Chem. Chem. Phys. 201113, 13873-13900. (PCCP Perspective, themed issue ‘Weak Hydrogen Bonds - Strong Effects)

[NEW] O. Takahashi, Y. Kohno, M. Nishio, Chem. Rev. 2010110, 6049-6076: Relevance of Weak Hydrogen Bonds in the Conformation of Organic Compounds and Bioconjugates: Evidence from Recent Experimental Data and High-Level ab Initio MO Calculations.

[NEW] M. Nishio, Y. Umezawa, K. Honda, S. Tsuboyama, H. Suezawa, CrystEngComm  200911, 1757-1788, CH/π hydrogen bonds in organic and organometallic chemistry (Dedicated to Dr Olga Kennard).

T. Ozawa, K. Okazaki, M. Nishio, in book: The Fragment Molecular Orbital Method: Practical Applications to Large Molecular Systems. Eds. D. G. Fedorov and K. Kitaura, CRC Press, New York, 2009, Chapter 10: FMO as a Tool for Structure-Based Drug Design.

G. Toth et al., Current Pharmac. Design 2007, 13, 3476-3493: The Role and Significance of Unconventional Hydrogen Bonds in Small Molecule Recognition by Biological Receptors of Pharmaceutical Relevance.

M. Nishio, Y. Umezawa, Topics in Stereochemistry 200625, 255-302: The CH/π Hydrogen Bond: An Important Molecular Force in Controlling the Crystal Conformation of Organic Compounds and Three-Dimensional Structure of Biopolymers (dedicated to the memory of Professor Derek H. R. Barton and Professor Max. F. Perutz).

M. Nishio, Tetrahedron 200561, 6923-6950: Tetrahedron Report No. 724 (dedicated to the memory of Sir Derek H. R. Barton).

M. Nishio, CrystEngComm 20046, 130-158: CH/π hydrogen bonds in crystals (dedicated to Professor Rocco Ungaro).

M. Nishio, in book: Encyclopedia of Supramolecular Chemistry, Eds. J. L. Atwood and J. W. Steed, Marcel Dekker Inc., 2004, 1576-1585: Weak Hydrogen Bonds

N. Taieb et al., Advanced Drug Delivery Reviews 2004, 56, 779-794: Rafts and related glycosphingolipid-enriched microdomains in the intestinal epithelium: bacterial targets linked to nutrient absorption.

H. Taniguchi et al., Yuki Gosei Kagaku Kyokaishi 2003, 61, 310-321: Useful application of ferulic acid produced from rice bran.

A. Piccolo, Advances in Agronomy 2002, 35, 57-134: The supramolecular structure of humic substances: A novel understanding of humus chemistry and implications in soil science.

M. Muraki, Protein and Peptide Lett. 20029, 195-209: The importance of CH/π interactions to the function of carbohydrate binding proteins.

D. Ferreira, R. Bekker, Natural Product Reports 1996, 411-433: Oligomeric proanthocyanidins: naturally occurring O-heterocycles.

M. Nishio, Y. Umezawa, M. Hirota, Y. Takeuchi, Tetrahedron 1995, 51, 8665-8701: The CH/π Interaction: Significance in Molecular Recognition. Tetrahedron Report No. 378 (dedicated to Professor Sir Derek Barton for his 77th year).

C. A. Hunter, Chem. Soc. Rev. 1994, 101-109: The role of aromatic interactions in molecular recognition. [Meldola Lecture]

A. Arduini et al., Supramolecular Chemistry, V. Balzani, L. De Cola, eds., Kluwer Academic Publishers, 1992, 31-50: New shapes for selective molecular recognition from calixarenes.

G. D. Andreetti et al, Inclusion Compounds, Vol. 4, J. L. Atwood, et al., Eds., Oxford, 1991, 64-125: Inclusion of ions and neutral molecules in calixarenes.

G. D. Andreetti, F. Ugozzoli, Calixarenes. A Versatile Class of Macrocyclic Compounds, Vol. 3, J. Vicens, V. Boehmer, Eds., Kluwer, 1991, 87-123, Dordrecht: Inclusion properties and host-guest interactions of calixarenes in the solid state.

M. Nishio, M. Hirota, Tetrahedron 198945, 7201-7245: CH/π Interaction: Implications in Organic Chemistry. Tetrahedron Report No. 265 (dedicated to Professor Sir Derek Barton, on the occasion of his 70th birthday).

The following reviews are written in Japanese.

M. Nishio, Y. Umezawa, M. Hirota, Yuki Gosei Kagaku Kyokai Shi 1997, 55, 2-12: The CH/π Interaction. Implications in Molecular Recognition.

M. Nishio, Y. Umezawa, M. Hirota, Yukagaku 1996, 45, 609-617: The CH/π Interaction- Implications in Chemistry and Life Science.

M. Nishio, Y. Umezawa, M. Hirota, Kagaku to Seibutsu 1995, 33, 311-318: CH/π Interaction. An Important Factor to Determine Protein Specificities.

M. Nishio, Y. Umezawa, M. Hirota, Farumashia 1994, 30, 1154-1159: The CH/π Interaction - An intermolecular force occurring between alkyl and π-groups. Significance in Chemistry and Biochemistry.

Y. Aoyama et al., Yuki Gosei Kagaku Kyokai-shi 1993, 52, 572-579: Molecular recognition of sugars with macrocyclic host compounds.

M. Hirota, M. Nishio, Kagaku 1991, 46, 592-595: The CH/π Hypothesis. Phenyl and t-butyl groups come close to each other.

M. Nishio, Kagaku no Ryoiki 1983, 37, 243-251: Weak Attractive Interactions and Properties of Molecules.

M. Nishio, Kagaku no Ryoiki 1979, 33, 422-432: CH/π Hypothesis and Weak Chemical Interactions.

M. Nishio, Kagaku no Ryoiki 1977, 31, 834-841; ibid 998-1006: Stereochemistry and Interactions between Groups - Conformation and Reaction Specificity.

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