1 Gray J, Piction S, Shabber J, et al. Molecular biology of fruit ripening and its manipulation with antisense genes. Plant Mol Biol, 1992, 19: 67 2 宋艳如,马庆虎. 植物基因工程中反义RNA的应用. 植物学通报, 1990, 7(4): 13-17 3 宋俊岐,赵春晖,贺焰,等. 控制果实成熟的植物基因工程研究进展. 生物技术通报,1997, (5): 8-13 4 Yang SF, Hoffman N E. Ethylene biosynthesis its regulation in higher plants. Ann Rev Pl Physiol, 1984, 35: 155 5陈新建,刘国顺,陈占宽,等. 乙烯生物合成途径及其相关基因工程的研究进展. 热带亚热带植物学报, 2002, 10(1): 83-98 6 罗云波. 果蔬采后生物技术研究进展. 园艺学年评, 1995, 1: 39-56 7 沈成国. 植物衰老生理与分子生物学. 北京: 中国农业出版社, 2001. 331-354 8宋刚,林顺权,吕柳新,等. 反义RNA技术控制果实成熟的研究进展. 福建农业大学学报, 2000, 29(4):421-428. 9 黄琼珍. 植物基因工程在控制果实成熟上的应用. 四川果树, 1997, (4):27-29 10 Sato T, Theologis A. Cloning the mRNA encoding 1–aminocyclopropanc–1–carboxylate synthase, the key enzyme for ethylene biosynthesis in plants. Proc. Natl. Acad. Sci. USA, 1989, 86: 6621-6625 11 Van Der Straeten D, Van Wiemeersch L, Goodman H M, et al. Cloning and sequence of two different cDNAs encoding 1–aminocyclopropanc–1–carboxylate synthase in tomato. Proc Natl Acad Sci USA, 1990, 87:4859-4863 12 洪燕萍,陈春玲,赖钟雄. 基因工程在果实延熟中的应用. 福建果树, 2000, (1): 9-11 13刘传银,田颖川,沈全光,等. 番茄ACC合成酶cDNA克隆及其对果实成熟的反义抑制. 生物工程学报, 1998, 14(2): 139-146 14 Olson D C, White J A, Edelman L, et al. Differential expression of two genes 1–aminocyclopropanc–1–carboxylate synthase in tomato fruits. Proc Natl Acad Sci USA, 1991, 88:5310 15曹晓风,鲁治滨,朱玉贤,等. 番茄乙烯合成酶基因的cDNA克隆及全序列测定. 科学通报, 1993, 38(20): 1907-1910 16 金勇丰,张耀洲. 桃果实ACC合酶cDNA的克隆. 园艺学报, 2000, 27(4):257-262 17 Vereridis P, John P. Complete recoveryin vitro of ethylene forming enzyme activity. Phytochemitry, 1991, 30: 725 18 Holdworth M J, Birds C R, Ray J et al. Structure and expression of an ethylene–related mRNA from tomato. Nucl Acids Res, 1987, 15: 731 19金勇丰,张耀洲,陈大明,等. 桃ACC氧化酶基因的克隆和植物表达载体的构建. 园艺学报, 1998, 25(1): 37-43. 20 金勇丰,张耀洲,张上隆. 中国“玉露”桃ACC氧化酶基因组DNA的序列测定及其结构分析. 浙江农业大学学报, 1998, 24(1): 63-65 21任小林,金志强,彭士清,等. 猕猴桃ACC氧化酶cDNA克隆及全序列测定. 园艺学报, 1997, 24(4): 333-337 22 王俊英,张开春,王俊平,等. 樱桃ACC氧化酶基因的克隆及序列分析. 华北农学报, 2002, 16(1): 11-15 23朱广廉. 果实成熟的基因工程研究. 生物学通报, 1995, 30(11): 1-3 24 金勇丰,张上隆,陈昆松. 果实成熟的分子生物学[J]. 植物生理学通迅, 1996, 32(5): 390-396 25 Kramer M, Sanders R, Sheehy R et al. Field evaluation of tomatoes with reduced polygalacturonase by antisense RNA[A]. In: Bennett A, Neill SO. Horticultural Biotechnology. New York: Liss, 1990, 347-355 26 Tucker GA, Robertson NC, Grierson D, et al. Changes in polygalacturonase isoenzymes during the ripening of normal and mutant tomato fruit. Eur J Biochem, 1980, 112: 119 27 鞠戎,田颖川,沈全光,等. 番茄多聚半乳糖醛酸酶cDNA克隆及其对番茄中PG表达的反义抑制. 生物工程学报, 1994, 10(2): 96-102 28李正国. 果实成熟的基因调控. 生物工程进展, 2000, 20(3): 30-34 29 Ray J, Knapp J, Grierson D, et al. Cloning of a cDNA library for PE from tomato and construction of its recombinant expression vectors. Eur J Biochem, 1988, 119: 174 30 Ross GS, Redgwell RJ, MacRce EA. Kiwifruit β–galactosidase: isolation and sctivity against specific fruit cell-wall polysaccharides. Planta, 1993, 189: 499-506. 31陈昆松,张上隆,Gavin S.R. β-半乳糖苷酶基因在猕猴桃果实成熟过程的表达. 植物生理学报, 2000, 26(2): 117-122 32刘存德. 果实成熟及其基因调控. 生物学通报, 1999, 34(1): 4-6 33金勇丰,张上隆,张耀洲,等. 基因工程在园艺作物采后保鲜中的应用. 生命科学, 1996, 8(4): 46-48 34 Oller PW, Lu MW, Taylor LP, et al. Reversible inhibition of tomato fruit senescence by antisense RNA. Science, 1991, 254: 437-439 35罗云波,郝四平,生吉萍. 反义ACS转基因乙烯缺陷型番茄的生理特性[J]. 中国农业大学学报, 2000, 5(3): 13-17 36 生吉萍,罗云波,申琳. 转反义ACC合成酶基因番茄与普通番茄果实植物内源激素含量的变化. 中国农业科学, 2000, 33(3): 43-48 37 Nakajima N, Mori H, Yaamazki K, et al. Molecular cloning and sequence of a complementary DNA encoding 1–aminocyclopane–1–carboxylate synthase induced by tissue wounding. Plant Cell Physiol, 1990, 31: 1021 38 Hamilton A J, Bouzayen M, Grierson D. Identification of a tomato gene for the ethylene forming enzyme by expression in yeast. Proc Natl Acad Sci USA, 1991, 88: 7434 39 叶志彪,李汉霞,郑用琏,等. 反义ACC氧化酶基因的导入对乙烯生成的抑制作用. 华中农业大学学报, 1996, 15(4): 305-309 40 Ayub R, Guis M, Ben Amor M, et al. Expression of ACC oxidase antisense gene inhibits ripening of cantaloupe melon fruits. Nature Biotechn, 1996, 14: 862-866 41 Klee HJ, Hayford MB, Kretzmer KA, et al. Control of ethylene synthesis by expression of a bacterial enzyme intransgenic tomato plants. Plant Cell, 1991, 3: 1187-1193 42 Metheas H, Cohen W, Wagoner C, et al. Genetic transformation of red raspberry with a gene to control ethylene of biosynthesis. HortSci, 1994, 29: 454 43 Smith CJS, Watson CF, Ray J, et al. Antisense RNA inhibition of polygalacturonase gene expression in transgenic tomatoes. Nature, 1988, 334: 724 44 Smith CJS, Watson CF, Morris PS, et al. Inheritance and effect on ripening of antisense polygalacturonase gene in transgenic tomatoes. Plant Mol Biol, 1990, 14: 36
|