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12. Achiral 2‐pyridone and 4‐aminopyridine act as chiral inducers of asymmetric autocatalysis with amplification of enantiomeric excess via the formation of chiral crystals.

Author

Matsumoto, Arimasa, Tateishi, Daisuke, Nakajima, Tsuyoshi, Kurosaki, Shiori, Ogawa, Tomohiro, Kawasaki, Tsuneomi, and Soai, Kenso

Subjects
AUTOCATALYSIS, CRYSTALS, AMINOPYRIDINES, PYRIDONE, CHIRALITY
Abstract

Enantiomorphous crystals of achiral 2‐pyridone and 4‐aminopyridine served as sources of chirality, to induce the asymmetric autocatalysis of 5‐pyrimidyl alkanol during the asymmetric addition of diisopropylzinc to the corresponding pyrimidine‐5‐carbaldehyde, that is, the Soai reaction. Following a significant amplification of enantiomeric excess through asymmetric autocatalysis, highly enantioenriched 5‐pyrimidyl alkanol could be synthesized with their corresponding absolute configurations to those of chiral crystals of 2‐pyridone and 4‐aminopyridine. [ABSTRACT FROM AUTHOR]

Published
2024
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19. List of Contributors

Author

Amedjkouh, Mohamed, primary, Barabás, Béla, additional, Bellesia, Franco, additional, Buhse, Thomas, additional, Caglioti, Luciano, additional, Coudret, Christophe, additional, Crusats, Joaquim, additional, Cruz, José-Manuel, additional, Csapó, János, additional, El-Hachemi, Zoubir, additional, Fehér, Csaba, additional, Fridrich, Bálint, additional, Fujii, Norihiko, additional, Fujii, Noriko, additional, Fülöp, Ottilia, additional, Funes-Maldonado, Matías, additional, Hochberg, David, additional, Kaimori, Yoshiyasu, additional, Kawasaki, Tsuneomi, additional, Kurdi, Róbert, additional, Lente, Gábor, additional, Matsumoto, Arimasa, additional, Mezey, Paul G., additional, Micheau, Jean-Claude, additional, Mika, László T., additional, Moyano, Albert, additional, Noble-Terán, María E., additional, Pályi, Gyula, additional, Papp, Máté, additional, Parenti, Francesca, additional, Pinetti, Adriano, additional, Ribó, Josep M., additional, Righi, Valeria, additional, Romagnoli, Carlo, additional, Sakaue, Hiroaki, additional, Sato, Itaru, additional, Schenetti, Luisa, additional, Sieng, Bora, additional, Simon-Sarkadi, Livia, additional, Skoda-Földes, Rita, additional, Soai, Kenso, additional, Takata, Takumi, additional, Tassinari, Francesco, additional, Tukacs, József M., additional, Urbán, Béla, additional, Valero, Guillem, additional, Weimer, Bart, additional, and Zucchi, Claudia, additional

Published
2017
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25. Rotaxanes comprising cyclic phenylenedioxydiacetamides and secondary mono- and bis-dialkylammonium ions: effect of macrocyclic ring size on pseudorotaxane formation

Author

Nakamura, Takanori, Mori, Yuka, Naito, Masaya, Okuma, Yukari, Miyagawa, Shinobu, Takaya, Hikaru, Kawasaki, Tsuneomi, Tokunaga, Yuji, Nakamura, Takanori, Mori, Yuka, Naito, Masaya, Okuma, Yukari, Miyagawa, Shinobu, Takaya, Hikaru, Kawasaki, Tsuneomi, and Tokunaga, Yuji

