Researchers identify gene that allows corn to grow in poor conditions

Mar 13, 2013

( —Approximately 30 percent of the world's total land is too acidic to support crop production, according to the U.S. Department of Agriculture. However, a solution may lie in a strand of corn that is able to grow successfully in acidic soil, thanks to a genetic variation recently identified with help from the University of Florida Genetics Institute.

Findings published Monday in the journal Proceedings of the National Academy of Sciences show that certain strands of corn growing in acidic tropical and have three copies of a particular gene. The expression of the copies results in an increased tolerance to aluminum—a chemical element toxic to many plants at high levels in acidic soil.

The triplicate gene may ultimately be used to breed or genetically modify plants to adapt to soil containing high levels of aluminum.

"Identifying genes that make plants more tolerant of aluminum is very critical for farmers growing crops where productivity is suboptimal due to acidic soil," said Matias Kirst, co-author and a member of Genetics Institute.

In plants, tolerance to aluminum is a phenotype—a trait such as growth, physiology and yield. It has been long suspected that multiple gene copies determine certain phenotypes, but this is the first actual proof, said Kirst, an assistant professor in UF's College of Agricultural and Life Sciences.

"This is the first time copy number variation has been shown to affect a phenotype in plants," Kirst said. "From now on, people will be paying more attention to this type of variation to identify and explain traits."

The findings suggest that the changes in gene copy number may be a rapid evolutionary response to new environments or . The fact that genome changes are still happening today, after the of maize, is relevant, said lead author Lyza Maron.

"That has implications for adaptation," said Maron, a research associate at the Robert W. Holley Center for Agriculture and Health at Cornell University. "It's important, more than ever, that we can breed crops in a changing environment."

Explore further: First structural insights into how plant immune receptors interact

Related Stories

Cloned sorghum is aluminum tolerant

Feb 23, 2010

( -- Leon Kochian and colleagues have cloned a unique sorghum gene that is being used to develop sorghum lines that can withstand toxic levels of aluminum in the soil, a consequence of acidic soils.

Breeder works to reduce aluminum toxicity in rice

May 08, 2012

( -- As rice farmers around the world begin to turn from wet paddies to dry fields in an attempt to conserve water and mitigate climate change, they are facing a new foe: aluminum.

Plants can adapt genetically to survive harsh environments

Jan 31, 2011

A Purdue University scientist has found genetic evidence of how some plants adapt to live in unfavorable conditions, a finding he believes could one day be used to help food crops survive in new or changing environments.

Recommended for you

Deadly human pathogen Cryptococcus fully sequenced

9 hours ago

Within each strand of DNA lies the blueprint for building an organism, along with the keys to its evolution and survival. These genetic instructions can give valuable insight into why pathogens like Cryptococcus ne ...

Building better soybeans for a hot, dry, hungry world

Apr 16, 2014

( —A new study shows that soybean plants can be redesigned to increase crop yields while requiring less water and helping to offset greenhouse gas warming. The study is the first to demonstrate ...

User comments : 4

Adjust slider to filter visible comments by rank

Display comments: newest first

not rated yet Mar 13, 2013
Poor conditions necessarily include poorly educated Luddites that will further eschew this GMO - leaving more for US to chew upon.
5 / 5 (4) Mar 13, 2013
The article says that they could BREED the trait into other strains, so the fear of GMO shouldn't be a factor.
not rated yet Mar 14, 2013
Such a gene may become beneficial for the weeds too at the moment, when it escapes into wild.
I had the impression the harsh environments they found the corn gene in are wild as they come.
not rated yet Mar 15, 2013
Probably so, and I would imagine any wild plants growing there are already well adapted, so this probably wouldn't be much benefit. Besides, if it's a recent, natural, mutation, the "weeds" could easily produce their own similar mutation, without our help. This isn't like adding a gene from a totally unrelated species, such as bacteria or fish.

More news stories

Deadly human pathogen Cryptococcus fully sequenced

Within each strand of DNA lies the blueprint for building an organism, along with the keys to its evolution and survival. These genetic instructions can give valuable insight into why pathogens like Cryptococcus ne ...

Biologists help solve fungi mysteries

( —A new genetic analysis revealing the previously unknown biodiversity and distribution of thousands of fungi in North America might also reveal a previously underappreciated contributor to climate ...

Better thermal-imaging lens from waste sulfur

Sulfur left over from refining fossil fuels can be transformed into cheap, lightweight, plastic lenses for infrared devices, including night-vision goggles, a University of Arizona-led international team ...

Hackathon team's GoogolPlex gives Siri extra powers

( —Four freshmen at the University of Pennsylvania have taken Apple's personal assistant Siri to behave as a graduate-level executive assistant which, when asked, is capable of adjusting the temperature ...

Chronic inflammation linked to 'high-grade' prostate cancer

Men who show signs of chronic inflammation in non-cancerous prostate tissue may have nearly twice the risk of actually having prostate cancer than those with no inflammation, according to results of a new study led by researchers ...