WITH the picnic season just around the corner wasps will be causing the usual summer swatting and general havoc, sending sandwiches flying.

But Wiltshire residents will no doubt be thankful they are not having to deal with a scary new strain of red-eyed mutant wasps created by scientists.

The wasps were created in the lab to prove that gene-slicing technology can be used successfully on the tiny parasitic jewel wasps.

Scientists say it has given them a new way to study some of the wasp's unusual biology, such as how males can convert all their progeny into males by using selfish genetic elements.

No one knows how that selfish genetic element in some male wasps "can somehow kill the female embryos and create only males," said Omar Akbari, an assistant professor of entomology who led the research team at the University of California.

Dr. Akbari said: "To understand that, we need to pursue their PSR - paternal sex ratio - chromosomes, perhaps by mutating regions of the PSR chromosome to determine which genes are essential for its functionality."

Enter the relatively new CRISPR technology, which allows scientists to inject components such as RNA and proteins into an organism with instructions to find, cut and mutate a specific piece of DNA.

Then researchers can see how disrupting that DNA affects the organism.

The end goal, in Dr Akbari's case, is to better understand the biology of wasps and other insects, so they can find a way to control insects that destroy crops or spread diseases such as malaria.

But the first step is figuring out how to use the CRISPR technology in such a small organism, something no one had ever done before.

Dr. Akbari said: "This is because jewel wasps lay their tiny eggs inside a blowfly pupa, which had to be peeled back to expose the teensy eggs.

"How tiny? Imagine the blowfly egg sac as about the size of a small bean, and jewel wasp eggs about a quarter the size of a grain of rice.

"You're essentially pulling a small egg out of a larger egg, injecting it with components to mutate the DNA and then putting it back into the bigger egg to develop."

In the case of Dr Akbari's mutant wasps, the researchers decided to slice the genes that control the colour of the wasp's normally black eyes.

Dr Akbari said: "We wanted to target a gene that would be obvious, and we knew from previous studies that if the gene for eye pigmentation was knocked out, they would have red eyes, so this seemed like a good target for gene disruption.

"Big beautiful red eyes are something you won't miss."

But he said creating that disruption took a lot of doing.

Dr Akbari said. "You have to use a very-very fine needle and a microscope and individually inject hundred to thousands of embryos, but in the end, we developed a protocol that can be used to cut the DNA in this organism and we showed that it works."

He said the technique is challenging, but said: "It is learnable.

"You need a really steady hand and it requires a lot of patience in micro manipulation that one can learn over time."

And those scarlet-orbed wasps? They won't be going away anytime soon, according to Dr Akbari.

He said: "The cuts in the DNA created a mutant wasp with heritable traits, which means those red eyes will be passed down to all their offspring in the future - an important quality for researchers who are looking for a stable line of insects to study."

The findings were published in the journal Scientific Reports.