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园艺学报 ›› 2009, Vol. 36 ›› Issue (1): 7-14.

• 果树 • 上一篇    下一篇

新疆野苹果群体遗传结构和遗传多样性的SRAP分析

张春雨1,2; 陈学森1*;林群1;苑兆和3;张红1;张小燕1;刘崇棋1;吴传金1   

  1. (1山东农业大学作物生物学国家重点实验室,山东泰安 271018;2吉林大学植物科学学院,长春 130062;3山东省果树研究所,山东泰安 271000)
  • 收稿日期:2008-06-10 修回日期:2008-11-03 出版日期:2009-01-25 发布日期:2009-01-25
  • 通讯作者: 陈学森

SRAP Markers for Population Genetic Structure and Genetic Diversity in Malus sieversii from Xinjiang, China

ZHANG Chun-yu1,2, CHEN Xue-sen1*,LIN Qun1,YUAN Zhao-he3, Zhang Hong1, ZHANG Xiao-yan1, Liu Chong-qi1,and WU Chuan-jin1   

  1. (1State Key Laboratory of Crop Biology, Shandong Agricultural University, Tai'an,Shandong 271018 China; 2College of Plant Science, Jilin University, Changchun 130062China; 3Shandong Institute of Pomology, Tai'an 271000 China)
  • Received:2008-06-10 Revised:2008-11-03 Online:2009-01-25 Published:2009-01-25
  • Contact: CHEN Xue-sen

摘要: 采用SRAP标记,对中国新疆野苹果4个种下居群的群体遗传结构和遗传多样性进行了研究。结果表明:10对SRAP引物总共扩增了209条带,其中206条是多态性带(98.56%)。巩留群体、新源群体、霍城群体和裕民群体分别扩增了180、169、178和165条多态性带,巩留群体的随机交配杂合度(hs = 0.3037 ± 0.0058)最高,其次为霍城群体。UPGMA聚类分析和群体间遗传分化系数显示,巩留群体和新源群体之间,以及霍城群体和裕民群体之间,遗传关系最近,群体间遗传变异最低。新疆野苹果群体内遗传变异高于群体间,占总变异的87.9%,主坐标轴分析显示4个群体是相对独立,其中巩留群体和新源群体,霍城群体和裕民群体之间,有较高的基因交流。所有参数分析表明,巩留群体遗传多样性最丰富,故在制定新疆野苹果原地和异地种质保护计划时应优先考虑巩留群体。

关键词: 新疆野苹果, SRAP标记, 遗传多样性, 群体遗传结构, 保护

Abstract: The genetic diversity and genetic structure of four Malus sieversii eco-geographical populations from Xinjiang, China were studied by SRAP marker. The results showed that 209 bands were amplified totally by ten pair SRAP primers, of which 206 bands (98.56%) were polymorphic in the species level and the number of polymorphic bands (A) was 180, 169, 178 and 165, respectively, at Gongliu, Xinyuan, Huocheng, and Yumin populations. The average panmictic heterozygosity (hs = 0.3037 ± 0.0058) in the Gongliu population was the highest, followed by the Huocheng population. UPGMA cluster analysis and genetic differentiation among populations showed that there had closer genetic relationship between Gongliu and Xinyuan populations and between Huocheng and Yumin populations and lower genetic variation between the populations. For M. sieversii, genetic variation within population, which was higher than between the populations, accounted for 87.9% of total variation. The principal coordinates analysis showed that the four populations were relatively independent populations, in which between the Gongliu and Xinyuan populations and between Huocheng and Yumin populations had higher gene exchange. On the basis of the study of population genetic structure and genetic diversity, Gongliu population should be given a high priority consideration in Malus sieversii germplasm conservation both in situ and ex situ.

Key words: Malus sieversii, SRAP markers, Genetic diversity, Population genetic structure, Conservation

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