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United States Department of Agriculture

Agricultural Research Service

Gene "Delivery Truck" Aids Nonchemical Pest Control / September 8, 2006 / News from the USDA Agricultural Research Service

Read the magazine story to find out more.

Paul Shirk  and  Richard Furlong examine computer image of a genetically transformed Indian meal moth caterpillar. Link to photo information
Insect physiologist Paul Shirk (left) and technician Richard Furlong examine a genetically transformed Indian meal moth caterpillar using fluorescence microscopy. Click the image for more information about it.

Gene "Delivery Truck" Aids Nonchemical Pest Control

By Jan Suszkiw
September 8, 2006

In a pest-control approach called the sterile insect technique, irradiation is used to sterilize factory-grown males of a pest insect, like screwworms or Mediterranean fruit flies. When released into the field, the males mate with wild females and no offspring are produced, thus eliminating or reducing the need for chemical insecticides.

Over the past several years, Agricultural Research Service (ARS) scientists have conducted research using molecular genetics to develop genetic systems to sterilize pest insects instead of irradiating them. This new approach calls for using modified pieces of DNA, called transposons, to introduce foreign genes that can cause sterility in pest insects.

The trick is making sure the transposons don't move after they're inserted into the insect's chromosomes. Otherwise, the sterilizing trait can be lost, notes Paul Shirk, a physiologist with ARS' Center for Medical, Agricultural and Veterinary Entomology in Gainesville, Fla.

As an alternative to using the transposons, Shirk and colleagues disabled the machinery of a virus that infects the common buckeye butterfly and turned the pathogen into a gene "delivery truck" called JcDNV. When injected into an insect's embryonic stage, the JcDNV delivers its load—a foreign gene—into a chromosome. The gene stays put, and scientists can monitor its activity throughout the insect's life, including whether it passes the gene to offspring.

However, unlike the transposons, the JcDNV restricts its deliveries to the insect's somatic (body) cells, but not its reproductive cells, notes Shirk, who's in the ARS center's Insect Behavior and Biocontrol Research Unit.

Shirk collaborated with Max Bergoin, a virologist who originally cloned the virus, Junonia coenia densovirus, at the University of Montpellier in France, and a postdoctoral team comprising Herve Bossin and Jennifer Gillett (both formerly ARS), and ARS technician Richard Furlong.

Read more about their work in the September issue of Agricultural Research magazine.

ARS is the U.S. Department of Agriculture's chief scientific research agency.

Last Modified: 9/8/2006