The Selective Values of Alleles in a Molecular Network Model Are Context Dependent

doi:10.1534/genetics.166.4.1715

The Selective Values of Alleles in a Molecular Network Model Are Context Dependent

Jean Peccoud^a, Kent Vander Velden^a, Dean Podlich^a, Chris Winkler^a, Lane Arthur^a, and Mark Cooper^a
^a Pioneer Hi-Bred International, Johnston, Iowa 50131-0552

Corresponding author: Jean Peccoud, Bioinformatics & Discovery Research, P.O. Box 552, 7250 NW 62nd Ave., Johnston, IA 50131-0552., jean.peccoud{at}pioneer.com (E-mail)

Communicating editor: D. VOYTAS

Classical quantitative genetics has applied linear modelingto the problem of mapping genotypic to phenotypic variation.Much of this theory was developed prior to the availabilityof molecular biology. The current understanding of the mechanismsof gene expression indicates the importance of nonlinear effectsresulting from gene interactions. We provide a bridge betweengenetics and gene network theories by relating key conceptsfrom quantitative genetics to the parameters, variables, andperformance functions of genetic networks. We illustrate thismethodology by simulating the genetic switch controlling galactosemetabolism in yeast and its response to selection for a populationof individuals. Results indicate that genes have heterogeneouscontributions to phenotypes and that additive and nonadditiveeffects are context dependent. Early cycles of selection suggeststrong additive effects attributed to some genes. Later cyclessuggest the presence of strong context-dependent nonadditiveeffects that are conditional on the outcomes of earlier selectioncycles. A single favorable allele cannot be consistently identifiedfor most loci. These results highlight the complications thatcan arise with the presence of nonlinear effects associatedwith genes acting in networks when selection is conducted ona population of individuals segregating for the genes contributingto the network.

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