Integration and Modularity of Quantitative Trait Locus Effects on Geometric Shape in the Mouse Mandible

doi:10.1534/genetics.166.4.1909

Integration and Modularity of Quantitative Trait Locus Effects on Geometric Shape in the Mouse Mandible

Christian Peter Klingenberg^a, Larry J. Leamy^b, and James M. Cheverud^c
^a School of Biological Sciences, University of Manchester, Manchester M13 9PT, United Kingdom,
^b Department of Biology, University of North Carolina, Charlotte, North Carolina 28223
^c Department of Anatomy and Neurobiology, Washington University School of Medicine, Saint Louis, Missouri 63110

Corresponding author: Christian Peter Klingenberg, University of Manchester, 3.614 Stopford Bldg., Oxford Rd., Manchester M13 9PT, United Kingdom., cpk{at}man.ac.uk (E-mail)

Communicating editor: G. A. CHURCHILL

The mouse mandible has long served as a model system for complexmorphological structures. Here we use new methodology basedon geometric morphometrics to test the hypothesis that the mandibleconsists of two main modules, the alveolar region and the ascendingramus, and that this modularity is reflected in the effectsof quantitative trait loci (QTL). The shape of each mandiblewas analyzed by the positions of 16 morphological landmarksand these data were analyzed using Procrustes analysis. Intervalmapping in the F₂ generation from intercrosses of the LG/J andSM/J strains revealed 33 QTL affecting mandible shape. The QTLeffects corresponded to a variety of shape changes, but ordinationor a parametric bootstrap test of clustering did not revealany distinct groups of QTL that would affect primarily one moduleor the other. The correlations of landmark positions betweenthe two modules tended to be lower than the correlations betweenarbitrary subsets of landmarks, indicating that the moduleswere relatively independent of each other and confirming thehypothesized location of the boundary between them. While theseresults are in agreement with the hypothesis of modularity,they also underscore that modularity is a question of the relativedegrees to which QTL contribute to different traits, ratherthan a question of discrete sets of QTL contributing to discretesets of traits.

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