新疆核桃种质资源遗传多样性的ISSR分析

doi:10.3864/j.issn.0578-1752.2011.09.014

Abstract

Abstract: 【Objective】 ISSR markers were used to study the genetic diversity and genetic structure in order to provide a theoretical basis and technical support for appropriate conservation and application of existing genetic resources of walnut. 【Method】 Genetic relationship of 5 populations and 1 type (163 walnut samples) walnut was analyzed using ISSR markers.【Result】 117 bands were amplified by 13 informative and reliable primers, of which 98 were polymorphic loci. At species level, the percentage of polymorphic loci (PPL) was 83.76%, Nei’s gene diversity (H) was equaled to 0.3010, Shannon’s Information index (I) was 0.4182. At population level, the average value of PPL was 68.36%, the mean value of H amounted to 0.1265, the general average of I was 0.1651. Genetic coefficient of differentiation (Gst) among populations based Nei’s gene diversity was equaled to 0.6425, which showed 64.25% genetic variation existed among populations. The mean value of Nei’s genetic identity was equaled to 0.7499, estimation of gene flow from Gst (Nm) was 0.2782, which was able to be considered that gene flow was blocked among 6 populations and types, this result was uniform with that obtained by using Nei’s gene diversity. Analysis of AMOVA also showed genetic variance among populations was larger than within a population. Mantel test and UPGMA dendrogram based Nei’s genetic distance showed that genetic distance among populations had more significant correlation with geographic distance. 【Conclusion】The walnut germplasms in Xinjiang have a high level of genetic diversity, and the genetic differentiation is also larger. Germplasm protection and exploitation strategies of Amygdalus ledebouriana Schlecht should be prior to conduct in situ conservation, and by monitoring the level of genetic diversity to evaluate the effectiveness of its protection.

Key words: Juglans regia L , germplasms resources , genetic diversity , ISSR

LI Chao; LUO Shu-ping; ZENG Bin; LI Jiang; LI Gang. Analysis of Genetic Diversity of Germplasm Resources of Walnut (Juglans regia L.) Revealed by ISSR in Xinjiang of China[J].Scientia Agricultura Sinica, 2011, 44(9): 1871-1879.

