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Amy Y. Shih, Stephen G. Sligar, Klaus Schulten  Biophysical Journal 

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Presentation on theme: "Amy Y. Shih, Stephen G. Sligar, Klaus Schulten  Biophysical Journal "— Presentation transcript:

1 Molecular Models Need to be Tested: The Case of a Solar Flares Discoidal HDL Model 
Amy Y. Shih, Stephen G. Sligar, Klaus Schulten  Biophysical Journal  Volume 94, Issue 12, Pages L87-L89 (June 2008) DOI: /biophysj Copyright © 2008 The Biophysical Society Terms and Conditions

2 Figure 1 A solar-flares discoidal HDL model with proteins colored by residue type. A top-view (a) and side-view (b) of a solar-flares HDL model (3). Protein residues are colored by residue type as follows: hydrophobic residues in white, polar residues in green, basic residues in blue, and acidic residues in red. The lipid bilayer containing 200 POPC lipids and 20 cholesterol molecules is shown as a solid surface colored in gray. Solar flares orient the hydrophobic face of the amphipathic apolipoprotein A-I proteins facing out toward the aqueous environment. Biophysical Journal  , L87-L89DOI: ( /biophysj ) Copyright © 2008 The Biophysical Society Terms and Conditions

3 Figure 2 All-atom molecular dynamics simulations of a proposed solar-flares discoidal HDL model. Superimposed snapshots of the apolipoprotein A-I strands during the course of the simulation are shown in panel a, with the initial structure shown in green and the final structure, at 10ns, shown in red (lipids are not shown). The simulations revealed the collapse of the solar-flare loops and the random reorientation of the N-terminal domain. In panels b and c, a closeup view of the initial structure of the proposed solar-flare loops (shown in tan) with intramolecular salt-bridging (with basic residues shown in blue and acidic residues in red) and with Tyr-166 (shown in green) protruding. By the end of the 10ns simulation, the solar flares (d and e) have collapsed, and are now forming intermolecular salt-bridges. Biophysical Journal  , L87-L89DOI: ( /biophysj ) Copyright © 2008 The Biophysical Society Terms and Conditions

4 Figure 3 Solar-flares discoidal HDL model after 750ns of coarse-grained molecular dynamics simulation. Two views of the HDL particle are shown, one looking directly at the protein N- and C-termini (a), and the other rotated by 90° (b). The two apolipoprotein strands are shown in red and blue. The POPC lipids and cholesterol molecules are shown as a solid transparent gray surface. Due to the unfavorable orientation of the apolipoprotein strands to the lipid bilayer, a gap (a) has opened up between the N- and C-terminus of the proteins and the lipids in this area form a micellelike structure. A gap has also opened up between the apolipoprotein strands and the lipid bilayer in the region between residues 120 and 150, allowing water to infiltrate and the lipids are also micellelike (a). Additionally, in numerous locations one of the protein strands has rotated so that it no longer makes contact with the lipid bilayer but rather interacts only with the other protein strand (b). Biophysical Journal  , L87-L89DOI: ( /biophysj ) Copyright © 2008 The Biophysical Society Terms and Conditions

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