Seneca Associates, 84 Hammond Street, 02138, Cambridge, MA, USA.
Theor Appl Genet. 1988 Aug;76(2):217-27. doi: 10.1007/BF00257849.
An accurate and efficient method of screening the many germplasm sources available for their ability to improve elite, adapted germplasm is needed. The superiority measure (SX) of a population (P) was defined as the product of the frequency and relative superiority of the alleles in P that are more favorable than the best in an elite, adapted reference single cross I1×I2. A computer simulation was done to determine the correlations between various screening methods and the SX. The genetic model used included multiple alleles, no linkage, two types of non-epistatic gene action (additive and complete dominance) and two types of epistatic gene action (complementary and duplicate). Genetic variances in the populations and a statistic proposed by Dudley (SD={[P x I1-I1] [I1 xI2-I2]- [P x I2-I2]-[P x I2-I2] [I1 x I2-I1]}/{2[I1-I2]{) were inconsistently correlated with the SX over all types of gene action on the basis of rank correlations. The testcross to the single cross (TC[SC]=P x [I1 x I2]) and the upper bound on the SX (UBND=minimum [P x I1-I1, P x I2-I2]) were both consistently highly genetically correlated with the SX. In the set of populations simulated, there were positive correlations between products of allelic frequencies and effects at different classes of loci. The UBND usually had a higher rank correlation coefficient with the SX than did the TC(SC). The differences between their correlation coefficients were often insignificant. Although the TC(SC) gives no indication as to which inbred the population is more closely related, its ease of use and expected lowers standard error compared with the UBND indicate that it would be an appropriate choice of screening method for identifying superior populations in the sense defined.
需要有一种准确而有效的方法来筛选大量的种质资源,以评估它们提高优良、适应性强的种质的能力。群体的优势度量(SX)定义为群体(P)中比优良、适应性强的参考单交 I1×I2 中的最优等位基因更有利的等位基因的频率和相对优势的乘积。通过计算机模拟,确定了各种筛选方法与 SX 之间的相关性。所使用的遗传模型包括多个等位基因、无连锁、两种非上位性基因作用类型(加性和完全显性)和两种上位性基因作用类型(互补和重复)。在所有类型的基因作用下,群体的遗传方差和 Dudley 提出的一个统计量(SD={[P x I1-I1] [I1 xI2-I2]- [P x I2-I2]-[P x I2-I2] [I1 x I2-I1]}/{2[I1-I2]{)与 SX 的相关性不一致,这是基于等级相关性得出的。与单交的测交(TC[SC]=P x [I1 x I2])和 SX 的上限(UBND=最小[P x I1-I1, P x I2-I2])都与 SX 高度遗传相关。在所模拟的群体中,不同类别基因座的等位基因频率和效应的乘积之间存在正相关关系。UBND 通常与 SX 的等级相关系数高于 TC(SC)。它们的相关系数之间的差异通常不显著。虽然 TC(SC)没有表明群体与哪个自交系的关系更密切,但它的易用性和预期的较低标准误差表明,在定义的意义上,它是识别优良群体的一种合适的筛选方法。
