An interdisciplinary(各学科间的) team, led by researchers at Cornell University and the U.S. Department of Agriculture-Agricultural Research Service (USDA-ARS), have just published the most comprehensive analysis to date of the corn genome. The team expects the achievement to speed up development of improved varieties of one of the world's most important agricultural commodities. The results should boost international efforts to increase yields, expand areas where corn can be cultivated and produce varieties better equipped to resist pests and disease.
Funded in the United States by the National Science Foundation (NSF) and the USDA, the work was a collaborative effort by scientists at 17 U.S. and foreign institutions that include the University of Wisconsin-Madison; University of Missouri-Columbia; North Carolina State University; Beijing Genome Institute; University of California, Davis and the International Maize1 and Wheat Improvement Center, Mexico City, Mexico.
The study appears in two corn genome projects published in separate reports in the June 3 online edition of the journal Nature Genetics.
"This work represents a major step forward and an important tool in the arsenal3(兵工厂,军械库) available to scientists and breeders for improving a vital source of nutrition," said Edward B. Knipling, administrator4 of USDA's Agricultural Research Service.
The analysis could also help those who develop corn yields as a source of fuel, who manage crops in the face of changing climates and who are concerned about the diminishing supply of arable5 land(耕地) and growing populations, he said.
"This project is a stellar example of how collaborations of scientists, here and abroad, leverage6 resources across multiple agencies to enable transformational research with the potential to address urgent societal needs for a bio-based economy," said John Wingfield, assistant director for NSF's Biological Sciences Directorate.
It is anticipated that the tools and approaches generated in this project will enable scientists to look at genetic2 differences in other organisms as they respond to global climate change, human disturbance7 and invasive species, Wingfield explained.
The studies' collaborators shed light on corn's genetic diversity, detail how it evolved and outline how corn--known as maize among scientists--continues to diversify8 as it adapts to changing climates and habitats.
One study, published in the journal led by team member, USDA-ARS and Cold Spring Harbor Laboratory scientist Doreen Ware9, examines the genetic structure and the relationships and sequential ordering of individual genes10 in more than 100 varieties of wild and domesticated11 corn.