migtig
aka Mrs. Giant
Very fascinating:
Down's syndrome cells 'fixed' in first step towards chromosome therapy | Science | The Guardian
Excerpt:
Scientists have corrected the genetic fault that causes Down's syndrome – albeit in isolated cells – raising the prospect of a radical therapy for the disorder.
In an elegant series of experiments, US researchers took cells from people with DS and silenced the extra chromosome that causes the condition. A treatment based on the work remains a distant hope, but scientists in the field said the feat was the first major step towards a "chromosome therapy" for Down's syndrome.
"This is a real technical breakthrough. It opens up whole new avenues of research," said Elizabeth Fisher, professor of neurogenetics at UCL, who was not involved in the study. "This is really the first sniff we've had of anything to do with gene therapy for Down's syndrome."
Excerpt:
A chromosome therapy for humans would be fraught with practical and ethical difficulties. To prevent Down's syndrome, the genome editing would have to be performed on an embryo or foetus in the womb, and correct most, if not all, of the future child's cells. That is far beyond what is possible, or allowed, today.
Down's syndrome cells 'fixed' in first step towards chromosome therapy | Science | The Guardian
Excerpt:
Scientists have corrected the genetic fault that causes Down's syndrome – albeit in isolated cells – raising the prospect of a radical therapy for the disorder.
In an elegant series of experiments, US researchers took cells from people with DS and silenced the extra chromosome that causes the condition. A treatment based on the work remains a distant hope, but scientists in the field said the feat was the first major step towards a "chromosome therapy" for Down's syndrome.
"This is a real technical breakthrough. It opens up whole new avenues of research," said Elizabeth Fisher, professor of neurogenetics at UCL, who was not involved in the study. "This is really the first sniff we've had of anything to do with gene therapy for Down's syndrome."
Excerpt:
A chromosome therapy for humans would be fraught with practical and ethical difficulties. To prevent Down's syndrome, the genome editing would have to be performed on an embryo or foetus in the womb, and correct most, if not all, of the future child's cells. That is far beyond what is possible, or allowed, today.