A strategy that analyzes the structural properties of RNA could help identify regions that are promising targets for antiviral drugs.

Partial nucleotide structures of the mouse AQP4 gene (exon 0, X, and part of exon 1) and related AQP4 RNA fragments in relation to previously published sequence for mouse AQP4 mRNA.

University of Cincinnati Cancer Center researchers looked billions of years into the past to learn more about the potential ...

University of Cincinnati Cancer Center researchers looked billions of years into the past to learn more about the potential future of precision ...

The prediction of RNA three-dimensional structure from sequence alone has been a long-standing goal. High-resolution, experimentally determined structures of simple noncanonical pairings and motifs ...

DNA makes RNA, RNA makes protein, protein makes phenotype—was the guiding framework for understanding inheritance and disease ...

Fully cell-free process aims to democratize personalized cancer therapeutics with shorter turnaround and negligible bioburden ...

Unlike the brain and spinal cord, peripheral nerve cells, whose long extensions reach the skin and internal organs, are ...

The tumor suppressor p53 is a transcription factor that controls the expression of hundreds of genes. Emerging evidence suggests that the p53-induced RNA-binding protein ZMAT3 is a key splicing ...

The increasing incidence of genetic and rare diseases is a major factor driving revenue growth in the Antisense ...