[1] 樊卫国, 夏广礼, 罗应春, 陈夏尔, 何刚. 贵州省刺梨资源开发利用及对策. 西南农业学报, 1997, 21(3): 109-115.
Fan W G, Xia G L, Luo Y C, Chen X E, He G. Utilization of Rosa roxburghii resource and its developing strategy in GuiZhou province. Southwest China Journal of Agricultural Sciences, 1997, 21(3): 109-115. (in Chinese)
[2] 敖芹, 谷晓平, 孟维亮. 贵州刺梨研究进展. 耕作与栽培, 2010(6): 1-7.
Ao Q, Gu X P, Meng W L. Research progress of Rosa roxburghii in Guizhou province. Cultivation and Farming, 2010(6): 1-7. (in Chinese)
[3] Zhang C, Chen X, He T, Liu X, Feng T, Yuan Z. Genetic structure of Malus sieversii population from Xinjiang, China, revealed by SSR markers. Journal of Genetics and Genomics, 2007, 34: 947-955.
[4] Zong Y, Sun P, Liu J, Yue X Y, Li K M, Teng Y W. Genetic diversity and population structure of seedling populations of Pyrus pashia. Plant Molecular Biology Reporter, 2014, 32: 644-651.
[5] Liu J, Zheng X Y, Daniel Potter, Hu C Y, Teng Y W. Genetic diversity and population structure of Pyrus calleryana (Rosaceae) in Zhejiang province, China. Biochemical Systematics and Ecology, 2012, 45: 69-78.
[6] 陈娇, 王小蓉, 汤浩茹, 陈涛, 黄晓姣, 梁勤彪. 基于SSR标记的四川野生中国樱桃遗传多样性和居群遗传结构分析. 园艺学报, 2013, 40(2): 333-340.
Chen J, Wang X R, Tang H R, Chen T, Huang X J, Liang Q B. Assessment of genetic diversity and populations genetic structure in wild Chinese cherry from Sichuan province using SSR markers. Acta Horticulturae Sinica, 2013, 40(2): 333-340. (in Chinese)
[7] Meng J, He S L, Li D Z, Yi T S. Nuclear genetic variation of Rosa odorata var. gigantea (Rosaceae): Population structure and conservation implications. Tree Genetics & Genomes, 2016, 12(4): 1-14.
[8] 文晓鹏, 庞晓明, 邓秀新. 刺梨及部分近缘种形态学性状和RAPD标记分析. 园艺学报, 2003, 30(2): 204-206.
Wen X P, Pang X M, Deng X X. A comparative study of RAPD and morphological approaches to characterize relationships of Rosa roxburghii Tratt. and its relatives. Acta Horticulturae Sinica, 2003, 30(2): 204-206. (in Chinese)
[9] Wen X P, Pang X M, Deng X X. Characterization of genetic relationships of Rosa roxburghii Tratt and its relatives using morphological traits, RAPD and AFLP markers. The Journal of Horticultural Science and Biotechnology, 2004, 79: 189-196.
[10] 唐开学, 邱显钦, 张颢, 李树发, 王其刚, 蹇洪英, 鄢波, 黄兴奇. 云南蔷薇属部分种质资源的SSR遗传多样性研究. 园艺学报, 2008, 35(8): 1227-1232.
Tang K X, Qiu X Q, Zhang H, Li S F, Wang Q G, Jian H Y, Yan B, Huang X Q. Study on genetic diversity of some rosa germplasm in Yunnan based on SSR markers. Acta Horticulturae Sinica, 2008, 35(8): 1227-1232. (in Chinese)
[11] 邓亨宁, 高信芬, 李先源, 周洪英. 无籽刺梨杂交起源:来自分子数据的证据. 植物资源与环境学报, 2015, 24(4): 10-17.
Deng H N, Gao X F, Li X Y, Zhou H Y. Molecular evidence for hybridization origin of Rosa×sterilis (Rosacea). Journal of Plant Resources and Environment, 2015, 24(4): 10-17. (in Chinese)
[12] Fougère-Danezan M, Joly S, Bruneau A, Gao X, Zhang L. Phylogeny and biogeography of wild roses with specific attention to polyploids. Annals of Botany, 2015, 115(2): 275-291.
[13] Zhu Z M, Gao X F, Fougère-Danezan M. Phylogeny of rosa sections Chinenses and synstylae (Rosaceae) based on chloroplast and nuclear markers. Molecular Phylogenetics & Evolution, 2015, 87: 50-64.
[14] 文晓鹏, 庞晓明, 邓秀新. 不同自然分布区刺梨遗传多样性的 RAPD分析. 中国农业科学, 2003, 36(7): 823-828.
