A deletion mutant of a plasmid born Escherichia coli tufA gene, which codes for a truncated elongation factor Tu comprising domains 2 and 3, has been constructed by genetic engineering. This gene was overexpressed in E. coli, and a polypeptide representing the truncated elongation factor Tu was isolated, purified to near homogeneity, crystallized and characterized physico-chemically as well as biochemically. Circular dichroism spectroscopy and limited tryptic digestion demonstrate that the isolated domain pair 2 and 3 behaves like an independent folding unit which adopts a similar secondary and most likely, tertiary, structure to that present in the intact elongation factor Tu. However, the isolated domain pair 2 and 3 does not interact with aminoacyl-tRNA or the antibiotic kirromycin, two ligands which were shown previously by cross-linking experiments to be in contact with amino acid residues located in domains 1 and 2, and domain 3, respectively. The results suggest that the isolated domain pair 2 and 3 by itself forms too few contacts with these ligands to form a stable complex. Furthermore, the data suggest that domain 1 in intact EF-Tu, in a subtle but nevertheless decisive manner, alters the conformation of the other two domains in such a way that all three domains cooperatively create a high affinity binding site for aminoacyl-tRNA and the antibiotic kirromycin.