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1.
J Chem Phys ; 153(16): 165101, 2020 Oct 28.
Article in English | MEDLINE | ID: mdl-33138431

ABSTRACT

Ultra-long-chain fatty acids (ULCFAs) are biosynthesized in the restricted tissues such as retina, testis, and skin. The conformation of a single ULCFA, in which the sn-1 unsaturated chain has 32 carbons, in three types of phospholipid bilayers is studied by molecular dynamics simulations. It is found that the ultra-long tail of the ULCFA flips between two leaflets and fluctuates among an elongation into the opposite leaflet, lies between two leaflets, and turns back. As the number ratio of lipids in the opposite leaflet increases, the ratio of the elongated shape linearly decreases in all three cases. Thus, ULCFAs can sense the density differences between the two leaflets and respond to these changes.


Subject(s)
Fatty Acids/chemistry , Lipid Bilayers/chemistry , Molecular Dynamics Simulation , Molecular Conformation , Phospholipids/chemistry
2.
Soft Matter ; 14(8): 1397-1407, 2018 Feb 21.
Article in English | MEDLINE | ID: mdl-29383371

ABSTRACT

Shape transformations of flat bilayer membranes and vesicles induced by hydrolysis and condensation reactions of amphiphilic molecules are studied using coarse-grained molecular dynamics simulations. The hydrolysis and condensation reactions result in the formation and dissociation of amphiphilic molecules, respectively. Asymmetric reactions between the inner and outer leaflets of a vesicle can transport amphiphilic molecules between the leaflets. It is found that the resulting area difference between the two leaflets induces bilayer sheet protrusion (BP) and budding at low reduced volumes of the vesicles, whereas BP only occurs at high reduced volumes. The probabilities of these two types of transformations depend on the shear viscosity of the surrounding fluids compared to the membrane as well as the reaction rates. A higher surrounding fluid viscosity leads to more BP formation. The inhomogeneous spatial distribution of the hydrophobic reaction products forms the nuclei of BP formation, and faster diffusion of the products enhances BP formation. Our results suggest that adjustment of the viscosity is important to control membrane shape transformations in experiments.

3.
J Biol Chem ; 292(29): 12054-12064, 2017 07 21.
Article in English | MEDLINE | ID: mdl-28578316

ABSTRACT

Docosahexaenoic acid (DHA) has essential roles in photoreceptor cells in the retina and is therefore crucial to healthy vision. Although the influence of dietary DHA on visual acuity is well known and the retina has an abundance of DHA-containing phospholipids (PL-DHA), the mechanisms associated with DHA's effects on visual function are unknown. We previously identified lysophosphatidic acid acyltransferase 3 (LPAAT3) as a PL-DHA biosynthetic enzyme. Here, using comprehensive phospholipid analyses and imaging mass spectroscopy, we found that LPAAT3 is expressed in the inner segment of photoreceptor cells and that PL-DHA disappears from the outer segment in the LPAAT3-knock-out mice. Dynamic light-scattering analysis of liposomes and molecular dynamics simulations revealed that the physical characteristics of DHA reduced membrane-bending rigidity. Following loss of PL-DHA, LPAAT3-knock-out mice exhibited abnormalities in the retinal layers, such as incomplete elongation of the outer segment and decreased thickness of the outer nuclear layers and impaired visual function, as well as disordered disc morphology in photoreceptor cells. Our results indicate that PL-DHA contributes to visual function by maintaining the disc shape in photoreceptor cells and that this is a function of DHA in the retina. This study thus provides the reason why DHA is required for visual acuity and may help inform approaches for overcoming retinal disorders associated with DHA deficiency or dysfunction.


Subject(s)
Acyltransferases/metabolism , Docosahexaenoic Acids/metabolism , Photoreceptor Cells, Vertebrate/metabolism , Vision Disorders/metabolism , Acyltransferases/genetics , Animals , Biomarkers/metabolism , Crosses, Genetic , Docosahexaenoic Acids/analysis , Docosahexaenoic Acids/chemistry , Electroretinography , Liposomes , Membrane Fluidity , Mice, Inbred C57BL , Mice, Knockout , Microscopy, Electron, Transmission , Molecular Dynamics Simulation , Multimodal Imaging , Optical Imaging , Phospholipids/chemistry , Phospholipids/metabolism , Photoreceptor Cells, Vertebrate/pathology , Photoreceptor Cells, Vertebrate/ultrastructure , Physical Phenomena , Retina/metabolism , Retina/pathology , Retina/ultrastructure , Retinal Photoreceptor Cell Outer Segment/metabolism , Retinal Photoreceptor Cell Outer Segment/pathology , Retinal Photoreceptor Cell Outer Segment/ultrastructure , Vision Disorders/pathology
4.
Phys Rev E ; 94(5-1): 053304, 2016 Nov.
Article in English | MEDLINE | ID: mdl-27967021

ABSTRACT

Microscopic stress fields are widely used in molecular simulations to understand mechanical behavior. Recently, decomposition methods of multibody forces to central force pairs between the interacting particles have been proposed. Here, we introduce a force center of a three-body potential and propose different force decompositions that also satisfy the conservation of translational and angular momentum. We compare the force decompositions by stress-distribution magnitude and discuss their difference in the stress profile of a bilayer membrane by using coarse-grained and atomistic molecular dynamics simulations.

5.
Soft Matter ; 11(7): 1403-11, 2015 Feb 04.
Article in English | MEDLINE | ID: mdl-25582908

ABSTRACT

Shape transformations of amphiphilic molecular assemblies induced by chemical reactions are studied using coarse-grained molecular simulations. A binding reaction between hydrophilic and hydrophobic molecules is considered. It is found that the reaction induces transformation of an oil droplet to a tubular vesicle via bicelles and vesicles with discoidal arms. The discoidal arms close into vesicles, which are subsequently fused into the tubular vesicle. Under the chemical reaction, the bicelle-to-vesicle transition occurs at smaller sizes than in the absence of the hydrophobic molecules. It is revealed that the enhancement of this transition is due to embedded hydrophobic particles that reduce the membrane bending rigidity.

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