Association Genetics and Natural Genetic Variation of Complex Traits in Pine

 

Principal Investigators

Charles Langley

University of California at Davis

David Neale

University of California at Davis
 

Co-Investigators and/or Subcontractors

Barry Goldfarb

North Carolina State University

Steve McKeand

North Carolina State University

Gary Peter

University of Florida

John Davis

University of Florida

George Casella

University of Florida

Dudley Huber

University of Florida

Carol Loopstra

Texas A&M

Tom Byram

Texas A&M
     

Agency: National Science Foundation

 

4 years

 

Project Overview: Identification of specific genes and alleles controlling naturally occurring phenotypic variation of complex traits is both biologically and economically relevant, providing 1) a greater understanding of trait genetic architecture in plants, 2) an indirect selection tool for tree breeders, and 3) a set of potentially useful genetic reagents for genetic modification. By aggressively seeking to identify most of the major genes controlling specific wood property and disease related traits in loblolly pine, we anticipate a significant breakthrough in our understanding of the genetics of complex traits and the potential economic impact of indirect selection. Marker-aided selection based on desired allelic variants in genes controlling economic traits can be used across pedigrees within both breeding and natural populations. Such a tool would have immediate and beneficial ramifications for applied tree improvement programs by dramatically reducing testing costs and breeding cycle times. Ultimately, such information could be useful in guiding gene conservation efforts and enhancing our ability to cope with the growing challenges of climate change, shifting habitats and evolving pest populations.
 

Peter Lab Role: Our role is to evaluate the genetic architecture of wood and fiber properties in loblolly pine. Approximately 1000 loblloly pine genotypes will be screened for microfibril angle, wood density, cell wall thickness, cell wall perimeter, lumen diameter, and wood chemical composition. These phenotypes will be associated with SNP genotype information to identify candidate genes controlling these properties in loblolly pine.

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