A General Framework for Analyzing the Genetic Architecture of Developmental Characteristics

doi:10.1534/genetics.166.3.1541

A General Framework for Analyzing the Genetic Architecture of Developmental Characteristics

Rongling Wu^a,b, Chang-Xing Ma^a, Min Lin^a, and George Casella^a
^a Department of Statistics, University of Florida, Gainesville, Florida 32611
^b Institute of Statistical Genetics, Zhejiang Forestry University, Lin'an, Zhejiang 311300, People's Republic of China

Corresponding author: Rongling Wu, 533 McCarty Hall C, University of Florida, Gainesville, FL 32611., rwu{at}stat.ufl.edu (E-mail)

Communicating editor: M. W. FELDMAN

The genetic architecture of growth traits plays a central rolein shaping the growth, development, and evolution of organisms.While a limited number of models have been devised to estimategenetic effects on complex phenotypes, no model has been availableto examine how gene actions and interactions alter the ontogeneticdevelopment of an organism and transform the altered ontogenyinto descendants. In this article, we present a novel statisticalmodel for mapping quantitative trait loci (QTL) determiningthe developmental process of complex traits. Our model is constructedwithin the traditional maximum-likelihood framework implementedwith the EM algorithm. We employ biologically meaningful growthcurve equations to model time-specific expected genetic valuesand the AR(1) model to structure the residual variance-covariancematrix among different time points. Because of a reduced numberof parameters being estimated and the incorporation of biologicalprinciples, the new model displays increased statistical powerto detect QTL exerting an effect on the shape of ontogeneticgrowth and development. The model allows for the tests of anumber of biological hypotheses regarding the role of epistasisin determining biological growth, form, and shape and for theresolution of developmental problems at the interface with evolution.Using our newly developed model, we have successfully detectedsignificant additive x additive epistatic effects on stem heightgrowth trajectories in a forest tree.

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