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Design and use of model membranes to study biomolecular interactions using complementary surface-sensitive techniques.
ISIS Pulsed Neutron and Muon Source, Science and Technology Facilities Council, Rutherford Appleton Laboratory, Harwell Science and Innovation Campus, Didcot, Oxfordshire OX11 OQX, United Kingdom.
Division of Pharmacy and Optometry, University of Manchester, Manchester M13 9PT, United Kingdom.
Malmö University, Faculty of Health and Society (HS), Department of Biomedical Science (BMV). Malmö University, Biofilms Research Center for Biointerfaces.ORCID iD: 0000-0002-7405-6125
Departamento de Procesos y Tecnología, Universidad Autónoma Metropolitana, Unidad Cuajimalpa, Av. Vasco de Quiroga 4871, Col. Santa Fe, Delegación Cuajimalpa de Morelos, 05348, Mexico; Lund Institute of advanced Neutron and X-ray Science, Lund University, Scheelevägen 19, 223 70 Lund, Sweden.
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2020 (English)In: Advances in Colloid and Interface Science, ISSN 0001-8686, E-ISSN 1873-3727, Vol. 277, article id 102118Article in journal (Refereed) Published
Abstract [en]

Cellular membranes are complex structures and simplified analogues in the form of model membranes or biomembranes are used as platforms to understand fundamental properties of the membrane itself as well as interactions with various biomolecules such as drugs, peptides and proteins. Model membranes at the air-liquid and solid-liquid interfaces can be studied using a range of complementary surface-sensitive techniques to give a detailed picture of both the structure and physicochemical properties of the membrane and its resulting interactions. In this review, we will present the main planar model membranes used in the field to date with a focus on monolayers at the air-liquid interface, supported lipid bilayers at the solid-liquid interface and advanced membrane models such as tethered and floating membranes. We will then briefly present the principles as well as the main type of information on molecular interactions at model membranes accessible using a Langmuir trough, quartz crystal microbalance with dissipation monitoring, ellipsometry, atomic force microscopy, Brewster angle microscopy, Infrared spectroscopy, and neutron and X-ray reflectometry. A consistent example for following biomolecular interactions at model membranes is used across many of the techniques in terms of the well-studied antimicrobial peptide Melittin. The overall objective is to establish an understanding of the information accessible from each technique, their respective advantages and limitations, and their complementarity.

Place, publisher, year, edition, pages
Elsevier, 2020. Vol. 277, article id 102118
Keywords [en]
Antimicrobial peptides., Biomembranes, Biomolecular interactions, Lipids, Model membrane., Surface-sensitive techniques
National Category
Physical Chemistry
Identifiers
URN: urn:nbn:se:mau:diva-14237DOI: 10.1016/j.cis.2020.102118ISI: 000521512600007PubMedID: 32044469Scopus ID: 2-s2.0-85078986446OAI: oai:DiVA.org:mau-14237DiVA, id: diva2:1420492
Available from: 2020-03-31 Created: 2020-03-31 Last updated: 2024-08-02Bibliographically approved

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Sebastiani, FedericaGonzalez-Martinez, Juan FBjörklund, SebastianSotres, JavierCárdenas, Marité

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Sebastiani, FedericaGonzalez-Martinez, Juan FBjörklund, SebastianSotres, JavierCárdenas, Marité
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