Investigation of Functional Aspects of the N-terminal Region of Elongation Factor Tu from Escherichia coli Using a Protein Engineering Approach

Martin Laurberg,Francisco Mansilla,Brian F.C Clark,Charlotte R Knudsen

doi:10.1074/jbc.273.8.4387

Martin Laurberg, Francisco Mansilla + Show 2 more

Open Access

https://doi.org/10.1074/jbc.273.8.4387

Copy DOI

Abstract

The function of the N-terminal region of elongation factor Tu is still unexplained. Until recently, it has not been visible in electron density maps from x-ray crystallography studies, but the presence of several well conserved basic residues suggest that this part of the molecule is of structural importance for the factor to function properly. In this study, two lysines at positions 4 and 9 were mutated separately to alanine or glutamate. The resulting four point mutants were expressed and purified using the pGEX system. The untagged products were characterized with regard to guanine-nucleotide interaction, intrinsic GTPase activity, and binding of aminoacyl-tRNA (aa-tRNA). The results show that Lys9 is especially strongly involved in the association with guanine nucleotides and the binding of aa-tRNA. Also Lys4 plays a role in the association of GDP and GTP and is also of some importance in aa-tRNA binding. Our results are discussed in structural terms with the conclusion that a complex network of interactions across the interface between domains 1 and 2 with Lys9 being a key residue seems to be important for the fine tuning of the dimensions of the cleft accommodating the acceptor end of aa-tRNA as well as delineating the structure of the effector region.

Highlights

Elongation factor Tu (EF-Tu)1 is engaged in the elongation step of protein biosynthesis with the main function of transporting aminoacylated tRNA to the A site of the mRNA-programmed ribosome
EF-Tu looses its affinity for aa-tRNA and the ribosome and dissociates, whereas aa-tRNA remains bound, allowing the attached amino acid to be incorporated into the growing polypeptide chain
The elongation factor Ts is responsible for the reactivation of EF-Tu because it acts as a nucleotide exchange factor

Summary

EXPERIMENTAL PROCEDURES

Construction, Expression, and Purification of Mutants—Site-directed mutagenesis was carried out using the Sculptor௢ in vitro mutagenesis system from Amersham Life Science, which is based on the Eckstein procedure [12]. The template used was M13mp11tufA containing the tufA gene from Escherichia coli encoding EF-Tu positioned downstream of a stretch of nucleotides encoding the recognition site of the serine protease factor Xa [13]. The primers 5Ј-GTTCTAAAGAAGCATTTGAACG-3Ј, 5Ј-GTTCTAAAGAAGAATTTGAACG-3Ј, 5Ј-GAACGTACAGCACCGCACGTTA-3Ј, and 5Ј-GAACGTACAGAACCGCACGTTA-3Ј gave.

A Mutational Study of Lys4 and Lys9 of Elongation Factor Tu

RESULTS

DISCUSSION