Wen X P, Pang X M, Deng X X. Genetic diversity in wild accessions of Rosa roxburghii Tratt from four provinces as revealed by RAPD analysis. Scientia Agricultura Sinica, 2003, 36(7): 823-828. (in Chinese)
[15] 文晓鹏, 邓秀新, 樊卫国. 刺梨主要基因型的RAPD鉴别. 山地农业生物学报, 2003, 22(4): 317-321.
Wen X P, Deng X X, Fan W G. Identification of genatypes of Rosa roxburghii as revealed by randomly amplified polymorphic DNA. Journal of Mountain Agriculture and Biology, 2003, 22(4): 317-321. (in Chinese)
[16] 鄢秀芹, 鲁敏, 安华明. 刺梨转录组 SSR 信息分析及其分子标记开发. 园艺学报, 2015, 42(2): 341-349.
Yan X Q, Lu M, An H M. Analysis on SSR information in transcriptome and development of molecular markers in Rosa roxburghii. Acta Horticulturae Sinica, 2015, 42(2): 341-349. (in Chinese)
[17] Yan X Q, Zhang X, Lu M, He Y, An H M. De Navo sequencing analysis of the Rosa roxburghii fruit transcriptome reveals putative ascorbate biosynthetic genes and EST-SSR markers. Gene, 2015, 561: 54-62.
[18] Lu M, An H M, Li L L. Genome survey sequencing for the characterization of the genetic background of Rosa roxburghii tratt and leaf ascorbate metabolism genes.PLoS ONE, 2016, 11(2): e0147530. doi:10.1371/journal.pone.0147530.
[19] Powell W, Machray G C, Provan J. Polymorphism revealed by simple sequence repeats. Trends in Plant Science, 1996, 1(7): 215-222.
[20] Porebski S, Bailey G, Baum R B. Modification of a CTAB DNA extraction protocol for plants containing high polysaccharide and polypheNal components. Plant Molecular Biology Reporter, 1997, 15(1): 8-15.
[21] Bassam B J, CaetaNa-ANalles G, Gresshoff P M. Fast and sensitive silver staining of DNA in polyacrylamide gels. Analytical Biochemistry, 1991, 196: 80-83.
[22] 万宣伍, 刘映红, 张彬, 周浩东. 基于微卫星分子标记的重庆地区桔小实蝇遗传分化研究. 中国农业科学, 2010, 43(13): 2688-2696.
Wan X W, Liu Y H, Zhang B, Zhou H D. Genetic differentiation among poupulations of the oriental fruit fly Bactrocera dorsalis (Hendel) in Chongqing based on microsatellite markers. Scientia Agricultura Sinica, 2010, 43(13): 2688-2696. (in Chinese)
[23] Yeh F C, Yang R C, Boyle T. Popgene version 1.31 quick user guide. Canada: University of Alberta and Centre for International Forestry Research, 1999.
[24] Nei M. Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics, 1978, 89: 583-590.
[25] 孙萍, 宗宇, 刘晶, 胡春云, 滕元文. 基于SSR标记的清凉峰地区三叶海棠遗传多样性研究. 果树学报, 2013, 30(1): 8-15.
Sun P, Zong Y, Liu J, Hu C Y, Teng Y W. Study on genetic diversity of Malus sieboldii in Qingliangfeng region based on SSR markers. Journal of Fruit Science, 2013, 30(1): 8-15. (in Chinese)
[26] Powell W, Machray G C, Provan J. Polymorphism revealed by simple sequence repeats. Trends in Plant Science, 1996, 1(7): 215-222.
[27] He T M, Chen X S, Xu Z, Gao J S, Lin P J, Liu W, Liang Q, Wu Y. Using SSR markers to determine the population genetic structure of wild apricot (Prunus armeniaca L.) in the Ily Valley of west China. Genetic Resources and Crop Evolution, 2007, 54(3): 56-572.
[28] Liu J, Sun P, Zheng X Y, Daniel Potter, Li K M, Hu C Y, Teng Y W. Genetic structure and phylogeography of Pyrus pashia L. (Rosaceae) in Yunnan province, China, revealed by chloroplast DNA analyses. Tree Genetics & Genomes 2013, 9: 433-441.
[29] Wright S. Evolution and the Genetics of Populations, Volume 4: Variability within and among Natural Populations.Chicago: University of Chicago Press, 1978: 65-134.
[30] Slatkin M. Estimating levels of gene flow in natural populations. Genetics, 1981, 99: 323-335. |