Peter Laggner scite author profile

We present a method for analyzing small angle x-ray scattering data on multilamellar phospholipid bilayer systems at full hydration. The method utilizes a modified Caillé theory structure factor in combination with a Gaussian model representation of the electron density profile such that it accounts also for the diffuse scattering between Bragg peaks. Thus the method can retrieve structural information even if only a few orders of diffraction are observed. We further introduce a procedure to derive fundamental parameters, such as area per lipid, membrane thickness, and number of water molecules per lipid, directly from the electron density profile without the need of additional volumetric measurements. The theoretical apparatus is applied to experimental data on 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine, and 1, 2-dipalmitoyl-sn-glycero-3-phosphoethanolamine liposome preparations.

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Rigidification of Neutral Lipid Bilayers in the Presence of Salts

Pabst

Hodžić

Štrancar

et al. 2007

Biophysical Journal

213

225

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We studied the influence of sodium and calcium chloride on the global and local membrane properties of fluid palmitoyl-oleoyl phosphatidylcholine bilayers, applying synchrotron small-angle x-ray diffraction, spin-labeling electron paramagnetic resonance spectroscopy, and differential scanning calorimetry, as well as simultaneous density and acoustic measurements. The salt concentration was varied over a wide range from 0 to 5 M. We found that NaCl leads to a continuous swelling of the bilayers, whereas the behavior of the bilayer separation dW in the presence of CaCl2 is more complex, showing an initial large dW value, which decreased upon further addition of salt and finally increased again in the high concentration regime. This can be understood by a change of balance between electrostatic and van der Waals interactions. We were further able to show that both salts lead to a significant increase of order within the lipid bilayer, leading to a decrease of bilayer elasticity and shift of main phase transition temperature. This effect is more pronounced for Ca2+, and occurs mainly in the high salt-concentration regime. Thus, we were able to reconcile previous controversies between molecular dynamics simulations and x-ray diffraction experiments regarding the effect of salts on neutral lipid bilayers.

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Crystal structure of human β2-glycoprotein I: implications for phospholipid binding and the antiphospholipid syndrome

Schwarzenbacher

Zeth

Diederichs

et al. 1999

EMBO J

287

253

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The high affinity of human plasma β2-glycoprotein I (β 2 GPI), also known as apolipoprotein-H (ApoH), for negatively charged phospholipids determines its implication in a variety of physiological pathways, including blood coagulation and the immune response. β 2 GPI is considered to be a cofactor for the binding of serum autoantibodies from antiphospholipid syndrome (APS) and correlated with thrombosis, lupus erythematosus and recurrent fetal loss. We solved the β 2 GPI structure from a crystal form with 84% solvent and present a model containing all 326 amino acid residues and four glycans. The structure reveals four complement control protein modules and a distinctly folding fifth C-terminal domain arranged like beads on a string to form an elongated J-shaped molecule. Domain V folds into a central β-spiral of four antiparallel β-sheets with two small helices and an extended C-terminal loop region. It carries a distinct positive charge and the sequence motif CKNKEKKC close to the hydrophobic loop composed of residues LAFW (313-316), resulting in an excellent counterpart for interactions with negatively charged amphiphilic substances. The β 2 GPI structure reveals potential autoantibody-binding sites and supports mutagenesis studies where Trp316 and CKNKEKKC have been found to be essential for the phospholipid-binding capacity of β 2 GPI.

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First performance assessment of the small-angle X-ray scattering beamline at ELETTRA

et al. 1998

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The double-focusing high-flux wiggler beamline dedicated to small-angle X-ray scattering (SAXS) and wide-angle X-ray scattering (WAXS) at ELETTRA has gone into user operation recently. It has been designed specifically for time-resolved studies of non-crystalline and fibrous materials in the submillisecond time scale, and has been optimized for small-angle scattering measurements. An overview of the beamline status and of some representative results, highlighting the performance of the SAXS beamline, are given.

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Structural analysis of weakly ordered membrane stacks

et al. 2003

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The applicability of full‐q‐range models to fit low‐resolution X‐ray diffraction data from multibilayers exhibiting only weak quasi‐Bragg peak scattering has been analysed. The models consider different structure factors, accounting for different types of lattice disorder caused by stacking faults or bending fluctuations. Numerical tests of the models, considering instrumental influence of a line‐focus collimation system, demonstrated that Bragg peak line shapes given by different lattice disorders cannot be discerned. However, line‐shape parameters can be determined for a particular sample, if the type of disorder is known a priori. This has been verified by comparing the experimental results for the fluctuation parameter of palmitoyl‐oleoyl phosphatidylcholine (POPC) as a function of temperature with high‐resolution data on the same lipid. Tests further show that the calculation of structural parameters, such as the membrane thickness or the extent of the interbilayer water region, is not obscured by the smearing imposed by the instrument. The model was further applied successfully to experimental data of lipid mixtures composed of sphingomyelin (SM)/POPC/cholesterol and dipalmitoyl phosphatidylethanolamine (DPPE)/dipalmitoyl phosphatidylglycerol (DPPG). The structural parameters determined give valuable insight into the physical state of the membrane system, which is not accessible when quasi‐Bragg reflections only are considered.

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Peter Laggner

Structural information from multilamellar liposomes at full hydration: Fullq-range fitting with high quality x-ray data

Rigidification of Neutral Lipid Bilayers in the Presence of Salts

Crystal structure of human β2-glycoprotein I: implications for phospholipid binding and the antiphospholipid syndrome

First performance assessment of the small-angle X-ray scattering beamline at ELETTRA

Structural analysis of weakly ordered membrane stacks

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