Afgespeeld
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Adam Rutherford is back to celebrate the 20th anniversary of one of the most ambitious and revolutionary scientific endeavours of all time - the Human Genome Project. Its scope and scale was breath-taking, set up to read every one of the 3 billion nucleotides, or letters of genetic information, contained within the DNA in every cell of the human body. It took seven years, hundreds of scientists, cost almost $3 billion and, amazingly, came in under budget and on time. Adam reflects back on that momentous time with Ewan Birney, Director of the European Bio-informatics Institute, part of the European Molecular Biology Laboratory. Twenty years ago, he was a PhD student working on the project, in the months leading up to the first draft. The Human Genome Project underpins many branches of science, from human evolution and synthetic biology to forensic genetics and ancestry testing. But a key motivation for the project was to alleviate human suffering. While the ‘cures’, hyped by the media back in 2000, were not realistic our understanding of disease has been revolutionised. Adam talks to Cancer Research UK Scientist, Dr Serena Nik-Zainal, from Cambridge University, who explains why the sequencing of the human genome has been so crucial to the diagnosis and treatment of breast cancer. The Human Genome Project is also playing a crucial role in the COVID-19 pandemic. Dr Kenneth Baillie has been treating critically ill patients at Edinburgh’s Royal Infirmary since the pandemic started. As the Lead on GenOMICC, a global collaboration on genetics and critical illness, he has joined forces with Genomics England and the NHS, to pinpoint genetic signals in these patients to help identify the best treatments.
Producers: Beth Eastwood & Fiona Roberts
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For the first time the gene editing technique CRISPR has been used by injecting the CRISPR instructions into the bloodstream rather than directly into the affected organ. In a trial, six adult patients showed improvements after the treatment was used to prevent the expression of deformed proteins associated with a genetic disease. The hope is this method could treat a range of other genetic diseases, says Megan Molteni from Stat News.
In the near future domestic gas boilers may be replaced by heat pumps. However, a district heating system in London is already installing the pumps in a scheme which should see 50% reductions in their carbon emissions. We visited the Citigen site to see how the plan would work, and discussed the potential for domestic heat pump roll out with Simon Evans from Carbon Brief.
And why watermelons, wildflowers and pollinating insects can benefit from less attention. Evidence from Florida on how reducing methods associated with intensive farming chime with initiatives here in Britain to replace grass verges with banks of wildflowers. Researcher John Ternest picks up the story.
