References
- Cichewicz RH, Lim K-C, McKerrow JH, Nair MG. 2002. Kwanzoquinones A-G and other constituents of Hemerocallis fulva “kwanzo” roots and their activity against the human pathogenic trematode Schistosoma mansoni. Tetrahedron. 58(42):8597–8606.
- Editorial Committee of the Chinese Materia Medica. 1999. The Chinese materia medica, Vol. 22. Shanghai: Shanghai Science and Technology Publishing House, p. 101.
- Ferlay J, Colombet M, Soerjomataram I, Mathers C, Parkin DM, Piñeros M, Znaor A, Bray F. 2019. Estimating the global cancer incidence and mortality in 2018: GLOBOCAN sources and methods. Int J Cancer. 144(8):1941–1953.
- Howes MR. 2018. The evolution of anticancer drug discovery from plants. Lancet Oncol. 19(3):293–294.
- Hu J. 2018. Studies on the chemical constituents of Pholidota rupestris and Eria graminifolia. [master’s degree thesis]. Dali University.
- Kovács A, Vasas A, Hohmann J. 2008. Natural phenanthrenes and their biological activity. Phytochemistry 69(5):1084–1110.
- Lee WYW, Cheung CCM, Liu KWK, Fung KP, Wong J, Lai PBS, Yeung JHK. 2010. Cytotoxic effects of tanshinones from Salvia miltiorrhiza on doxorubicin-resistant human liver cancer cells. J Nat Prod. 73(5):854–859.
- Lin YL, Lu CK, Huang YJ, Chen HJ. 2011. Antioxidative caffeoylquinic acids and flavonoids from Hemerocallis fulva flowers. J Agric Food Chem. 59(16):8789–8795.
- Liu L, Yin QM, Yan X, Hu C, Wang W, Wang RK, Luo X, Zhang XW. 2019. Bioactivity-guided isolation of cytotoxic phenanthrenes from Spiranthes sinensis. J Agric Food Chem. 67(26):7274–7280.
- Newman DJ, Cragg GM. 2020. Natural products as sources of new drugs over the nearly four decades from 01/1981 to 09/2019. J Nat Prod. 83(3):770–803.
- Ogawa Y, Kawai M, Kinoshita A, Konishi T. 2014. Nitrogen-containing compounds from Hemerocallis fulva var. sempervirens. Chem Nat Compd. 49(6):991–995.
- Taguchi K, Yamasaki K, Maesaki H, Tokuno M, Okazaki S, Moriuchi H, Takeshita K, Otagiri M, Seo H. 2014. An evaluation of novel biological activity in a crude extract from Hemerocallis fulva L. var. sempervirens M. Hotta. Nat Prod Res. 28(23):2211–2213.
- Tezuka Y, Ueda M, Kikuchi T. 1989. Studies on the constituents of orchidaceous plants. VIII. Constituents of Spiranthes sinensis (Pers.) Ames var. amoena (M. Bieberson) Hara. (1). Isolation and structure elucidation of spiranthol-A, spiranthol-B, and spirasineol-A, new isopentenyldihydrophenanthrenes. Chem Pharm Bull. 37(12):3195–3199.
- Tian H, Yang FF, Liu CY, Liu XM, Pan RL, Chang Q, Zhang ZS, Liao YH. 2017. Effects of phenolic constituents of daylily flowers on corticosterone-and glutamate-treated PC12 cells. BMC Complem Altern M. 17:69.
- Tóth B, Hohmann J, Vasas A. 2018. Phenanthrenes: a promising group of plant secondary metabolites. J Nat Prod. 81(3):661–678.
- Wang Y, Huang LL, Wang DH, Fang F, Lai JX, Xing CC, Wang FZ. 2017. Research progress on chemical constituents and function of plants of Hemerocallis. Chin Med J Res Prac. 31(1):79–86.
- Wu WT, Mong MC, Yang YC, Wang ZH, Yin MC. 2018. Aqueous and ethanol extracts of daylily flower (Hemerocallis fulva L.) protect HUVE cells against high glucose. J Food Sci. 83(5):1463–1469.
- Yang ZM, Ou YF, Yin YT, Hu J, Zhao MY, Zhang Y, Liu S, Zeng ST. 2019. Isolation, identification and bioactivity of anthraquinones in Morinda officinalis. Nat Prod Res Dev. 31:87–92.