[1] 郭勇,崔堂兵,谢秀祯.植物细胞培养技术与应用[M].北京:化学工业出版社,2003:51-53.
[2] Cocking E C. A method for the isolation of plant protoplasts and vacuoles[J].Nature(London),1960,187:927-929.
[3] 许智宏,卫志明.植物原生质体培养和遗传操作[M].上海:上海科学技术出版,1997:20-30.
[4] 朱至清.植物细胞工程[M].北京:化学工业出版社,2003:164-167.
[5] 刘继红,徐小勇,邓秀新.原生质体再生植株变异及其在植物育种上的应用[J].华中农业大学学报,2003,22(3):301-306.
[6] 姜国勇,郭宝太,金德敏,等.番茄高效植物再生体系及基因转化体系的建立[J].莱阳农学院学报,1998,15(2):84-88.
[7] 田志宏,孟金陵.甘蓝型油菜原生质体培养及植株再生的研究[J].中国油料作物学报,2002,24(2):10-13.
[8] Yu Guihong, Deng Xiuxin. Two interspecific somatic hybrids of citrus produced via protoplast electrofusion[J]. Journal of Huazhong Agricultural University,2000,19(3):268-273.
[9] 师校欣,王斌,杜国强,等.根癌农杆菌介导豇豆胰蛋白酶抑制剂基因转入苹果主栽品种[J].园艺学报,2000,27(4):282-284.
[10] 胡开林,付群梅,汪国平,等.黄瓜花叶病毒外壳蛋白基因转化番茄的研究[J].华南农业大学学报,2002,23(4):34-36.
[11] 司怀军,戴朝曦,于品华,等.菊花幼嫩花瓣愈伤组织的诱导和植株再生[J].甘肃农业大学学报,1998,33(2):175-177.
[12] 李云,冯慧,田砚亭.葡萄遗传转化研究进展[J].生物工程进展,2000,20(3):49-52.
[13] 林荣呈,包满珠.香石竹的叶片培养及植株再生[J].1999,35(3):205-206.
[14] 秦永华.软枣猕猴桃原生质体培养及基因转化研究[C].河南:河南农业大学,2002:1-15.
[15] 梅新,易干军,蔡礼鸿.原生质体技术与果树育种[J].长江果树,2003,(5):31-36.
[16] 李杰,黄敏人,王命庥,等.植物原生质体培养和体细胞融合技术研究进展[J].仲恺农业技术学院学报,2003,16(4):64-71.
[17] 蔡起贵,钱迎倩,柯善强,等.美味猕猴桃原生质体再生植株无性系变异的研究[J].植物学报,1992,34(11):822-828.
[18] 郭德章,鄢铮,赖钟雄,等.‘翠秀’黄瓜子叶原生质体的高效培养及植株再生[J].园艺学报,2003,30(2):227-228.
[19] 李耿光,张兰英,陈如珠.马铃薯原生质体再生植株表现型变异和染色体数目变化[J].植物学报,1992,34(9):712-716.
[20] 熊新生,贾士荣,傅幼英.甘蓝原生质体无性系的变异[J].园艺学报,1988,15(2):120-124.
[21] 张凤兰,钉贯靖久.大白菜小孢子再生植株自然加倍率的探讨[J].北京农业科学,1993,(4):23-25.
[22] Barrett H C. Breeding cold hardy citrus scion cultivars[J].Proc.Int.Soc.Citrticulture,1981,(1):61-66.
[23] Grosser J W, et al. Protoplast fusion in citrus improvement[J]. Plant Breed Rev, 1989:71.
[24] 何子灿,蔡起贵,柯善强,等.美味猕猴桃原生质体再生植株细胞遗传学研究[J].武汉植物学研究,1995,13(2):97-101.
[25] 吴延军,张上隆,徐昌杰,等.核果类原生质体培养研究进展[J].细胞生物学杂志,2002,24(5):274-278.
[26] 周庆红,李成琼,司军.甘蓝原生质体培养研究进展[J].中国蔬菜,2003,(3):54-56.
[27] 赵剑波,李绍华.葡萄原生质体培养研究进展[J].中外葡萄与葡萄酒,2002,(4):19-22.
[28] 李卫东,王文江,刘永居,等.柿现代生物技术研究进展[J].果树学报,2002,19(1):58-61.
