The degradosome is a multiprotein complex present in most bacteria that is involved in the processing of ribosomal RNA and the degradation of messenger RNA and is regulated by Non-coding RNA. It contains the proteins RNA helicase B, RNase E and Polynucleotide phosphorylase.[1]
The store of cellular RNA in the cells is constantly fluctuating. For example, in Escherichia coli, Messenger RNA's life expectancy is between 2 and 25 minutes, in other bacteria it might last longer. Even in resting cells, RNA is degraded in a steady state, and the nucleotide products of this process are later reused for fresh rounds of nucleic acid synthesis. RNA turnover is very important for gene regulation and quality control.
All organisms have various tools for RNA degradation, for instance ribonucleases, helicases, 3'-end nucleotidyltransferases (which add tails to transcripts), 5'-end capping and decapping enzymes and assorted RNA-binding proteins that help to model RNA for presentation as substrate or for recognition. Frequently, these proteins associate into stable complexes in which their activities are coordinate or cooperative. Many of these RNA metabolism proteins are represented in the components of the multi-enzyme RNA degradosome of Escherichia coli, which is constituted by four basic components: the hydrolytic endo-ribonuclease RNase E, the phosphorolytic exo-ribonuclease PNPase, the ATP-dependent RNA helicase (RhIB) and a glycolytic enzyme enolase.
The RNA degradosome was discovered in two different laboratories while they were working on the purification and characterization of E. coli, RNase E and the factors that could have an influence on the activity of the RNA-degrading enzymes, concretely, PNPase. It was found while two of its major compounds were being studied.