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NSF awards $5 million grant to team of maize researchers led by UGA plant geneticist

Kelly Dawe
Kelly Dawe

Athens, Ga. – The National Science Foundation has awarded $5 million to a team of researchers led by a University of Georgia plant scientist to further studies that can lead to improved varieties of corn as well as techniques that could treat human diseases, such as cancer.

R. Kelly Dawe, professor of plant biology and genetics in the Franklin College of Arts and Sciences and a member of the UGA Plant Center, will oversee a $5,014,464 grant during the next five years that will allow him and a team of fellow researchers to examine how maize and related species transmit genetic information. The research may result in the development of artificial corn chromosomes that can successfully reproduce desirable traits, such as drought or disease resistance. Corn-also known as maize-is one of the world’s most important crops used for human consumption and as a major component of livestock fodder, medicine, biofuels and other industrial products. The U.S. is the largest producer of corn in the world.

Under the grant, Dawe and his colleagues will study the function and evolution of corn centromeres, and in the process, complete the sequence and assembly of five of the 10 centromeres in corn DNA. A centromere is a segment of DNA that ensures the right numbers of chromosomes are delivered to the correct location during cell division. Incorrect delivery can lead to defects or diseases.

“This research has clear applications in biotechnology, genomics and breeding,” said Dawe, “and we hope to translate our discoveries into applications in at least some of these areas.”

The grant will enable Dawe and his colleagues at UGA and other institutions to continue and expand research initiated in 1999 under the National Science Foundation’s Plant Genome Research Program. Dawe has been the principal investigator for the project from its beginning, and under his leadership, the team has determined centromere composition and made the surprising discovery that this part of DNA mutates rapidly. The team now is turning its attention to understanding how centromeres evolve, what regulates the reproduction process and how that process can be replicated in artificial plant chromosomes.

“The maize centromere is very difficult to study, because all the repetitive DNA sequences make it hard to pick out and map differences,” said Dawe. “The same or similar sequences tend to be embedded into each other in unpredictable ways.” In order to “untangle” the sequences, the researchers will first identify pieces of each centromere and then assemble them into one continuous DNA molecule that can be mapped.

In addition to its investigations, the team will host a yearly cytogenetics workshop at the University of Wisconsin to teach practicing scientists the techniques they have developed for studying the centromere and the kinetochore, a protein structure that moves chromosomes while they divide. The researchers also will initiate an international internship exchange program with students from the Institute of Ecology at the National Autonomous University of Mexico.

“Conducting an exchange program with UNAM is particularly appropriate for the study of maize, a crop with significant cultural and economic impact in both Mexico and the U.S.,” said Dawe. Participating Mexican students will learn new research techniques, and American exchange students will be exposed to evolutionary studies of corn in Mexico. The exchange program will be overseen by team member Jeffrey Ross-Ibarra (University of California – Davis).

Other researchers on the project are James A. Birchler (University of Missouri – Columbia), Jiming Jiang (University of Wisconsin – Madison) and Gernot Presting (University of Hawaii – Manoa).

For more information about UGA’s plant biology department, see; for more information about the genetics department, see; and for more information about the Plant Center, see