Study shows effectiveness of suppressing female fruit flies


Florescent red proteins glow in D. suzukii fruit flies. Fruit flies at bottom left have four copies of the female lethal gene, while flies top middle have two copies of the gene. Wild flies without the gene are bottom right. Credit: Akihiko Yamamoto and Amarish Yadav, NC State University.
Florescent red proteins glow in D. suzukii fruit flies. Fruit flies at bottom left have four copies of the female lethal gene, while flies top middle have two copies of the gene. Wild flies without the gene are bottom right. Credit: Akihiko Yamamoto and Amarish Yadav, NC State University.
 

Populations of Drosophila suzukii fruit flies so-called spotted-wing Drosophila that devastate soft-skinned fruit in North America, Europe, and parts of South America could be greatly suppressed with the introduction of genetically modified D. suzukii flies that produce only males after mating, according to new research from North Carolina State University.


D. suzukii are modified with a female-lethal gene that uses a common antibiotic as an off switch. Withholding the antibiotic tetracycline in the diet of larvae essentially eliminates birth of female D. suzukii flies as the modified male flies successfully mate with females, says Max Scott, an NC State entomologist who is the corresponding author of a paper describing the research.


Scott said, we use a genetic female-lethal system a type of sterile insect technique that works when a common antibiotic is not provided in larval diets. If we feed the antibiotic to the larvae, both males and females survive. If we don't, almost no females survive. Scott and collaborators previously showed success using a similar method in New World screwworm flies.


The modified flies overexpressed genes that cause cell death. Researchers used a fluorescent red protein to mark the presence of the female-lethal genes.


In the study, one line of flies grown without feeding tetracycline produced 100% males, while another line produced 98% males. Meanwhile, control fly lines grown with the antibiotic produced an approximately equal number of males and females.


Scott said, the technique worked more effectively than we expected.


The study also tested how the introduction of males with the female-lethal gene would affect unmodified populations in lab cages. In one test, it took 10 generations to eliminate all-female offspring. In a larger test, researchers placed 1,000 modified males twice weekly into cage populations containing approximately 150 to 200 pairs of wild-type flies. After eight weeks, the test cages produced no new eggs. Control cages continued to produce over 100 eggs per day at the end of the study.


The study shows that the genetically modified males both competed fairly well for the attention of fertile wild females and mated successfully with fertile females under laboratory conditions. Scott added that the study also highlights that the lethal-female gene was passed on effectively.


The next steps could include contained trials in large cages in an NC State greenhouse.

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