AI Article Synopsis
- Researchers used microcoil NMR technology to study the effects of detergent concentration on the NMR spectra of the integral membrane protein OmpX in mixed protein-detergent micelles.
- A new protocol was developed for creating concentrated protein solutions, revealing that high-quality NMR spectra of OmpX were only achievable within a specific range of Fos-10 detergent concentrations (90-180 mM).
- The study found that while the micelles' composition and size remained stable, excessive Fos-10 increased viscosity, leading to poorer NMR signal quality, providing important guidelines for preparing integral membrane proteins for structural research.
Article Abstract
Using microcoil NMR technology, the uniformly (2)H,(15)N-labeled integral membrane protein OmpX, and the phosphocholine derivative detergent Fos-10 (n-decylphosphocholine), we investigated solutions of mixed protein-detergent micelles to determine the influence of the detergent concentration on the NMR spectra of the protein. In a first step, we identified key parameters that influence the composition of the micelle solutions, which resulted in a new protocol for the preparation of well-defined concentrated protein solutions. This led to the observation that high-quality 2D [(15)N,(1)H]-transverse relaxation-optimized spectroscopy (TROSY) spectra of OmpX reconstituted in mixed micelles with Fos-10 were obtained only in a limited range of detergent concentrations. Outside of this range from about 90-180 mM, we observed a significant decrease of the average peak intensity. Relaxation-optimized NMR measurements of the rotational and translational diffusion coefficients of the OmpX/Fos-10 mixed micelles, D(r) and D(t), respectively, then showed that the stoichiometry and the effective hydrodynamic radius of the protein-containing micelles are not significantly affected by high Fos-10 concentrations and that the deterioration of NMR spectra is due to the increased viscosity at high detergent concentrations. The paper thus provides a basis for refined guidelines on the preparation of integral membrane proteins for structural studies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2893019 | PMC |
| http://dx.doi.org/10.1021/ja907842u | DOI Listing |
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