References
- W.X. Zou, J.C. Meng, H. Lu, G.X. Chen, G.X. Shi, T.Y. Zhang, and R.X. Tan, J. Nat. Prod. 63, 1529 (2000).
- S. Bang, C. Lee, S. Kim, J.H. Song, K.S. Kang, S.T. Deyrup, S.J. Nam, J. Xia, and S.H. Shim, J. Org. Chem. 84, 10999 (2019).
- Y.P. Luo, C.J. Zheng, G.Y. Chen, X.P. Song, and Z. Wang, J. Antibiot. (Tokyo) 72, 513 (2019).
- Z.-D. Yang, Z.-J. Li, J.-W. Zhao, J.-H. Sun, L.-J. Yang, and Z.-M. Shu, Curr. Microbiol. 76, 904 (2019).
- M.C. Vanessa, L.Z. Maria, H.L. Ioanis, H.S. Geraldo, S.B. Vanderlan, C.M.Y. Maria, H.P. Ludwig, and R.A. Angela, Molecules 19, 19243 (2014).
- M.L. Inacio, G.H. Silva, H.L. Teles, H.C. Trevisan, A.J. Cavalheiro, V.D.S. Bolzani, M.C.M. Young, L.H. Pfenning, and A.R. Araujo, Biochem. Syst. Ecol. 34, 822 (2006).
- Y. Li, W. Wei, R.L. Wang, F. Liu, Y.K. Wang, R. Li, B. Khan, J. Lin, W. Yan, and Y.H. Ye, Phytochem. Lett. 33, 90 (2019).
- H.X. Liu, H.B. Tan, Y.C. Chen, S.N. Li, H.H. Li, and W.M. Zhang, Nat. Prod. Res. 32, 2360 (2018).
- F. Sangermano, M. Masi, M. Vivo, P. Ravindra, A. Cimmino, A. Pollice, A. Evidente, and V. Calabro, Toxicol. In Vitro 61, 104614 (2019).
- H.P. Chen, W.B. Dong, T. Feng, X. Yin, Z.H. Li, Z.J. Dong, Y. Li, and J.K. Liu, J. Asian Nat. Prod. Res. 16, 581 (2014).
- I. Katrin, A. Conxita, L.C. Maria, F. Angelo, and C. Guido, Tetrahedron Lett. 39, 5635 (1998).
- X.N. Sang, S.F. Chen, M.X. Tang, H.F. Wang, X. An, X.J. Lu, D. Zhao, Y.B. Wang, J. Bai, H.M. Hua, G. Chen, and Y.H. Pei, Bioorg. Med. Chem. Lett. 27, 3723 (2017).
- W.A. Ayer and L.S. Trifonov, J. Nat. Prod. 55, 1454 (1992).
- H. Simona, S. Jan, D. Martin, H. Alice, and K. Bohumir, Chem. Biodivers. 5, 743 (2008).
- J.Y. Zhao, X.J. Wang, Z. Liu, F.X. Meng, S.F. Sun, F. Ye, and Y.B. Liu, J. Nat. Prod. 82, 2953 (2019).