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Interplay between an ATP-binding cassette F protein and the ribosome from Mycobacterium tuberculosis

Zhicheng Cui, Xiaojun Li, Joonyoung Shin, Howard Gamper, Ya‐Ming Hou, James C. Sacchettini, Junjie Zhang

2022Nature Communications34 citationsDOIOpen Access PDF

Abstract

Abstract EttA, energy-dependent translational throttle A, is a ribosomal factor that gates ribosome entry into the translation elongation cycle. A detailed understanding of its mechanism of action is limited due to the lack of high-resolution structures along its ATPase cycle. Here we present the cryo-electron microscopy (cryo-EM) structures of EttA from Mycobacterium tuberculosis (Mtb) , referred to as MtbEttA, in complex with the Mtb 70S ribosome initiation complex (70SIC) at the pre-hydrolysis (ADPNP) and transition (ADP-VO 4 ) states, and the crystal structure of MtbEttA alone in the post-hydrolysis (ADP) state. We observe that MtbEttA binds the E-site of the Mtb 70SIC, remodeling the P-site tRNA and the ribosomal intersubunit bridge B7a during the ribosomal ratcheting. In return, the rotation of the 30S causes conformational changes in MtbEttA, forcing the two nucleotide-binding sites (NBSs) to alternate to engage each ADPNP in the pre-hydrolysis states, followed by complete engagements of both ADP-VO 4 molecules in the ATP-hydrolysis transition states. In the post-hydrolysis state, the conserved ATP-hydrolysis motifs of MtbEttA dissociate from both ADP molecules, leaving two nucleotide-binding domains (NBDs) in an open conformation. These structures reveal a dynamic interplay between MtbEttA and the Mtb ribosome, providing insights into the mechanism of translational regulation by EttA-like proteins.

Topics & Concepts

RibosomeATP hydrolysisInternal ribosome entry siteRibosomal RNANucleotideRibosomal proteinBiophysicsRibosomal binding siteBiologyBiochemistryChemistryCell biologyATPaseRNAEnzymeGeneRNA and protein synthesis mechanismsRNA modifications and cancerBacterial Genetics and Biotechnology