121 Zhao, W., W. Hou, R. C. Littell and R. L. Wu Structured antedependence models for functional mapping of multivariate longitudinal quantitative traits. Statistical Methods in Molecular Genetics and Biology 4, http://www.bepress.com/sagmb/vol4/iss1/art33/.
120 Wu, R. L., C.-X. Ma, W. Hou, P. Corva and J. F. Medrano Functional mapping of quantitative trait loci that interact with the hg gene to regulate growth trajectories in mice. Genetics 171: 239-249.
119 Wang, Z. H., W. Hou and R. L. Wu A statistical model to analyze quantitative trait locus interactions for HIV dynamics from the virus and human genomes. Statistics in Medicine 25: 495-511.
118 Lin, M., and R. L. Wu Theoretical basis for the identification of allelic variants that encode drug efficacy and toxicity. Genetics 170: 919-928.
117 Lin, M., C. Aqvilonte, J. A. Johnson and R. L. Wu Sequencing drug response with HapMap. The Pharmacogenomics Journal 5: 149-156.
116 Cui, Y. H., and R. L. Wu Mapping genome-genome epistasis: A multi-dimensional model. Bioinformatics 21: 2447-2455.
115 Zhao, W., Y. Q. Chen, G. Casella, J. M. Cheverud and R. L Wu A nonstationary model for functional mapping of complex traits. Bioinformatics 21: 2469-2477.
114 Lin, M., R. L. Wu and J. A. Johnson A bivariate functional mapping model for gene identification of drug response for systolic and diastolic blood pressures. Pacific Symposium on Biocomputing (http://helix-web.stanford.edu/psb06/lin.pdf).
113 Wu, R. L., and C.-X. Ma A general framework for statistical linkage analysis in multivalent tetraploids. Genetics 170: 899-907.
112 Todhunter, R. J., R. Mateescu, G. Lust, N. I. Burton-Wurster, N. L. Dykes, S. P. Bliss, A. J. Williams, M. Vernier-Singer, E. Corey, C. Harjes, R. L. Quaas, Z. Zhang, R. O. Gilbert, D. Volkman, G. Casella, R. L. Wu and G. M. Acland Quantitative trait loci for hip dysplasia in a crossbreed canine pedigree. Mammalian Genome 16: 720-730.
111 Hou, W., C. W. Garvan, W. Zhao, M. Behnke, F. D. Eyler and R. L. Wu A generalized model for detecting genetic determinants underlying longitudinal traits with unequally spaced measurements and time-dependent correlated errors. Biostatistics 6: 420-433.
110 Terra, S. G., S. P. McGorray, R. Wu, D. M. McNamara, L. H. Cavallari, J. R. Walker, M. R. Wallace, B. D. Johnson, C. N. Bairey-Merz, G. Sopko, C. J. Pepine and J. A. Johnson Association between b-adrenergic receptor polymorphisms and their G-protein-coupled receptors with body mass index and obesity in women: a report from the NHLBI-sponsored WISE study. International Journal of Obesity 29: 746-754.
109 Cui, Y. H., and R. L. Wu Statistical model for characterizing epistatic control of triploid endosperm triggered by maternal and offspring QTLs. Genetical Research 86: 65-75.
108 Lou, X.-Y., G. Casella, R. J. Todhunter, M. K. C. Yang and Wu, R. L. A general statistical framework for unifying interval and linkage disequilibrium mapping: Towards high-resolution mapping of quantitative traits. Journal of American Statistical Association 100: 158-171.
107 Lin, M., C.-X. Ma, W. Zhao, J. M. Cheverud and R. L.Wu Mechanistic mapping of ontogenetic growth based on biological principles. Growth, Development and Aging 68: 87-93.Proceeding Papers
L35. Li, H. Y., and R. L. Wu.Statistical models for detecting quantitative trait nucleotides that encode cancer growth.
L34. Liu, T., and R. L. Wu. Statistical model for mapping imprinted quantitative trait loci.
L33. Liu, X. L., R. L. Wu and G. Casella.Detecting differentially-expressed time course gene expression profiles.
L32. Zhao, W., W. Hou, R. C. Littell and R. L. Wu.Structured antedependence model for functional mapping.
L31. Hou, W., C. Garvin and R. L. Wu. Likelihood formulation for estimating parent-of-origin effects with a family-based pedigree.
L30. Long, F., T. Liu and R. L. Wu. Statistical models for clustering gene expression profiles.
L29. Liu, T., F. Long and R. L. Wu.Statistical models for functional mapping of circadian rhythms.