Quick Summary
- Project targets genes that control wheat yield
- Wheat provides the world with one fifth of its calories and proteins
- Increasing overall wheat yield is key to global food security
Increasing wheat yield rapidly enough to meet population growth has been a challenge for wheat breeders. An international research project, headed by plant geneticist Jorge Dubcovsky, professor in the at 澳门六合彩资料库 Davis, is using new technology to identify the wheat genes that impact yield.
鈥淕rain yield is one of the most difficult traits to address in wheat,鈥 said Dubcovsky. 鈥淔ortunately, we now have more powerful tools, so we鈥檙e tackling this important trait even though it is difficult. We need to identify the genes that make the grains bigger, that increase the number of grains per spikelet, and that result in more-productive tillers.鈥 (Tillers are segmented stems found in wheat and other grasses.)
The importance of wheat
In contrast to crops like maize and soybean, 65 percent of the wheat varieties in the U.S. come from the public sector (in contrast to private-sector plant-breeding companies). The wheat industry in the U.S. therefore relies on public-sector wheat breeders to develop improved wheat varieties.
Wheat is different from other cereals, in that it has a higher protein content than rice or maize, so it鈥檚 important for humans. More than 700 million tons of wheat is produced worldwide each year, and 20 percent of the global caloric and protein intake comes from wheat.
Public-sector wheat breeders in the U.S. have worked together for many years with the support of USDA Coordinated Agricultural Projects, or CAP, to characterize agronomically important traits such as disease resistance and quality, but significantly increasing wheat yield has been an elusive goal. This year the WheatCAP project is joining forces with the , or IWYP, a consortium coordinating efforts across the world to accelerate improvements in wheat yield.
Research support from NIFA
A new five-year $9.7 million grant, from the U.S. Department of Agriculture鈥檚 , will continue to support the coordination of public wheat-breeding programs in the U.S. The research focus is on the identification of genes controlling grain yield and their utilization to improve wheat productivity through breeding research at 澳门六合彩资料库 Davis and partnering universities.
The wheat-breeding program at 澳门六合彩资料库 Davis has long used traditional breeding combined with molecular markers to accelerate the deployment of other traits, but no molecular markers were available for yield. The new molecular markers for genes controlling yield traits will accelerate progress in this area. A wheat yield increase of about 1 percent per year, typical up until now, will not meet the needs of a fast-growing human population.
According to Dubcovsky, 鈥淭his new project will allow us to understand the genes that control the different yield components, along with total yield.鈥
It sounds straightforward, but it鈥檚 extremely difficult to breed for yield components. Yield in wheat consists of the average weight of the grain, the number of grains produced per plant, and the number of spikes produced per unit of growing area 鈥 these all contribute to total grain yield.
Sequencing most wheat genes
In collaboration with a group in the UK, Dubcovsky鈥檚 group previously developed a tool called 鈥渆xome-capture鈥 (or gene capture) that can be used to sequence most of the wheat genes at a low cost, while ignoring the repetitive part of the very large wheat genome.
鈥淯sing this new technology, we鈥檝e had to sequence only 180 megabases, rather than the entire 16,000 megabases of the complete bread-wheat genome,鈥 Dubcovsky said. The researchers used this tool to identify more than 10 million mutations in all the wheat genes.
is working to increase the number of grains in the wheat spike, while other groups in the WheatCAP team and IWYP are focusing on increasing grain size.
Researchers are already testing a gene that increases grain size by 7 percent in wheat varieties grown in California and the UK. It is not yet clear, however, whether the increased grain size will result in an increase in total yield. As part of this project, breeders will move the large-grain trait into varieties known to have the potential for producing high biomass and high yield.
The need for future plant breeders
At least 15 graduate students will be trained in this project at different universities. Each student will be in charge of the identification and deployment of one of the beneficial genes. This training is important because there is an increasing demand for modern plant breeders, and limited places to train them.
鈥淲ith fewer active breeding programs in the universities, the wheat industry 鈥 breeding companies, growers, millers, bakers, and the National Association of Wheat Growers 鈥 strongly supports this program because they desperately need people with technical skills to do the breeding,鈥 Dubcovsky said. 鈥淧ublic breeding programs play an important role in training a new generations of breeders that are critical for our future food security.鈥
Media Resources
Jorge Dubcovsky, 澳门六合彩资料库 Davis Department of Plant Sciences, 530-752-5159, jdubcovsky@ucdavis.edu
Ann Filmer, 澳门六合彩资料库 Davis Plant Sciences, 530-754-6788, afilmer@ucdavis.edu
Pat Bailey, 澳门六合彩资料库 Davis News and Media Relations, 530-219-9640, pjbailey@ucdavis.edu