In science fiction movies, it seems like it is easy to edit the genetics of a living organism. In reality, it is very, very difficult. A new technique in genetic engineering is creating quite a buzz in the genetics world because it allows researchers to do just that: edit the DNA of living cells.
It is called CRISPR and it uses an enzyme discovered in bacteria that can target a specific sequence of DNA and cut it. Bacteria use this enzyme as a kind of immune system targeting, cutting and disabling the DNA of viruses attempting to infect the cell.
Researchers have adapted CRISPR for use in plant and animal cells and can use the technology to precisely edit DNA at a very specific point. They can use CRISPR to silence genes or add new genes into the cells of a living organism. Scientists have been able to use CRISPR to introduce targeted mutations into yeast, plants, mice, rats, pigs and even primates.
CRISPR is not just revolutionizing genetic research, it is forcing us to have a much needed conversation about the genetic engineering of humans.
Ideally CRISPR will only be used for gene therapy in humans, fixing a defective gene in a patient with genetic disease. But CRISPR technology could be used for virtually anything, including creating true designer children with DNA specified by parents.
Scientists recently announced that they were able to use CRISPR to edit the DNA of a mouse embryo at the moment of conception. BBC News has the story:
Rapid progress in genetics is making “designer babies” more likely and society needs to be prepared, leading scientists have told the BBC.
Dr Tony Perry, a pioneer in cloning, has announced precise DNA editing at the moment of conception in mice.
He said huge advances in the past two years meant “designer babies” were no longer HG Wells territory.
Other leading scientists and bioethicists argue it is time for a serious public debate on the issue.
Designer babies – genetically modified for beauty, intelligence or to be free of disease – have long been a topic of science fiction.
Dr Perry, who was part of the teams to clone the first mice and pigs, said the prospect was still fiction, but science was rapidly catching up to make elements of it possible.
In the journal Scientific Reports, he details precisely editing the genome of mice at the point DNA from the sperm and egg come together.
Read additiional information here
What do you think? Vote below.
Make sure to read:
- Stress Reducing Tips For Busy Moms
- FDA Defends Plastic in Baby Bottle, Possible Links to Heart Disease