JGI TO DECODE DNA OF DESTRUCTIVE PLANT PATHOGEN

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JGI TO DECODE DNA OF DESTRUCTIVE PLANT PATHOGEN
18 July 2006 - DOE/Lawrence Berkeley National Lab

Backed by nearly $4 million in funding from three Federal agencies, researchers in California and Virginia are joining forces to learn the genetic secrets of a notorious plant pathogen that causes billions of dollars a year in damage to forests and soybean crops.

Scientists at the U.S. Department of Energy's Joint Genome Institute in Walnut Creek and the Virginia Bioinformatics Institute in Blacksburg will decode and study the genomes of two species of Phytophthora, which is Greek for "plant devourer." Phytophthora is a fungus-like microbe responsible for sudden oak death syndrome, soybean root rot, and a wide variety of other destructive plant diseases, including the Irish potato famine in the 1840s.

By sequencing and comparing the DNA of the two Phytophthora genomes, the scientists hope to uncover clues to virulent diseases that are attacking 17 species of trees on the West Coast, including redwoods, big leaf maples, bay trees and Douglas fir, and causing serious damage to soybean crops in the Midwest and South.

"This is an ideal opportunity for genomics to make an important contribution to solving an enormous national problem," said JGI Director Eddy Rubin. "By sequencing and studying the gene function of this pathogen, we can accelerate the diagnosis, prevention and treatment of the infections it causes."

Phytophthora ramorum, the recently identified microbe responsible for sudden oak death, and P. sojae, which causes soybean root rot, resemble fungi but are actually Stramenopiles, a group of oomycetes or water molds. Phytophthora microbes resist treatment by conventional pesticides and other fungus control measures. Unless effective treatments are found, foresters are concerned that P. ramorum, which has already killed tens of thousands of trees in California and Oregon, could spread to northern red oak and pin oak forests in the Midwest and East despite quarantines restricting the movement of potentially infected trees (see http://www.na.fs.fed.us/sod/index.htm)

To attack the problem, the DOE Office of Science has allocated $1.5 million to JGI to draft sequence the P. ramorum genome. In addition, the U.S. Department of Agriculture and the National Science Foundation have jointly awarded $2.3 million to JGI and VBI to draft sequence P. sojae, which has caused more than a billion dollars in losses to the worldwide soybean crop.

Dr. Jeffrey Boore, who will lead the research for JGI, said the knowledge gained from sequencing the P. ramorum genome and comparing it with the DNA of P. sojae could lead to better techniques for diagnosing sudden oak death syndrome, such as kits that can be taken to the field that could quickly identify the microbe's presence in tree samples.

"We can also identify rapidly changing parts of the genome that can be used to track the paths of infection through a forest," Boore said. "We may also be able to identify specific genes that are necessary for infection and to develop treatments that attack the products of these genes and thus eliminate Phytophthora's ability to attack trees."

P. sojae was chosen for the project because it has a compact genome, and because researchers have been studying its genetics for many years. Dr. Brett Tyler, Dr. Bruno Sobral, and their colleagues at the VBI will provide a genetic map of the P. sojae genome that will be used to assemble the raw DNA sequence data to be produced at JGI.

The draft sequence data from both genomes will be made available to researchers around the world through a web-based bioinformatics annotation system. They will be the first publicly available Stramenopile pathogen genomes.

"Phytophthora pathogens are literally destroyers from a distant (biological) kingdom," Tyler said. "The genome sequences of these two species will for the first time enable us to identify and target their vulnerabilities in order to control them."

According to the NSF, the research project is also intended to enhance the interaction between experimental and computational biology by training postdoctoral fellows, undergraduate students and visiting researchers from minority institutions in a multidisciplinary, team-oriented environment.

The NSF and USDA funds were made available through the agencies collaborative Microbial Genome Sequencing Program. The DOE funding was provided by the Office of Biological and Environmental Research in DOE s Office of Science.

The JGI, one of the largest and most productive public genome sequencing centers in the world, is operated jointly by three DOE national laboratories managed by the University of California: Lawrence Berkeley and Lawrence Livermore in California, and Los Alamos in New Mexico. In addition to the Phytophthora projects, the JGI has whole genome sequencing programs that include vertebrates, fungi, plants, bacteria and other single-celled microbes.

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About: DOE/Lawrence Berkeley National Lab
Lawrence Berkeley National Laboratory (Berkeley Lab) has been a leader in science and engineering research for more than 70 years. Located on a 200 acre site in the hills above the Berkeley campus of the University of California, overlooking the San Francisco Bay, Berkeley Lab is a US Department of Energy (DOE) National Laboratory managed by the University of California. It has an annual budget of nearly $480 million (FY2002) and employs a staff of about 3,900, including more than a thousand students.

Berkeley Lab conducts unclassified research across a wide range of scientific disciplines with key efforts in fundamental studies of the universe; quantitative biology; nanoscience; new energy systems and environmental solutions; and the use of integrated computing as a tool for discovery. It is organized into 17 scientific divisions and hosts four DOE national user facilities. Details on Berkeley Lab’s divisions and user facilities can be viewed here.

The Lab was founded in 1931 by Ernest Orlando Lawrence, winner of the 1939 Nobel Prize in physics for his invention of the cyclotron, a circular particle accelerator that opened the door to high-energy physics. It was Lawrence’s belief that scientific research is best done through teams of individuals with different fields of expertise, working together. His teamwork concept is a Berkeley Lab legacy that has yielded rich dividends in basic knowledge and applied technology, and a profusion of awards, including nine Nobel Prizes -- five in physics and four in chemistry.

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