https://orcid.org/0000-0002-6799-5327
References
- Abdelkafi H, Nay B. 2012. Natural products from Cephalotaxus sp.: chemical diversity and synthetic aspects. Nat Prod Rep. 29(8):845–869.
- Agrawal PK, Rastogi RP. 1982. Two lignans from Cedrus deodara. Phytochemistry. 21(6):1459–1461.
- Badgujar VB, Ansari MT, Abdullah MS, Badgujar SV. 2015. Homoharringtonine: a nascent phytochemical for cancer treatment (a review). World J Pharm Pharm Sci. 4(12):1380–1391.
- Chen YG, Li P, Li P, Yan R, Zhang XQ, Wang Y, Zhang XT, Ye WC, Zhang QW. 2013. α-glucosidase inhibitory effect and simultaneous quantification of three major flavonoid glycosides in Microctis folium. Molecules. 18(4):4221–4232.
- Chin YW, Chai HB, Keller WJ, Kinghorn AD. 2008. Lignans and other constituents of the fruits of Euterpe oleracea (Acai) with antioxidant and cytoprotective activities. J Agric Food Chem. 56(17):7759–7764.
- Comte G, Allais DP, Chulia AJ, Vercauteren J, Pinaud N. 1997. Three phenylpropanoids from Juniperus phoenicea. Phytochemistry. 44(6):1169–1173.
- Geiger H, Pfleiderer WG. 1971. Über 2,3-dihydrobiflavone in Cycas revolta. Phytochemistry. 10(8):1936–1938.
- Goel RN, Seshadri TR. 1959. Special components of commercial woods and related plant material. VII. Padmatin, a new component of the heartwood of Prunus puddum. Tetrahedron. 5(1):91–93.
- He YR, Shen YH, Li B, Li B, Lu L, Tian JM, Zhang WD. 2013. Alkaloids from Cephalotaxus lanceolata and their cytotoxicities. Chem Biodivers. 10(4):584–595.
- Hong HC, Li SL, Zhang XQ, Ye WC, Zhang QW. 2013. Flavonoids with α-glucosidase inhibitory activities and their contents in the leaves of Morus atropurpurea. Chin Med. 8(1):19 pp.
- Huang CC, Han CS, Yue XF, Shen CM, Wang SW, Wu FG, Xu B. 1983. Cytotoxicity and sister chromatid exchanges induced in vitro by six anticancer drugs developed in the People's Republic of China. JNCI. J Natl Cancer Inst. 71(4):841–847.
- Jia X, Hu J, He M, Zhang Q, Li P, Wan J, He C. 2017. α-Glucosidase inhibitory activity and structural characterization of polysaccharide fraction from Rhynchosia minima root. J Funct Foods. 28:76–82.
- Kabouche A, Kabouche Z, Öztürk M, Kolak U, Topçu G. 2007. Antioxidant abietane diterpenoids from Salvia barrelieri. Food Chem. 102(4):1281–1287.
- Komoto N, Nakane T, Matsumoto S, Hashimoto S, Shirota O, Sekita S, Kuroyanagi M. 2015. Acyl flavonoids, biflavones, and flavonoids from Cephalotaxus harringtonia var. nana. J Nat Med. 69(4):479–486.
- Kuo YH, Chen WC, Lin YT. 1985. The structure of Taiwanin F from Taiwania cryptomerioides Hayata. J Chin Chem Soc. 32 (1):81–84.
- Kuo YH, Lin CH, Hwang SY, Shen YC, Lee YL, Li SY. 2000. A novel cytotoxic C-methylated biflavone from the stem of Cephalotaxus wilsoniana. Chem Pharm Bull (Tokyo)). 48(3):440–441.
- Li H, Wen Y, Wang F, Wu P, Wei X. 2015. Cephalofortunone, a structurally unique Cephalotaxus alkaloid from Cephalotaxus fortune Hook. f. Tetrahedron Lett. 56(42):5735–5737.
- Li HY, Nehira T, Hagiwara M, Harada N. 1997. Total synthesis and absolute stereochemistry of the natural atropisomer of the biflavone 4',4"',7,7"-tetra-O-methylcupressuflavone. J Org Chem. 62(21):7222–7227.
- Li Y-L, Wu L, Ouyang D-W, Yu P, Xia J-H, Pan Y-X, Yang X-W, Zeng H-W, Cheng X-R, Jin H-Z, et al. 2011. Phenolic compounds of Abies nephrolepis and their NO production inhibitory activities. Chem Biodivers. 8(12):2299–2309.
- Lin FW, Damu AG, Wu TS. 2006. Abietane diterpene alkaloids from Salvia yunnanensis. J Nat Prod. 69(1):93–96.
- Ma GL, Guo N, Wang XL, Li J, Jin ZX, Han Y, Dong SZ, Xiong J, Hu JF. 2020. Cytotoxic secondary metabolites from the vulnerable conifer Cephalotaxus oliveri and its associated endophytic fungus Alternaria alternate Y-4-2. Bioorg Chem. 105:104445.
