1 徐良雄,李玲,彭永宏.乙烯在切花衰老中的作用(综述).亚热带植物科学,2003,32(4):65~71 2 潘延云,郭毅,赵军峰,等.乙烯在植物中的信号转导.浙江大学学报(农业与生命科学版),2003,29(4):453~460 3 Gao J P, Nishimura N, Kubo Y, et al. Biosynthesis of trace-ethylene in some fruits.J Japan Soc Hort Sci, 1992, 61(1):199~204 4 扬迎伍,李正国,张利,等.乙烯信号的接受与转导.植物生理学通讯,2003,39(5):547~552 5 周琳, 董丽. 植物乙烯信号转导研究进展. 张启翔主编, 中国观赏园艺研究进展2004.北京:中国林业出版社, 2004.8:392~397 6 Guzman P, Ecker J R. Exploiting the triple response of Arabidopsis to identify ethylene -related mutants. Plant Cell, 1990, 2:513~523 7 Schaller G E, Bleecker A B. Ethylene-binding sites generated in yeast expressing the Arabidopsis ETR1 gene. Science, 1995, 270: 1809~1811 8 Muller R, Lind-Iversen S, Stummann B M, et al. Expression of genes for ethylene biosynthetic enzymes and an ethylene receptor in senescing flowers of miniature potted roses. Journal of Horticultural Science and Biotechnology, 2000, 75(1):12~18 9 Bleecker A B, Kende H. Ethylene: a caseous signal molecule in plants. Annu. Rev. cell dev. Boil. 2000. 16: 1~18 10 高俊平.观赏植物采后生理与技术[M].北京:中国农业出版社,2002.33~45 11 Teixeira da Silva J A.. The Cut Flower: Postharvest Considerations. Online Journal of Biological Sciences 2003 3 (4): 406~442 12 黄绵佳,高俊平,张晓红,等. PPOH延缓月季切花开花和衰老的研究[J].园艺学报,1998,25(1):70~74 13 Ketsa S, Rugkong A. Ethylene production, senescence and ethylene sensitivity of Dendrobium 'Pompadour' flowers following pollination. The Journal of Horticultural Science and Biotechnology, 2000,75:149~153 14 Teixeira da Silva J A.. The Cut Flower: Postharvest Considerations. Online Journal of Biological Sciences 2003 3 (4): 406~442 15 徐明全, Kays S J. 硫代硫酸银和氨基乙氧乙烯甘氨酸对延长矮牵牛花期的效应. 江苏农业科学,1994,3:55~56 16 Wang N N, Yang S F, Chang Y Y. Differential expression of 1-Aminocyclopropane-1-Carboxylate Synthase Genes during Orchid Flower Senescence Induced by the Protein Phosphatase Inhibitor Okadaic Acid. Plant Physiol, 2001, 126: 253~260 17 Satoh sand E Y. α-Aminoisobutyric acid, propylgallate and cobalt ion and the mode of inhibition of ethylene production by cotyledonary segments of cocklebur seeds[J]. Physiol Plant,1983,57:521~526 18 Bichara A E, Van Staden, J.. The effect of aminooxyacetic acid and cytokinin combinations on carnation flower longevity[J]. Plant Growth Regul., 1993, 13:161~167 19 Harkema H.. The role of amino-oxyacetic acid, Triton X-100 and kinetin as components of a pretreatment solution for carnations[J]. Acta. Horitc., 1987, 216: 263~280 20 Toshima H, Niwayama, Y., Nagata, H, et al. Inhibition effect of coronamic acid derivates on senescence in cut carnation flowers[J]. Biosci Biotech Biochem., 1993, 57:1394~1395 21 Bleecker AB, Estelle MA, Somerville C, et al. Insensitivity to ethylene conferred by a dominant in arabidopsis thaliana[J]. Science, 1988, 241:1086~1089 22 Ecker J R. The ethylene signal transduction path way in plants[J]. Science, 1995, 268: 667~675. 23 Jiang Y M, Fu J R. Ethylene regulation of fruit ripening: molecular aspects[J]. Plant Grow Regul., 2000,30:193~200 24 Beyer E M. A potent inhibitor of ethylene action in plants[J]. Plant Physiol., 1976,58: 268~271 25 Mayak S, Garibaldi, EA and Kofranek, A. Carnation flower longevity: microbial population as related to silver nitrate stem impregnation[J]. J.Amer.Soc.Hort.Sci.,1977,102: 637~639 26 苏小军, 蒋跃明. 乙烯受体抑制剂在园艺作物上的应用研究(综述).亚热带植物科学,2001,30(3):69~74 27 Jaime A. Teixeira da Silva. The Cut Flower: Postharvest Considerations. Online Journal of Biological Sciences 2003 3 (4): 406~442 28 Lee, J. S. , Y,A. Kim and Y, M. Sin, Effects of harvesting stage, preservative, and storage method on case life and flower quality of cut snapdragon. J. Kor. Soc. Hort. Sci., 1995, 36: 926~942 29 Cameron A C, et al. The use of silver thiosulphate anionic complex as a foliar spray to prevent flower abscission of Zygocactus [J]. HortSci., 1981,16: 761~762 30 Serek M, Sisler E, Reid M S. A volatile ethylene inhibitor improves the postharvest life of potted roses[J]. J.Amer.Soc. Hort.Sci., 1994,119(3): 572~577 31 Sisler E C, Blankenship S M. Effect of DACP on tomato ripening[J]. Plant Grow Regul.,1993,12: 155~160 32 Sisler, E.C., Blenkenship, S.M. Methods of counteracting an ethylene response in plants. U.S. Patent Number, 1996,5:518~988 33 Sisler E C, Dupille E, Serek M. Effect of 1-methylcycclopropene and methylenecyclopropene on ethylene binding and ethylene action on cut carnations. Plant Growth Regul,1996,18:79~86 34 Sisler E C, Serek M, Dupille E, et al. Inhibition of ethylene responses by 1-methylcyclopropene and 3-methycyclopropene. Plant Growth Regul.,1999,27:105~111 35 苏小军,蒋跃明.