The Milner Centre for Evolution, University of Bath, Bath, BA2 7AY, UK.
Heredity (Edinb). 2019 Jul;123(1):33-43. doi: 10.1038/s41437-019-0194-2. Epub 2019 Jun 12.
Mendel proposed that the heritable material is particulate and that transmission of alleles is unbiased. An assumption of unbiased transmission was necessary to show how variation can be preserved in the absence of selection, so overturning an early objection to Darwinism. In the second half of the twentieth century, it was widely recognised that even strongly deleterious alleles can invade if they have strongly biased transmission (i.e. strong segregation distortion). The spread of alleles with distorted segregation can explain many curiosities. More recently, the selectionist-neutralist duopoly was broken by the realisation that biased gene conversion can explain phenomena such as mammalian isochore structures. An initial focus on unbiased transmission in 1919, has thus given way to an interest in biased transmission in 2019. A focus on very weak bias is now possible owing to technological advances, although technical biases may put a limit on resolving power. To understand the relevance of weak bias we could profit from having the concept of the effectively Mendelian allele, a companion to the effectively neutral allele. Understanding the implications of unbiased and biased transmission may, I suggest, be a good way to teach evolution so as to avoid psychological biases.
孟德尔提出,可遗传的物质是颗粒状的,等位基因的传递是无偏的。无偏传递的假设对于显示在没有选择的情况下如何保持变异是必要的,从而推翻了对达尔文主义的早期反对意见。在 20 世纪后半叶,人们普遍认识到,即使是强烈有害的等位基因,如果它们的传递存在强烈的偏倚(即强烈的分离扭曲),也可以入侵。具有偏倚分离的等位基因的传播可以解释许多奇怪的现象。最近,选择主义者-中性主义者的双头垄断被打破,人们意识到有偏的基因转换可以解释哺乳动物同序结构等现象。因此,1919 年对无偏传递的初步关注让位于 2019 年对有偏传递的关注。由于技术的进步,现在可以关注非常弱的偏倚,尽管技术偏倚可能会限制分辨率。为了理解弱偏倚的相关性,我们可以从有效孟德尔等位基因的概念中获益,这是有效中性等位基因的一个伴侣。理解无偏和有偏传递的含义,我认为,可能是教授进化的一个好方法,以避免心理偏见。