Tsetse fly genome reveals weaknesses

Posted: April 24, 2014 at 5:44 pm

PUBLIC RELEASE DATE:

24-Apr-2014

Contact: Mary Clarke press.office@sanger.ac.uk 44-012-234-95328 Wellcome Trust Sanger Institute

Mining the genome of the disease-transmitting tsetse fly, researchers have revealed the genetic adaptions that allow it to have such unique biology and transmit disease to both humans and animals.

The tsetse fly spreads the parasitic diseases human African trypanosomiasis, known as sleeping sickness, and Nagana that infect humans and animals respectively.

Throughout sub-Saharan Africa, 70 million people are currently at risk of deadly infection. Human African trypanosomiasis is on the World Health Organization's (WHO) list of neglected tropical diseases and since 2013 has become a target for eradication. Understanding the tsetse fly and interfering with its ability to transmit the disease is an essential arm of the campaign.

This disease-spreading fly has developed unique and unusual biological methods to source and infect its prey. Its advanced sensory system allows different tsetse fly species to track down potential hosts either through smell or by sight. This study lays out a list of parts responsible for the key processes and opens new doors to design prevention strategies to reduce the number of deaths and illness associated with human African trypanosomiasis and other diseases spread by the tsetse fly.

"Tsetse flies carry a potentially deadly disease and impose an enormous economic burden on countries that can least afford it by forcing farmers to rear less productive but more trypanosome-resistant cattle." says Dr Matthew Berriman, co-senior author from the Wellcome Trust Sanger Institute. "Our study will accelerate research aimed at exploiting the unusual biology of the tsetse fly. The more we understand, the better able we are to identify weaknesses, and use them to control the tsetse fly in regions where human African trypanosomiasis is endemic."

The team, composed of 146 scientists from 78 research institutes across 18 countries, analysed the genome of the tsetse fly and its 12,000 genes that control protein activity. The project, which has taken 10 years to complete, will provide the tsetse research community with a free-to-access resource that will accelerate the development of improved tsetse-control strategies in this neglected area of research.

The tsetse fly is related to the fruit fly a favoured subject of biologists for more than 100 years but its genome is twice as large. Within the genome are genes responsible for its unusual biology. The reproductive biology of the tsetse fly is particularly unconventional: unlike most insects that lay eggs, it gives birth to live young that have developed to a large size by feeding on specialised glands in the mother.

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Tsetse fly genome reveals weaknesses

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