新型乙烯受体抑制剂—1-甲基环丙烯在采后园艺作物中的应用.植物生理学通讯,2001,8:37(4):361~364 36 董丽,郑怀兵,贾麦娥.乙烯作用抑制剂1-MCP在园艺产品采后处理上的应用.中国园艺学会第九界学术年会论文集.中国园艺学会.北京:中国科学技术出版社,2001.411~416 37 Blankenship S M, Dole J M. .1-Methylcyclopropene: a review. Postharvest Biology and Technology, 2003,28:1~25 38 Jiang Y, Joyve D C, Macnish A .J. Softening response of banana fruit treated with 1-methylcyclopropene to high temperature exposure. Plant Growth Regul., 2002,36:7~11 39 Serek M, Sisler E C, Reid M.S. 1-MCP on the vase life and ethylene response of cut flowers. Plant Growth Regul.,1995.16: 93~97 40 Fan X, Mattheis J P. Yellowing of broccoli in storage is reduced by 1-methylcyclopropene. HorScience. 2000. 35: 885~887 41 Ku V V V, Wills R B H. Effect of 1-methylcyclopropene on the storage life of broccoli. Postharvest Biol. Technol., 1999.17:127~132 42 Able A. J, Wong L S, Prasad A., et al. 1-MCP is more effective on a floral brassica (Brassica oleracea var. italica L.) than a leafy brassica (Brassica rapa car. chinensis). Postharvest Biol. Technol., 2002,26:147~155 43 Pesis E, Ackerman M, Ben-Aire R, et al. Ethylene involvement in chilling injury symptoms of avocado during cold storage. Postharvest Biol. Technol., 2002,24:171~181 44 王兰菊,陈刚,任凝辉,等.1-MCP延缓园艺产品衰老作用的研究进展.郑州轻工业学院学报,2004,19(3):34~39 45 Sisler E C, Pian A. Effect of ethylene and cyclic olefins on to bacco leaves. Tobacco Sci. 1973, 17:68~72. 46 Sisler E C, Reid M S, Yang S F. Effect of antagonists of ethylene action on binding of ethylene in cut carnations. Plant Grow Regul.,1986,4:213~218 47 Wang H, Woodson W. R. Reversible inhibition of ethylene action and interruption of petal senescence in carnation flowers by norbornadiene. Plant Physiol, 1989, 89: 434~438 48 Nakajima N, Mori Y, Yamazaki K, et al. Molecular cloning and sequence of a complementary DNA encoding ACC synthase induced by tissue wounding. Plant Physiol,1990,31:1021~1029 49 Leshem Y Y, Haramaty E. The characterisation and contrasting effects of the nitric oxide free radical in vegetable stress and senescence of Pisum sativum Linn. foliage. J. Plant Physiol., 1996,148:258~263 50 Bowyer M C, Wills R B H. Delaying postharvest senescence of cut flowers using nitric oxide. RIRDC, 2003.Publication No 03/51. 51 Bowyer M C, Wills R B H, Badiyan D, Ku V V V. Extending the postharvest life of carnations with nitric oxide - comparison of fumigation and in vivo delivery. Postharvest Biology and Technology. 2003. 30: 281~286 52 Ku. V V V, Wills R B H, Leshem Y Y. Use of nitric oxide to reduce postharvest water loss from horticultural produce. Journal of Horticultural Science and Biotechnology,2000,75:268~270 53 段学武,蒋跃明,张昭其.乙醇和乙醛在采后园艺作物保鲜中的作用.植物生理学通讯, 2003,39:289~293 54 Wu M J, Zacarias L, Saltveit M E, et al. Alcohols and carnation senescence[J]. Hortscience, 1992,27(2):136~138 55 Podd L A, Van Staden. The role of ethanol and acetaldehyde in flower senescence and fruit ripening - A review. Plant Growth Regulation., 1998,26:183~189 56 Hans P J, de Wild, Otma E C, Herman W. Peppelenbos. Carbon dioxide action on ethylene biosynthesis of preclimacteric and climacteric peat fruit. Journal of Experimental Botany, 2003,54:1537~1544. 57 Yamamoto K, Komatsu Y, Yokoo Y, et al. Delaying flower opening of cut roses by cis-propenylphosphonic acid. J. Japan. Soc. Hort. Sci.,1994,63:159~166 58 Midoh N, Saijou Y, Matsumoto K. Effects of 1,1-dimethyl-4-(phenylsulfonyl)semicarbazide (DPSS) on carnation flower longevity. Plant Growth Regul.,1996,20:195~199 59 Kenichi Shibuya, Masayasu Nagata, Natsu Tanikawa et al. Comparison of mRNA levels of three ethylene receptors in senescing flowers of carnation (Dianthus caryophyllus L.). Journal of Experimental Botany,2002,53:399~406 60 Satoh S, Mikami M, Kiryu S, Yoshioka T, et al. Action of 1,1-dimethyl-4-(phynylsulfonyl) semicarbazide (DPSS), a new antisenescense preservative for cut carnation flowers. In: Kanellis, A.K., Chang, C., Klee, H., Bleecker, A.B., Pech, J.C., Grierson, D. (Eds.),Biology and biotechnology of the plant hormone ethylene II. Kluwer Academic Publishers, Dordrecht, 1999 : 441~442
|