Ronfort J, Jenczewski E, Bataillon T, Rousset F
Laboratoire de Génétique et d'Amélioration des Plantes, Institut National de la Recherche Agronomique, Domaine de Melgueil, 34130 Mauguio, France.
Genetics. 1998 Oct;150(2):921-30. doi: 10.1093/genetics/150.2.921.
Population structure parameters commonly used for diploid species are reexamined for the particular case of tetrasomic inheritance (autotetraploid species). Recurrence equations that describe the evolution of identity probabilities for neutral genes in an "island model" of population structure are derived assuming tetrasomic inheritance. The expected equilibrium value of FST is computed. In contrast to diploids, the correlation of genes between individuals within populations with respect to genes between populations (FST) may vary among loci due to the particular segregation patterns expected under tetrasomic inheritance and is consequently inappropriate for estimating demographic parameters in such populations. We thus define a new parameter (rho) and derive its relationship with Nm. This relationship is shown to be independent from both the selfing rate and the proportion of double reduction. Finally, the statistical procedure required to evaluate these parameters using data on gene frequencies distribution among autotetraploid populations is developed.
针对四体遗传(同源四倍体物种)的特殊情况,重新审视了常用于二倍体物种的群体结构参数。假设四体遗传,推导了描述群体结构“岛屿模型”中中性基因同一性概率演化的递归方程。计算了FST的预期平衡值。与二倍体不同,由于四体遗传预期的特定分离模式,群体内个体间基因与群体间基因的相关性(FST)可能因基因座而异,因此不适用于估计此类群体的种群统计学参数。因此,我们定义了一个新参数(rho)并推导了它与Nm的关系。结果表明,这种关系独立于自交率和双减数比例。最后,开发了使用同源四倍体群体间基因频率分布数据评估这些参数所需的统计程序。