[1] Larkin, P. J., Scowcroft, W. P. Somaclonal variation-a novel source of variability from cell-cultures for plant improvement. Theor Appl Genet,1981:60,197-214. [2] Sun Z.Y., Han L. & Li Y.F. Progress in the study and application of plant smaclonal variation. Acta Agriculture Nuleatae Sinica, 2005,6:479-484. [3] 朱秀英,陈璋,卢勤.水稻体细胞无性系的建立及其遗传变异的研究.遗传学报,1990:12,1-4. [4] 李莉,官春云,刘忠松.植物体细胞无性第变异及其突变体的RAPD鉴定分析.CROP RESEARCH, 2004,5:376-379. [5] Yoshida S Y, Kazuhiko W & Morihiro F J. Non- random gameto-clonal variation in rice regenerants from callus subcultureed for a prolonged period under high somatic stress. Euphytica,1998,104:87-94. [6] Muller E , Brown P T , Hartke S et al. DNA variation in tissue-culture-derived Rice plants. Theor Appl Genet, 1990,80:673-679. [7] skirvin R M, M.K.D., Norton M. source and frequency of somaclonal variation. Hort Science,1989,29:1232-1237. [8] Moore P P, r.j.a., sjulin t m. field performance of ’Olympus’ strawberry subclones. Hort Science,1991,26,192-194. [9] LeeM., Phillips R.L. The chromosomal basis of somaclonal variation. Ann.Rev.Plant.Physiol,1988,39:413-437. [10] Amato, F. Cytogenetics of plant cell and tissue culture and their regenerates. Crc Crit Rev Plant Sci, 1985,8:73-ll2. [11] Johnson, S.S., Phillips, R.L. and Rines, H.W. Possible role of heterochromatin in chromosome breakage induced by tissue culture in oats (Avena sativa L.). Genome, 1987,29: 439-446. [12] 叶新荣,余毓君.小麦再生植株的变异研究Ⅱ.再生植株当代(R1代)的细胞学和形态学变异.遗传学报,1989,16(2):105-110. [13] 向凤宁,张举仁,陈惠民.玉米胚性愈伤组织的长期继代及其染色体分析.西北植物学报,1994,14(3):157- 163. [14] 丰嵘,王清连,张宝红.棉花体细胞无性系变异的研究.江西农业大学学报,1997,18(2):202-205. [15] Peschke, V.M., Phillips, R.L. & Gengenbach, B.G. Discovery of Transposable Element Activity Among Progeny of Tissue Culture--Derived Maize Plants. Science,1987,238:804-807. [16] Peschke, V.M., Phillips, R.L. & Genenbach, B.G. Genetis and molecu1ar analysis of tissue culture derived Ac elements. Theor Appl Genet,1991b,82:l2l-l29. [17] Peschke, V.M., Phillips, R.L. & Genenbach, B.G. Activation of the maize transposable element suppression-mutator (Spm) in tissue culture. Theor Appl Genet,199la, 8l:90-97. [18] Jiang, N., Bao, Z., Zhang, X., et al. An active DNA transposon family in rice. Nature,2003, 421: 163-167. [19] Hirochika, H., Sugimoto, K., Otsuki, Y., et al. Retrotransposons of rice involved in mutations induced by tissue culture. Proc Natl Acad Sci U S A, 1996,93: 7783-7788. [20] Brown, P.T., Kyozuka, J., Sukekiyo, Y., et al. Molecular changes in protoplast-derived rice plants. Mol Gen Genet,1990, 223:324-328. [21] Phillips, R.L., Kaeppler, S.M. & Olhoft, P. Genetic instability of plant tissue cultures: breakdown of normal controls. Proc Natl Acad Sci U S A, 1994,91:5222-5226. [22] Brown, P.H.T. DNA methylation in plants andits role in tissue culture. Genome,1989,31:717-729. [23] Devaux, P., Kilian, A. & Kleinhofs, A. Anther culture and Hordeum bulbosum-derived barley doubled haploids: mutations and methylation. Mol Gen Genet,1993,241:674-679. [24] Kaeppler, S.M., Kaeppler, H.F. & Rhee, Y. Epigenetic aspects of somaclonal variation in plants. Plant Mol Biol,2000,43:179-188. [25] Evans, D.A. & Sharp, W.R. Single Gene Mutations in Tomato Plants Regenerated from Tissue Culture. Science,1983,221,949-951. [26] 杨长登,庄杰云,赵成章,等.组培品种黑珍米与供体差异及其RFLP分析.作物学报,1996,22(6):688-692. [27] Noro, Y., Takano-Shimizu, T., Syono, K., et al. Genetic variations in rice in vitro cultures at the EPSPs-RPS20 region. Theor Appl Genet,2007,114:705-711.
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