褐藻中多酚化合物的研究进展

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[1]	［10］Keusgen M., Glombitza K.W.. Pseudofuhalols from the brown alga Sargassum spinuligerum, Phytochemistry, 1997,46(8): 1 403～1 415
[2]	［11］Keusgen M., Falk M., Walter J. A. Et al.. A phloroglucinol derivative from the brown alga Sargassum spinuligerum,Phytochemistry, 1997, 46(2):341～345
[3]	［12］Glombitza K.W., Keusgen M. , Hauperich S..Fucophlorethols from the algae Sargassum spinuligerum and Cystophora torulosa, Phytochemistry, 1997,46(8): 1 417～1 422
[4]	［13］Glombitza K.W., Hauperich S.. Phlorotannins from the brown alga Cystophora torulosa, Phytochemistry, 1997, 46(4):735～740
[5]	［14］Sailler B., Glombitza K.W.. Phlorethols and fucophlorethols from the brown alga Cystophora retroflexa, Phytochemistry, 1999, 50:869～881
[6]	［15］Glombitza K.W., Schmidt A.. Trihydroxyphlorethols from the brown alga Carpophyllum angustifolium, Phytochemistry, 1999, 51: 1 095～1 100
[7]	［17］Mastsukawa R., Dubinsky Z., Kishimoto E. Et al .. A comparison of screening methods for antioxidant activity in seaweeds, J. Appl. Phycol ., 1997,9:29～35
[8]	［18］Nakamura T., Nagayama K., Uchida K. Et al. . Antioxidant activity of phlorotannins isolated from the brown alga Eisenla bycyclis,Fisheries Science, 1996,62(6): 923～926
[9]	［19］Yan X.J.,Li X.C.,Zhou C.X. Et al.. Prevention of fish oil rancidity by phlorotannins from Sargassum kjellmanianum, J. Appl. Phycol.,1996, 8 : 201～203
[10]	［20］Yan X.J. , Li X.C. Et al. . Studies on extraction procedure and antioxidative activity of phlorotannins from Sargassum kjellmanianum, Chin. J. Oceanol. Limnol.,1997, 15(1):42～45
[11]	［21］Yan X.J., Fang G.M. Et al.. Studies on free radical scavenging activity in Chinese seaweeds, Chin. J. Oceanol. Limnol.,1999, 17(3):240～246
[12]	［22］Hay M. E., Fenical W.. Chemical mediation of seaweed herbivore interactions. In: John D. M. (ed.). Plant animal interactions in the marine benthos.Oxford: Clarendon Press, 1992.319～337
[13]	［23］Boettcher A. A., Targett N. M.. Role of polyphenolic molecular size in reduction of asssimilation efficiency in Xiphister mucosus, Ecology,1993, 4:891～903
[14]	［24］Arnold T.M. , Targett N.M.. Turnover of polyphenolic chemical defenses in marine brown algae, J. Chem. Ecol., 2000,26(6): 1 393～1 410
[15]	［25］Arnold T.M. , Targett N.M.. Quantifying in situ rates of phlorotan nin synthesis in marine brown algae,J. Chem. Ecol., 1998, 24 (3):577～595
[16]	［26］Targett N.M., Arnold T.M..The role of algal phlorotannins in marine plant herbivore interactions, J. Phycol., 1998, 34(2):195～205
[17]	［27］Toth G. , Pavia H.. Lack of phlorotannin induction in the brown seaweed Ascophyllum nodosum in response to increased copper concentrations, MEPS, 2000,192: 119～126
[18]	［28］Pavia H., Cervin G., Lindgren A. Et al. .The effect of UV B radiation and herbivory on the production of phlorotannins in the brown seaweed Ascophyllum nodosum, MEPS , 1997, 157: 139～146
[19]	［29］Sundba ck K., Odermark S. Et al.. Effects of enhanced UV B radiation on a marine benthic diatom mat, Mar. Biol. , 1997,128:171～179
[20]	［30］Tokita F., Ishikawa M. Et al.. Deodorizing activity of some plant extracts against methyl mercaptan, Nippon Nogeikagaku Kaishi,1984, 58: 585～589
[21]	［31］Kita N., Fujimoto K. Et al. . Screening test for deodorizing substances from marine algae and identification of phlorotannins as the effective ingredients in Eisenia bicyclis, J. Appl. Phycol.,1990, 2: 155～162
[22]	［32］Hudson J. B., Kim J. H., Lee M. K. et al. .Antiviral compounds in extracts of Korean seaweeds:Evidence for multiple activities, J. Appl. Phycol., 1999, 10: 427～ 434
[23]	［33］Glombitza K.W., Vogels H.P.. Antibiotics from algae. XXXV. Phlorotannins from Ecklonia maxima, Planta Medica, 1985, 51:308～312
[24]	［1］张尔贤、俞丽君.鼠尾藻多糖清除氧自由基作用的研究,中国海洋药物, 1997, 3: 1～4
[25]	［2］于广利、吕志华、王曙光等.海黍子提取物对不饱和脂质抗氧化作用, 青岛海洋大学学报, 2000, 30( 1) : 75～80
[26]	［3］于广利、薛长湖、楼伟风.海藻多糖类化合物对卵磷脂氧化的抑制作用,中国水产科学, 1998, 5( 4): 48～51
[27]	［4］石碧、狄莹著.植物多酚.北京: 科学出版社, 2000. 124～134
[28]	［5］黄健、唐学玺、段德麟等.不同光照条件下海带体内各种化合物的含量及光合作用和呼吸作用的变化,海洋科学, 2002, 26( 4): 55～58
[29]	［6］师然新、徐祖洪.青岛沿海九种海藻的类脂及酚类抗菌活性的研究,中国海洋药物, 1997, 4: 16～19
[30]	［7］曾呈奎、王素娟、刘思俭.海藻栽培学.上海:上海科学技术出版社, 1985. 116～121
[31]	［8］Glombitza K.W. , Keusgen M.. Fuhalols and deshydroxyfuhalols from the brown alga Sargassum spinul ligerum, Phytochemistry,1995,38 (4): 987～995
[32]	［9］Keusgen M. , Glombitza K.W.. Phlorethols, fuhalols, and their derivatives from the brown alga Sargassum spinulligerum, Phytochemistry, 1995,38(4): 975～985
[33]	［16］Le Tutour B., Benslimane F., Gouleau M. P. Et al .. Antioxidant and pro oxidant activities of the brown algae :Laminaria digitata, Himanthalia elongata,Fucus vesieulosus,Fucus serratu and Ascophyllum nodosum, J. Appl. Phycol.,1998, 10: 121～129
[34]	［34］Blunden G., Currie J. Et al.. Cleavage of DNA by algal polyphenols, J. Appl. Phycol., 1994, 6(3)281～284
[35]	［35］Barwel C. J., Blunden G. Et al.. Isolation and characterization of brown algal polyphenols,J. Appl. Phycol., 1989, 1: 319～323
[36]	［36］Sakagami Y.. Antiulcer substances. In: Japan. Soc. Sci. Fish. (ed.). Biochemistry and Utilization of Marine Algae. Tokyo: Koseisha Koseikaku, 1983. 90～100

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