# | Title | Journal | Year | Citations |
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1 | The synthesis of complex carbohydrates by multiglycosyltransferase systems and their potential function in intercellular adhesion | Chemistry and Physics of Lipids | 1970 | 1,231 |
2 | Lipid peroxides and human diseases | Chemistry and Physics of Lipids | 1987 | 1,182 |
3 | Physical studies of phospholipids. VI. Thermotropic and lyotropic mesomorphism of some 1,2-diacyl-phosphatidylcholines (lecithins) | Chemistry and Physics of Lipids | 1967 | 991 |
4 | Thermal analysis of lipids, proteins and biological membranes a review and summary of some recent studies | Chemistry and Physics of Lipids | 1969 | 845 |
5 | Docosahexaenoic acid: membrane properties of a unique fatty acid | Chemistry and Physics of Lipids | 2003 | 699 |
6 | Antioxidants in relation to lipid peroxidation | Chemistry and Physics of Lipids | 1987 | 672 |
7 | Lipid peroxidation of membrane phospholipids generates hydroxy-alkenals and oxidized phospholipids active in physiological and/or pathological conditions | Chemistry and Physics of Lipids | 2009 | 605 |
8 | Osmotic properties and water permeability of phospholipid liquid crystals | Chemistry and Physics of Lipids | 1967 | 545 |
9 | Phospholipid phase transitions in model and biological membranes as studied by infrared spectroscopy | Chemistry and Physics of Lipids | 1991 | 524 |
10 | Novel methods for liposome preparation | Chemistry and Physics of Lipids | 2014 | 468 |
11 | Immobilization of lipases by selective adsorption on hydrophobic supports | Chemistry and Physics of Lipids | 1998 | 441 |
12 | Glycerophospholipids in brain: their metabolism, incorporation into membranes, functions, and involvement in neurological disorders | Chemistry and Physics of Lipids | 2000 | 423 |
13 | Modulation of rhodopsin function by properties of the membrane bilayer | Chemistry and Physics of Lipids | 1994 | 417 |
14 | Membrane “fluidity” as detected by diphenylhexatriene probes | Chemistry and Physics of Lipids | 1989 | 401 |
15 | Ultrasound, liposomes, and drug delivery: principles for using ultrasound to control the release of drugs from liposomes | Chemistry and Physics of Lipids | 2009 | 398 |
16 | Anatomy of lipase binding sites: the scissile fatty acid binding site | Chemistry and Physics of Lipids | 1998 | 395 |
17 | Modification of human serum low density lipoprotein by oxidation — Characterization and pathophysiological implications | Chemistry and Physics of Lipids | 1987 | 391 |
18 | Oxidative damage, lipid peroxidation and antioxidant protection in chloroplasts | Chemistry and Physics of Lipids | 1987 | 368 |
19 | Enzyme reactions in a membrane model 1: A new technique to study enzyme reactions in monolayers | Chemistry and Physics of Lipids | 1973 | 360 |
20 | Membrane-active host defense peptides – Challenges and perspectives for the development of novel anticancer drugs | Chemistry and Physics of Lipids | 2011 | 359 |
21 | Use of fluorescent probes to monitor molecular order and motions within liposome bilayers | Chemistry and Physics of Lipids | 1993 | 357 |
22 | Dipole potential of lipid membranes | Chemistry and Physics of Lipids | 1994 | 355 |
23 | The role of selenium peroxidases in the protection against oxidative damage of membranes | Chemistry and Physics of Lipids | 1987 | 349 |
24 | The use of differential scanning calorimetry as a tool to characterize liposome preparations | Chemistry and Physics of Lipids | 1993 | 346 |
25 | Generation of multilamellar and unilamellar phospholipid vesicles | Chemistry and Physics of Lipids | 1986 | 332 |
26 | The use of differential scanning calorimetry and differential thermal analysis in studies of model and biological membranes | Chemistry and Physics of Lipids | 1982 | 328 |
27 | Chemical stability of liposomes: implications for their physical stability | Chemistry and Physics of Lipids | 1993 | 323 |
28 | Hidden dynamics in rapid changes of bilayer shape | Chemistry and Physics of Lipids | 1994 | 322 |
29 | Lipid polymorphism and the roles of lipids in membranes | Chemistry and Physics of Lipids | 1986 | 321 |
30 | Chemistry and biology of N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)-labeled lipids: fluorescent probes of biological and model membranes | Chemistry and Physics of Lipids | 1990 | 316 |
31 | The role of lipid peroxidation in liver damage | Chemistry and Physics of Lipids | 1987 | 309 |
32 | Permeability of lipid bilayers to water and ionic solutes | Chemistry and Physics of Lipids | 1986 | 307 |
33 | Dynamical order and disorder in lipid bilayers | Chemistry and Physics of Lipids | 1994 | 303 |
34 | The effect of metal cations on the phase behavior and hydration characteristics of phospholipid membranes | Chemistry and Physics of Lipids | 2002 | 295 |
35 | Cholesterol autoxidation 1981–1986 | Chemistry and Physics of Lipids | 1987 | 291 |
36 | Comparative study on the action of tocopherols and tocotrienols as antioxidant: chemical and physical effects | Chemistry and Physics of Lipids | 2003 | 291 |
37 | Elastic curvature constants of lipid monolayers and bilayers | Chemistry and Physics of Lipids | 2006 | 287 |
38 | Lipid peroxidation in erythrocytes | Chemistry and Physics of Lipids | 1987 | 285 |
39 | A role for monoglyceride lipase in 2-arachidonoylglycerol inactivation | Chemistry and Physics of Lipids | 2002 | 285 |
40 | Simulation of gel phase formation and melting in lipid bilayers using a coarse grained model | Chemistry and Physics of Lipids | 2005 | 281 |
41 | A deuterium nuclear magnetic resonance study of the condensing effect of cholesterol on egg phosphatidylcholine bilayer membranes. I. Perdeuterated fatty acid probes | Chemistry and Physics of Lipids | 1976 | 280 |
42 | The role of cholesterol in membrane fusion | Chemistry and Physics of Lipids | 2016 | 279 |
43 | Antioxidant activity of natural flavonoids is governed by number and location of their aromatic hydroxyl groups | Chemistry and Physics of Lipids | 1996 | 278 |
44 | Effect of grafted PEG on liposome size and on compressibility and packing of lipid bilayer | Chemistry and Physics of Lipids | 2005 | 272 |
45 | Chemical alterations taken place during deep-fat frying based on certain reaction products: A review | Chemistry and Physics of Lipids | 2012 | 267 |
46 | On the nature of hydrocarbon chain motions in lipid liquid crystals | Chemistry and Physics of Lipids | 1969 | 265 |
47 | On the chemistry and occurrence of sphingolipid long-chain bases | Chemistry and Physics of Lipids | 1970 | 265 |
48 | Lipid bilayers: thermodynamics, structure, fluctuations, and interactions | Chemistry and Physics of Lipids | 2004 | 264 |
49 | Protein–lipid interactions and surface activity in the pulmonary surfactant system | Chemistry and Physics of Lipids | 2006 | 260 |
50 | Plasmalogens the neglected regulatory and scavenging lipid species | Chemistry and Physics of Lipids | 2011 | 260 |