Artiukova E V, Kholina A B, Kozyrenko M M, Zhuralev Iu N
Genetika. 2004 Jul;40(7):877-84.
The method of polymerase chain reaction with random primers (RAPD) was used to assess genetic variation and population differentiation in the rare endemic plant Oxytropis chankaensis Jurtz. (Fabaceae). DNA samples from plants of two isolated populations were compared at 133 loci detected by use of ten primers. Both populations examined were characterized by high polymorphism levels (P95 = 72.9%, A = 1.92 and P95 = 74.4%, A = 1.88, respectively). They were also statistically significantly different in the frequencies of most of the amplicons. For each of the plants, unique multilocus RAPD phenotype was established using 17 to 20 RAPD markers. Diagnostic markers were not revealed. The populations were poorly differentiated. On average, the between-population component accounted for about 8% of the variation, while 92% of the variation was detected within populations. High variation along with the low degree of differentiation characteristic of two most geographically remote populations of O. chankaensis can have several explanations, among which a polyploid origin of the species seems to be most important.
采用随机引物聚合酶链反应(RAPD)方法,评估珍稀特有植物长白棘豆(豆科)的遗传变异和种群分化。利用10种引物在两个隔离种群的植物DNA样本中检测了133个位点。所检测的两个种群均具有高多态性水平(P95分别为72.9%,A = 1.92;P95为74.4%,A = 1.88)。它们在大多数扩增子的频率上也存在统计学显著差异。对于每株植物,使用17至20个RAPD标记建立了独特的多位点RAPD表型。未发现诊断性标记。种群间分化程度较低。平均而言,种群间成分约占变异的8%,而92%的变异存在于种群内。长白棘豆两个地理上最偏远种群的高变异和低分化程度可能有多种解释,其中物种的多倍体起源似乎最为重要。