K. Abel scite author profile

The structure of EF-Tu-GDP is nearly identical to that of a trypsin-modified form of EF-Tu-GDP, demonstrating conclusively that the protease treatment had not altered any essential structural features. The present structure represents the first view of an ordered Switch I region in EF-Tu-GDP and reveals similarities with two other GTPases complexed with GDP: Ran and ADP-ribosylation factor-1. A comparison of the Switch I regions of the GTP and GDP forms of EF-Tu also reveals that a segment, six amino acids in length, completely converts from an alpha helix in the GTP complex to beta secondary structure in the GDP form. The alpha to beta switch in EF-Tu may represent a prototypical activation mechanism for other protein families.

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A complex profile of protein elongation: translating chemical energy into molecular movement

Abel

Jurnak

1996

Structure

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Molecular complementarity between tetracycline and the GTPase active site of elongation factor Tu

Heffron

Mui

Aorora

et al. 2006

Acta Crystallogr D Biol Cryst

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Two crystal forms of a complex between trypsin-modified elongation factor Tu-MgGDP from Escherichia coli and the antibiotic tetracycline have been solved by X-ray diffraction analysis to resolutions of 2.8 and 2.1 A, respectively. In the P2(1) form, cocrystals were grown from a solution mixture of the protein and tetracycline. Six copies of the trypsin-modified EF-Tu-MgGDP-tetracycline complex are arranged as three sets of dimers in the asymmetric unit. In the second crystal form, tetracycline was diffused into P4(3)2(1)2 crystals, resulting in a monomeric complex in the asymmetric unit. Atomic coordinates have been refined to crystallographic R factors of 18.0% for the P2(1) form and 20.0% for the P4(3)2(1)2 form. In both complexes, tetracycline makes significant interactions with the GTPase active site of EF-Tu. The phenoldiketone moiety of tetracycline interacts directly with the Mg(2+), the alpha-phosphate group of GDP and two amino acids, Thr25 and Asp80, which are conserved in the GX(4)GKS/T and DX(2)G sequence motifs found in all GTPases and many ATPases. The molecular complementarity, previously unrecognized between invariant groups present in all GTPase/ATPases and the active moiety of tetracycline, may have wide-ranging implications for all drugs containing the phenoldiketone moiety as well as for the design of new compounds targeted against a broad range of GTPases or ATPases.

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Trypsin-modified Elongation Factor Tu in complex with tetracycline

Mui¹,

Heffron²,

Aorora³

et al. 2006

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Trypsin-modified Elongation Factor Tu in complex with tetracycline at 2.8 Angstrom resolution

Mui¹,

Heffron²,

Aorora³

et al. 2006

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K. Abel

An α to β conformational switch in EF-Tu

A complex profile of protein elongation: translating chemical energy into molecular movement

Molecular complementarity between tetracycline and the GTPase active site of elongation factor Tu

Trypsin-modified Elongation Factor Tu in complex with tetracycline

Trypsin-modified Elongation Factor Tu in complex with tetracycline at 2.8 Angstrom resolution

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