Scientists have developed a new method of genetic analysis, which extracts more precise data than previously used methods when looking at DNA, and will improve our understanding of the genetic basis ...

A routine experiment with a new single-cell DNA sequencing method turned into a surprising scientific twist when researchers ...

Until now, studying the genetic processes in cells required destroying them—making it impossible to observe these processes ...

With the revolutionary CRISPR/Cas technology, the DNA of living organisms can be precisely altered. Using a guide RNA that recognizes a specific DNA sequence, Cas9 protein is recruited to that ...

Non-destructive breakthrough: The new NTVE method collects genetic data from living cells without lysis, enabling repeated transcriptome analysis. How it works: Virus-like particles shuttle mRNA out ...

Researchers at the University of Oregon have developed an artificial intelligence tool that can read genetic code the way ...

New genetic method: Munich researchers have developed NTVE, allowing repeated genetic analysis of living cells without destruction. Why it matters: The technique could enhance precision in stem cell ...

The results, published May 5 in Nature Genetics, offer a new way to understand the molecular roots of cancer — an especially ...

Complexities like these make it challenging to develop broadly applicable gene therapies for these disorders. Researchers at The University of Texas at Austin now have developed an improved method of ...

There are some disorders that have specific causes like known genetic mutations, but correcting those genetic errors can be incredibly challenging. One issue with gene therapy is the problem of ...