Characterization of Aquifex aeolicus ribonuclease III and the reactivity epitopes of its pre-ribosomal RNA substrates.

Ribonuclease III cleaves double-stranded (ds) structures in bacterial RNAs and participates in diverse RNA maturation and decay pathways. Essential insight on the RNase III mechanism of dsRNA cleavage has been provided by crystallographic studies of the enzyme from the hyperthermophilic bacterium, Aquifex aeolicus. However, the biochemical properties of A.

New approaches to understanding double-stranded RNA processing by ribonuclease III purification and assays of homodimeric and heterodimeric forms of RNase III from bacterial extremophiles and mesophiles.

Ribonuclease III (RNase III) is a double-stranded (ds)-RNA-specific endonuclease that plays essential roles in the maturation and decay of coding and noncoding RNAs. Bacterial RNases III are structurally the simplest members of the RNase III family, which includes the eukaryotic orthologs Dicer and Drosha. High-resolution crystal structures of RNase III of the hyperthermophilic bacteria Aquifex aeolicus and Thermotoga maritima are available.

Mouse ribonuclease III. cDNA structure, expression analysis, and chromosomal location.

Background: Members of the ribonuclease III superfamily of double-stranded(ds)-RNA-specific endoribonucleases participate in diverse RNA maturation and decay pathways in eukaryotic and prokaryotic cells. A human RNase III orthologue has been implicated in ribosomal RNA maturation. To better understand the structure and mechanism of mammalian RNase III and its involvement in RNA metabolism we determined the cDNA structure, chromosomal location, and expression patterns of mouse RNase III.

Molecular characterization of a mouse cDNA encoding Dicer, a ribonuclease III ortholog involved in RNA interference.

Members of the ribonuclease III superfamily of double-stranded(ds)-RNA-specific endoribonucleases participate in diverse cellular RNA maturation and degradation pathways. A recently identified eukaryotic RNase III family member, named "Dicer", functions in the RNA interference (RNAi) pathway by producing 21--23 bp dsRNAs which target the selective destruction of homologous RNAs. RNAi is operative in animals, plants, and fungi, where it is proposed to inhibit viral reproduction and retroposon movement, as well as to participate in developmental pathways.