Curvature-enhanced membrane asymmetry slows down protein diffusion
Diffusion of transmembrane proteins plays a vital role in various cellular processes, such as endocytosis, raft formation and signal transduction. Current understanding of protein diffusion dynamics in lipid membranes is mostly based on hydrodynamic analyses, in which lipid membrane is simply treate...
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sg-ntu-dr.10356-1730642024-01-13T16:48:03Z Curvature-enhanced membrane asymmetry slows down protein diffusion Kumar, Jatin Chng, Choon-Peng Huang, Changjin School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Transmembrane Protein Lipid Bilayer Diffusion of transmembrane proteins plays a vital role in various cellular processes, such as endocytosis, raft formation and signal transduction. Current understanding of protein diffusion dynamics in lipid membranes is mostly based on hydrodynamic analyses, in which lipid membrane is simply treated as a thin layer of viscous liquid, same for highly curved ones. Therefore, how the mechanical state of highly curved membranes may affect the transmembrane protein diffusion remains unclear. In this study, we employed molecular dynamics (MD) simulations to analyse membrane curvature effect on the diffusion of cylindrically shaped Aquaporin-0 (AQP0) protein. Slowing down of protein diffusion with the increase in membrane curvature was observed. The possible contributions from membrane tension and asymmetric pressure profile were systematically investigated by simulating the protein diffusion dynamics in planar membranes with various tension levels or with various lipid number ratios between the two leaflets, respectively. We found no significant effect of membrane tension on AQP0 diffusion. Instead, the asymmetric pressure profile present in highly curved bilayer membranes was identified as a key factor that contributes to the slowing down of transmembrane protein diffusion. Our work thus contributes to a more complete picture of transmembrane protein diffusion on highly curved biological membranes. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Submitted/Accepted version C.H. and C.-P.C. acknowledge the A*STAR BMRC Strategic Positioning Fund (SPF)-A*STAR-P&G Collaboration Grant (H23HW10006). C.H. would also like to acknowledge financial support from Ministry of Education (MOE), Singapore, under its Academic Research Fund Tier 2 (MOET2EP50121-0004). 2024-01-10T06:39:23Z 2024-01-10T06:39:23Z 2024 Journal Article Kumar, J., Chng, C. & Huang, C. (2024). Curvature-enhanced membrane asymmetry slows down protein diffusion. Extreme Mechanics Letters, 66, 102114-. https://dx.doi.org/10.1016/j.eml.2023.102114 2352-4316 https://hdl.handle.net/10356/173064 10.1016/j.eml.2023.102114 2-s2.0-85179620922 66 102114 en H23HW10006 MOET2EP50121-0004 Extreme Mechanics Letters © 2023 Elsevier Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.eml.2023.102114. application/pdf |
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Engineering::Mechanical engineering Transmembrane Protein Lipid Bilayer Kumar, Jatin Chng, Choon-Peng Huang, Changjin Curvature-enhanced membrane asymmetry slows down protein diffusion |
| description |
Diffusion of transmembrane proteins plays a vital role in various cellular processes, such as endocytosis, raft formation and signal transduction. Current understanding of protein diffusion dynamics in lipid membranes is mostly based on hydrodynamic analyses, in which lipid membrane is simply treated as a thin layer of viscous liquid, same for highly curved ones. Therefore, how the mechanical state of highly curved membranes may affect the transmembrane protein diffusion remains unclear. In this study, we employed molecular dynamics (MD) simulations to analyse membrane curvature effect on the diffusion of cylindrically shaped Aquaporin-0 (AQP0) protein. Slowing down of protein diffusion with the increase in membrane curvature was observed. The possible contributions from membrane tension and asymmetric pressure profile were systematically investigated by simulating the protein diffusion dynamics in planar membranes with various tension levels or with various lipid number ratios between the two leaflets, respectively. We found no significant effect of membrane tension on AQP0 diffusion. Instead, the asymmetric pressure profile present in highly curved bilayer membranes was identified as a key factor that contributes to the slowing down of transmembrane protein diffusion. Our work thus contributes to a more complete picture of transmembrane protein diffusion on highly curved biological membranes. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Kumar, Jatin Chng, Choon-Peng Huang, Changjin |
| format |
Article |
| author |
Kumar, Jatin Chng, Choon-Peng Huang, Changjin |
| author_sort |
Kumar, Jatin |
| title |
Curvature-enhanced membrane asymmetry slows down protein diffusion |
| title_short |
Curvature-enhanced membrane asymmetry slows down protein diffusion |
| title_full |
Curvature-enhanced membrane asymmetry slows down protein diffusion |
| title_fullStr |
Curvature-enhanced membrane asymmetry slows down protein diffusion |
| title_full_unstemmed |
Curvature-enhanced membrane asymmetry slows down protein diffusion |
| title_sort |
curvature-enhanced membrane asymmetry slows down protein diffusion |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173064 |
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1789482913032568832 |