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20151204155503.0 |
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|a 9783319222103
|9 978-3-319-22210-3
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|a 10.1007/978-3-319-22210-3
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|a Akabori, Kiyotaka.
|e author.
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|a Structure Determination of HIV-1 Tat/Fluid Phase Membranes and DMPC Ripple Phase Using X-Ray Scattering
|h [electronic resource] /
|c by Kiyotaka Akabori.
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|a Cham :
|b Springer International Publishing :
|b Imprint: Springer,
|c 2015.
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|a XX, 168 p. 114 illus., 89 illus. in color.
|b online resource.
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|a text
|b txt
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|a computer
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|a online resource
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|a text file
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|a Springer Theses, Recognizing Outstanding Ph.D. Research,
|x 2190-5053
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|a Introduction -- Lipid bilayers -- Tat peptide -- Pb¢ ripple phase -- Structural and Material Perturbations of Lipid Bilayers Due to HIV-1 Tat Peptide -- Introduction -- Materials and Methods -- Analysis of Molecular Dynamics Simulation Data -- Results -- Discussion -- Conclusions -- Ripple Phase -- Introduction -- Materials and Methods -- LAXS Data Reduction -- Results for Fhk Form Factors -- Models to Fit the Fhk and Obtain the Phase Factors -- Electron Density Profiles and Coarse Grained Bilayer Structure -- nGIWAXS: Results -- tWAXS: Results -- Thin Rod Model -- Combining WAXS and LAXS Results for the Major Arm -- Discussion -- Conclusion -- Appendices.
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|a This Thesis in biological physics has two components, describing the use of X-ray scattering techniques to study the structure of two different stacked lipid membrane systems. The first part focuses on the interaction between a short 11-mer peptide, Tat, which is part of the Tat protein in the HIV-1 virus. Although highly positively charged, the Tat protein has been shown to translocate through hydrocarbon lipid bilayers easily, without requiring the cell’s energy, which is counter to its Born self-energy. In this work Tat’s location in the headgroup region was demonstrated using a combined X-ray scattering and molecular dynamics approach. Bilayer thinning was observed as well as softening of different membrane mimics due to Tat. It was concluded that Tat’s headgroup location, which increases the area/lipid, and its bilayer softening likely reduce the energy barrier for passive translocation. The second part is a rigorous investigation of an enigmatic phase in the phase diagram of the lipid dimyristoylphosphatidylcholine (DMPC). The ripple phase has fascinated many researchers in condensed matter physics and physical chemistry as an example of periodically modulated phases, with many theoretical and simulation papers published. Despite systematic studies over the past three decades, molecular details of the structure were still lacking. By obtaining the highest resolution X-ray data so far, this work revealed the complex nature of the chain packing, as well as confirming that the major side is thicker than the minor side of the saw-tooth ripple structure. The new model shows that the chains in the major arm are tilted with respect to the bilayer normal and that the chains in the minor arm are slightly more disordered than all-trans gel-phase chains, i.e., the chains in the minor arm are more fluid-like. This work provides the highest resolution X-ray structure of the ripple phase to-date.
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|a Physics.
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|a Physical chemistry.
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|a Cell membranes.
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|a Crystallography.
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|a Membranes (Biology)
|x Mechanical properties.
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|a Physics.
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|a Membranes.
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|a Crystallography.
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|a Membrane Biology.
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|a Physical Chemistry.
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|a SpringerLink (Online service)
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|t Springer eBooks
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|i Printed edition:
|z 9783319222097
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|a Springer Theses, Recognizing Outstanding Ph.D. Research,
|x 2190-5053
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|u http://dx.doi.org/10.1007/978-3-319-22210-3
|z Full Text via HEAL-Link
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|a ZDB-2-PHA
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|a Physics and Astronomy (Springer-11651)
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