Figure 1. Effects of aneuploidy on gene expression and phenotype.

Schematic representation of several possible mechanisms by which aneuploidy can affect gene expression and give rise to adaptive phenotypes. (A) Direct effect of gene copy number change due to aneuploidy on gene expression level, which in some cases might be sufficient to bring about an adaptive phenotype. (B) Some of the genes directly affected by aneuploidy can have trans-acting effects on the expression of target genes not necessarily residing on the aneuploid chromosomes. In some cases, adaptive phenotypic changes are brought about by such indirect effects. (C) When aneuploidy increases the copy number of more than one gene at a time, changes in the expression of each of the genes can independently and additively converge to influence a cellular phenotype. (D) Changes in the expression of multiple genes on aneuploid chromosomes can synergistically cause large changes in the expression of target genes that are not necessarily carried on aneuploid chromosomes. In some cases, such synergistically-induced changes could give rise to adaptive phenotypes. Chromosomes are represented as grey bars, genes as colored rectangles, gene products as colored circles, trans-acting effects as black arrows and phenotypic effects as green arrows. The hypothetical two-chromosome haploid genome is depicted on the left; the corresponding aneuploid genome (carrying an extra copy of the first chromosome) is shown on the right.