Properties of a genetically engineered G domain of elongation factor Tu.
AUTOR(ES)
Parmeggiani, A
RESUMO
The G domain of elongation factor Tu (EF-Tu), representing the N-terminal half of the factor according to its three-dimensional model traced at high resolution, has been isolated by genetic manipulation of tufA and purified to homogeneity. The G domain, whose primary structure shares homology with the eukaryotic protein p21, is capable of supporting the basic activities of the intact molecule (guanine nucleotide binding in 1:1 molar ratio and GTPase activity). However, it is no longer exposed to the allosteric mechanisms regulating EF-Tu. The G-domain complexes with GTP and GDP display similar K'd values in the microM range, in contrast to EF-Tu that binds GDP much more tightly than GTP. Its GTPase shows the characteristics of a slow turnover reaction (0.1 mmol X sec-1 X mol-1 of G domain), whose rate closely corresponds to the initial hydrolysis rate of EF-Tu X GTP in the absence of effectors and lies in the typical range of GTPase of the p21 protein. Of the EF-Tu ligands only the ribosome displays a clear effect enhancing the G-domain GTPase. Our results suggest that the middle and C-terminal domain play an essential role in regulating the activity of the N-terminal domain of the intact molecule as well as in the interactions of EF-Tu with aminoacylated tRNA, elongation factor Ts, and kirromycin. With the isolation of the G domain of EF-Tu, a model protein has been constructed for studying and comparing common characteristics of the guanine nucleotide-binding proteins.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=304824Documentos Relacionados
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