Bodybuilders and cellular mechanisms agree generating protein is a heavy lift. To complete the task, cells rely on complexes called spliceosomes. These molecular machines snip extra bits out of our ...

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 ...

Trans-splicing is a unique process in gene expression where a short sequence, known as a spliced leader (SL), is added to the 5' end of mRNA molecules. This mechanism is particularly significant in ...

The modulation of RNA splicing by small molecules has emerged as a promising strategy for treating pathogenic infections, human genetic diseases, and cancer; however, the principles by which splicing ...

Alternative Splicing is an extraordinarily complex process that requires the coordinated action of multiple proteins, each specialised in very specific functions. These proteins are assembled and ...

CSHL’s Krainer lab used a technique called live-cell fluorescence imaging to observe the DDX23 enzyme (above, in green) in action. Together with the critical regulator protein SRSF1, DDX23 helps set ...

To carry out all of life’s functions, proteins must be produced from instructions carried by genes within DNA and delivered to the cell’s protein-making machinery by messenger RNA. However, to ...

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, ...

Researchers in the Landau lab, led by Dr. Dan Landau, hematology and medical oncology, recently developed a new technique to investigate how mutations in RNA splicing can lead to clonal hematopoiesis ...