Solid-State NMR Study of the Charge-Transfer Complex between Ubiquinone-8 and Disulfide Bond Generating Membrane Protein DsbB.
J Am Chem Soc. 2011 Mar 4;
Authors: Tang M, Sperling LJ, Berthold DA, Nesbitt AE, Gennis RB, Rienstra CM
Ubiquinone (Coenzyme Q) plays an important role in the mitochondrial respiratory chain and also acts as an antioxidant in its reduced form, protecting cellular membranes from peroxidation. De novo disulfide bond generation in the E. coli periplasm involves a transient complex consisting of DsbA, DsbB, and ubiquinone (UQ). It is hypothesized that a charge-transfer complex intermediate is formed between the UQ ring and the DsbB-C44 thiolate during the reoxidation of DsbA, which gives a distinctive ~500 nm absorbance band. No enzymological precedent exists for an UQ-protein thiolate charge-transfer complex, and definitive evidence of this unique reaction pathway for DsbB has not been fully demonstrated. In order to study the UQ-8-DsbB complex in the presence of native lipids, we have prepared isotopically labeled samples of precipitated DsbB (WT and C41S) with endogenous UQ-8 and lipids, and we have applied advanced multidimensional solid-state NMR methods. Double-quantum filter and dipolar dephasing experiments facilitated assignments of UQ isoprenoid chain resonances not previously observed and headgroup sites important for the characterization of the UQ redox states: methyls (~20 ppm), methoxys (~60 ppm), olefin carbons (120-140 ppm), and carbonyls (150-160 ppm). Upon increasing the DsbB(C41S) pH from 5.5 to 8.0, we observed a 10.8 ppm upfield shift for the UQ C1 and C4 carbonyls indicating an increase of electron density on the carbonyls. This observation is consistent with the deprotonation of the DsbB-C44 thiolate at pH 8.0 and provides direct evidence of the charge-transfer complex formation. A similar trend was noted for the UQ chemical shifts of the DsbA(C33S)-DsbB(WT) heterodimer, confirming that the charge-transfer complex is unperturbed by the DsbB(C41S) mutant used to mimic the intermediate state of the disulfide bond generating reaction pathway.
PMID: 21375236 [PubMed - as supplied by publisher]
Solid-State NMR Study of the Charge-Transfer Complex between Ubiquinone-8 and Disulfide Bond Generating Membrane Protein DsbB
Solid-State NMR Study of the Charge-Transfer Complex between Ubiquinone-8 and Disulfide Bond Generating Membrane Protein DsbB
Ming Tang, Lindsay J. Sperling, Deborah A. Berthold, Anna E. Nesbitt, Robert B. Gennis and Chad M. Rienstra
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja107775w/aop/images/medium/ja-2010-07775w_0004.gif
Journal of the American Chemical Society
DOI: 10.1021/ja107775w
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03-05-2011 02:44 AM
Solid-State NMR on a Large Multidomain Integral Membrane Protein: The Outer Membrane Protein Assembly Factor BamA.
Solid-State NMR on a Large Multidomain Integral Membrane Protein: The Outer Membrane Protein Assembly Factor BamA.
Solid-State NMR on a Large Multidomain Integral Membrane Protein: The Outer Membrane Protein Assembly Factor BamA.
J Am Chem Soc. 2011 Mar 1;
Authors: Renault M, Bos MP, Tommassen J, Baldus M
Multidomain proteins constitute a large part of prokaryotic and eukaryotic proteomes and play fundamental roles in various physiological processes. However, their structural characterization is challenging because of their large size and...
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Solid-State NMR on a Large Multidomain Integral Membrane Protein: The Outer Membrane Protein Assembly Factor BamA
Solid-State NMR on a Large Multidomain Integral Membrane Protein: The Outer Membrane Protein Assembly Factor BamA
Marie Renault, Martine P. Bos, Jan Tommassen and Marc Baldus
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja109469c/aop/images/medium/ja-2010-09469c_0004.gif
Journal of the American Chemical Society
DOI: 10.1021/ja109469c
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03-02-2011 02:01 AM
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Authors: Lorch M, Faham S, Kaiser C, Weber I, Mason AJ, Bowie JU, Glaubitz C
Several studies have demonstrated that it is viable to use microcrystalline preparations of water-soluble proteins as...
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Solid-state NMR is emerging as a method for resolving structural information for large biomolecular complexes, such as membrane-embedded proteins. In principle, there is no molecular weight limit to the use of the approach, although the complexity and volume of data is still outside complete assignment...
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Ligand-membrane protein binding by solid-state NMR
Selective Interface Detection: Mapping Binding Site Contacts in Membrane Proteins by NMR Spectroscopy
Suzanne R. Kiihne, Alain F. L. Creemers, Willem J. de Grip, Petra H. M. Bovee-Geurts, Johan Lugtenburg, and Huub J. M. de Groot
J. Am. Chem. Soc.; 2005; 127(16) pp 5734 - 5735
ABSTRACT:
Intermolecular contact surfaces are important regions where specific interactions mediate biological function. We introduce a new magic angle spinning solid state NMR technique, dubbed "selective interface detection spectroscopy" (SIDY). In this technique, 13C-attached protons (1Hlig) are dephased by...
Solid-State NMR Study of the Charge-Transfer Complex between Ubiquinone-8 and Disulfide Bond Generating Membrane Protein DsbB.
Linear Mode
