Wheat is one of the most important cereal crops worldwide, and for centuries breeders strived to adapt it to different climates, enhance yield and increase the resistance to environmental stresses, microbial pathogenes and insect pests.
In the United States wheat is unique among the major crop plants in that public sector researchers are the main providers of the new varieties farmers grow. Public varieties account for a large fraction of the wheat production in the US.
The goal of this site is to increase the competitiveness of public wheat breeding programs through the intensive use of modern selection technologies, mainly Marker Assisted Selection (MAS).
The links below present more information on MAS and our work, educational and outreach materials and detailed laboratory methods.
MAS protocols: This part of the site contains detailed protocols for marker assisted selection and general lab procedures.
Education & Outreach: Learning resources related to molecular breeding: animations, interactive training tools and documents for the general public.
Supplemental materials for "Next generation sequencing provides rapid access to the genome of Puccinia striiformis f. sp. tritici, the causal agent of wheat stripe rust". PLoS ONE 6(8): e24230. link
This project is funded by:
The USDA National Institute of Food and Agriculture
The Durable Rust Resistance in Wheat (DRRW) project of The Borlaug Global Rust Initiative (BGRI)
MASWheat leader Jorge Dubcovsky
Site maintained by Marcelo A. Soria.
Department of Plant Sciences. University of California, Davis.
Last update: April 12, 2013.
New protocol: stem rust resistance gene Sr28.
New section on functional markers (go to the protocols page and follow the link).
New protocol: stem rust resistance gene Sr47.
Sections most visited in the last six months:
Training tool: Test your skills scoring glutenin gels.
The WheatCAP project (2006-2009). A section covering our previous project.
IFAFS project (2001-05). A report our first consortium-based MAS project