Walsh J B
Proc Natl Acad Sci U S A. 1985 Jan;82(1):153-7. doi: 10.1073/pnas.82.1.153.
A model of the evolutionary dynamics of a multigene family in a finite population under the joint effects of selection and (possibly biased) gene conversion is analyzed. It is assumed that the loss or fixation of a polymorphism at any particular locus in the gene family occurs on a much faster time scale than the introduction of new alleles to a monomorphic locus by gene conversion. A general formula for the fixation of a new allele throughout a multigene family for a wide class of selection functions with biased gene conversion is given for this assumption. Analysis for the case of additive selection shows that (i) unless selection is extremely weak or bias is exceptionally strong, selection usually dominates the fixation dynamics, (ii) if selection is very weak, then even a slight conversion bias can greatly alter the fixation probabilities, and (iii) if both selection and conversion bias are sufficiently small, the substitution rate of new alleles throughout a multigene family is approximately the single locus mutation rate, the same result as for neutral alleles at a single-copy gene. Finally, I analyze a fairly general class of underdominant speciation models involving multigene families, concluding for these models under weak conversion that although the probability of fixation may be relatively high, the expected time to fixation is extremely long, so that speciation by "molecular drive" is unlikely. Furthermore, speciation occurs faster by fixing underdominant alleles of the same effect at single-copy genes than by fixing the same number of loci in a single multigene family under the joint effects of selection, conversion, and drift.
分析了在选择和(可能有偏差的)基因转换共同作用下有限群体中多基因家族的进化动力学模型。假设基因家族中任何特定位点多态性的丢失或固定发生的时间尺度比通过基因转换向单态位点引入新等位基因的时间尺度快得多。基于此假设,给出了在具有偏差基因转换的广泛选择函数类中,新等位基因在整个多基因家族中固定的一般公式。对加性选择情况的分析表明:(i)除非选择极其微弱或偏差异常强烈,否则选择通常主导固定动力学;(ii)如果选择非常微弱,那么即使是轻微的转换偏差也会极大地改变固定概率;(iii)如果选择和转换偏差都足够小,整个多基因家族中新等位基因的替代率近似于单一位点的突变率,这与单拷贝基因中性等位基因的结果相同。最后,分析了一类相当普遍的涉及多基因家族的隐性物种形成模型,对于这些模型,在弱转换情况下得出结论:尽管固定概率可能相对较高,但预期的固定时间极长,因此“分子驱动”导致的物种形成不太可能。此外,通过固定单拷贝基因中具有相同效应的隐性等位基因实现物种形成的速度比在选择、转换和漂变共同作用下固定单个多基因家族中相同数量的位点要快。