A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro
Membrane curvature plays important roles in various essential processes of cells, such as cell migration, cell division, and vesicle trafficking. It is not only passively generated by cellular activities, but also actively regulates protein interactions and is involved in many intracellular signalin...
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sg-ntu-dr.10356-1687682023-06-23T15:32:05Z A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro Miao, Xinwen Wu, Jiawei Zhao, Wenting School of Chemistry, Chemical Engineering and Biotechnology Institute for Digital Molecular Analytics and Science Science::Chemistry Cell Membrane Lipid Bilayers Membrane curvature plays important roles in various essential processes of cells, such as cell migration, cell division, and vesicle trafficking. It is not only passively generated by cellular activities, but also actively regulates protein interactions and is involved in many intracellular signaling. Thus, it is of great value to examine the role of membrane curvature in regulating the distribution and dynamics of proteins and lipids. Recently, many techniques have been developed to study the relationship between the curved membrane and protein in vitro. Compared to traditional techniques, the newly developed nanobar-supported lipid bilayer (SLB) offers both high-throughput and better accuracy in membrane curvature generation by forming a continuous lipid bilayer on patterned arrays of nanobars with a pre-defined membrane curvature and local flat control. Both the lipid fluidity and protein sensitivity to curved membranes can be quantitatively characterized using fluorescence microscopy imaging. Here, a detailed procedure on how to form a SLB on fabricated glass surfaces containing nanobar arrays and the characterization of curvature-sensitive proteins on such SLB are introduced. In addition, protocols for nanochip reusing and image processing are covered. Beyond the nanobar-SLB, this protocol is readily applicable to all types of nanostructured glass chips for curvature sensing studies. Ministry of Education (MOE) Nanyang Technological University Published version This work is funded by the Singapore Ministry of Education (MOE) (W. Zhao, RG112/20, RG95/21, and MOE-T2EP30220-0009), the Institute for Digital Molecular Analytics and Science (IDMxS) supported by MOE funding under the Research Centres of Excellence scheme (W. Zhao), the Human Frontier Science Program Foundation (W. Zhao, RGY0088/2021), the NTU Start-up Grant (W. Zhao), School of Chemical and Biomedical Engineering NTU for the research scholarship (X. Miao), and China Scholarship Council for the research scholarship (J. Wu). 2023-06-19T04:49:20Z 2023-06-19T04:49:20Z 2022 Journal Article Miao, X., Wu, J. & Zhao, W. (2022). A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro. Journal of Visualized Experiments (JoVE), November 2022(189), e64340-. https://dx.doi.org/10.3791/64340 1940-087X https://hdl.handle.net/10356/168768 10.3791/64340 36533817 2-s2.0-85144585961 189 November 2022 e64340 en RG112/20 RG95/21 MOE-T2EP30220-0009 NTU-SUG Journal of Visualized Experiments (JoVE) © 2022 JoVE Journal of Visualized Experiments. All rights reserved. This paper was published in Journal of Visualized Experiments (JoVE) and is made available with permission of JoVE Journal of Visualized Experiments. application/pdf |
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Science::Chemistry Cell Membrane Lipid Bilayers Miao, Xinwen Wu, Jiawei Zhao, Wenting A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| description |
Membrane curvature plays important roles in various essential processes of cells, such as cell migration, cell division, and vesicle trafficking. It is not only passively generated by cellular activities, but also actively regulates protein interactions and is involved in many intracellular signaling. Thus, it is of great value to examine the role of membrane curvature in regulating the distribution and dynamics of proteins and lipids. Recently, many techniques have been developed to study the relationship between the curved membrane and protein in vitro. Compared to traditional techniques, the newly developed nanobar-supported lipid bilayer (SLB) offers both high-throughput and better accuracy in membrane curvature generation by forming a continuous lipid bilayer on patterned arrays of nanobars with a pre-defined membrane curvature and local flat control. Both the lipid fluidity and protein sensitivity to curved membranes can be quantitatively characterized using fluorescence microscopy imaging. Here, a detailed procedure on how to form a SLB on fabricated glass surfaces containing nanobar arrays and the characterization of curvature-sensitive proteins on such SLB are introduced. In addition, protocols for nanochip reusing and image processing are covered. Beyond the nanobar-SLB, this protocol is readily applicable to all types of nanostructured glass chips for curvature sensing studies. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Miao, Xinwen Wu, Jiawei Zhao, Wenting |
| format |
Article |
| author |
Miao, Xinwen Wu, Jiawei Zhao, Wenting |
| author_sort |
Miao, Xinwen |
| title |
A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| title_short |
A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| title_full |
A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| title_fullStr |
A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| title_full_unstemmed |
A nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| title_sort |
nanobar-supported lipid bilayer system for the study of membrane curvature sensing proteins in vitro |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168768 |
| _version_ |
1772827865969065984 |