References
- BarbosaJV, OliveiraF, MonizJ, MagalhãesFD, BastosMMSM. 2012. Synthesis and characterization of allyl fatty acid derivatives as reactive coalescing agents for latexes. J Am Oil Chem Soc. 89:2215–2226.
- BaxterJG, RobesonCD, TaylorJD, LehmanRW. 1943. Natural α-, β- and γ-tocopherols and certain esters of physiological interest. J Am Chem Soc. 65:918–923.
- CambieRC, LalAR, RutledgePS, WoodgatePD. 1991. Ent-14[S], 16β, 17-trihydroxyatisan-3-one and further constituents from Euphorbia fidjiana. Phytochemistry. 30:287–292.
- ChenCY, ChenCH, WongCH, LiuYW, LinYS, WangYD, HsuiYR. 2007. Cytotoxic constituents of the stems of Cinnamomum subavenium. J Nat Prod. 70:103–106.
- ChenFC, LeeJS, LinYM. 1983. Biphenyls from the heartwood of Taiwan sassafras. Phytochemistry. 22:616–617.
- ChowdhuryBK, SethiML, LloydHA, KapadiaGJ. 1976. Aporphine and tetrahydrobenzylisoquinoline alkaloids in Sassafras albidum. Phytochemistry. 15:1803–1804.
- El-FeralyFS. 1984. Randainol: a neolignan from Sassafras randaiense. Phytochemistry. 23:2329–2331.
- El-FeralyFS, CheathamSF, BreedloveRL. 1983. Antimicrobial neolignans of Sassafras randaiense roots. J Nat Prod. 46:493–498.
- HanAB, YouZM. 2012. Chemical constituents from volatile oil stems of Sassafras tzumu. Strait Pharm J. 24:52–53.
- HickeyMJ. 1948. Investigation of the chemical constituents of Brazilian sassafras oil. J Org Chem. 13:443–446.
- HiroyukiK, MitsuoM, HiromuK. 1995. Absolute configuration of 8-O-4′-neolignans from Myristica fragrans. Phytochemistry. 40:1515–1517.
- KojimaH, SatoN, HatanoA, OguraH. 1990. Sterol glucosides from Prunella vulgaris. Phytochemistry. 29:2351–2355.
- LiLQ, LiJ, HuangY, WuQ, DengSP, SuXJ, YangRY, HuangJG, ChenZZ, LiS. 2012. Lignans from the heartwood of Streblus asper and their inhibiting activities to hepatitis B virus. Fitoterapia. 83:303–309.
- LiaoJC. 1996. Lauraceae. In: Flora of Taiwan. Vol. II,2nd ed. Taipei: Editorial Committee of the Flora of Taiwan; p. 433–499.
- MusharrafSG, NajeebA, AliRA, AliAA, ChoudharyMI. 2011. Metabolites of the fungistatic agent 2β-methoxyclovan-9α-ol by Macrophomina phaseolina. J Agric Food Chem. 59:3234–3238.
- NieZL, WenJ, SunH. 2007. Phylogeny and biogeography of Sassafras (Lauraceae) disjunct between eastern Asia and eastern North America. Plant Syst Evol. 267:191–203.
- SchirmerW. 1912. Beiträge zur chemischen Kenntnis der Gummi- und Schleimarten. Arch Pharm. 250:230–251.
- SimićA, SokovićMD, RistićM, Grujić-JovanovićS, VukojevićJ, MarinPD. 2004. The chemical composition of some Lauraceae essential oils and their antifungal activities. Phytother Res. 18:713–717.
- SpringerGF, TakahashiT, DesaiPR, KoleckiBJ. 1965. Cross reactive human blood-group H(O) specific polysaccharide from Sassafras albidum and characterization of its hapten. Biochemistry. 4:2099–2113.
- TingYC, KoHH, WangHC, PengCF, ChangHS, HsiehPC, ChenIS. 2014. Biological evaluation of secondary metabolites from the roots of Myrica adenophora. Phytochemistry. 103:89–98.
- WangHC, WuCC, ChengTS, KuoCY, TsaiYC, ChiangSY, WongTS, WuYC, ChangFR. 2013. Active constituents from Liriope platyphylla root against cancer growth in vitro. J Evid Based Complement Altern Med. 857929:1–10.
- WuSC, YangYH, HsuKK, ChenFC. 1972. Studies on formosan wood-extractives III, pharmacological and microbiological activities of wood-extractives. Tech Bull. 97:1–14.
- ZhongHBC. 1998. Sassafras tzumu. In: Chinese Materia Medica. Vol. III,3rd ed. Shanghai: Editorial Committee of the Health Department and National Chinese Medicine Management Office; p. 1703.