Johns Hopkins researchers have developed a powerful new AI tool called Splam that can identify where splicing occurs in genes—an advance that could help scientists analyze genetic data with greater ...

Researchers have identified 813 possible cancer driver genes, significantly expanding the list of potential therapeutic targets for treating the disease. The genes help cancer cells grow through a non ...

Researchers have harnessed a bacterial immune defense system, known as CRISPR, to efficiently and precisely control the process of RNA splicing. The technology opens the door to new applications, ...

Researchers at the Centre for Genomic Regulation (CRG) in Barcelona have created the first blueprint of the human spliceosome, the most complex and intricate molecular machine inside every cell. The ...

Researchers at the Centre for Genomic Regulation (CRG) have created the first blueprint of the human spliceosome, the complex molecular machine that edits genetic messages transcribed from DNA, ...

There are many things that set humans apart from other animals, but few of them are as notable as our ability to communicate. Sure, most animals are able to make noises, and many of them can send ...

A human-specific NOVA1 variant changed mouse vocalizations, potentially providing insights into the evolution of language. Darnell said the switch to the new NOVA1 variant likely occurred between ...

On some level, biology is all about regulation, regulation, regulation. One way that our cells regulate their genes is through a process called alternative splicing, which entails the selective ...

The predicted protein structure of FNBP1, one of the potential cancer-driving genes. The study predicts that inclusion of the exon (in yellow) helps cancer cells grow and spread. Researchers at the ...