AH Peptide-Mediated Formation of Charged Planar Lipid Bilayers by Zan, Goh Haw, Jackman, Joshua Alexander, Cho, Nam-Joon

“…Planar lipid bilayers on solid supports provide a controllable platform to mimic biological membranes. …”
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Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold by Tabaei, Seyed Ruhollah, Choi, Jae-Hyeok, Goh, Haw Zan, Zhdanov, Vladimir P., Cho, Nam-Joon

“…Planar lipid bilayers on solid supports mimic the fundamental structure of biological membranes and can be investigated using a wide range of surface-sensitive techniques. …”
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Biomembrane Fabrication by the Solvent-assisted Lipid Bilayer (SALB) Method by Tabaei, Seyed Ruhollah, Jackman, Joshua Alexander, Kim, Minchul, Yorulmaz, Saziye, Vafaei, Setareh, Cho, Nam-Joon

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Orientation of the monomeric porin OmpG in planar lipid bilayers. by Chen, M, Li, Q, Bayley, H

“…OmpG is a monomer, which makes it unusual among porins, and suggests that it may be useful in biotechnology. In planar lipid bilayers, individual OmpG pores reconstituted by insertion from detergent exhibit pronounced asymmetry in current-voltage relationships and voltage-dependent gating. …”

A steroid in a lipid bilayer: localization, orientation, and energetics. by Vijayan, R, Biggin, P

“…Steroid hormones are known to freely partition into lipid bilayers. As a case study, we investigated the behavior of the steroid hormone cortisone in a model lipid bilayer. …”

Kinks in a model for two-phase lipid bilayer membranes by Helmers, M

“…<p>In the spontaneous curvature model for two-phase lipid bilayer membranes the shape of vesicles is governed by a combination of an elastic bending energy and an interface energy that penalises the size of phase boundaries. …”

An engineered dimeric protein pore that spans adjacent lipid bilayers. by Mantri, S, Sapra, K, Cheley, S, Sharp, T, Bayley, J

“…We show that one of two β-barrels of (α7)2 can insert into the lipid bilayer of a small unilamellar vesicle, while the other spans a planar lipid bilayer. …”

Cutting proteins within lipid bilayers: rhomboid structure and mechanism. by Lemberg, M, Freeman, M

“…They are now the best characterized of these rather mysterious enzymes that cleave transmembrane domains within the lipid bilayer. In particular, the biochemical analysis of solubilized rhomboids and, most recently, a flurry of high-resolution crystal structures, have led to real insight into their enzymology. …”

Behavior of spin labels in a variety of interdigitated lipid bilayers. by Boggs, J, Rangaraj, G, Watts, A

“…The behavior of a number of spin labels in several lipid bilayers, shown by X-ray diffraction to be interdigitated, has been compared in order to evaluate the ability of the spin label technique to detect and diagnose the structure of lipid bilayers. …”

Molecular Dynamics Study of CNT Nanopores Embedded in Lipid Bilayers by Wallace, E, Ryan, J, Sansom, M

T-cell interactions with second generation glass-supported lipid bilayers by Jenkins, EB

“…One key example is glass-supported lipid bilayers (SLBs) functionalised with foreign antigen and the large adhesive protein ICAM-1 (referred to as ‘first generation’ SLBs). …”

Coupling Optical and Electrical Measurements in Artificial Membranes: Lateral Diffusion of Lipids and Channel Forming Peptides in Planar Bilayers by Duclohier H, Helluin O, Lea E, Mackie AR, Ladha S

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Liposomes, lipid bilayers and model membranes : from basic research to application /

Singular Interaction between an Antimetastatic Agent and the Lipid Bilayer: The Ohmline Case by Fernando E. Herrera, Charlotte M. Sevrain, Paul-Alain Jaffrès, Hélène Couthon, Axelle Grélard, Erick J. Dufourc, Aurélie Chantôme, Marie Potier-Cartereau, Christophe Vandier, Ana M. Bouchet

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Investigation of nano- and microdomains formed by ceramide 1 phosphate in lipid bilayers by Dominik Drabik, Mitja Drab, Samo Penič, Aleš Iglič, Aleksander Czogalla

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Protective Effect of Quercetin on Amyloid-Induced Alterations in Lipid Bilayer Integrity by Uliana Tarabara, Valeriya Trusova, Galyna Gorbenko

“…The present study employs molecular dynamics simulations to investigate the interactions between quercetin, amyloid fibrils, and POPC lipid bilayers. The results demonstrate that quercetin does not significantly affect the molecular organization of the bilayer, while IAPP fibrils induce substantial structural changes, particularly in the outer monolayer. …”
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Evidence for the Formation of Symmetric and Asymmetric DLPC-DAPC Lipid Bilayer Domains by Markus Ritter, Sabine Schmidt, Martin Jakab, Markus Paulmichl, Robert Henderson

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Physical Properties and Reactivity of Microdomains in Phosphatidylinositol-Containing Supported Lipid Bilayer by Toshinori Motegi, Kingo Takiguchi, Yohko Tanaka-Takiguchi, Toshiki Itoh, Ryugo Tero

Subjects: “…lipid bilayer membrane…”
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Atomistic Molecular Dynamics Simulations of Propofol and Fentanyl in Phosphatidylcholine Lipid Bilayers by Christopher Faulkner, David Santos-Carballal, David F. Plant, Nora H. de Leeuw

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Leaflet Tensions Control the Spatio-Temporal Remodeling of Lipid Bilayers and Nanovesicles by Reinhard Lipowsky, Rikhia Ghosh, Vahid Satarifard, Aparna Sreekumari, Miftakh Zamaletdinov, Bartosz Różycki, Markus Miettinen, Andrea Grafmüller

“…Biological and biomimetic membranes are based on lipid bilayers, which consist of two monolayers or leaflets. …”
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