Dynamics in the assembly of the 30S ribosomal subunit investigated by coarse-grained simulations

Abstract

AbstractThe ribosome is a large biomolecular complex responsible for protein synthesis. InEscherichia coli(E. coli), a complete ribosome is composed of a 30S small subunit and a 50S large subunit. For about half a century, the 30S subunit has been a key model system for studying thein vitroassembly of the ribosome, and an assembly map has been proposed. However, structural details in the assembly of this protein-RNA complex remain elusive. In this paper, we have conducted a series of coarse-grained simulations following the order of the assembly map, in order to investigate conformational dynamics during the assembly process of the 30S subunit. It has been found that, the tertiary structure of the naked 16S rRNA is very unstable, and that is the case after binding of the early-assembly proteins. The mid-assembly proteins can significantly restrict the mobility of the 16S rRNA and make the latter close to the native structure. The final binding of the late-assembly proteins would fully obtain the collective motion of the 16S rRNA. In particular, proteins S9 and S3 may have more important contributions to the assembly of the 30S subunit than other S proteins. Our strategy of coarse-grained simulations can be generally used to study assembly dynamics of large biomolecular complexes as long as the assembly map is available.