TY - JOUR
T1 - Stereoselectivity of the biginelli reaction catalyzed by chiral primary amine
T2 - A computational study
AU - Yoshimura, Takayoshi
AU - Puripat, Maneeporn
AU - Parasuk, Vudhichai
AU - Hatanaka, Miho
N1 - Funding Information:
This work was supported by JSPS KAKENHI Grant no. JP17H06445, 18H03908, and 20K05438. We also acknowledge the computer resources provided by the Academic Center for Computing and Media Studies (ACCMS) at the Kyoto University and by the Research Center of Computer Science (RCCS) at the Institute for Molecular Science.
Publisher Copyright:
© 2021 The Japan Institute of Heterocyclic Chemistry
PY - 2021
Y1 - 2021
N2 - The Biginelli reaction catalyzed by a chiral compound is one of the most effective ways to form bioactive heterocycle compounds. High enantioselectivity was obtained using primary amine with a chiral diamine backbone as a chiral catalyst. To elucidate the origin of the enantioselectivity, we investigated the reaction pathways of this catalytic reaction using the density functional theory. We also focused on the transition states of the rate-determining step leading different stereoisomers. The rate-determining step was the proton transfer process accompanying the cyclization of the substrate, which was mediated by the amide moiety of the catalyst, and the orientation of the amide moiety was the reason for the enantioselectivity.
AB - The Biginelli reaction catalyzed by a chiral compound is one of the most effective ways to form bioactive heterocycle compounds. High enantioselectivity was obtained using primary amine with a chiral diamine backbone as a chiral catalyst. To elucidate the origin of the enantioselectivity, we investigated the reaction pathways of this catalytic reaction using the density functional theory. We also focused on the transition states of the rate-determining step leading different stereoisomers. The rate-determining step was the proton transfer process accompanying the cyclization of the substrate, which was mediated by the amide moiety of the catalyst, and the orientation of the amide moiety was the reason for the enantioselectivity.
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U2 - 10.3987/COM-20-S(K)55
DO - 10.3987/COM-20-S(K)55
M3 - Article
AN - SCOPUS:85108248915
SN - 0385-5414
VL - 103
JO - Heterocycles
JF - Heterocycles
IS - 2
ER -