化学
脂筏
膜
木筏
生物物理学
化学物理
脂质双层
氢键
结晶学
纳米技术
分子
生物化学
材料科学
共聚物
有机化学
生物
聚合物
作者
Suho Lee,Ji Hyun Bak,Yuno Lee,Dae-Woong Jeong,Jaehee Lee,KeunMin Ken Lee,Hasaeam Cho,Hyun Hwi Lee,Changbong Hyeon,Myung Chul Choi
摘要
Lipid rafts, which are dynamic nanodomains in the plasma membrane, play a crucial role in intermembrane processes by clustering together and growing in size within the plane of the membrane while also aligning with each other across different membranes. However, the physical origin of layer by layer alignment of lipid rafts remains to be elucidated. Here, by using fluorescence imaging and synchrotron X-ray reflectivity in a phase-separated multilayer system, we find that the alignment of raft-mimicking Lo domains is regulated by the distance between bilayers. Molecular dynamics simulations reveal that the aligned state is energetically preferred when the intermembrane distance is small due to its ability to minimize the volume of surface water, which has fewer water hydrogen bonds (HBs) compared to bulk water. Our results suggest that water HB-driven alignment of lipid rafts plays a role as a precursor of intermembrane processes such as cell–cell fusion, virus entry, and signaling.
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