Bulk preparation and crystallization of the Escherichia coli elongation factor Tu-Ts complex

Structural outline of the detailed mechanism for elongation factor Ts-mediated guanine nucleotide exchange on elongation factor Tu

Translation elongation factor EF-Tu belongs to the superfamily of guanine-nucleotide binding proteins, which play key cellular roles as regulatory switches. All G-proteins require activation via exchange of GDP for GTP to carry out their respective tasks. Often, guanine-nucleotide exchange factors are essential to this process. During translation, EF-Tu:GTP transports aminoacylated tRNA to the ribosome. GTP is hydrolyzed during this process, and subsequent reactivation of EF-Tu is catalyzed by EF-Ts. The reaction path of guanine-nucleotide exchange is structurally poorly defined for EF-Tu and EF-Ts. We have determined the crystal structures of the following reaction intermediates: two structures of EF-Tu:GDP:EF-Ts (2.2 and 1.8Å resolution), EF-Tu:PO4:EF-Ts (1.9Å resolution), EF-Tu:GDPNP:EF-Ts (2.2Å resolution) and EF-Tu:GDPNP:pulvomycin:Mg(2+):EF-Ts (3.5Å resolution). These structures provide snapshots throughout the entire exchange reaction and suggest a mechanism for the release of EF-Tu in its GTP conformation. An inferred sequence of events during the exchange reaction is presented.

Analysis and crystallization of a 25 kDa C-terminal fragment of cloned elongation factor Ts from Escherichia coli

A 25 kDa C-terminal tryptic fragment of elongation factor Ts has been purified to homogeneity. Experimental evidence suggests that the 25 kDa C-terminal and the 5.3 kDa N-terminal fragments are structurally independent domains. The N-terminal fragment is shown to be essential for the nucleotide exchange activity. Crystals of the C-terminal fragment belong to space group P2 or P2(1). The diffraction pattern shows a pronounced pseudo-C2 symmetry at low resolution. This pseudo symmetry increases when the crystals are irradiated with X-rays for a few hours.

How many EF-Tu molecules participate in aminoacyl-tRNA binding?

The stoichiometry of the EF-Tu-GTP-aminoacyl-tRNA complex has been re-determined by a variety of methods, viz gel filtrations, fluorescence titrations, as well as hydrolysis and RNase protection experiments. The results of these experiments clearly demonstrate that one aminoacyl-tRNA interacts with only one EF-Tu-GTP molecule, in agreement with the established view and in contrast to the recently published results by Ehrenberg et al [6].

Preparation of Escherichia coli elongation factor Tu-guanosine 5'-triphosphate analogs

A simple procedure for the bulk preparation of 20 mg of Escherichia coli elongation factor (EF)-Tu-GTP analogs is described. The protocol is based upon the preparation and stabilization of nucleotide-free EF-Tu using an EF-Ts affinity chromatographic resin. The procedure is a general one for the preparation of any GTP analog of EF-Tu.