Scientists have found that they can change the DNA of wild mosquitoes to battle malaria.
They inserted a fungus gene into mosquitoes that can attack specific mosquito genes - making it possible, for example, to destroy genes that allow the malaria parasite to reach humans' bloodstreams, reports the Sydney Morning Herald.
Speaking to Los Angeles Times, Andrea Crisanti, the paper's senior author and a molecular biologist at Imperial College London, said: "we developed genetically modified mosquitoes that are unable to transmit malaria - and are able themselves to transmit this genetic modification to local mosquitoes, through mating - that would be an effective solution."
The technology is based on a gene that makes an enzyme that selectively recognizes DNA sequences and cuts them. Now if you induce a cut in the DNA, a break in the DNA, you trigger the cell's repair mechanism. The repair mechanism then uses the enzyme's gene as a template to repair the broken DNA sequence.
And so, key genes in the mosquito that are involved in malaria transmission can be disrupted. As the mosquitoes breed, it spreads through the population.
"In the lab, we saw the mutation spread to more than half the population of mosquitoes we had living in cages. This happened in a time span of 12 to 16 generations of mosquitoes (each generation being between 18 to 30 days in the wild). So it's quite efficient," Crisanti added.
When asked how long will it take to significantly reduce malaria, he revealed, "Without new technology, I would guess we're talking several decades. If our technology works, it can really work in spans of one to two years. Once you start to release the modified mosquitoes into the field, they'll do the job in a relatively short time. That's why it's so exciting."
The finding has been published in the journal Nature.