苦豆子等位酶遗传多样性研究
Allozyme Variation and Genetic Diversity of Sophora alopecuroides
目的 探讨苦豆子不同种群的等位酶特性,从生化水平上分析其遗传变异。方法 采用聚丙烯酰胺凝胶电泳技术,研究来源不同的24个苦豆子(Sophora alopecuroides L.)种群720个样本的遗传多样性,应用POPGEN 32分析数据,UPGMA绘制聚类图。结果 5个酶系统共检测到26个酶位点,多态位点百分数(P)为73.08%,平均期望杂合度(He)为0.337;Shannon信息指数(I)为0.517;各种群间基因分化系数(FST)为0.427;基因流(Nm)的平均值为0.687;种群间的遗传一致度为0.581 5~0.926 1,平均为0.769 0。聚类分析显示,种群间存在遗传分化。结论 苦豆子具有较高的遗传多样性,种群间的遗传分化是其遗传多样性的主要来源;各种群间的遗传距离与地理距离间没有明显的关系。
OBJECTIVE To assess the allozymic variation and genetic diversity of Sophora alopecuroides populations at biochemical level. METHODS Vertical slab polyacrylamide gel electrophoresis was adopted to study the genetic difference of 720 samples from 24 populations in Ningxia, Gansu, Qinghai, Xinjiang and Inner Mongolia. Data was analyzed by POPGEN 32, and a cluster diagram was presented by UPGMA. RESULTS A total of 26 loci in 5 enzyme systems (esterase, EST;malic enzyme, ME;malate dehydrogenase, MDH; peroxidase, PER;shikimate dehydrogenase, SKD) were detected and a high level of genetic diversity was revealed at population level. The percentage of polymorphic loci (P) was 73.08%;the mean expected heterozygosity (He) was 0.337; Shannon′s index (I) was 0.517; the coefficient of gene differentiation (FST) among 24 populations was 0.427, and the mean gene flow (Nm) was 0.687, respectively. The genetic identity among the populations ranged from 0.581 5 to 0.926 1 with the average of 0.769 0. The genetic differentiation was found among the populations based on the clustering analysis. CONCLUSION There is a high level of genetic diversity among different populations, which mainly comes from genetic differentiation. No obvious relationship between the genetic distance and geographical distribution of the 24 populations is identified.
苦豆子 / 等位酶 / 遗传分化 / 聚类分析 {{custom_keyword}} /
SophoraalopecuroidesL. / allozyme / geneticdiversity / clusteranalysis {{custom_keyword}} /
[1] Academiae Sinicae Edita. Flora Reipublicae Sinicae(中国植物志) . Vol 40. Beijing; Science Press,1998;80-81. [2] CHENG Y,PING J,XU H D,et al. The inhibitory effect of oxymatrine-baicailin compound on hepatitis B viral antigens secretion in HepG 2. 2. 2. 15 cells . Chin Pharmacol Bull(中国药理学通报),2006,22(10);1258-1263. [3] LI W,LIU X Y,LIU Y. Effects of marine on antifibrosis in patients with chronic hepatitis B . J Ningxia Med Univ(宁夏医科大学学报),2009,31(5);585-586. [4] WANG Z R. Plant Allozyme Analysis(植物等位酶分析). Beijing;Science Press,1996. [5] OUYANG Z Q,WANG B Y,DANG X D,et al. Allozyme based genetic diversity of Dipteronia dyeriana in China . J Wuhan Bot Res(武汉植物学研究),2009,27(5);461-466. [6] LIU P,LI Y K,LI X H,et al. Allozyme variation and genetic diversity in Trigonella foenum-graecum L. . Acta Bot Boreal Occident Sin(西北植物学报),2010,30(9);1780-1785. [7] LIU L S,ZHOU J X,JIANG B A,et al. Studies on genetic diversity in endangered medicinal plant Radix Gentianae Macrophyllae of Gansu . China J Tradit Chin Med Pharm(中华中医药杂志),2010,25(9);1476-1479. [8] LI Z Z,BAO Z X,HUANG H W. Allozym ic variation and genetic relationship among Gastrodia elata forms,a medicinal plant in China . Plant Sci J(植物科学学报),2011,29(1);64-73. [9] YANG C,YANG F,MA H W,et al. Distribution and morphological variation of germplasm resource of Sophora alopecuroides . China J Chin Mater Med(中国中药杂志),2010,35(7);817-820. HU N S,WANG G X. The Application of Isozyme Technique(同工酶技术及其应用). Changsha; Hunan Science & Technology Press,1985;18-110 . SOLTIS D E,SOLTIS P S. Isozymes in Plant Biology. Porland Oregon;Dioscorides Press,1989;46-72. NEI M. Estimation of average heterozygosity and genetic distance from a small number of individuals . Genetics,1978,89; 583-590. WRIGHT S. The genetical structure of populations . Annals of Human Genetics,1951,15; 323-354. YANG C,ZHANG X G,YANG Y R,et al. Genetic diversity of Sophora alopecuroides germplasm resources based on RAPD analysis . Pratacultural Sci(草业科学),2012,29(11);1-6. BROWN H D,CLEGG M T,KAHLER A L, et al. Plant Population Genetics,Breeding,and Genetic Resources . Sunderland Mass; Sinauer,1989;43-63. WRIGHT S. Evolution and the Genetics of Populations,Volume 4;Variability within and Among Natural Populations. Chicago; University of Chicago Press,1978. ZHOU L H. Studies on biological character of Sophora alopecuroides L. . Acta Botanica Sin(植物学报),1979,21(4);380-382. FAHIMA T,SUN G L,BEHARAV A,et al. PAPD polymorphism of wild emmer wheat populations,Triticum dicoccoides, in Israel. Theor Appl Genet,1999,98(2);434-447.
国家自然科学基金资助项目(30660017)
/
| 〈 |
|
〉 |
