[1]丁士友,张春林,顾红雅,等.1996.DNA水平上的植物系统学研究进展.西北植物学报,16(4):446~456. [2]平文祥,李海英.2002.DNA分子多态性标记技术及应用[J].中国糖料,(4):27~33. [3]刘作易.2000.DNA指纹技术的发展及其在真菌分类上的应用[J].山地农业生物学报,19(5):460~469. [4]向巧萍,向秋云,Aaron Liston,等.2000.ITS(nrDNA)片段在冷杉属植物中的长度多态性及其在松科的系统与演化研究中的应用[J].植物学报,42(9):946~951. [5]李丹,凌定厚.2000.五种提取马尾松基因组DNA方法的比较[J].植物学通报,17(2):168~173. [6]李妮亚,高培元,周鹏,等.2002.RAPD技术在芦荟属植物分类研究中的应用[J].西北植物学报,22(6):1432~1437. [7]李钩敏,金则新,边才苗,等.2002.大血藤DNA提取及RAPD研究初探[J].植物研究,22(4):483 486. [8]肖兴国.2001.一种经济快速高效的DNA指纹新技术-TE-AFLP评介[J].农业大学技术学报,9(2):202~204. [9]孟广震.1987.DNA测序技术又有一个新突破[J].生物工程学报,3(1):20~21. [10]苟本富,邹国林.2002.AFLP分子标记技术及其应用研究进展[J].渝西学院学报,15(1):22~30. [11]陈洪,朱立煌,李冬梅,等.1996.致病性念珠菌DNA的AFLP指纹图谱[J].科学通报,41(10):935~938. [12]郑敏,罗玉萍.1999.真核生物基因组多态性分析的DNA指纹技术[J].生物技术,9(3):35~38. [13]姚志建.1994.DNA顺序的自动分析[J].国外分析仪器,1:1. [14]姜自锋,林乃铨,徐梅.2002.RAPD技术及其应用中的一些问题[J].福建农林大学学报(自然科学版),31(3):356~360. [15]赵晓娟.1997.发展中的DNA测序技术[J].生物工程进展,17(4):51. [16]高大成.2001.DNA指纹、RNA指纹技术及应用[J].黄牛杂志,27(4):5~7. [17]高欢欢,杨军,郭光沁,等.2001.DNA指纹技术新进展[J].细胞生物学杂志,23(4):196~199. [18]曾宪春,罗锋.1998.一种快速有效纯化DNA序列分析模板的方法[J].生物技术,8(5):44~45. [19]Amarger V, Mercier L. 1995. Molecular analysis of RAPD DNA based markers: Their potential use for the detection of genetic variabily in jojoba ( Simmondsia chinensis L. Schneider) [J].Biochimie, 77: 931 ~ 936. [20]Collignon M, Favre JM. 2000. Contribution to the postglacial history at the western margin of Picea abies natural area using RAPD markers[J]. Ann. Bot., 85:713~ 722. [21]Hulya Ilbi. 2003. RAPD markers assisted varietal identification and genetic purity test in pepper, Capsicum annuum [J]. Sci.Horticul., 97: 211 ~ 218. [22]Johansen B. 1997. In situ PCR on plant material with sub-cellular resolution [J]. Ann. Bot., 80: 697~ 700. [23]Julian OO, Gill H, Jonathan C. 1997. Identification of the genomic constitution of Musa L. Lines (Bananas, Plantains and Hybrids) using molecular cytogenetics[J]. Ann. Bot., 80: 787~793. [24]Katsiotis MH, Heslop-Harrison JS. 1996. The Close Relationship Between the A and B Genomes in Avena L. (Poaceae) determined by molecular cytogenetic analysis of total genomic tandemly and dispersed repetitive DNA sequences[J]. Ann. Bot., 79:103~109. [25]Lazaro L. 1998. Genetic diversity in Brassica oleracea L. (Cruciferae) and wild relatives (2n= 18) using RAPD Markers[J].Ann. Bot. ,82:829~833. [26]Li YG, Dewald CL, Sims PL. 1999. Genetic relationships within tripsacum as detected by RAPD variation[J]. Ann. Bot., 84:695~ 704. [27]Niwat C, Pongrama R, Jiroj S. 2001. Differentiation of avian pathogenic Escherichia coli (APEC) strains by random amplified polymorphic DNA (RAPD) analysis[J]. Veter. Microbiol., 80:75~ 83. [28]Oiki S, Kawahara TK. et al. 2001. Random amplified polymorphic DNA (RAPD) variation among populations of the insular endemic plant Campanula microdonta (Campanulaceae) [J].Ann. Bot. ,87:661~667. [29]Rajaseger G, Tan HTW, Turner IM. et al. 1999. Random amplified polymorphic DNA variation among and within selected ixora (Rubiaceae) populations and mutants[J]. Ann. Bot., 84: 253~257. [30]Rohini VK, Sankara RK. 2000. Transformation of peanut ( Arachis hypogaea L. ): a non-tissue culture based approach for generating transgenic plants[J]. Plant Sci, 150: 41 ~ 49. [31]Sangeeta A, Binay BM, Sonali D. 2002. Molecular, phenotypic and biosynthetic stability in Dioscorea floribunda plants derived from cryopreserved shoot tips[J]. Plant Sci, 163: 971 ~/977. [32]Saw-Hoon L, Chye-Peng P, Yew-Hwa TL. 1999. RAPD Analysis of some species in the genus vanda (Orchidaceae)[J]. Ann Bot. ,83:193~196. [33]Tomoki M, Mitsuo O, Tomoya A. 2001. Distribution of rutaceae -specific repeated sequences isolated from citrus genomes [J].Ann Bot., 87:845~ 849. [34]Werman, SD. 1990. Nucleic acids 1: DNA-DNA hybridization [A]. In: Hills DM. (ed). Molecular Systematics [C]. Sunderland: Sinauer Associates I nc., 204 ~ 249. |