As DNA is transcribed into RNA it needs to be edited to remove non-coding regions, or introns, shown in green. This editing process is called splicing, which involves removing the introns, leaving ...

Pre-mRNA splicing in a subset of human short introns is governed by a distinct mechanism involving a new splicing factor Protein-coding genes carry the blueprint for protein production. In higher ...

Group II intron RNAs self-splice in vitro but only at high salt and/or Mg²⁺ concentrations and have been thought to require proteins to stabilize their active structure for efficient splicing in vivo.

The interrupted non-coding regions in pre-mRNAs, termed “introns,” are excised by “splicing” to generate mature coding mRNAs that are translated into proteins. As human pre-mRNA introns vary in length ...

Researchers confirm that the established pre-mRNA splicing mechanism that appears in textbooks cannot work in a subset of human short introns: A novel SAP30BP–RBM17 complex-dependent splicing has been ...

Alison Tang (UC Santa Cruz) describes her lab’s studies on full-length transcript characterization of the mutated SF3B1 transcriptome in chronic lymphocytic leukemia Sponsored content brought to you ...

Pre-mRNA splicing in a subset of human short introns is governed by a distinct mechanism involving a new splicing factor, new research finds. The interrupted non-coding regions in pre-mRNAs, termed ...

The Plant Cell is in its 19th year of publication. Within three years of its initial publication, it ranked first in impact among primary research journals in the plant sciences, a standard of ...

Cold Spring Harbor, NY - No one knows how many times in a day, or even an hour, the trillions of cells in our body need to make proteins. But we do know that it's going on all the time, on a massive ...

Our cells have to generate a massive number of proteins, and there is a carefully orchestrated procedure for doing so. It starts when active genes are transcribed into RNA, and while that RNA ...