Thompson J N, Hellack J J, Tucker R R
Department of Zoology, University of Oklahoma, Norman 73019.
Genetics. 1991 Jan;127(1):117-23. doi: 10.1093/genetics/127.1.117.
Extensive levels of polygenic variation can be maintained in a population without creating a severe segregational load. One way to account for this is that the alleles are arranged on a chromosome so that different regions balance each other phenotypically. To test whether this occurs in a natural population, we isolated ten Drosophila melanogaster X chromosomes and mapped regions of polygenic activity affecting sternopleural bristle number. The chromosomes fell into a small number of groups based upon the similarity of their distributions of polygenic activity. The results are consistent with a model in which a large proportion of the variation can be attributed to a small number of segregating chromosome regions and in which the chromosomes show internal balance.
广泛水平的多基因变异能够在一个种群中得以维持,而不会产生严重的分离负荷。对此的一种解释是,等位基因排列在染色体上,使得不同区域在表型上相互平衡。为了测试这种情况是否发生在自然种群中,我们分离出了十条黑腹果蝇的X染色体,并绘制了影响腹侧板刚毛数量的多基因活性区域图谱。基于多基因活性分布的相似性,这些染色体分成了少数几组。结果与一个模型相符,在该模型中,很大一部分变异可归因于少数几个分离的染色体区域,并且染色体呈现出内部平衡。