[1] Beaumont J,Cutler DF,Reynolds T. 1985. The secretory tissue of Aloe and their Allies.Israel J Bot,34:265~282 [2] Bennett RN,Wallsgrove RM. 1994. Transly review No.72:Secondary metabolites in plant defence mechanism.New Phytol,127:617~633 [3] Brich AJ,Donavan FW. 1995. Barbaloin.Aust J Chem,8:523~528 [4] Clerivet A,Alami I,Breton F. 1996. Phenolic compounds and plant resistance to pathogenic microorganisms.Acta Bot Gallica,143:531~538 [5] Chauser-Volfson E,Gutterman Y. 1997. Content and distribution of the secondary phenolic compound homonataloin in Aloe hereroensis leaves according to leaf part, position and monthly changes.J Arid Environ,37:115~122 [6] Court D.1981. Succulent Flora of Southern Africa. Rotterdam:Balkema Press.224 [7] Fahey GC, Hans-Joachim G.1989. Phenolic compounds in forages fibrous feedstuffs. In: Cheeke PR ed.Toxicants of Plant Origin,Area IV.Phonemics. Boca Raton: CRC Press.122~190 [8] Franz G, Grun M.1983. Chemistry, occurrence and biosynthesis of C-glycosyl compounds in plants.Planta Medicine,47:131~140 [9] Grindly D, Reynolds T.1986. The Aloe vera phenomenon:A review of the properties and modern uses of the leaf parenchyma gel.J Ethnopharmacol,16:117~151 [10] Groom QJ, Reynolds T.1987. Barbaloin in Aloe species.Planta Medica, 53:345~348 [11] Gutterman Y, Chauser-Volfson E. 2000. Peripheral defence strategy:Variation of barbaloin content in the succulent leaf parts of Aloe arborescens Miller (Liliaceae).Bot J Linnean Soc,132:385~395 [12] Harborne JB. 1997. Plant secondary metabolism. In: Crawley MJ ed. Plant Ecology,2nd Edition. Oxford : Blackwell Science.132~155 [13] Hu Z-H(胡正海), Shen Z-G (沈宗根), Li J-Y (李景原). 2001. Relationship between leaf structures of 9 species of Aloe and its anthraquinone content.Chin Traditional Herbae Drugs(中国民族民间医药杂志),32:347~350 (in Chinese) [14] Jung HG, Fahey GC. 1983. Nutritional implication of phenolic monomers and lignin: A review.J Animal Sci,57:206~218 [15] Kang L(康乐).1995. The chemical defense of plants to phytophagous insects. Chin Bull Biol(植物学通报),12(4):22~27 [16] Khan MB, Harborn JB. 1991.Induced alkaloid defence in Atropa accuminata in response to mechanical and herbivore leaf damage.Chemoecology,1:77~81 [17] Nahrstedt A.1989.The significaticance of secondary metabolites for interaction between plants and insects.Planta Medica,55:333-338 [18] Nakagomi K, Oka S, Tomizuka N. 1985. Novel biological activities of aloe components: Effects on mast-cell degranulation and platelet aggregation.Kenkyu Hokoku-Kogyo Gijutsuin Bisibutsu Kogyo,63:3~9(in Japanese) [19] Pickett JA, Smiley DWM, Woodcock CM. 1999. Secondary metabolites in plant-insect interactions: Dynamic system of induced and adaptive responses.Adv Bot Res,30:92~115 [20] Reynolds GW. 1966. The Aloes of Tropical Africa and Madagascar. The Aloes Book Fund, Swiziland: Mbabane.220 [21] Reynolds T. 1985. Observations on the phytochemistry of the Aloe leaf-exudate compounds.Bot J Linnean Soc,90:179~199 [22] Reynolds T, Dweck AC. 1999. Aloe vera leaf gel:A review update.J Ethnopharmacol,68:3~37 [23] Royal DJ. 1976. Structural features of resistance to plant diseases. In: Fried J, Threlfall DR eds. Biochemical Aspects of Plant-pathogen Relationships. London:Academic Press. 161~193 [24] Shen Z-G (沈宗根), Gutterman Y, Hu Z-H (胡正海). 2001. A comparative study on the content of barbaloin and structure of 9 species of Aloe.Acta Bot Boreali-Occidentalia Sin(西北植物学报), 21:278~286 (in Chinese) [25] Sun R-Y (孙儒泳). 1991.The Principle of Zoological Ecology,2nd edition.Beijing:Beijing Normal University Press.287(in Chinese) [26] Takayuki S, Toshifumi H.1983.The efficacy of Aloe plants, chemical constituents and biological activities.Cosmetic Toiletries,98:105~108 [27] van Wyk BE, Smith G. 1996. Guide to the Aloes of South Africa. Pretoria: Briza Publications. |