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 ...

RNA splicing is a fundamental biological process that generates diverse transcript isoforms with distinct functions through alternative splicing of precursor mRNA (pre-mRNA), thereby greatly expanding ...

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

Alternative splicing is a genetic process where different segments of genes are removed, and the remaining pieces are joined together during transcription to messenger RNA (mRNA). This mechanism ...

Alternative splicing, a process where a single gene can give rise to multiple different proteins via inclusion or exclusion of certain segments of the gene sequence, is known to occur in over 90% of ...

Biologists have discovered a new type of RNA-splicing regulation that helps to determine which protein-coding exons will be included in messenger RNA transcripts. RNA splicing is a cellular process ...

Genes contain the essential building instructions for life, guiding cells on which amino acids to assemble in what sequence to produce specific proteins. The human genome codes for about 20,000 such ...

A wide spectrum of cancer-associated genetic alterations, including those that result in changes to the splicing of pre–messenger RNA (mRNA), can lead to the presentation of aberrant peptides as ...

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, ...