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Full-Text Articles in Physics
Mechanical Properties Of The High Cholesterol-Containing Membrane: An Afm Study, Nawal K. Khadka, Raju Timsina, Erica L. Rowe, Matthew O'Dell, Laxman Mainali
Mechanical Properties Of The High Cholesterol-Containing Membrane: An Afm Study, Nawal K. Khadka, Raju Timsina, Erica L. Rowe, Matthew O'Dell, Laxman Mainali
Physics Faculty Publications and Presentations
Cholesterol (Chol) content in most cellular membranes does not exceed 50 mol%, only in the eye lens’s fiber cell plasma membrane, its content surpasses 50 mol%. At this high concentration, Chol induces the formation of pure cholesterol bilayer domains (CBDs), which coexist with the surrounding phospholipid-cholesterol domain (PCD). Here, we applied atomic force microscopy to study the mechanical properties of Chol/phosphatidylcholine membranes where the Chol content was increased from 0 to 75 mol%, relevant to eye lens membranes. The surface roughness of the membrane decreases with an increase of Chol content until it reaches 60 mol%, and roughness increases with …
Association Of Alpha-Crystallin With Fiber Cell Plasma Membrane Of The Eye Lens Accompanied By Light Scattering And Cataract Formation, Raju Timsina, Laxman Mainali
Association Of Alpha-Crystallin With Fiber Cell Plasma Membrane Of The Eye Lens Accompanied By Light Scattering And Cataract Formation, Raju Timsina, Laxman Mainali
Physics Faculty Publications and Presentations
α-crystallin is a major protein found in the mammalian eye lens that works as a molecular chaperone by preventing the aggregation of proteins and providing tolerance to stress in the eye lens. These functions of α-crystallin are significant for maintaining lens transparency. However, with age and cataract formation, the concentration of α-crystallin in the eye lens cytoplasm decreases with a corresponding increase in the membrane-bound α-crystallin, accompanied by increased light scattering. The purpose of this review is to summarize previous and recent findings of the role of the: (1) lens membrane components, i.e., the major phospholipids (PLs) and sphingolipids, cholesterol …
Cholesterol And Cholesterol Bilayer Domains Inhibit Binding Of Alpha-Crystallin To The Membranes Made Of The Major Phospholipids Of Eye Lens Fiber Cell Plasma Membranes, Raju Timsina, Geraline Trossi-Torres, Matthew O'Dell, Nawal K. Khadka, Laxman Mainali
Cholesterol And Cholesterol Bilayer Domains Inhibit Binding Of Alpha-Crystallin To The Membranes Made Of The Major Phospholipids Of Eye Lens Fiber Cell Plasma Membranes, Raju Timsina, Geraline Trossi-Torres, Matthew O'Dell, Nawal K. Khadka, Laxman Mainali
Physics Faculty Publications and Presentations
The concentration of α-crystallin decreases in the eye lens cytoplasm, with a corresponding increase in membrane-bound α-crystallin during cataract formation. The eye lens’s fiber cell plasma membrane consists of extremely high cholesterol (Chol) content, forming cholesterol bilayer domains (CBDs) within the membrane. The role of high Chol content in the lens membrane is unclear. Here, we applied the continuous-wave electron paramagnetic resonance spin-labeling method to probe the role of Chol and CBDs on α-crystallin binding to membranes made of four major phospholipids (PLs) of the eye lens, i.e., phosphatidylcholine (PC), sphingomyelin (SM), phosphatidylserine (PS), and phosphatidylethanolamine (PE). Small unilamellar vesicles …