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Literature DB >> 28510205

The lipid network.

Marc-Antoine Sani¹, Frances Separovic², John D Gehman².

Abstract

Natural cell membranes are composed of a remarkable variety of lipids, which provide specific biophysical properties to support membrane protein function. An improved understanding of this complexity of membrane composition may also allow the design of membrane active drugs. Crafting a relevant model of a cell membrane with controlled composition is becoming an art, with the ability to reveal the molecular mechanisms of biological processes and lead to better treatment of pathologies. By matching physiological observations from in vivo experiments to high-resolution information, more easily obtained from in vitro studies, complex interactions at the lipid interface are determined. The role of the lipid network in biological membranes is, therefore, the subject of increasing attention.

Entities: Chemical

Keywords: Lipid composition; Lipid targeting; Lipid transformation; Membrane active peptides; Model membrane

Year: 2012 PMID： 28510205 PMCID： PMC5430237 DOI： 10.1007/s12551-012-0071-1

Source DB: PubMed Journal: Biophys Rev ISSN： 1867-2450

68 in total

Review 1. Phase transitions and fluidity characteristics of lipids and cell membranes.

Authors: D Chapman
Journal: Q Rev Biophys Date: 1975-05 Impact factor: 5.318

2. Neuronal differentiation of human mesenchymal stromal cells increases their resistance to Aβ42 aggregate toxicity.

Authors: Cristina Cecchi; Elisa Evangelisti; Roberta Cascella; Mariagioia Zampagni; Susanna Benvenuti; Paola Luciani; Cristiana Deledda; Ilaria Cellai; Daniel Wright; Riccardo Saccardi; Alessandro Peri; Massimo Stefani
Journal: J Alzheimers Dis Date: 2011 Impact factor: 4.472

The lipid network.

Review 1. Phase transitions and fluidity characteristics of lipids and cell membranes.

2. Neuronal differentiation of human mesenchymal stromal cells increases their resistance to Aβ42 aggregate toxicity.

Review 3. Linking lipids to Alzheimer's disease: cholesterol and beyond.

4. Phospholipid model membranes. I. Structural characteristics of hydrated liquid crystals.

5. Interactions of a synthetic Leu-Lys-rich antimicrobial peptide with phospholipid bilayers.

Review 6. Specificity of intramembrane protein-lipid interactions.

Review 7. New strategies for novel antibiotics: peptides targeting bacterial cell membranes.

Review 8. Biomembrane structure and function: recent studies and new techniques.

Review 9. Lipid polymorphism and the functional roles of lipids in biological membranes.

10. The fluid mosaic model of the structure of cell membranes.

1. Dye-release assay for investigation of antimicrobial peptide activity in a competitive lipid environment.

Review 2. NMR spectroscopy of lipidic cubic phases.

Review 3. Utilizing magnetic resonance techniques to study membrane interactions of amyloid peptides.