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. 2011 Mar 15;410(2):272-80.
doi: 10.1016/j.ab.2010.11.008. Epub 2010 Nov 17.

High-performance liquid chromatography separation and intact mass analysis of detergent-solubilized integral membrane proteins

Georgina Berridge  1 Rod ChalkNazzareno D'AvanzoLiang DongDeclan DoyleJung-In KimXiaobing XiaNicola Burgess-BrownAntonio DerisoElisabeth Paula CarpenterOpher Gileadi
Affiliations

High-performance liquid chromatography separation and intact mass analysis of detergent-solubilized integral membrane proteins

Georgina Berridge et al. Anal Biochem. .

Abstract

We have developed a method for intact mass analysis of detergent-solubilized and purified integral membrane proteins using liquid chromatography-mass spectrometry (LC-MS) with methanol as the organic mobile phase. Membrane proteins and detergents are separated chromatographically during the isocratic stage of the gradient profile from a 150-mm C3 reversed-phase column. The mass accuracy is comparable to standard methods employed for soluble proteins; the sensitivity is 10-fold lower, requiring 0.2-5 μg of protein. The method is also compatible with our standard LC-MS method used for intact mass analysis of soluble proteins and may therefore be applied on a multiuser instrument or in a high-throughput environment.

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Figures

Fig.1
Fig.1
Chromatogram and mass spectra of purified KCNJ12. (A) Total ion current (TIC) elution profile for KCNJ12 purified in the detergent Cymal-6, eluted with methanol. Dotted line: methanol concentration. Solid line: TIC (arbitrary units). The gray rectangles denote regions of the chromatogram (regions 1–4) referred to in the text. (B) m/z spectrum of region 4; combination of detergent signals (Cymal 6) and a protein-like spectrum. Inset: m/z spectrum of regions 2 + 3, identified as Cymal-6. (C) m/z spectrum of region 4, enlarged segment of the spectrum shown in (B), showing a typical protein ion series. (D) Mass spectrum of KCNJ12 after deconvolution.
Fig.2
Fig.2
Optimization of gradient and column lengths. (A) KCNJ12 elution profile: 50-mm column, 12 min gradient, detergent, Cymal-6. (B) SCD elution profile: 50-mm column, 16 min gradient/isocratic, detergent, DDM. (C) SCD elution profile: 150-mm column 22 min gradient/isocratic, detergent, DDM. (D) SCD elution profile: 200-mm column, 40 min gradient/isocratic, detergent, DM + lipids.
Fig.3
Fig.3
Detection of stripped protein and detergent adducts. (A) TIC elution profile of ABCB10. (B) m/z spectrum of region 2 of the chromatogram. The free detergent ions dominate the spectrum, dwarfing the protein ionization signal. (C) m/z spectrum of region 2, magnified segment of figure (B). (D) Deconvoluted mass spectrum of region 2 of the chromatogram, showing the accurate intact mass, as well as adducts with 1, 2, and 3 detergent molecules.
Fig.4
Fig.4
Detection of protein and lipids. (A) TIC elution profile of SCD purified in the presence of a lipid/detergent mix. (B) Chromatogram region 4 of the chromatogram: ionization of lipid species (regions 2 and 3 contain detergents and contaminants; not shown). (C) m/z spectrum of region 1, illustrating the separation of the protein from the lipids and detergents. Note that protein spectra are rarely as clean as this; compare Fig. 3B. (D) Deconvoluted mass spectrum.
Fig.5
Fig.5
Intact mass analysis of a mixed population of proteins. A mixture of the membrane protein KCNJ12, the soluble TEV protease used to cleave the fusion tag, and the membrane protein HVCN1, which occurred as a contaminant from an earlier analysis on the same LC column.
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References

    1. Hopkins A.L., Groom C.R. The druggable genome. Nat. Rev. Drug Discov. 2002;1:727–730. - PubMed
    1. White S.H. Biophysical dissection of membrane proteins. Nature. 2009;459:344–346. - PubMed
    1. Carpenter E.P., Beis K., Cameron A.D., Iwata S. Overcoming the challenges of membrane protein crystallography. Curr. Opin. Struct. Biol. 2008;18:581–586. - PMC - PubMed
    1. Mancia F., Love J. High-throughput expression and purification of membrane proteins. J. Struct. Biol. 2010;172:85–93. - PMC - PubMed
    1. S. Graslund, P. Nordlund, J. Weigelt, B.M. Hallberg, J. Bray, O. Gileadi, S. Knapp, U. Oppermann, C. Arrowsmith, R. Hui, J. Ming, S. dhe-Paganon, H.W. Park, A. Savchenko, A. Yee, A. Edwards, R. Vincentelli, C. Cambillau, R. Kim, S.H. Kim, Z. Rao, Y. Shi, T.C. Terwilliger, C.Y. Kim, L.W. Hung, G.S. Waldo, Y. Peleg, S. Albeck, T. Unger, O. Dym, J. Prilusky, J.L. Sussman, R.C. Stevens, S.A. Lesley, I.A. Wilson, A. Joachimiak, F. Collart, I. Dementieva, M.I. Donnelly, W.H. Eschenfeldt, Y. Kim, L. Stols, R. Wu, M. Zhou, S.K. Burley, J.S. Emtage, J.M. Sauder, D. Thompson, K. Bain, J. Luz, T. Gheyi, F. Zhang, S. Atwell, S.C. Almo, J.B. Bonanno, A. Fiser, S. Swaminathan, F.W. Studier, M.R. Chance, A. Sali, T.B. Acton, R. Xiao, L. Zhao, L.C. Ma, J.F. Hunt, L. Tong, K. Cunningham, M. Inouye, S. Anderson, H. Janjua, R. Shastry, C.K. Ho, D. Wang, H. Wang, M. Jiang, G.T. Montelione, D.I. Stuart, R.J. Owens, S. Daenke, A. Schutz, U. Heinemann, S. Yokoyama, K. Bussow, K.C. Gunsalus, Protein production and purification, Nat. Methods 5 (2008) 135–46. - PMC - PubMed

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