[1] |
金嘉悦, 方淼森, 尹凯波, 等, 2023. OSMAC策略探索海洋真菌次生代谢产物的研究进展[J]. 中国抗生素杂志, 48(5): 481-491.
|
|
JIN JIAYUE, FANG MIAOSEN, YIN KAIBO, et al, 2023. Research progress of secondary metabolites of marine fungi by OSMAC strategy[J]. Chinese Journal of Antibiotics, 48(5): 481-491 (in Chinese with English abstract).
|
[2] |
李骅轩, 崔淑君, 肖朝江, 等, 2019. 厚皮香酚性成分及其镇痛活性[J]. 中成药, 41(7): 1582-1586.
|
|
LI HUAXUAN, CUI SHUJUN, XIAO CHAOJIANG, et al, 2019. Phenolic constituents from Ternstroemia gymnanthera and their analgesic activities[J]. Chinese Traditional Patent Medicine, 41(7): 1582-1586 (in Chinese with English abstract).
|
[3] |
李艳, 巩士磊, 车影, 等, 2015. Fenton反应考察抗坏血酸清除羟基自由基能力及动力学[J]. 应用化学, 32(8): 948-954.
doi: 10.11944/j.issn.1000-0518.2015.08.140427
|
|
LI YAN, GONG SHILEI, CHE YING, et al, 2015. Hydroxyl radical scavenging activity and kinetics of vitamin C[J]. Chinese Journal of Applied Chemistry, 32(8): 948-954 (in Chinese with English abstract).
doi: 10.11944/j.issn.1000-0518.2015.08.140427
|
[4] |
刘永宏, 杨斌, 董俊德, 2008. 美丽属海绵次生代谢产物及其生物活性[J]. 热带海洋学报, 27(6): 73-80.
|
|
LIU YONGHONG, YANG BIN, DONG JUNDE, 2008. Secondary metabolites and their bioactivities of marine sponge Callyspongia[J]. Journal of Tropical Oceanography, 27(6): 73-80 (in Chinese with English abstract).
|
[5] |
孙彩霞, 唐旭利, 李凯, 等, 2022. 1株海洋来源真菌Aspergillus alabamensis次级代谢产物研究[J]. 中国海洋药物, 41(1): 63-69.
|
|
SUN CAIXIA, TANG XULI, LI KAI, et al, 2022. Study on the secondary metabolites of a marine fungus Aspergillus alabamensis[J]. Chinese Journal of Marine Drugs, 41(1): 63-69 (in Chinese with English abstract).
|
[6] |
杨君泽, 吴小凯, 何山, 2017. 海绵来源真菌天然产物的研究进展[J]. 天然产物研究与开发, 29(4): 695-704.
|
|
YANG JUNZE, WU XIAOKAI, HE SHAN, 2017. Review on natural products from sponge-associated fungi[J]. Natural Product Research and Development, 29(4): 695-704 (in Chinese with English abstract).
doi: 10.16333/j.1001-6880.2017.4.027
|
[7] |
张浩, 陈艳, 李晓波, 等, 2022. 荨麻抑制前列腺增生作用物质基础研究[J]. 中国中药杂志, 47(2): 419-427.
|
|
ZHANG HAO, CHEN YAN, LI XIAOBO, et al, 2022. Active constituents of Urtica fissa in inhibition of benign prostatic hyperplasia[J]. China Journal of Chinese Materia Medica, 47(2): 419-427 (in Chinese with English abstract).
|
[8] |
CARROLL A R, COPP B R, DAVIS R A, et al, 2023. Marine natural products[J]. Natural Product Reports, 40(2): 275-325.
doi: 10.1039/d2np00083k
pmid: 36786022
|
[9] |
DAO D Q, PHAN T T T, NGUYEN T L A, et al, 2020. Insight into antioxidant and photoprotective properties of natural compounds from marine fungus[J]. Journal of Chemical Information and Modeling, 60(3): 1329-1351.
doi: 10.1021/acs.jcim.9b00964
pmid: 31999921
|
[10] |
DE GUZMAN F S, GLOER J B, WICKLOW D T, et al, 1992. New diketopiperazine metabolites from the sclerotia of Aspergillus ochraceus[J]. Journal of Natural Products, 55(7): 931-939.
|
[11] |
PARAMESWARAN P S, NAIK C G, HEGDE V R, 1997. Secondary metabolites from the sponge Tedania anhelans: isolation and characterization of two novel pyrazole acids and other metabolites[J]. Journal of Natural Products, 60(8): 802-803.
|
[12] |
RAMADAN M A, AHMAD A S, NAFADY A M, et al, 2009. Chemical composition of the stem bark and leaves of Ficus pandurata hance[J]. Natural Product Research, 23(13): 1218-1230.
|
[13] |
TIAN YONGQI, LIN XIUPING, ZHOU XUEFENG, et al, 2018. Phenol derivatives from the sponge-derived fungus Didymellaceae sp. SCSIO F46[J]. Frontiers in Chemistry, 6: 536.
|
[14] |
YURCHENKO A N, SMETANINA O F, KALINOVSKY A I, et al, 2010. A new meroterpenoid from the marine fungus Aspergillus versicolor (Vuill.) Tirab[J]. Russian Chemical Bulletin, 59(4): 852-856.
|