Ribosome-induced changes in elongation factor Tu conformation control GTP hydrolysis

Elizabeth Villa; Jayati Sengupta; Leonardo G. Trabuco; Jamie LeBarron; William T. Baxter; Tanvir R. Shaikh; Robert A. Grassucci; Poul Nissen; Måns Ehrenberg; Klaus Schulten; Joachim Frank

doi:10.1073/pnas.0811370106

Ribosome-induced changes in elongation factor Tu conformation control GTP hydrolysis

Elizabeth Villa(University of Illinois Urbana-Champaign), Jayati Sengupta(Wadsworth Center), Leonardo G. Trabuco(University of Illinois Urbana-Champaign), Jamie LeBarron(Wadsworth Center), William T. Baxter(Wadsworth Center), Tanvir R. Shaikh(Wadsworth Center), Robert A. Grassucci(Howard Hughes Medical Institute), Poul Nissen(Aarhus University), Måns Ehrenberg, Klaus Schulten(University of Illinois Urbana-Champaign), Joachim Frank(Howard Hughes Medical Institute)

Proceedings of the National Academy of Sciences

January 3, 2009

10.1073/pnas.0811370106

Cited by 234Open Access

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Abstract

In translation, elongation factor Tu (EF-Tu) molecules deliver aminoacyl-tRNAs to the mRNA-programmed ribosome. The GTPase activity of EF-Tu is triggered by ribosome-induced conformational changes of the factor that play a pivotal role in the selection of the cognate aminoacyl-tRNAs. We present a 6.7-A cryo-electron microscopy map of the aminoacyl-tRNA x EF-Tu x GDP x kirromycin-bound Escherichia coli ribosome, together with an atomic model of the complex obtained through molecular dynamics flexible fitting. The model reveals the conformational changes in the conserved GTPase switch regions of EF-Tu that trigger hydrolysis of GTP, along with key interactions, including those between the sarcin-ricin loop and the P loop of EF-Tu, and between the effector loop of EF-Tu and a conserved region of the 16S rRNA. Our data suggest that GTP hydrolysis on EF-Tu is controlled through a hydrophobic gate mechanism.

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