References
- Chen M, Shao CL, Kong CJ, She ZG, Wang CY. 2014. A new anthraquinone derivative from a Gorgonian-derived fungus Aspergillus sp. Chem Nat Compd. 50(4):617–620.
- Frezza C, Venditti A, Marcucci E, Parroni A, Reverberi M, Serafini M, Bianco A. 2019. Phytochemical analysis of Linaria purpurea (L.) Mill. and inhibitory activity on the production of aflatoxin B1 (AFB1) in Aspergillus flavus Link. of one of its metabolites, antirrhinoside. Ind Crop Prod. 139:111554.
- Fu LK, Jin JM. 1992. China plant red data book: rare and endangered plants. p. 50-51. Beijing: Science Press. Chinese.
- Hu CL, Xiong J, Li JY, Gao LX, Wang WX, Cheng KJ, Yang GX, Li J, Hu JF. 2016. Rare sesquiterpenoids from the shed trunk barks of the critically endangered plant Abies beshanzuensis and their bioactivities. Eur J Org Chem. 2016(10):1832–1835.
- Hu CL, Xiong J, Xu P, Cheng KJ, Yang GX, Hu JF. 2017. Lignans from the shed trunk barks of the critically endangered plant Abies beshanzuensis and their anti-neuroinflammatory activities. Nat Prod Res. 31(12):1358–1364.
- Huang HB, Wang FZ, Luo MH, Chen YC, Song YX, Zhang WM, Zhang S, Ju JH. 2012. Halogenated anthraquinones from the marine-derived fungus Aspergillus sp. SCSIO F063 [Article]. J Nat Prod. 75(7):1346–1352.
- Huang Z, Nong X, Ren Z, Wang J, Zhang X, Qi S. 2017. Anti-HSV-1, antioxidant and antifouling phenolic compounds from the deep-sea-derived fungus Aspergillus versicolor SCSIO 41502. Bioorg Med Chem Lett. 27(4):787–791.
- Ibrahim MA, Na M, Oh J, Schinazi RF, McBrayer TR, Whitaker T, Doerksen RJ, Newman DJ, Zachos LG, Hamann MT. 2013. Significance of endangered and threatened plant natural products in the control of human disease. Proc Natl Acad Sci USA. 110(42):16832–16837.
- Kingston DGI, Chen PN, Vercellotti JR. 1976. Metabolites of Aspergillus versicolor: 6,8-di-O-methylnidurufin, griseofulvin, dechlorogriseofluvin, and 3,8-dihydroxy-6-methoxy-1-methylxanthone. Phytochem. 15(6):1037–1039.
- Koyama K, Takahashi K, Natori S, Udagawa S. 1991. Production of mycotoxins by Chaetomium species. Proc Jpn Assoc Mycotoxicol. 1991(33):40–43. Japanese.
- Shao SL, Jin ZF, Weng YH. 2008. Lignin characteristics of Abies beshanzuensis, a critically endangered tree species. J Wood Sci. 54(1):81–86.
- Tan RX, Zou WX. 2001. Endophytes: a rich source of functional metabolites. Nat Prod Rep. 18(4):448–459.
- The state Forestry Administration and the Ministry of Agriculture. 1999. List of wild plants of national priority protection. http://www.gov.cn/gongbao/content/2000/content_60072.htm.
- Tian YQ, Lin ST, Kumaravel K, Zhou H, Wang SY, Liu YH. 2018. Polyketide-derived metabolites from the sponge-derived fungus Aspergillus sp. F40. Phytochem Lett. 27:74–77.
- Wanli FF. 1976. Abies beshanzuensis M. H. Wu—A new species of Abies from Chekiang. J Syst Evol. 14(2):15–21. Chinese.
- Xiong J, Wang L-J, Qian J, Wang P-P, Wang X-J, Ma G-L, Zeng H, Li J, Hu J-F. 2018. Structurally diverse sesquiterpenoids from the endangered ornamental plant Michelia shiluensis. J Nat Prod. 81(10):2195–2204.
- Yang Y, Zhang D, Luscombe D, Liao W, Farjon A, Katsuki T, Xiang Q, Li N. 2013. Abies beshanzuensis. The IUCN red list of threatened species 2013: eT32318A2814360.
- Zhu F, Qin C, Tao L, Liu X, Shi Z, Ma X, Jia J, Tan Y, Cui C, Lin J, et al. 2011. Clustered patterns of species origins of nature-derived drugs and clues for future bioprospecting. Proc Natl Acad Sci USA. 108(31):12943–12948.