Page 12 of 17                          Wu et al. Chem Synth 2023;3:6  https://dx.doi.org/10.20517/cs.2022.42

               Province (No. 21KJB150009) for financial support.


               Conflicts of interest
               The author declared that there is no conflict of interest.


               Ethical approval and consent to participate
               Not applicable.

               Consent for publication
               Not applicable.

               Copyright
               © The Author(s) 2023.

               REFERENCES
               1.       Sundberg RJ. The chemistry of indoles. New York: Academic Press; 1996.
               2.       Ryan KS, Drennan CL. Divergent pathways in the biosynthesis of bisindole natural products. Chem Biol 2009;16:351-64.  DOI
                    PubMed  PMC
               3.       Kochanowska-Karamyan AJ, Hamann MT. Marine indole alkaloids: potential new drug leads for the control of depression and
                    anxiety. Chem Rev 2010;110:4489-97.  DOI  PubMed  PMC
               4.       Ishikura M, Abe T, Choshi T, Hibino S. Simple indole alkaloids and those with a non-rearranged monoterpenoid unit. Nat Prod Rep
                    2013;30:694-752.  DOI  PubMed
               5.       Zhang YC, Jiang F, Shi F. Organocatalytic asymmetric synthesis of indole-based chiral heterocycles: strategies, reactions, and
                    outreach. Acc Chem Res 2020;53:425-46.  DOI  PubMed
               6.       Sheng F, Wang J, Tan W, Zhang Y, Shi F. Progresses in organocatalytic asymmetric dearomatization reactions of indole derivatives.
                    Org Chem Front 2020;7:3967-98.  DOI
               7.       Tu M, Chen K, Wu P, Zhang Y, Liu X, Shi F. Advances in organocatalytic asymmetric reactions of vinylindoles: powerful access to
                    enantioenriched indole derivatives. Org Chem Front 2021;8:2643-72.  DOI
               8.       Zhang HH, Shi F. Organocatalytic atroposelective synthesis of indole derivatives bearing axial chirality: strategies and applications.
                    Acc Chem Res 2022;55:2562-80.  DOI  PubMed
               9.       Bergman J, Venemalm L. Total synthesis of yuehchukene. Tetrahedron Lett 1988;29:2993-4.  DOI
               10.       Scarpi D, Faggi C, Occhiato EG. Total synthesis of bruceolline I. J Nat Prod 2017;80:2384-8.  DOI  PubMed
               11.       Park A, Moore RE, Patterson GM. Fischerindole L, a new isonitrile from the terrestrial blue-green alga fischerella muscicola.
                    Tetrahedron Lett 1992;33:3257-60.  DOI
               12.       Rundberget T, Wilkins AL. Thomitrems A and E, two indole-alkaloid isoprenoids from penicillium crustosum thom. Phytochemistry
                    2002;61:979-85.  DOI  PubMed
               13.       Nicoll-Griffith DA, Seto C, Aubin Y, et al. In vitro biotransformations of the prostaglandin D2 (DP) antagonist MK-0524 and
                    synthesis of metabolites. Bioorg Med Chem Lett 2007;17:301-4.  DOI  PubMed
               14.       Tan W, Li X, Gong YX, Ge MD, Shi F. Highly diastereo- and enantioselective construction of a spiro[cyclopenta[b]indole-1,3'-
                    oxindole] scaffold via catalytic asymmetric formal [3+2] cycloadditions. Chem Commun 2014;50:15901-4.  DOI  PubMed
               15.       Shi F, Zhang HH, Sun XX, Liang J, Fan T, Tu SJ. Organocatalytic asymmetric cascade reactions of 7-vinylindoles: diastereo- and
                    enantioselective synthesis of C7-functionalized indoles. Chem Eur J 2015;21:3465-71.  DOI  PubMed
               16.       Gandhi S, Baire B. Unusual formation of cyclopenta[b]indoles from 3-indolylmethanols and alkynes. J Org Chem 2019;84:3904-18.
                    DOI  PubMed
               17.       Selvaraj K, Debnath S, Swamy KCK. Reaction of indole carboxylic acid/amide with propargyl alcohols: [4+3]-annulation,
                    unexpected 3- to 2- carboxylate/amide migration, and decarboxylative cyclization. Org Lett 2019;21:5447-51.  DOI  PubMed
               18.       Yadav S, Hazra R, Singh A, Ramasastry SSV. Substituent-guided palladium-ene reaction for the synthesis of carbazoles and
                    cyclopenta[b]indoles. Org Lett 2019;21:2983-7.  DOI  PubMed
               19.       Agy AC, Rodrigues Jr. MT, Zeoly LA, Simoni DA, Coelho F. Palladium-mediated oxidative annulation of δ-indolyl-α,β-unsaturated
                    compounds toward the synthesis of cyclopenta[b]indoles and heterogeneous hydrogenation to access fused indolines. J Org Chem
                    2019;84:5564-81.  DOI  PubMed
               20.       Yu KY, Ge XM, Fan YJ, et al. Iron(III)-catalyzed tandem annulation of indolyl-substituted p-quinone methides with ynamides for the
                    synthesis of cyclopenta[b]indoles. Chem Commun 2022;58:8710-3.  DOI  PubMed
               21.       Duan S, Zhang W, Hu Y, Xu ZF, Li CY. Synthesis of cyclopenta[b]indoles via a formal [3+2] cyclization of N-sulfonyl-1,2,3-
                    triazoles and indoles. Adv Synth Catal 2020;362:3570-5.  DOI
               22.       Jadhav SD, Singh T, Singh A. Brønsted acid promoted C-C bond formation between indolylmethyl electrophiles and ketene