Athens, Georgia
November 10, 2004
Source:
Georgia
Faces
By Sharon Omahen
University of Georgia
Using DNA
technology, University of Georgia scientists are working to
develop a quicker, easier way to detect pathogens on plant
seeds.
"We started
this project in light of our nation's concern over biosecurity
in agriculture," said Ron Walcott, a plant pathologist with the
UGA College of Agricultural and Environmental Sciences.
"Our goal
is to develop a system that can detect pathogens in seeds,"
Walcott said, "whether they were put there intentionally or
unintentionally during the seed production process."
Funded by USDA grant
Iowa State
and Clemson scientists will work with Walcott on the four-year
project. The U.S. Department of Agriculture National Research
Initiative's Animal and Plant Biosecurity Program will fund it
with a $900,000 grant.
"Seeds for
our country's food crops are produced around the world in
various countries, including Thailand and China," Walcott said.
"Then they're shipped and sold in the United States. Hard labor
is still heavily involved (in seed production), so there are
always risks of introducing exotic pests."
The current
methods used to screen seeds for fungi, bacteria and viruses can
take weeks. The researchers' goal is to develop a quicker, more
accurate and precise testing method.
New method will be quick, effective
"As an
example, one of the currently employed tests requires that seeds
be planted and grown out to determine if a pathogen is present,"
Walcott said. "This is time-consuming. And unfortunately, this
test is expensive to conduct. And there's a risk of failure,
depending on the level of seed infestation."
With
current methods, he said, it could take weeks to develop a
technique to detect a new pathogen suspected to be intentionally
introduced into the nation's seed supply.
"If it were
a case of bioterrorism, we'd need to know as soon as possible,"
he said. "We have a lot of techniques available now, but the
methods are neither effective nor reliable."
Scientists
now use up to five tests to detect different pathogens, he said.
A goal of this project is to develop one test that would be used
to detect all seed pathogens.
Uses DNA and RNA technology
The new
detection method will rely on both DNA and RNA to find out
whether pathogens are present.
"Plants
have DNA just like we do, but some viruses have only RNA,"
Walcott said. "The plan is to use a technique called magnetic
capture hybridization to capture and detect the presence of
pathogen DNA/RNA in a seed sample."
DNA and RNA
are the molecules that encode an organism's physiological
characteristics. These codes include sequences unique to the
organism.
"By relying
on specific DNA or RNA sequences, highly specific and sensitive
detection assays can be developed," Walcott said. "As such, this
approach is highly applicable for the detection of low levels of
pathogens in seeds."
To apply
this technique, scientists crush a sample of seeds and mix crude
nucleic acids from the seed extract with magnetic, polystyrene
beads.
Just like fishing
The beads
are coated with single-stranded DNA, which hybridizes or binds
specifically to the pathogen's DNA. The scientists recover the
beads with a magnet, then amplify the DNA by polymerase chain
reaction.
"It's like
fishing, but we use mirror-image DNA instead of night crawlers
as bait," Walcott said. "This method is highly sensitive and
efficient and can work for a wide range of seeds and pathogens.
Most important, the turnaround time is just a day."
As a
starting point, the research team is focusing on two watermelon
diseases that Georgia growers fight: bacterial fruit blotch and
gummy stem blight. The next phase will include detecting
diseases of tomato, onion, wheat, corn and soybean.
"Once we
have the system going, we will have the capability to detect
more seedborne pathogens," Walcott said. "If a new one that's
not in our database is introduced by terrorists or Mother
Nature, it will just take a couple of days to add it to the
system." |
