Duncan H. Haynes scite author profile

Summary. The binding of the hydrophobic fluorescent probe 1-anilino-8-naphthalenesulfonate (ANS-) on phospholipid vesicle membranes was studied to gain information about the structure and mobility in the polar head group region, and to determine the degree of mixing of lipids on the microscopic scale. The maximal degree of binding of ANS-on dimyristoyl and dipalmitoyl-•-lecithin membranes is one ANS-per four lecithin molecules, indicating a binding site composed of four polar head groups. ANSbound in this site has a long fluorescent lifetime (5 to 9 nsec) and high quantum yield (0.2 to 0.3), indicating that it is relatively inaccessible to the solvent water. The lack of paramagnetic quenching by added Mn 2+ indicates that ANS-bound to those fourmembered sites is also well shielded from added cations. Similarities in the temperature dependence of the binding constant and the reciprocal fluorescent lifetime indicate that the latter is determined by the propensity for polar head group motion and for water and ANS-reorientation during the excited state of the molecule.Membranes composed of lipids which lack a semi-polar head group (phosphatidic acid) or which have unfavorable polar head group conformations or strong interactions between the polar head groups (dimyristoyl ethanolamine) do not support the binding of ANS-with a high quantum yield and long fluorescent lifetime. Incorporation of these lipids in a lecithin membrane decreases the maximal binding of ANS-to a greater extent than can be explained on the basis of dilution of the lecithin with these lipids. A statistical model is presented, in which incorporation of one or more molecules of the second type into a four-membered lecithin binding site destroys the ability of this site to bind ANS-with a long fluorescence lifetime. Agreement between this model and the results obtained with lipid mixtures indicate that egg phosphatidic acid and dimyristoyl ethanolamine mix well with dimyristoyl lecithin on the microscopic scale. The above criterion was also used to show that cholesterol mixes randomly with lecithin. In contrast to the behavior of the phospholipid mixtures, there was evidence for shortlived ANS-species for cholesterol/lecithin mixtures with mole ratios between 0.6 and 1.0. This species is associated with binding sites in which the lecithin polar head groups

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Nuclear magnetic resonance study of ²³Na⁺ complexing by ionophores

Haynes¹,

Pressman²,

Kowalsky³

1971

Biochemistry

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Platelet microparticles and calcium homeostasis in acute coronary ischemias

Katopodis

Kolodny

et al. 1997

Am. J. Hematol.

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Elevation of free cytoplasmic calcium is the common pathway of platelet activation, leading to shape change, shedding of platelet microparticles (PMP), aggregation, and secretion of internal granules, including expression of CD62p on the surface. Platelet activation is well documented in unstable angina (UA) and acute myocardial infarction (MI). We investigated the following markers of platelet activation in 55 patients undergoing coronary angiography for suspected CAD: free cytoplasmic calcium, [Ca Key words: platelet microparticles; calcium homeostasis; immune thrombocytopenic purpura (ITP); myocardial infarction; unstable angina drome, a rare congenital bleeding disorder, a defect in INTRODUCTION platelet procoagulant activity is believed to underlie the There is ample evidence that coronary thrombosis oc-hemorrhagic tendency and has been attributed to a defect curs in patients with acute myocardial infarction (MI) and unstable angina (UA) [1], and that platelet activation plays a central role in the thrombogenesis of coronary clotting near the site of activation [6][7][8][9]. In Scott's syn-ᮊ 1997 Wiley-Liss, Inc.

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The volume change in lipid bilayer lamellae at the crystalline-liquid crystalline phase transition

Träuble

Haynes

1971

Chemistry and Physics of Lipids

193

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Kinetics of a Ca2+-triggered membrane aggregation reaction of phospholipid membranes

Lansman

Haynes

1975

Biochimica et Biophysica Acta (BBA) - Biomembranes

111

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Duncan H. Haynes

1-Anilino-8-naphthalenesulfonate: A fluorescent probe of membrane surface structure, composition and mobility

Nuclear magnetic resonance study of ²³Na⁺ complexing by ionophores

Platelet microparticles and calcium homeostasis in acute coronary ischemias

The volume change in lipid bilayer lamellae at the crystalline-liquid crystalline phase transition

Kinetics of a Ca2+-triggered membrane aggregation reaction of phospholipid membranes

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Duncan H. Haynes

1-Anilino-8-naphthalenesulfonate: A fluorescent probe of membrane surface structure, composition and mobility

Nuclear magnetic resonance study of 23Na+ complexing by ionophores

Platelet microparticles and calcium homeostasis in acute coronary ischemias

The volume change in lipid bilayer lamellae at the crystalline-liquid crystalline phase transition

Kinetics of a Ca2+-triggered membrane aggregation reaction of phospholipid membranes

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Product

Resources

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Nuclear magnetic resonance study of ²³Na⁺ complexing by ionophores