| Sphingolipids and lipid rafts: Novel concepts and methods of analysis |
25 |
| Biological effect of protein modifications by lipid peroxidation products |
20 |
| Rafts: A nickname for putative transient nanodomains |
16 |
| Polymer nanodiscs: Advantages and limitations |
14 |
| Dual-active targeting liposomes drug delivery system for bone metastatic breast cancer: Synthesis and biological evaluation |
13 |
| Eicosapentaenoic acid and docosahexaenoic acid have distinct membrane locations and lipid interactions as determined by X-ray diffraction |
13 |
| Influence of Mg2+ and Ca2+ on nanodisc formation by diisobutylene/maleic acid (DIBMA) copolymer |
12 |
| Self-assembled systems based on novel hydroxyethylated imidazolium-containing amphiphiles: Interaction with DNA decamer, protein and lipid |
11 |
| Development of liposomes using formulation by design: Basics to recent advances |
10 |
| Memtein: The fundamental unit of membrane-protein structure and function |
10 |
| Evidence of lipid rafts based on the partition and dynamic behavior of sphingomyelins |
9 |
| From polymer chemistry to structural biology: The development of SMA and related amphipathic polymers for membrane protein extraction and solubilisation |
9 |
| Regulation of endogenic metabolites by rosuvastatin in hyperlipidemia patients: An integration of metabolomics and lipidomics |
9 |
| Hydrogen-deuterium exchange mass spectrometry of membrane proteins in lipid nanodiscs |
9 |
| A closer look at the behaviour of milk lipids during digestion |
9 |
| Disruptive effect of tocopherol oxalate on DPPC liposome structure: DSC, SAXS, and fluorescence anisotropy studies |
9 |
| The fatty acids of sphingomyelins and ceramides in mammalian tissues and cultured cells: Biophysical and physiological implications |
8 |
| Swimming at different temperatures: The lipid composition of sperm from three freshwater fish species determined by mass spectrometry and nuclear magnetic resonance spectroscopy |
8 |
| Novel lipids with three C18-fatty acid chains and an amino acid head group for pH-responsive and sustained antibiotic delivery |
8 |
| Phase behavior of palmitoyl and egg sphingomyelin |
7 |
| Structure of gel phase DPPC determined by X-ray diffraction |
7 |
| Mechanical properties of milk sphingomyelin bilayer membranes in the gel phase: Effects of naturally complex heterogeneity, saturation and acyl chain length investigated on liposomes using AFM |
7 |
| Behavior of the DPH fluorescence probe in membranes perturbed by drugs |
7 |
| Phase behavior in the biologically important oleic acid/sodium oleate/water system |
7 |
| New look for an old molecule - Solid/solid phase transition in cholesterol monolayers |
7 |
| Mechanistic studies on the effect of membrane lipid acyl chain composition on daptomycin pore formation |
7 |
| Effect of surface charge on the size-dependent cellular internalization of liposomes |
6 |
| Mass spectrometry-A versatile tool for characterising the lipid environment of membrane protein assemblies |
6 |
| The effects of SDS at subsolubilizing concentrations on the planar lipid bilayer permeability: Two kinds of current fluctuations |
6 |
| Redox lipidomics technology: Looking for a needle in a haystack |
6 |
| Fatty acid conjugated pyridinium cationic amphiphiles as antibacterial agents and self-assembling nano carriers |
6 |
| How cardiolipin peroxidation alters the properties of the inner mitochondrial membrane? |
6 |
| Poly (vinyl pyrrolidone)-lipid based hybrid nanoparticles for anti viral drug delivery |
6 |
| Lipidomic consequences of phospholipid synthesis defects in Escherichia coil revealed by HILIC-ion mobility-mass spectrometry |
6 |
| Detergent-free solubilization of human Kv channels expressed in mammalian cells |
6 |
| Evaluation of the properties of the essential oil citronellal nanoencapsulated by cyclodextrins |
6 |
| Langmuir-monolayer methodologies for characterizing protein-lipid interactions |
6 |
| The effect of mutations in the lid region of Thermomyces lanuginosus lipase on interactions with triglyceride surfaces: A multi-scale simulation study |
6 |
| The role of lipids in aging-related metabolic changes |
6 |
| Structural changes in cellular membranes induced by ionic liquids: From model to bacterial membranes |
5 |
| Thermotropic phase behavior of milk sphingomyelin and role of cholesterol in the formation of the liquid ordered phase examined using SR-XRD and DSC |
5 |
| Antibiotic interactions using liposomes as model lipid membranes |
5 |
| Physical states and thermodynamic properties of model gram-negative bacterial inner membranes |
5 |
| Visualizing bioactive ceramides |
5 |
| On the prediction of critical micelle concentration for sugar-based non-ionic surfactants |
5 |
| N-Docosahexaenoylethanolamine (synaptamide): Carbon-14 radiolabeling and metabolic studies |
5 |
| Structural design of intrinsically fluorescent oxysterols |
5 |
| Bombesin conjugated solid lipid nanoparticles for improved delivery of epigallocatechin gallate for breast cancer treatment |
5 |
| Ascorbic acid-modified brain-specific liposomes drug delivery system with lock-in function |
4 |
| The wetting properties of Langmuir-Blodgett and Langmuir-Schaefer films formed by DPPC and POSS compounds |
4 |