[29] Glimelius K, Fahlesson J, Landgren M, et al. Gene transfer via somatic hybridization in plants[J].Trends Biotechnol, 1991, (9):24-30.
[30] Rugini E et al. Increase of rooting ability in the woody species kiwi by transformation with Agro bacterium rhizogenes rol genes[J].Plant Cell Reports,1991,10(6-7):291-295.
[31] Janssen B J, Gardner R C. The use of transient GUS expression to develop an agrobacteriom-mediates gene transfer system for kiwifruit[J].Plant Cell Rep,1993,13(1):28-31.
[32] 郭卫东,沈向.利用Lfy cDNA转化猕猴桃的研究[J].园艺学报,1999,26(2):116-117.
[33] 刘春林,董延瑜.美味猕猴桃遗传转化研究初报[J].湖南农学院学报,1994,20(3):214-221.
[34] 陈昆松,张上隆,Gavin S,等.B-半乳糖苷酶基因在猕猴桃果实成熟过程的表达[J].植物生理学报,2000,26(2):117-122.
[35] 叶志彪,李汉霞,周国林.番茄多聚半乳糖醛酸酶反义cDNA克隆的遗传转化与转基因植株的再生[J].园艺学报,1994,21(3):305-306.
[36] Escalante A, Imanishi S. RFLP analysis and genomic in situ hybridization(GISH)in somatic hybrids and their progeny between Lycopersicon esculentum and Solanum lycopersicoides[J]. TAG Theoretical and Applied Genetics, 1998,96(6-7):719-726.
[37] Kobayashi S, Ohgawara T, Saito W, et al. Production of triploid somatic hybrids in citrus[J]. Jpn Soc Hort Sci,1997,66.
[38] GROSSER J W, Mourao-Fo F A A. Allotetraploid hybrids between citus and seven related genera produced by somatic hybridization[J]. TAG Theoretical and Applied Genetics,1996,92(5):577-582.
[39] Grosser J W, Ollitrault P. Somatic Hybridization In Citrus: An Effictive Tool To Facilitate Variety Improvement[J].In Vitro Cellular & Developmental Biology, 2000,36(6):434-449.
[40] Cabasson C, Luro f, Ollitrault P, et al. Non-radom inheritance of mitochondrial genomes in citrus hybrids produced by protoplast fusion[J].Plant Cell Reports,2001,20(7):604-609.
[41] Helgeson J P, Pohlman J D, Austin S. Somatic hubrids between Solanum bulbocastanum and potato:a new source of resistance to late blight[J].TAG Theoretical and Applied Genetics,1998,96:738-742.
[42] Scotti N, Monti L, Cardi T. ORGANELLE.DNA variation in parental Solanum spp.genotypes and nuclear-cytoplasmic interactions in Solanum tuberosum(+) S.comers onii somatic hybrid-backcross progeny[J].TAG Theoretical and Applied Genetics,2003,108(1):87-94.
[43] Alejandro Vazquez-Tello, Li Junyang, Makoto Hidaka. Inherited chilling tolerance in somatic hybrids of transgenic Hibiscus rosasinensis×transgenic Lavatera thuringiaca selected by double-antibiotic resistance[J].Plant Cell Reports,1996,15(7):506-511.
[44] Kanno A, Kanzaki H, Kameya T. Detailed analyses of chloroplast and mitochondrial DNAs from the hybrid plant generated by asymmetric protoplast fusion between radish and cabbage[J].Plant Cell Reports,1997,16(7):479-484.
[45] Mitsugu Horita, Hitomi Morohashi,Fuminori Komai. Production of fertile somatic hybrid plants between Oriental hybrid lily and Lilium×formolongi[J].Planta,2003,217(4):597-601.
[46] Keskitalo M, Angers P, Earle E, et al. Chemical and genetic characterizationg of calli derived from somatic hybridization between tansy and pyrethrum[J]. TAG Theoretical and Applied Genetics,1999,98(8):1335-1343.
[47] Samoyloy V M, Izhar S, Sink K C. Donor chromosome elimination and organelle composition of asymmetric aomatic hybrid plants between an interspecific tomato hybrid and eggplant[J].TAG Theoretical and Applied Genetics,1996,93(1-2):268-274.
|
