Posts Tagged: gene
California State Beekeepers Pay Tribute to the Late Eric Mussen
The California State Beekeepers' Association (CSBA) paid tribute to the...
Some 150 people attended the Eric Mussen Memorial Luncheon hosted by the California State Beekeepers' Association. (Photo by Brooke Palmer)
Extension apiculturist Elina Lastro Niño (foreground at right) helped coordinate the CBSA luncheon memorializing Eric Mussen. She joined the UC Davis faculty in 2014 and is the director of the California Master Beekeeper Program. (Photo by Brooke Palmer)
In this 2017 image, Eric Mussen, co-founder and a six-term president of the Western Apicultural Society (WAS) poses with his wife, Helen, by the ceramic-mosaic sculpture, "Miss Bee Haven," that anchors the UC Davis Bee Haven on Bee Biology Road. The 2017 WAS convention took place at UC Davis. (Photo by Kathy Keatley Garvey)
UC Davis awarded grant to advance strawberry breeding, genetic tools
The $6.2 million grant centers on protecting crops in the future
The federal government is awarding $6.2 million to University of California, Davis, to study how to use breeding and genetic information to protect strawberry crops from future diseases and pests.
The four-year grant from the National Institute of Food and Agriculture (NIFA) centers on addressing expanding and emerging threats to strawberries, a popular fruit packed with Vitamin C and key to the diets of many Americans.
Enhanced plant breeding, gene editing and other technologies will be key to ensuring strawberry crops are sustainable in the face of climate change and possible restrictions on chemical use, said Steve Knapp, director of the Strawberry Breeding Center and a distinguished professor in the Department of Plant Sciences.
“We need to have the technology so that we can deal with the challenges strawberries face around the world,” Knapp said. “Can we use genetic knowledge to change the DNA in a specific way to get the resistance we need?”
USDA funding
The grant award was one of 25 announced Oct. 5 by NIFA – an agency of the U.S. Department of Agriculture – as part of the Specialty Crop Research Initiative program, which addresses “key challenges of national, regional and multistate importance in sustaining all components of food and agriculture…,” the agency said.
The strawberry industry has lagged behind crops like tomato and wheat when it comes to genetic and technical innovation, Knapp said, and the grant signifies that “now they want the foot on the accelerator.”
A key priority is identifying whether changing DNA molecules can improve disease resistance and what technologies would be needed. Ensuring some genes are expressed while others are suppressed would be part of the analysis.
“We're trying to build in natural resistance to pathogens through the genes that already exist but could be modified with this knowledge,” Knapp said. “If we were able to edit a gene that improves disease resistance, people would want us to use that in breeding.”
The intent is to produce disease-resistant cultivars and identify better ways to diagnose, prevent and manage disease. The research project will also include an economic forecast evaluating the consequences of production changes and communicating with farmers about the laboratory advances, according to the grant proposal.
Gitta Coaker from plant pathology and Mitchell Feldmann, Marta Bjornson and Juan Debernardi from plant sciences are participating in the research, as are scientists from California Polytechnic State University, UC Agriculture and Natural Resources, UC Berkeley, University of Florida and USDA's Agricultural Research Service.
/h3>/h3>Celebration of Life for Eric Mussen: Sunday, Aug. 28
A celebration of life for celebrated Cooperative Extension apiculturist emeritus Eric Mussen, an...
Eric Mussen (far left) received the prestigious Founders' Award from the Foundation for the Preservation of Honey Bees at the 75th annual American Beekeeping Federation conference in Reno in 2018. With him are his wife, Helen, and close friends Christine and Gene Brandi of Los Banos. Gene, the 2018 president of the American Beekeeping Federation, presented him with the award.
UC Davis team identifies wheat gene that increases yield
The findings could help growers produce more wheat without expanding operation
A team of scientists from University of California, Davis, have identified a new gene variant in wheat that can increase the amount of the grain produced, new research published in the journal PLOS Genetics finds.
Wheat is a staple of food diets worldwide and the gene discovery could allow farmers to grow more food without increasing land use. Increased yield could also lower consumer prices, making the crop more accessible.
“We have a growing human population that likes to eat every day,” said Jorge Dubcovsky, a plant sciences distinguished professor who led the research. “We need to produce more wheat in the same space so we need plants that are more productive.”
The researchers found a gene – WAPO1 – that controls the maximum number of grains in a wheat spike. Breeding the beneficial gene variant into the plants could delay the formation of the terminal spikelet, providing room for more grains to grow in each spike rather than ending production of grain.
WAPO1 is one of the first genes discovered that can affect wheat yield. “We are trying to make more productive wheat varieties and we are starting to understand how that trait is controlled,” Dubcovsky said.
Pasta wheat lacking the gene
The gene variant for high grain number is found frequently in bread wheats but not in pasta wheats. By breeding the beneficial gene variant into those pasta wheat varieties, growers could increase yield by 4% to 5% in cultivars that have the biomass capacity to fill the extra grains.
“We developed molecular markers to select for the form of that gene to produce increased yield,” Dubcovsky said. “It's a significant step forward.”
Previous research by the team mapped the gene and identified others that could affect yield. This research confirmed those findings for WAPO1.
Discovery on path to future yield increases
The WAPO1 gene is part of a network of genes that work together to control yield, and researchers need to identify the best variant combinations to maximize yield. Solving this puzzle can lead to better production rates.
“We will continue to try to understand the network of genes that control the yield of wheat,” he said.
Saarah Kuzay, Huiqiong Lin, Chengxia Li, Shisheng Chen, Daniel P. Woods and Junli Zhang from UC Davis also contributed to the research, as did scientists from Howard Hughes Medical Institute, Heinrich Heine University and Peking University Institute of Advanced Agricultural Sciences.
Funding was provided by USDAs National Institute of Food and Agriculture's Food Research Initiative, the International Wheat Yield Partnership and Howard Hughes Medical Institute.
/h3>/h3>/h2>UC ANR scientist looks to gene modification to improve animal agriculture
Scientists in labs across the world have used gene modification to create virus-resistant pigs, heat-tolerant cattle and fatter, more muscular lambs - potential improvements for animal agriculture - but will people ever eat them? asks reporter Carolyn Johnson in the Washington Post.
Johnson opened her story with a scene from UC Davis, where UC Cooperative Extension specialist Alison Van Eenennaam was conducting ultrasounds on cattle to determine whether they were pregnant. The animals had been implanted with embryos genetically edited to grow and look like males, regardless of their gender.
Also on the UC Davis campus, Van Eenennaam cares for five bulls and a heifer that represent the second generation of cattle whose genetic propensity to have horns has been edited out of their DNA. The process spares the animals the common de-horning procedure, which protects animals and animal handlers from gory accidents.
Gene-edited plants will soon be in grocery stores, but similar tinkering with the DNA of animals faces a far more uncertain future, the article said.
A setback to gene editing came in early 2017 when the FDA put out draft guidance indicating that animals with intentionally altered DNA would be regulated as containing veterinary drugs. And the complexity and difficulty of using gene editing was also noted in the story. The ultrasounds of cattle Van Eenennaam and her staff implanted with the genetically altered fetuses yielded no pregnancies.