Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes

Gaetan Dias Mirandela; Giulia Tamburrino; Milos T. Ivanovic; Felix M. Strnad; Olwyn Byron; Tim Rasmussen; Paul A. Hoskisson; Jochen S. Hub; Ulrich Zachariae; Frank Gabel; Arnaud Javelle

doi:10.1021/acs.jpclett.8b01598

Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes

Gaetan Dias Mirandela, Giulia Tamburrino, Milos T. Ivanovic, Felix M. Strnad, Olwyn Byron, Tim Rasmussen, Paul A. Hoskisson, Jochen S. Hub (Lead / Corresponding author), Ulrich Zachariae, Frank Gabel (Lead / Corresponding author), Arnaud Javelle (Lead / Corresponding author)

Physics

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Abstract

In-solution small-angle X-ray and neutron scattering (SAXS/SANS) have become popular methods to characterize the structure of membrane proteins, solubilized by either detergents or nanodiscs. SANS studies of protein-detergent complexes usually require deuterium-labeled proteins or detergents, which in turn often lead to problems in their expression or purification. Here, we report an approach whose novelty is the combined analysis of SAXS and SANS data from an unlabeled membrane protein complex in solution in two complementary ways. First, an explicit atomic analysis, including both protein and detergent molecules, using the program WAXSiS, which has been adapted to predict SANS data. Second, the use of MONSA which allows one to discriminate between detergent head- and tail-groups in an ab initio approach. Our approach is readily applicable to any detergent-solubilized protein and provides more detailed structural information on protein−detergent complexes from unlabeled samples than SAXS or SANS alone.

Original language	English
Pages (from-to)	3910-3914
Number of pages	5
Journal	Journal of Physical Chemistry Letters
Volume	9
Issue number	14
Early online date	25 Jun 2018
DOIs	https://doi.org/10.1021/acs.jpclett.8b01598
Publication status	Published - 19 Jul 2018

Keywords

Chemistry Techniques, Analytical/methods
Detergents/chemistry
Membrane Proteins/chemistry
Molecular Dynamics Simulation
Neutron Diffraction
Solubility
X-Ray Diffraction

ASJC Scopus subject areas

General Materials Science
Physical and Theoretical Chemistry

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Mirandela, G. D., Tamburrino, G., Ivanovic, M. T., Strnad, F. M., Byron, O., Rasmussen, T., Hoskisson, P. A., Hub, J. S., Zachariae, U., Gabel, F., & Javelle, A. (2018). Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes. Journal of Physical Chemistry Letters, 9(14), 3910-3914. https://doi.org/10.1021/acs.jpclett.8b01598

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title = "Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes",

abstract = "In-solution small-angle X-ray and neutron scattering (SAXS/SANS) have become popular methods to characterize the structure of membrane proteins, solubilized by either detergents or nanodiscs. SANS studies of protein-detergent complexes usually require deuterium-labeled proteins or detergents, which in turn often lead to problems in their expression or purification. Here, we report an approach whose novelty is the combined analysis of SAXS and SANS data from an unlabeled membrane protein complex in solution in two complementary ways. First, an explicit atomic analysis, including both protein and detergent molecules, using the program WAXSiS, which has been adapted to predict SANS data. Second, the use of MONSA which allows one to discriminate between detergent head- and tail-groups in an ab initio approach. Our approach is readily applicable to any detergent-solubilized protein and provides more detailed structural information on protein−detergent complexes from unlabeled samples than SAXS or SANS alone.",

keywords = "Chemistry Techniques, Analytical/methods, Detergents/chemistry, Membrane Proteins/chemistry, Molecular Dynamics Simulation, Neutron Diffraction, Solubility, X-Ray Diffraction",

author = "Mirandela, {Gaetan Dias} and Giulia Tamburrino and Ivanovic, {Milos T.} and Strnad, {Felix M.} and Olwyn Byron and Tim Rasmussen and Hoskisson, {Paul A.} and Hub, {Jochen S.} and Ulrich Zachariae and Frank Gabel and Arnaud Javelle",

note = "G.D.M. and A.J. were supported by a Ph.D. and a Chancellor{\textquoteright}s Fellowship from Strathclyde University, respectively, G.T. and U.Z. acknowledge funding from the Scottish Universities{\textquoteright} Physics Alliance (SUPA). P.A.H. acknowledges the support of the Natural Environment Research Council (NE/M001415/1) and A.J. the support of Tenovus Scotland (Project S17-07). M.T.I., F.M.S., and J.S.H. acknowledge support by the Deutsche Forschungsgemeinschaft (HU 1971-1/1, HU 1971-3/1, HU 1971-4/1). We thank the ILL Block Allocation Group (BAG) system for SANS beamtime at D22 and Dr A. Martel for help with the setup of the instrument. We acknowledge Diamond Light Source for time on Beamline B21. We thanks Dr. P. Soule (NanoTemper Technologies GmbH) and Dr. M. Tully (DIAMOND, U.K.) for help with the microscale thermophoresis experiments and SEC-SAXS data acquisition, respectively.",

year = "2018",

month = jul,

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doi = "10.1021/acs.jpclett.8b01598",

language = "English",

volume = "9",

pages = "3910--3914",

journal = "Journal of Physical Chemistry Letters",

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publisher = "American Chemical Society",

