Genetic
analysis could help meet nutrition needs of growing population
An interdisciplinary team, led by
researchers at Cornell University and the U.S. Department of
Agriculture-Agricultural Research Service (USDA-ARS), today 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 Maize 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 arsenal available to scientists and
breeders for improving a vital source of nutrition," said Edward B.
Knipling, administrator 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 arable
land and growing populations, he said.
"This project is a stellar example
of how collaborations of scientists, here and abroad, leverage 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 genetic
differences in other organisms as they respond to global climate change, human
disturbance 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 diversify 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
Ware, examines the genetic structure and the relationships and sequential
ordering of individual genes in more than 100 varieties of wild and
domesticated corn.
Another study led by team member Jeff
Ross-Ibarra from the University of California, Davis gives an extraordinary
glimpse into how corn evolved more than 8,700 years ago from a wild grass in
the lowland areas of southwestern Mexico into today's ubiquitous international
commodity.
The researchers compared wild varieties
with traditional corn varieties from across the Americas and with modern
improved breeding lines. They identified hundreds of genes that played a role
in the transformation of corn from its wild origins to today's cultivated crop
and show how that transition was largely achieved by ancient farmers who first
domesticated it thousands of years ago.
Last year, the economic value of the
U.S. corn crop was $76 billion, with U.S. growers producing an estimated 12
billion bushels, more than a third of the world's supply. Corn is the largest production crop
worldwide, providing food for billions of people and livestock and critical feedstock
for production of biofuels.
-NSF-
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