The Molecular Basis of Quantitative Genetic Variation in Central and Secondary Metabolism in Arabidopsis

The Molecular Basis of Quantitative Genetic Variation in Central and Secondary Metabolism in Arabidopsis

Thomas Mitchell-Olds^a,b and Deana Pedersen^b
^a Max-Planck-Institut für Chemishe Ökologie, 07745 Jena, Germany
^b Division of Biological Sciences, University of Montana, Missoula, Montana 59812

Corresponding author: Thomas Mitchell-Olds, Max-Planck-Institut für Chemishe Ökologie, Tatzendpromenade 1a, 07745 Jena, Germany, tmo{at}ice.mpg.de (E-mail).

Communicating editor: V. SUNDARESAN

To find the genes controlling quantitative variation, we needmodel systems where functional information on physiology, development,and gene regulation can guide evolutionary inferences. We mappedquantitative trait loci (QTLs) influencing quantitative levelsof enzyme activity in primary and secondary metabolism in Arabidopsis.All 10 enzymes showed highly significant quantitative geneticvariation. Strong positive genetic correlations were found amongactivity levels of 5 glycolytic enzymes, PGI, PGM, GPD, FBP,and G6P, suggesting that enzymes with closely related metabolicfunctions are coregulated. Significant QTLs were found influencingactivity of most enzymes. Some enzyme activity QTLs mapped veryclose to known enzyme-encoding loci (e.g., hexokinase, PGI,and PGM). A hexokinase QTL is attributable to cis-acting regulatoryvariation at the AtHXK1 locus or a closely linked regulatorylocus, rather than polypeptide sequence differences. We alsofound a QTL on chromosome IV that may be a joint regulator ofGPD, PGI, and G6P activity. In addition, a QTL affecting PGMactivity maps within 700 kb of the PGM-encoding locus. ThisQTL is predicted to alter starch biosynthesis by 3.4%, correspondingwith theoretical models, suggesting that QTLs reflect pleiotropiceffects of mutant alleles.

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