We need to know gene editing technology is precise before we try to use it to cure diseases.
A new study found the Cas9 gene editing scissors don't stop cutting after we tell them to.
You’re knicked - and so is your DNA.
A bit of advice for any criminals inspired to try and edit their own genes – it's unlikely to work, and it may present health risks.
Families have secrets - and sometimes we don’t know our complete genetic histories.
Ancestry and identity are not the same thing. A scientist tells the story of what happened when he sent his DNA to an ancestry company.
Females who remain unidentified at the time of burial are named ‘Jane Doe’.
We're at the point in DNA technology where individuals who – having parted with $99 and a small vial of saliva – may suddenly find themselves in a criminal investigation.
When the Human Genome Project completed its work in 2003, the entire human genome was published in book form.
Stephen C. Dickson/Wikimedia
In 2003 the Human Genome Project "cracked the code of life", yet parts of our DNA remained unidentified. A new study fills out our genetic blueprint by using a nanotechnology-based technique.
From the man who gave away his genome under open consent, to the 'Mathematikado', this episode of the podcast features highlights from the British Science Festival in Brighton.
As genes are favored or phased out, human evolution continues.
Comparing genomes of more than 200,000 people, researchers identified genetic variants that are less common in older people, suggesting natural selection continues to weed out disadvantageous traits.
Professor Samir Brahmachar: ‘Why should drug discovery be kept in the Wright brothers’ era of trial and error?’
Professor Samir Brahmachari's innovative Open Source Drug Development allows thousands of researchers to work together to discover novel therapies for under-studied diseases.
The advent of genetic technologies has been reducing the time and cost attached to diagnosing rare genetic diseases.
Precision editing DNA allows for some amazing applications.
Researchers are starting to harness the potential of this much-hyped gene editing technique – with coming applications in medicine, biology and agriculture.
Our cells have a built-in genetic clock, tracking time… but how accurately?
Stopwatch image via www.shutterstock.com.
How do scientists figure out when evolutionary events – like species splitting away from a common ancestor – happened? It turns out our DNA is a kind of molecular clock, keeping time via genetic changes.
What could genomic medicine do in the future?
DNA gel image via www.shutterstock.com.
Although genomics research has the potential to revolutionize medicine, it has limitations. It may not do much to prevent many of the leading causes of death.
Do we contain the most elaborate set of instructions?
Genome image via www.shutterstock.com.
The answer – fewer than are in a banana – has implications for the study of human health and raises questions about what generates complexity anyway.
People get suspicious when ethically fraught science is discussed behind closed doors.
DNA image via www.shutterstock.com.
A recent closed meeting about building synthetic genomes raised suspicions about just what scientists were planning, away from the public eye.
Genomes don’t translate easily into an understanding of disease.
Big data is all well and good, but if we want medical breakthroughs, we'll need big theory too.
How has a retrovirus survived intact within the human genome for millennia, and how has it affected us?
Image of babies via www.shutterstock.com.
As we consider the ethics of human gene editing, we need to understand what can and can't be meaningfully edited.
Gene editing allows us to eliminate any misspellings, introduce beneficial natural variants, or perhaps cut out or insert new genes.
Should the gathering of experts from around the world that's considering the scientific, ethical, and governance issues linked to research into gene editing ring alarm bells?
How 'junk' DNA threw a spanner in the works.
The 1000 Genome Project is comparing the genomes of thousands of people from around the world.
The 1000 Genome Project has revealed the genetic variations that exist among people around the world, and discovered that some people are missing many genes.