Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids
Hashimoto Y, Harada S, Kato R, Ikeda K, Nonnhoff J, Gröger H, Nemoto T (2022)
ACS Catalysis 12(24): 14990-14998.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Hashimoto, Yoshinori;
Harada, Shingo;
Kato, Ryosuke;
Ikeda, Kotaro;
Nonnhoff, JannisUniBi;
Gröger, HaraldUniBi;
Nemoto, Tetsuhiro
Abstract / Bemerkung
Although the molecular structural motif of indole-fused azabicyclo[3.3.1]nonane is common in biologically significant natural products, its catalytic asymmetric synthesis remains underexplored. Herein, we report a catalytic approach for the formal synthesis of more than 20 types of sarpagine/macroline alkaloids. Two key steps are the amide insertion reaction using a metal-carbene species based on cheap copper and biocatalytic asymmetric desymmetrization, producing the desired chiral N-bridged [3.3.1] scaffold. The enzymatic step proceeds highly enantioselectively when using lipase from Candida rugosa, which turned out to be the best for breaking the symmetry. Late-stage introduction of an indole unit with functionalities then established a diversity-oriented synthetic pathway toward indole terpenoid variants.
Erscheinungsjahr
2022
Zeitschriftentitel
ACS Catalysis
Band
12
Ausgabe
24
Seite(n)
14990-14998
eISSN
2155-5435
Page URI
https://pub.uni-bielefeld.de/record/2968509
Zitieren
Hashimoto Y, Harada S, Kato R, et al. Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids. ACS Catalysis . 2022;12(24):14990-14998.
Hashimoto, Y., Harada, S., Kato, R., Ikeda, K., Nonnhoff, J., Gröger, H., & Nemoto, T. (2022). Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids. ACS Catalysis , 12(24), 14990-14998. https://doi.org/10.1021/acscatal.2c04076
Hashimoto, Yoshinori, Harada, Shingo, Kato, Ryosuke, Ikeda, Kotaro, Nonnhoff, Jannis, Gröger, Harald, and Nemoto, Tetsuhiro. 2022. “Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids”. ACS Catalysis 12 (24): 14990-14998.
Hashimoto, Y., Harada, S., Kato, R., Ikeda, K., Nonnhoff, J., Gröger, H., and Nemoto, T. (2022). Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids. ACS Catalysis 12, 14990-14998.
Hashimoto, Y., et al., 2022. Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids. ACS Catalysis , 12(24), p 14990-14998.
Y. Hashimoto, et al., “Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids”, ACS Catalysis , vol. 12, 2022, pp. 14990-14998.
Hashimoto, Y., Harada, S., Kato, R., Ikeda, K., Nonnhoff, J., Gröger, H., Nemoto, T.: Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids. ACS Catalysis . 12, 14990-14998 (2022).
Hashimoto, Yoshinori, Harada, Shingo, Kato, Ryosuke, Ikeda, Kotaro, Nonnhoff, Jannis, Gröger, Harald, and Nemoto, Tetsuhiro. “Merging Chemo- and Biocatalysis to Facilitate the Syntheses of Complex Natural Products: Enantioselective Construction of an N-Bridged [3.3.1] Ring System in Indole Terpenoids”. ACS Catalysis 12.24 (2022): 14990-14998.
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