Centre for Integrative Genetics (CIGENE), Department of Mathematical Sciences and Technology, Norwegian University of Life Sciences Ås, Norway.
Front Genet. 2013 Nov 7;4:216. doi: 10.3389/fgene.2013.00216. eCollection 2013.
It was recently shown that monotone gene action, i.e., order-preservation between allele content and corresponding genotypic values in the mapping from genotypes to phenotypes, is a prerequisite for achieving a predictable parent-offspring relationship across the whole allele frequency spectrum. Here we test the consequential prediction that the design principles underlying gene regulatory networks are likely to generate highly monotone genotype-phenotype maps. To this end we present two measures of the monotonicity of a genotype-phenotype map, one based on allele substitution effects, and the other based on isotonic regression. We apply these measures to genotype-phenotype maps emerging from simulations of 1881 different 3-gene regulatory networks. We confirm that in general, genotype-phenotype maps are indeed highly monotonic across network types. However, regulatory motifs involving incoherent feedforward or positive feedback, as well as pleiotropy in the mapping between genotypes and gene regulatory parameters, are clearly predisposed for generating non-monotonicity. We present analytical results confirming these deep connections between molecular regulatory architecture and monotonicity properties of the genotype-phenotype map. These connections seem to be beyond reach by the classical distinction between additive and non-additive gene action.
最近有人指出,单调基因作用(即在从基因型映射到表型时,等位基因含量与相应基因型值之间的保序性)是在整个等位基因频率谱上实现可预测的亲子关系的前提条件。在这里,我们检验了一个重要的推论,即基因调控网络的设计原则很可能会产生高度单调的基因型-表型图谱。为此,我们提出了两种衡量基因型-表型图谱单调性的方法,一种基于等位基因替代效应,另一种基于等渗回归。我们将这些方法应用于从 1881 种不同的 3 个基因调控网络模拟中出现的基因型-表型图谱。我们证实,一般来说,基因型-表型图谱在网络类型之间确实高度单调。然而,涉及非相干前馈或正反馈的调控基序,以及基因型与基因调控参数之间映射的多效性,显然容易产生非单调性。我们提出了分析结果,证实了分子调控结构与基因型-表型图谱单调性之间的这些深层联系。这些联系似乎超出了经典的加性和非加性基因作用之间的区别。
