On the significance of Toc-GTPase homodimers
On the significance of Toc-GTPase homodimers
Precursor protein translocation across the outer chloroplast membrane depends on the action of the Toc complex, containing GTPases as recognizing receptor components. The G domains of the GTPases are known to dimerize. In the dimeric conformation an arginine contacts the phosphate moieties of bound nucleotide in trans. Kinetic studies suggested that the arginine in itself does not act as an arginine finger of a reciprocal GTPase-activating protein (GAP). Here we investigate the specific function of the residue in two GTPase homologues. Arginine to alanine replacement variants have significantly reduced affinities for dimerization compared with wild-type GTPases. The amino acid exchange does not impact on the overall fold and nucleotide binding, as seen in the monomeric x-ray crystallographic structure of the Arabidopsis Toc33 arginine-alanine replacement variant at 2.0Å. We probed the catalytic center with the transition state analogue GDP/AlFx using NMR and analytical ultracentrifugation. AlFx binding depends on the arginine, suggesting the residue can play a role in catalysis despite the non-GAP nature of the homodimer. Two non-exclusive functional models are discussed: 1) the coGAP hypothesis, in which an additional factor activates the GTPase in homodimeric form; and 2) the switch hypothesis, in which a protein, presumably the large Toc159 GTPase, exchanges with one of the homodimeric subunits, leading to activation.
23104-23112
Koenig, Patrick
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Oreb, Mislav
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Rippe, Karsten
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Muhle-Goll, Claudia
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Sinning, Irmgard
fbc3f199-8a3b-47a6-9ee7-00bfc472e079
Schleiff, Enrico
119114bb-9cbb-45e9-a161-db45b1e9f4ba
Tews, Ivo
9117fc5e-d01c-4f8d-a734-5b14d3eee8dd
22 August 2008
Koenig, Patrick
e03428c5-67ef-4df4-9310-77190d216517
Oreb, Mislav
85bcf606-2b7c-4362-a88f-b99bf6cbe748
Rippe, Karsten
5dc8f1ed-943d-42d2-baa6-1e7f777f391e
Muhle-Goll, Claudia
c076e828-0dd1-40e7-b904-0f1001fbbadd
Sinning, Irmgard
fbc3f199-8a3b-47a6-9ee7-00bfc472e079
Schleiff, Enrico
119114bb-9cbb-45e9-a161-db45b1e9f4ba
Tews, Ivo
9117fc5e-d01c-4f8d-a734-5b14d3eee8dd
Koenig, Patrick, Oreb, Mislav, Rippe, Karsten, Muhle-Goll, Claudia, Sinning, Irmgard, Schleiff, Enrico and Tews, Ivo
(2008)
On the significance of Toc-GTPase homodimers.
The Journal of Biological Chemistry, 283 (34), .
(doi:10.1074/jbc.M710576200).
(PMID:18541539)
Abstract
Precursor protein translocation across the outer chloroplast membrane depends on the action of the Toc complex, containing GTPases as recognizing receptor components. The G domains of the GTPases are known to dimerize. In the dimeric conformation an arginine contacts the phosphate moieties of bound nucleotide in trans. Kinetic studies suggested that the arginine in itself does not act as an arginine finger of a reciprocal GTPase-activating protein (GAP). Here we investigate the specific function of the residue in two GTPase homologues. Arginine to alanine replacement variants have significantly reduced affinities for dimerization compared with wild-type GTPases. The amino acid exchange does not impact on the overall fold and nucleotide binding, as seen in the monomeric x-ray crystallographic structure of the Arabidopsis Toc33 arginine-alanine replacement variant at 2.0Å. We probed the catalytic center with the transition state analogue GDP/AlFx using NMR and analytical ultracentrifugation. AlFx binding depends on the arginine, suggesting the residue can play a role in catalysis despite the non-GAP nature of the homodimer. Two non-exclusive functional models are discussed: 1) the coGAP hypothesis, in which an additional factor activates the GTPase in homodimeric form; and 2) the switch hypothesis, in which a protein, presumably the large Toc159 GTPase, exchanges with one of the homodimeric subunits, leading to activation.
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Published date: 22 August 2008
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Local EPrints ID: 165497
URI: http://eprints.soton.ac.uk/id/eprint/165497
ISSN: 0021-9258
PURE UUID: 1dc2aadd-a74a-49fa-be12-dc333f562f8c
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Date deposited: 14 Oct 2010 13:54
Last modified: 14 Mar 2024 02:56
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Author:
Patrick Koenig
Author:
Mislav Oreb
Author:
Karsten Rippe
Author:
Claudia Muhle-Goll
Author:
Irmgard Sinning
Author:
Enrico Schleiff
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