Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold
Planar lipid bilayers on solid supports mimic the fundamental structure of biological membranes and can be investigated using a wide range of surface-sensitive techniques. Despite these advantages, planar bilayer fabrication is challenging, and there are no simple universal methods to form such bila...
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sg-ntu-dr.10356-811102020-06-01T10:26:30Z Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold Tabaei, Seyed Ruhollah Choi, Jae-Hyeok Goh, Haw Zan Zhdanov, Vladimir P. Cho, Nam-Joon School of Chemical and Biomedical Engineering School of Materials Science & Engineering Chemical and Biomedical Engineering Materials Science and Engineering Planar lipid bilayers on solid supports mimic the fundamental structure of biological membranes and can be investigated using a wide range of surface-sensitive techniques. Despite these advantages, planar bilayer fabrication is challenging, and there are no simple universal methods to form such bilayers on diverse material substrates. One of the novel methods recently proposed and proven to form a planar bilayer on silicon dioxide involves lipid deposition in organic solvent and solvent exchange to influence the phase of adsorbed lipids. To scrutinize the specifics of this solvent-assisted lipid bilayer (SALB) formation method and clarify the limits of its applicability, we have developed a simplified, continuous solvent-exchange version to form planar bilayers on silicon dioxide, gold, and alkanethiol-coated gold (in the latter case, a lipid monolayer is formed to yield a hybrid bilayer) and varied the type of organic solvent and rate of solvent exchange. By tracking the SALB formation process with simultaneous quartz crystal microbalance–dissipation (QCM-D) and ellipsometry, it was determined that the acoustic, optical, and hydration masses along with the acoustic and optical thicknesses, measured at the end of the process, are comparable to those observed by employing conventional fabrication methods (e.g., vesicle fusion). As shown by QCM-D measurements, the obtained planar bilayers are highly resistant to protein adsorption, and several, but not all, water-miscible organic solvents could be successfully used in the SALB procedure, with isopropanol yielding particularly high-quality bilayers. In addition, fluorescence recovery after photobleaching (FRAP) measurements demonstrated that the coefficient of lateral lipid diffusion in the fabricated bilayers corresponds to that measured earlier in the planar bilayers formed by vesicle fusion. With increasing rate of solvent exchange, it was also observed that the bilayer became incomplete and a phenomenological model was developed in order to explain this feature. The results obtained allowed us to clarify and discriminate likely steps of the SALB formation process as well as determine the corresponding influence of organic solvent type and flow conditions on these steps. Taken together, the findings demonstrate that the SALB formation method can be adapted to a continuous solvent-exchange procedure that is technically minimal, quick, and efficient to form planar bilayers on solid supports. NMRC (Natl Medical Research Council, S’pore) 2016-06-09T04:37:52Z 2019-12-06T14:21:35Z 2016-06-09T04:37:52Z 2019-12-06T14:21:35Z 2014 Journal Article Tabaei, S. R., Choi, J.-H., Goh, H. Z., Zhdanov, V. P., & Cho, N.-J. (2014). Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold. Langmuir, 30(34), 10363-10373. 0743-7463 https://hdl.handle.net/10356/81110 http://hdl.handle.net/10220/40642 10.1021/la501534f en Langmuir © 2014 American Chemical Society. |
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Chemical and Biomedical Engineering Materials Science and Engineering Tabaei, Seyed Ruhollah Choi, Jae-Hyeok Goh, Haw Zan Zhdanov, Vladimir P. Cho, Nam-Joon Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold |
| description |
Planar lipid bilayers on solid supports mimic the fundamental structure of biological membranes and can be investigated using a wide range of surface-sensitive techniques. Despite these advantages, planar bilayer fabrication is challenging, and there are no simple universal methods to form such bilayers on diverse material substrates. One of the novel methods recently proposed and proven to form a planar bilayer on silicon dioxide involves lipid deposition in organic solvent and solvent exchange to influence the phase of adsorbed lipids. To scrutinize the specifics of this solvent-assisted lipid bilayer (SALB) formation method and clarify the limits of its applicability, we have developed a simplified, continuous solvent-exchange version to form planar bilayers on silicon dioxide, gold, and alkanethiol-coated gold (in the latter case, a lipid monolayer is formed to yield a hybrid bilayer) and varied the type of organic solvent and rate of solvent exchange. By tracking the SALB formation process with simultaneous quartz crystal microbalance–dissipation (QCM-D) and ellipsometry, it was determined that the acoustic, optical, and hydration masses along with the acoustic and optical thicknesses, measured at the end of the process, are comparable to those observed by employing conventional fabrication methods (e.g., vesicle fusion). As shown by QCM-D measurements, the obtained planar bilayers are highly resistant to protein adsorption, and several, but not all, water-miscible organic solvents could be successfully used in the SALB procedure, with isopropanol yielding particularly high-quality bilayers. In addition, fluorescence recovery after photobleaching (FRAP) measurements demonstrated that the coefficient of lateral lipid diffusion in the fabricated bilayers corresponds to that measured earlier in the planar bilayers formed by vesicle fusion. With increasing rate of solvent exchange, it was also observed that the bilayer became incomplete and a phenomenological model was developed in order to explain this feature. The results obtained allowed us to clarify and discriminate likely steps of the SALB formation process as well as determine the corresponding influence of organic solvent type and flow conditions on these steps. Taken together, the findings demonstrate that the SALB formation method can be adapted to a continuous solvent-exchange procedure that is technically minimal, quick, and efficient to form planar bilayers on solid supports. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Tabaei, Seyed Ruhollah Choi, Jae-Hyeok Goh, Haw Zan Zhdanov, Vladimir P. Cho, Nam-Joon |
| format |
Article |
| author |
Tabaei, Seyed Ruhollah Choi, Jae-Hyeok Goh, Haw Zan Zhdanov, Vladimir P. Cho, Nam-Joon |
| author_sort |
Tabaei, Seyed Ruhollah |
| title |
Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold |
| title_short |
Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold |
| title_full |
Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold |
| title_fullStr |
Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold |
| title_full_unstemmed |
Solvent-Assisted Lipid Bilayer Formation on Silicon Dioxide and Gold |
| title_sort |
solvent-assisted lipid bilayer formation on silicon dioxide and gold |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/81110 http://hdl.handle.net/10220/40642 |
| _version_ |
1681058870242312192 |