Abstract

In this study we synthesized three macrocyclic tetralactams 1, possessing two phenylenedioxydiacetamide units and various spacers, for use as hydrogen bond accepting hosts for mono- and bis-dialkylammonium ions. The cyclic tetralactam 1b, featuring propylene spacers, bound secondary mono- and bis-dialkylammonium ions efficiently to form corresponding pseudo[2]rotaxanes stabilized through hydrogen bonding between the two components. The cyclic tetralactams bearing other spacers (1a and 1d) also bound these dialkylammonium ions, but the macrocycle 1a (ethylene spacer) predominantly constructed a face-to-face complex, while the macrocycle 1d (3-oxypentalene spacer) formed a non-selective complex. We synthesized three [2]rotaxanes, through imine and oxime formation, from pseudo[2]rotaxanes self-assembled from the propylene-spacer tetralactam 1b and mono- and bis-alkylammonium ions. 1H NMR spectroscopy and X-ray crystallography revealed that hydrogen bonds between the dumbbell-shaped and macrocyclic components restricted the conformation of the amide units in the [2]rotaxanes in solution and in the solid state.

Published
2021

29. Asymmetric autocatalysis triggered by carbon isotope ([sup.13]C/[sup.12]C) chirality

Author

Kawasaki, Tsuneomi, Matsumura, Yukari, Tsutsumi, Takashi, Suzuki, Kenta, Ito, Masateru, and Soai, Kenso

Subjects
Chirality -- Research, Enantiomers -- Research, Carbon -- Isotopes, Carbon -- Properties, Science and technology
Abstract

Many apparently achiral organic molecules on Earth may be chiral because of random substitution of the 1.11% naturally abundant [sup.13]C for [sup.12]c in an enantiotopic moiety within the structure. However, chirality from this source is experimentally difficult to discern because of the very small difference between [sup.13]C and [sup.12]C. We have demonstrated that this small difference can be amplified to an easily seen experimental outcome using asymmetric autocatalysis. In the reaction between pyrimidine-5-carbaldehyde and diisopropylzinc, addition of chiral molecules in large enantiomeric excess that are, however, chiral only by virtue of isotope substitution causes a slight enantiomeric excess in the zinc alkoxide of the produced pyrimidyl, alkanol. Asymmetric autocatalysis then leads to pyrimidyl alcohol with a large enantiomeric excess. The sense of enantiomeric excess of the product alcohol varies consistently with the sense of the excess enantiomer of the carbon isotopically chiral compound.

Published
2009

36. Investigation on the Epoxidation of Piperitenone, and Structure-activity Relationships of Piperitenone Oxide for Differentiation-inducing Activity

Author

Sato, Ryohei, primary, Sasaki, Azusa, additional, Mori, Yuko, additional, Komai, Mio, additional, Kamo, Shogo, additional, Onuki, Mai, additional, Seki, Takafumi, additional, Kawabe, Zen, additional, Miyajima, Shu, additional, Tomoshige, Shusuke, additional, Kawasaki, Tsuneomi, additional, Sato, Shuichi, additional, Nakamura, Takako, additional, Kubo, Nakao, additional, Takeda, Seiji, additional, Date, Shuichi, additional, Okamoto, Shigehisa, additional, Boonyaritthongchai, Panida, additional, Thirapanmethee, Krit, additional, Chomnawang, Mullika Traidej, additional, Bongcheewin, Bhanubong, additional, Nguyen, Thuy Linh, additional, Nguyen, Huong Lan Thi, additional, Le, Huong Thi, additional, Nakamura, Yasushi, additional, and Kuramochi, Kouji, additional

Published
2020
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40. Rotational isomerism of amide units in the ring of rotaxanes in response to base/acid stimuli

Author

Nakamura, Takanori, Okuma, Yukari, Miyagawa, Shinobu, Kawasaki, Tsuneomi, Naito, Masaya, and Tokunaga, Yuji

Abstract

Rotational isomerism of 4 amide moieties of the threaded macrocyclic component of [2]rotaxanes featuring mono- and bis-ammonium moieties in dumbbell-shaped axle components was investigated in response to base, and the rotational isomerization of both rotaxanes could be controlled reversibly through the addition of appropriate amounts of base and acids.Graphical AbstractRotational isomerism of 4 amide moieties of the threaded macrocyclic component of [2]rotaxanes featuring mono- and bis-ammonium moieties in the dumbbell-shaped axle components was investigated in response to base, and the rotational isomerism of both rotaxanes could be controlled reversibly through the addition of appropriate amounts of base and acids.

Published
2024
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