It is the first time a country has considered the DNA-altering technique
in embryos and approved it.The research will take place at the Francis Crick
Institute in London and aims to provide a deeper understanding of the earliest
moments of human life.It will be illegal for the scientists to implant the
modified embryos into a woman.But the field is attracting controversy over
concerns it is opening the door to designer - or GM - babies.DNA is the
blueprint of life - the instructions for building the human body. Gene editing
allows the precise manipulation of DNA.In a world-first last year, scientists
in China announced they had carried out gene editing in human embryos to
correct a gene that causes a blood disorder.Prof Robin Lovell-Badge, a
scientific advisor to the UK's fertility regulator, told the BBC: "China
has guidelines, but it is often unclear exactly what they are until you've done
it and stepped over an unclear boundary."This is the first time it has
gone through a properly regulatory system and been approved."
Groundbreaking
The experiments will take place in the first seven days after
fertilisation.During this time we go from a fertilised egg to a structure
called a blastocyst, containing 200-300 cells.The work will be led by Dr Kathy
Niakan, who has spent a decade researching human development.Earlier this year,
she explained why she had applied to edit human embryos: "We would really
like to understand the genes needed for a human embryo to develop successfully
into a healthy baby."The reason why it is so important is because
miscarriages and infertility are extremely common, but they're not very well
understood."Out of every 100 fertilised eggs, fewer than 50 reach the
early blastocyst stage, 25 implant into the womb and only 13 develop beyond
three months.And at the blastocyst stage, some cells have been organised to
perform specific roles - some go on to form the placenta, others the yolk sac
and others ultimately us.How and why this takes place is unknown - but some
parts of our DNA are highly active at this stage.It is likely these genes are
guiding our early development, but it is unclear exactly what they are doing or
what goes wrong in miscarriage.The researchers will alter these genes in
donated embryos.The regulator, the Human Fertilisation and Embryology Authority
(HFEA), has given its approval and the experiments could start in the next few
months.Paul Nurse, the director of the Crick, said: "I am delighted that
the HFEA has approved Dr Niakan's application."Dr Niakan's proposed
research is important for understanding how a healthy human embryo develops and
will enhance our understanding of IVF success rates, by looking at the very
earliest stage of human development."Dr David King, the director of Human
Genetics Alert, said: "This research will allow the scientists to refine
the techniques for creating GM babies, and many of the government's scientific
advisers have already decided that they are in favour of allowing that."So
this is the first step in a well mapped-out process leading to GM babies, and a
future of consumer eugenics."
Dr Sarah Chan, from the University of Edinburgh, said: "The use of
genome editing technologies in embryo research touches on some sensitive
issues, therefore it is appropriate that this research and its ethical
implications have been carefully considered by the HFEA before being given
approval to proceed.
"We should feel confident that our regulatory system in this area
is functioning well to keep science aligned with social interests."
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