- Meng FC, Liu H, Huang XJ, Chang Y, Ren D, Lin LG, Zeng QQ, Zhang QW. 2017. Four new norlignan glycoside isomers from the twigs of Cephalotaxus oliveri Mast. Tetrahedron: Asymmetry. 28(12):1686–1689.
- Mikolajczak KL, Powell RG, Smith CR. Jr. 1972. Deoxyharringtonine, a new antitumor alkaloid from Cephalotaxus. Structure and synthetic studies. Tetrahedron. 28(7):1995–2001.
- Miski M, De LDH, Mabry TJ. 1986. Guaiane sesquiterpenes from Decachaeta scabrella. Phytochemistry. 26(1):199–200.
- Moawad A, Hetta M, Zjawiony JK, Jacob MR, Hifnawy M, Marais JPJ, Ferreira D. 2010. Phytochemical investigation of Cycas circinalis and Cycas revoluta leaflets: Moderately active antibacterial biflavonoids. Planta Med. 76(8):796–802.
- Moirangthem DS, Laishram S, Rana VS, Borah JC, Talukdar NC. 2015. Essential oil of Cephalotaxus griffithii needle inhibits proliferation and migration of human cervical cancer cells: involvement of mitochondria-initiated and death receptor-mediated apoptosis pathways. Nat Prod Res. 29(12):1161–1165.
- Muir AD, Westcott ND. 2000. Quantitation of the lignan secoisolariciresinol diglucoside in baked goods containing flax seed or flax meal. J Agric Food Chem. 48(9):4048–4052.
- Nesovic M, Gasic U, Tosti T, Trifkovic J, Baosic R, Blagojevic S, Ignjatovic L, Tesic Z. 2020. Physicochemical analysis and phenolic profile of polyfloral and honeydew honey from Montenegro. RSC Adv. 10(5):2462–2471.
- Ni L, Schinnerl J, Bao MF, Zhang BJ, Wu J, Cai XH. 2016. Two key biogenetic intermediates of Cephalotaxus alkaloids from Cephalotaxus oliveri and C. lanceolata. Tetrahedron Lett. 57(47):5201–5204.
- Petersen MJ, de Cassia Lemos Lima R, Kjaerulff L, Staerk D. 2019. Immobilized α-amylase magnetic beads for ligand fishing: Proof of concept and identification of α-amylase inhibitors in Ginkgo biloba. Phytochemistry. 164:94–101.
- Ren D, Meng FC, Liu H, Xiao T, Lu JJ, Lin LG, Chen XP, Zhang QW. 2018. Novel biflavonoids from Cephalotaxus oliveri Mast. Phytochem Lett. 24:150–153.
- Slade D, Ferreira D, Marais JPJ. 2005. Circular dichroism, a powerful tool for the assessment of absolute configuration of flavonoids. Phytochemistry. 66(18):2177–2215.
- Smith CR, Jr., Powell RG, Mikolajczak KL. 1976. The genus Cephalotaxus: source of homoharringtonine and related anticancer alkaloids. Cancer Treat Rep. 60(8):1157–1170.
- Takano I, Yasuda I, Nishijima M, Hitotsuyanagi Y, Takeya K, Itokawa H. 1996. Alkaloids from Cephalotaxus harringtonia. Phytochemistry. 43(1):299–303.
- Uchiyama T, Miyase T, Ueno A, Usmanghani K. 1989. Terpenic glycosides from Pluchea indica. Phytochemistry. 28(12):3369–3372.
- Van Loc T, Lieu NT, Thao TTP, Luu NT, Anh HN, Ha LTT, Van Chien T, Ninh PT, Phong DT, Van Sung T. 2017. The alkaloidal constituents of Cephalotaxus mannii collected in Lam Dong Province, Vietnam. Chem Nat Compd. 53 (6):1122–1126.
- Waterman MJ, Nugraha AS, Hendra R, Ball GE, Robinson SA, Keller PA. 2017. Antarctic moss biflavonoids show high antioxidant and ultraviolet-screening activity. J Nat Prod. 80 (8):2224–2231.
- Wu SB, Su JJ, Sun LH, Wang WX, Zhao Y, Li H, Zhang SP, Dai GH, Wang CG, Hu JF. 2010. Triterpenoids and steroids from the fruits of Melia toosendan and their cytotoxic effects on two human cancer cell lines. J Nat Prod. 73(11):1898–1906.
- Zheng W, Fu L. 1978. Flora of China. Beijing: Science Press; p. 434.
- Zhu L, Zhu DR, Zhou WX, Zhu JM, Gong LJ, Li Y, Kong LY, Luo JG. 2021. Fortuneicyclidins A and B, pyrrolizidine alkaloids with a 7-azatetracyclo[5.4.3.0.02,8]tridecane core, from Cephalotaxus fortunei. Org Lett. 23(7):2807–2810.