Sharper gene scissors for the biotechnology toolbox

The goal of gene therapy is to permanently cure hereditary diseases. One of the most promising technologies for this is the ...
Earth.com

Scientists watch humans' most active 'parasite gene' cutting DNA

They observe how the mobile DNA LINE-1 copies its sequence in human cells, revealing the precise mechanism of the ORF2p gene.

The Quest to Sequence the Genomes of Everything

A gibbous moon hangs over a lonely mountain trail in the Italian Alps, above the village of Malles Venosta, whose lights dot ...

How a human 'jumping gene' targets structured DNA to reshape the genome

Long interspersed nuclear element-1 (LINE-1 or L1) is the only active, self-copying genetic element in the human ...

How tailored genetic therapy offers hope for rare disorders

Advances in genome editing are transforming the treatment for rare genetic diseases, as seen in the case of seven-month-old ...
Nature

Faulty mitochondria cause deadly diseases: fixing them is about to get a lot easier

CRISPR-based tools can’t easily access the DNA in these organelles, but researchers are finding other ways in.

8 Fascinating DNA Discoveries About Famous Historical Figures

Genetic analysis unlocks the past. We explore the DNA of historical figures like Thomas Jefferson, Chief Sitting Bull, King ...
AZoLifeSciences on MSN

Advances in Gene Silencing and Editing for Rare Disorders

Significant advancements in gene silencing and gene editing offer new hope for treating rare disorders. Techniques like RNA ...

MIT Scientists Unlock a New Level of Precision in Gene Editing

MIT researchers have dramatically lowered the error rate of prime editing, a technique with promise for treating numerous ...
Securities.io

Next-Gen CRISPR Boosts Accuracy in Gene Therapy

Since 2019, MIT researchers have published a new concept called prime editing, which is more precise than regular CRISPR-Cas9 gene editing. As a result, it has fewer off-target effects and less chance ...