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References

[1]郗荣庭, 张毅萍. 中国核桃. 北京: 中国林业出版社, 1992: 109-152.
Xi R T, Zhang Y P. Walnut of China. Beijing: China Forestry Press, 1992: 109-152. (in Chinese)
[2]严兆福, 新疆核桃. 乌鲁木齐: 新疆科技卫生出版社, 1994: 6-9
Yan Z F. Walnut of Xinjiang. Urumqi: Xinjiang Science and Sanitation Press, 1994: 6-9. (in Chinese)
[3]李国和. 核桃种质资源研究[D]. 四川雅安: 四川农业大学, 2007.
Li G H. Studies on germplasm resources of walnuts[D]. Yaan, Sichuan: Sichuan Agricultural University, 2007. (in Chinese)
[4]Charters Y M, Wilkinson M J. The use of self pollinated progenies as“in-groups”for the genetic characterization of cocoa germplasm. Theoretical and Applied Genetics, 2000, 100: 160-166.
[5]Archak S, Gaikwad A B, Gautam D, Rao E V VB, Swamy K R M, Karihaloo J L. DNA fingerprinting of Indian cashew (Anacardium occidentale L.) varieties using RAPD and ISSR techniques. Euphytica, 2003, 230: 397-404.
[6]Souframanien J, Gopalakrishna T. A comparative analysis of genetic diversity in blackgram genotypes using RAPD and ISSR markers. Theoretical and Applied Genetics, 2004, 109: 1687-1693.
[7]Wolfe A D, Xiang Q Y, Kephart S R. Diploid hybrid speciation in penstemon (Scrophulariaceae). Proceedings of the National Academy of Science of the USA, 1998, 95: 5112 - 5115.
[8]Levi A, Thomas C E, Joobeur T, Zhang X, Davis A. A genetic linkage map for watermelon derived from a testcross population: (Citrullus lanatus var. citroides ×C. lanatus var. lanatus)×Citrullus colocynthis. Theoretical and Applied Genetics, 2002, 105: 555 - 563.
[9]Malvolti M, Fineschi S, Pigliucci M. Morphological integration and genetic variability in Juglans regia L. The Journal of Heredity, 1994, 85(5): 389-394.
[10]Potter D, Gao F Y, Bagget S, McKenna J R, McGranahan G H. Defining the sources of paradox: DNA sequence markers for North American walnut (Juglans regia L.) species and hybrids. Scientia Horticulturae, 2002, 94: 157-170.
[11]Pollegioni P, Major A, Bartoli S, Ducci F, Proietti R, Malvolti M E. Application of microsatelite and dominant molecular markers for the discrimination of species and interspecific hybrids in genus Juglans. Acta Horticulturae (ISHS), 2005, 705: 191-197.
[12]刘晓丽, 陈学森, 张美勇, 陈晓流, 何天明, 张立杰, 张春雨. 普通核桃3个居群遗传结构的SSR分析. 果树学报, 2008, 25(4): 526-530.
Liu X L, Chen X S, Zhang M Y, Chen X L, He T M, Zhang L J, Zhang C Y. Population genetic structure analysis of Juglans regia using SSR markers. Journal of Fruit Science, 2008, 25(4): 526-530. (in Chinese)
[13]Edwards K, Johnstone C, Thompson C. A simple and rapid method for the preparation of plant genomic DNA for PCR analysis. Nucleic Acids Research, 1991, 19(6): 1349.
[14]张虎平, 牛建新, 王国安, 虎海防, 马兵钢. 适于核桃基因标记的DNA提取方法. 生物技术, 2003, 13(5): 18-19.
Zhang H P, Niu J X, Wang G A, Hu H F, Ma B G. Optimal DNA extraction method for gene mark in walnuts. Biotechnology, 2003, 13(5): 18-19. (in Chinese)
[15]罗淑萍, 曾斌, 孙晋科, 李疆. 野扁桃ISSR-PCR反应体系的优化. 经济林研究, 2007, 25(3): 1-5.
Luo S P, Zeng B, Sun J K, Li J. Optimization of ISSR-PCR reaction system in Amygdalus Ledebouriana Schleche. Nonwood Forest Research, 2007, 25(3): 1-5. (in Chinese)
[16]陈少瑜, 杨恩, 范志远, 张雨, 习学良. 漾濞核桃ISSR-PCR反应体系的建立. 西部林业科学, 2007(4): 36.
Chen S Y, Yang E, Fan Z Y, Zhang Y, Xi X L. Establishment of ISSR-PCR experiment system on Juglans sigillata. Journal of West China Forestry Science, 2007(4): 36. (in Chinese)
[17]王滑. 我国核桃10个居群的遗传多样性分析[D]. 北京: 中国林业科学研究院, 2007.
Wang H. Genetic diversity of 10 walnut populations in China[D]. Beijing: Chinese Academy of Forestry Sciences, 2007. (in Chinese)
[18]Fjellstrom R G, Parfitt D E. Walnut (Juglans spp.) genetic diversity determined by restriction fragment length polymorphisms. Genome, 1994, 37: 690-700.
[19]Rowe G., Beebee T J C, Burke T. Phylogeography of the natterjack toad Bufo calamita in Britain: genetic differentiation of native and translocated populations. Molecular Ecology, 1998, 7: 751-760.
[20]Schaal B A, Hayworth D A, Olsen K M, Rauscher J T, Smith W A. Phylogeographic studies in plant: Problem and prospects. Molecular Ecology, 1998, 7: 465-474.
[21]Slatkin M. Gene flow and the geographic structure of natural populations. Science, 1987, 236: 787-792.
[22]Cozzolino S, Cafasso D, Pellegrino G, Musacchio A, Widmer A. Fine-scale phylogeographical analysis of Mediterranean Anacamptis palustris(Orchidaceae) populations based on chloroplastm in satellite and microsatellite variation. Molecular Ecology, 2003, 12: 2783-2792.
[23]Karoly R. Black locust (Robinia pseudoacacia L.) improvement and management in Hungary. Forestry Studies in China, 1999, 1(2): 42-46.
[24]路安民, 张志耘. 胡桃目的分化、进化和系统关系. 植物分类学报, 1990, 28(2): 96-102
Lu A M, Zhang Z Y. The system relationship of walnut differentiation and evolution. Journal of Systematic and Evolution, 1990, 28(2): 96-102. (in Chinese)
[25]徐颖, 张美勇. 野核桃杂种后代遗传性状分析. 山东农业科学, 2005(4): 21-22.
Xu Y, Zhang M Y. Analysis of wild walnut hybrid progeny genetics character. Shandong Agricultural Sciences, 2005(4): 21-22. (in Chinese)

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Analysis of Genetic Diversity of Germplasm Resources of Walnut (Juglans regia L.) Revealed by ISSR in Xinjiang of China

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