$12.3 Million in Grants Awarded to Decode Rice Genome Release No. 0394.99 Media Contact at USDA: Maria Bynum (202) 720-5192 maria.bynum@usda.gov Media Contact at DOE: Jeff Sherwood (202) 586-5806 jeff.sherwood@hq.doe.gov Media Contact at NSF: Cheryl Dybas (703) 306-1070 cdybas@nsf.gov $12.3 MILLION IN GRANTS AWARDED TO DECODE RICE GENOME WASHINGTON, Oct. 5, 1999 The Department of Agriculture, Department of Energy, and National Science Foundation have jointly awarded $12.3 million in two grants to map and sequence the genome of the rice plant, Agriculture Secretary Dan Glickman announced today. "What we might learn from this work can lead to better quality and improved crop yields." Glickman said. "This kind of collaborative project will have a profound impact on the way research is conducted in the plant sciences and will accelerate advances in our understanding of the biology of plants." The grants were awarded to the Institute for Genomics Research in Maryland; and to a consortium of Clemson University in South Carolina, Cold Spring Harbor Laboratory in New York, and Washington University in Missouri. The two groups will coordinate their efforts to sequence chromosome 10, the chromosome assigned to the U.S. for sequencing by the International Rice Genome Working Group. Martha Krebs, director of the Department of Energy's Office of Science said, "The rice genome sequencing project is an important step towards our increased understanding of grass species. The sequence will provide a powerful foundation for the development of innovative biobased products and bioenergy technology." "These awards will permit full participation by U.S. scientists in the international effort to sequence the entire rice genome," said National Science Foundation Assistant Director for Biological Sciences Mary E. Clutter. When sequencing is completed, rice will be the second largest genome to be completely sequenced. The effort is significant because rice shares common sets of genes with most of the world's major food crops. The relatively small size of the rice genome makes it an ideal model system for understanding also the genomic sequences of other major grass crops including corn, wheat, rye, barley, sorghum, sugarcane, and millet. In addition to the United States, countries involved in the International Rice Genome Working Group include Canada, China, the European Union, France, India, Japan, Korea, Singapore, Taiwan, and Thailand. U.S. rice genome efforts are part of the national plant genome initiative to understand the structure and function of genes in plants important to agriculture, environmental management, energy, and health. #