Fluxes and Metabolic Pools as Model Traits for Quantitative Genetics. I. The L-Shaped Distribution of Gene Effects

Fluxes and Metabolic Pools as Model Traits for Quantitative Genetics. I. The L-Shaped Distribution of Gene Effects

Bruno Bost^a, Christine Dillmann^a,b, and Dominique de Vienne^a
^a Station de Génétique Végétale, INRA/UPS/INAPG, Ferme du Moulon, 91190 Gif-sur-Yvette, France
^b Institut National Agronomique Paris-Grignon, 75005 Paris, France

Corresponding author: Bruno Bost, Station de Génétique Végétale (INRA-UPS-INAPG), Ferme du Moulon, 91190 Gif-sur-Yvette, France., bost{at}moulon.inra.fr (E-mail)

Communicating editor: P. D. KEIGHTLEY

The fluxes through metabolic pathways can be considered as modelquantitative traits, whose QTL are the polymorphic loci controllingthe activity or quantity of the enzymes. Relying on metaboliccontrol theory, we investigated the relationships between thevariations of enzyme activity along metabolic pathways and thevariations of the flux in a population with biallelic QTL. Twokinds of variations were taken into account, the variation ofthe average enzyme activity across the loci, and the variationof the activity of each enzyme of the pathway among the individualsof the population. We proposed analytical approximations forthe flux mean and variance in the population as well as forthe additive and dominance variances of the individual QTL.Monte Carlo simulations based on these approximations showedthat an L-shaped distribution of the contributions of individualQTL to the flux variance (R²) is consistently expected in anF₂ progeny. This result could partly account for the classicallyobserved L-shaped distribution of QTL effects for quantitativetraits. The high correlation we found between R² value and fluxcontrol coefficients variance suggests that such a distributionis an intrinsic property of metabolic pathways due to the summationproperty of control coefficients.

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