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 ...

A new AI-based system combines genomic sequences and RNA-binding protein profiles to model complex RNA splicing patterns ...

RNA is the means of translating the genetic code embedded in DNA into proteins, which serve as enzymes, transporters, ...

Genes undergo extensive editing through a process called alternative splicing, which greatly increases the size of the ...

A new AI-driven framework enables highly accurate prediction of RNA splicing and isoform usage for therapeutic applications.

A deeper understanding of how DNA changes over generations helps scientists learn why people differ and how diseases develop. Until recently, many fast-changing parts of the human genome remained ...

The cover of Aging-US Volume 17, Issue 12, features Figure 5 from the research paper, titled "A combination of differential expression and network connectivity analyses identifies a common set of RNA ...