Association weight matrix for the genetic dissection of puberty in beef cattle

We describe a systems biology approach for the genetic dissection of complex traits based on applying gene network theory to the results from genome-wide associations. The associations of single-nucleotide polymorphisms (SNP) that were individually associated with a primary phenotype of interest, ag...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 107; no. 31; pp. 13642 - 13647
Main Authors Fortes, Marina R. S., Reverter, Antonio, Zhang, Yuandan, Collis, Eliza, Nagaraj, Shivashankar H., Jonsson, Nick N., Prayaga, Kishore C., Barris, Wes, Hawken, Rachel J., Seidel, George
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 03.08.2010
National Acad Sciences
Subjects
Aging
Animal genetics
Animals
Beef
Beef cattle
Binding sites
Biological Sciences
Cattle - genetics
Cells
Gene interaction
Gene Regulatory Networks
Genes
Genetic correlation
Genome-Wide Association Study
Genomics
Medical genetics
Phenotypes
Phenotypic traits
Polymorphism
Polymorphism, Single Nucleotide
Puberty
Receptors
Systems Biology
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Summary:We describe a systems biology approach for the genetic dissection of complex traits based on applying gene network theory to the results from genome-wide associations. The associations of single-nucleotide polymorphisms (SNP) that were individually associated with a primary phenotype of interest, age at puberty in our study, were explored across 22 related traits. Genomic regions were surveyed for genes harboring the selected SNP. As a result, an association weight matrix (AWM) was constructed with as many rows as genes and as many columns as traits. Each {i, j} cell value in the AWM corresponds to the z-score normalized additive effect of the ith gene (via its neighboring SNP) on the jth trait. Columnwise, the AWM recovered the genetic correlations estimated via pedigree-based restricted maximum-likelihood methods. Rowwise, a combination of hierarchical clustering, gene network, and pathway analyses identified genetic drivers that would have been missed by standard genome-wide association studies. Finally, the promoter regions of the AWM-predicted targets of three key transcription factors (TFs), estrogen-related receptor γ (ESRRG), Pal3 motif, bound by a PPAR-γ homodimer, IR3 sites (PPARG), and Prophet of Pit 1, PROP paired-like homeobox 1 (PROP1), were surveyed to identify binding sites corresponding to those TFs. Applied to our case, the AWM results recapitulate the known biology of puberty, captured experimentally validated binding sites, and identified candidate genes and gene– gene interactions for further investigation.
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1Present address: Pfizer Animal Genetics, Albion, Brisbane, QLD 4010, Australia.
Edited by George Seidel, Colorado State University, Fort Collins, CO, and approved June 21, 2010 (received for review February 23, 2010)
Author contributions: M.R.S.F., A.R., K.C.P., and R.J.H. designed research; M.R.S.F. and E.C. performed research; S.H.N. and W.B. contributed new reagents/analytic tools; M.R.S.F., A.R., Y.Z., and S.H.N. analyzed data; and M.R.S.F., A.R., N.N.J., and R.J.H. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1002044107