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}

Mirandela, GD, Tamburrino, G, Ivanovic, MT, Strnad, FM, Byron, O, Rasmussen, T, Hoskisson, PA, Hub, JS, Zachariae, U, Gabel, F & Javelle, A 2018, 'Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes', Journal of Physical Chemistry Letters, vol. 9, no. 14, pp. 3910-3914. https://doi.org/10.1021/acs.jpclett.8b01598

TY - JOUR

T1 - Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes

AU - Mirandela, Gaetan Dias

AU - Tamburrino, Giulia

AU - Ivanovic, Milos T.

AU - Strnad, Felix M.

AU - Byron, Olwyn

AU - Rasmussen, Tim

AU - Hoskisson, Paul A.

AU - Hub, Jochen S.

AU - Zachariae, Ulrich

AU - Gabel, Frank

AU - Javelle, Arnaud

N1 - G.D.M. and A.J. were supported by a Ph.D. and a Chancellor’s Fellowship from Strathclyde University, respectively, G.T. and U.Z. acknowledge funding from the Scottish Universities’ Physics Alliance (SUPA). P.A.H. acknowledges the support of the Natural Environment Research Council (NE/M001415/1) and A.J. the support of Tenovus Scotland (Project S17-07). M.T.I., F.M.S., and J.S.H. acknowledge support by the Deutsche Forschungsgemeinschaft (HU 1971-1/1, HU 1971-3/1, HU 1971-4/1). We thank the ILL Block Allocation Group (BAG) system for SANS beamtime at D22 and Dr A. Martel for help with the setup of the instrument. We acknowledge Diamond Light Source for time on Beamline B21. We thanks Dr. P. Soule (NanoTemper Technologies GmbH) and Dr. M. Tully (DIAMOND, U.K.) for help with the microscale thermophoresis experiments and SEC-SAXS data acquisition, respectively.

PY - 2018/7/19

Y1 - 2018/7/19

N2 - In-solution small-angle X-ray and neutron scattering (SAXS/SANS) have become popular methods to characterize the structure of membrane proteins, solubilized by either detergents or nanodiscs. SANS studies of protein-detergent complexes usually require deuterium-labeled proteins or detergents, which in turn often lead to problems in their expression or purification. Here, we report an approach whose novelty is the combined analysis of SAXS and SANS data from an unlabeled membrane protein complex in solution in two complementary ways. First, an explicit atomic analysis, including both protein and detergent molecules, using the program WAXSiS, which has been adapted to predict SANS data. Second, the use of MONSA which allows one to discriminate between detergent head- and tail-groups in an ab initio approach. Our approach is readily applicable to any detergent-solubilized protein and provides more detailed structural information on protein−detergent complexes from unlabeled samples than SAXS or SANS alone.

AB - In-solution small-angle X-ray and neutron scattering (SAXS/SANS) have become popular methods to characterize the structure of membrane proteins, solubilized by either detergents or nanodiscs. SANS studies of protein-detergent complexes usually require deuterium-labeled proteins or detergents, which in turn often lead to problems in their expression or purification. Here, we report an approach whose novelty is the combined analysis of SAXS and SANS data from an unlabeled membrane protein complex in solution in two complementary ways. First, an explicit atomic analysis, including both protein and detergent molecules, using the program WAXSiS, which has been adapted to predict SANS data. Second, the use of MONSA which allows one to discriminate between detergent head- and tail-groups in an ab initio approach. Our approach is readily applicable to any detergent-solubilized protein and provides more detailed structural information on protein−detergent complexes from unlabeled samples than SAXS or SANS alone.

KW - Chemistry Techniques, Analytical/methods

KW - Detergents/chemistry

KW - Membrane Proteins/chemistry

KW - Molecular Dynamics Simulation

KW - Neutron Diffraction

KW - Solubility

KW - X-Ray Diffraction

UR - http://www.scopus.com/inward/record.url?scp=85049260993&partnerID=8YFLogxK

U2 - 10.1021/acs.jpclett.8b01598

DO - 10.1021/acs.jpclett.8b01598

M3 - Article

C2 - 29939747

SN - 1948-7185

VL - 9

SP - 3910

EP - 3914

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 14

ER -

Merging In-Solution X‑ray and Neutron Scattering Data Allows Fine Structural Analysis of Membrane−Protein Detergent Complexes

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