Aedes aegypti Genome Assembled From Scratch

Scientists use a new technique to piece together the mosquito’s full genome.

By Diana Kwon | March 27, 2017

Aedes aegyptiCDC

Aedes aegypti is the main vector of the Zika virus. Now, scientists at the Baylor College of Medicine in Houston, Texas, and their colleagues have successfully constructed this mosquito’s 1.2 billion-letter genome using a new assembly technique. The team’s results were published last week (March 23) in Science.

The newly assembled A. aegypti genome could help researchers pinpoint genes in the mosquito that allow the virus to spread, better equipping scientists to fight future Zika outbreaks.  

The new 3-D genome assembly method, which the researchers have called Hi-C, uses information about how the genome folds to determine the order of its sequence. “I’ve been waiting to work with something like this for probably 20 years,” David Severson, a mosquito researcher at the University of Notre Dame in Indiana who was not involved in the work, told Nature.

Hi-C could also help make screening human genomes faster and more affordable, the authors proposed. Although the price of DNA sequencing has fallen in recent years, assembling whole genomes still remains an expensive and laborious task. This is because sequenced genes come in short snippets that are only hundreds of base pairs long, while chromosomes can reach lengths of up to hundreds of millions of base pairs.

“Sequencing a patient’s genome from scratch using 3-D assembly is so inexpensive that it’s comparable in cost to an MRI,” coauthor Olga Dudchenko, a postdoctoral fellow at Baylor, said in a statement. “Generating a de novo genome for a sick patient has become realistic.”

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