Jennifer Doudna and Emmanuelle Charpentier receiving the Kavli Prize in 2018.
Emmanuelle Charpentier and Jennifer Doudna were awarded the Nobel prize in chemistry for Crispr but they weren't the only key figures in its development.
Jennifer Doudna and Emmanuelle Charpentier have been awarded the Nobel prize in Chemistry for their revolutionary work on 'gene scissors' that can edit DNA.
American biochemist Jennifer A. Doudna, left, and French microbiologist Emmanuelle Charpentier were awarded this year’s Nobel Prize for chemistry.
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The tools to rewrite the genetic code to improve crops and livestock, or to treat genetic diseases, has revolutionized biology. A CRISPR engineer explains why this technology won the Nobel, and its potential.
CRISPR enables editing DNA with unprecedented precision.
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Most scientific discoveries these days aren't easily ascribed to a single researcher. CRISPR is no different – and ongoing patent fights underscore how messy research can be.
A new finding in mice rewrites the textbook explanation of the male sex-determining gene, Sry. It might also help us better understand how males and females come to be.
Introducing healthy genes to replace defective ones is the essence of gene therapy.
The immune system is trained to destroy viruses, even when they carry therapeutic cargo as is the case in gene therapy. Now researchers have figured out how to dial down the immune response.
CRISPR/Cas is a tool for editing genes.
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A person dies of opioid overdose once every 13 minutes in the US. A researcher proposes a way using existing technology to remove the opioid target in people to prevent overdoses.
A researcher performs a CRISPR/Cas9 process at the Max-Delbrueck-Centre for Molecular Medicine in Germany .
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One of the methods researchers are exploring to combat COVID-19 is gene editing: altering the genome of the virus to make it harmless.
The debate about gene editing will help shape the future of the human race. But how should the discussion get started?
He Jiankui is reflected in a glass panel as he works at a computer at a laboratory in on Oct. 10, 2018.
The scientist who announced the world's first genome-edited twins received a prison sentence and a large fine for his research. But the systems that enabled him have not been held to account.
Once contentious, genomic editing is now heavily regulated by the World Health Organization and other governments.
One year after the first CRISPR babies were announced, changes in policies and regulations have meant that there have been no new CRISPR announcements since.
The team used CRISPR on human embryos in a bid to render them resistant to HIV infection. But instead, they generated different mutations, about which we know nothing.
A number of things may have gone wrong when researchers edited Chinese twins Lulu and Nana's genome. Either way, the failed experiment is a cautionary tale for us all.
How far will we allow genetic enhancement to go?
Ideas from economics might help us decide the most ethical way of using gene editing technology for human enhancement in the future.
Scientists are using gene editing to make better cancer treatments.
In a new study, a team of US scientists have used gene editing to change the genetic code of white blood cells and transform them into more efficient tumor fighting cells. How did they do it?
CRISPR has many applications, including targeted gene therapy, but the precision of the technology still has a way to go.
CRISPR technology is continually improving to make it more specific, but serious consideration should be given to when and how CRISPR is safe for gene editing.
Enterococcus faecalis can on pass its antibiotic resistant genes.
A growing international divide over cutting-edge medical research could worsen predatory practices, medical tourism and health inequality.
Ethical frameworks, rules, laws: all try to have their say.
CRISPR technology could have momentous effects if it's used to edit genes that will be inherited by future generations. Researchers and ethicists continue to weigh appropriate guidelines.
The metaphors we use when we talk about gene editing shape public perception of the complexity involved.
The idea of CRISPR as scissors ignores an entire ecosystem of moving parts that are crucial for understanding the awe-inspiring, crazy thing scientists are trying to do when they attempt gene editing.
He Jiankui claims he helped make the world’s first genetically edited babies: twin girls whose DNA he said he altered.
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News of the gene-edited babies excludes images of the children's mother. Cutting her out of the picture underscores the idea that the mother is obsolete and babies can be created in the lab.