Homeostasis in defined genotypes of Matthiola incana

Abstract

Based on 256 defined genotypes of the Brassicaceae Matthiola incana the influence of the alleles at four different loci and of their combinations on homeostasis was investigated against an isogenic background. The measured character was the anthocyanin content of the flowers. There are significant maternal and paternal influences on homeostasis. Moreover the extent of heterozygosity as well as the number of wildtype alleles, summarized over all loci, are positively correlated with the increase of homeostasis. The analysis of individual gene effects shows distinct graduations between the contributions of the particular loci. In principle, the wild-type allele proved to be more homeostatic when compared to the mutant; in some cases monogenic heterosis was indicated. Nonallelic interactions of first and second order do considerably modify the degree of expression of homeostasis; they are neither strongly correlated with the individual gene effects nor with the interactions of lower order, and hence they are not predictable. This means also that it is not possible to formulate a general hypothesis as to the causes of homeostasis. We have to assume rather that homeostasis depends on specific gene combinations which enable the organism to stabilize its phenotype by means of certain physiological conditions.