Abstract
The crystal structure of the complex between Escherichia coli elongation factors Tu and Ts (EF-Tu.Ts) and subsequent mutagenesis work have provided insights into the roles of a number of residues in E. coli EF-Ts in its interaction with EF-Tu. The corresponding residues in bovine mitochondrial EF-Ts (EF-Tsmt) have been mutated. The abilities of the resulting EF-Tsmt derivatives to stimulate the activities of both E. coli and mitochondrial EF-Tu have been tested. Mutation of several residues in EF-Tsmt corresponding to amino acids important for the activity of E. coli EF-Ts has little or no effect on the activity of the mitochondrial factor, suggesting that these factors may use somewhat different mechanisms to promote guanine nucleotide exchange. In general, mutations that reduce the strength of the interaction between EF-Tsmt and E. coli EF-Tu increase the ability of EF-Tsmt to stimulate the activity of the bacterial factor. In contrast, these mutations tend to reduce the ability of EF-Tsmt to stimulate the activity of EF-Tumt. For example, F19A/I20A and H176A derivatives of EF-Tsmt are as active as E. coli EF-Ts in simulating E. coli EF-Tu. However, these mutations significantly decrease the ability of EF-Tsmt to stimulate EF-Tumt.
Highlights
During the process of polypeptide chain elongation, elongation factor (EF)1 Tu promotes the binding of aminoacyl-tRNA to the A-site of the ribosome [1]
Previous work was carried out to examine the roles of specific residues in E. coli EF-Ts on its interaction with EF-Tu and on its ability to catalyze guanine nucleotide exchange [8]
Many of the residues in EF-Ts which are in contact with EF-Tu in the bacterial EF-Tu1⁄7Ts complex are conserved in the mitochondrial factor
Summary
During the process of polypeptide chain elongation, elongation factor (EF)1 Tu promotes the binding of aminoacyl-tRNA (aa-tRNA) to the A-site of the ribosome [1]. This observation suggests that Arg-12 does not play a direct catalytic role in the nucleotide exchange reaction carried out by EF-Ts. Rather, it probably stabilizes the binding of E. coli EF-Ts to EF-Tu and protects the core of hydrophobic residues forming a close contact between the NH2-terminal domain of EF-Ts and domain I of EF-Tu. As EF-Tsmt interacts significantly more strongly with EF-Tu because of the additional sequences present in subdomain N of the core, it apparently does not rely on this residue to provide significant binding energy.
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