Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes?
In recent years, the use of biomimetic membranes that incorporate membrane proteins, i.e., biomimetic-hybrid membranes, has increased almost exponentially. Key membrane proteins in these systems have been aquaporins, which selectively permeabilize cellular membranes to water. Aquaporins may be incor...
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sg-ntu-dr.10356-817102023-02-28T16:58:36Z Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? To, Janet Torres, Jaume School of Biological Sciences Biomimetic membranes Stable mutants Aquaporin inhibitors High-throughput assays Aquaporins In recent years, the use of biomimetic membranes that incorporate membrane proteins, i.e., biomimetic-hybrid membranes, has increased almost exponentially. Key membrane proteins in these systems have been aquaporins, which selectively permeabilize cellular membranes to water. Aquaporins may be incorporated into synthetic lipid bilayers or to more stable structures made of block copolymers or solid-state nanopores. However, translocation of aquaporins to these alien environments has adverse consequences in terms of performance and stability. Aquaporins incorporated in biomimetic membranes for use in water purification and desalination should also withstand the harsh environment that may prevail in these conditions, such as high pressure, and presence of salt or other chemicals. In this respect, modified aquaporins that can be adapted to these new environments should be developed. Another challenge is that biomimetic membranes that incorporate high densities of aquaporin should be defect-free, and this can only be efficiently ascertained with the availability of completely inactive mutants that behave otherwise like the wild type aquaporin, or with effective non-toxic water channel inhibitors that are so far inexistent. In this review, we describe approaches that can potentially be used to overcome these challenges. Published version 2016-01-12T05:41:18Z 2019-12-06T14:36:38Z 2016-01-12T05:41:18Z 2019-12-06T14:36:38Z 2015 Journal Article To, J., & Torres, J. (2015). Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? Membranes, 5(3), 352-368. 2077-0375 https://hdl.handle.net/10356/81710 http://hdl.handle.net/10220/39662 10.3390/membranes5030352 26266425 en Membranes © 2015 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/). 17 p. application/pdf |
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Biomimetic membranes Stable mutants Aquaporin inhibitors High-throughput assays Aquaporins |
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Biomimetic membranes Stable mutants Aquaporin inhibitors High-throughput assays Aquaporins To, Janet Torres, Jaume Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? |
| description |
In recent years, the use of biomimetic membranes that incorporate membrane proteins, i.e., biomimetic-hybrid membranes, has increased almost exponentially. Key membrane proteins in these systems have been aquaporins, which selectively permeabilize cellular membranes to water. Aquaporins may be incorporated into synthetic lipid bilayers or to more stable structures made of block copolymers or solid-state nanopores. However, translocation of aquaporins to these alien environments has adverse consequences in terms of performance and stability. Aquaporins incorporated in biomimetic membranes for use in water purification and desalination should also withstand the harsh environment that may prevail in these conditions, such as high pressure, and presence of salt or other chemicals. In this respect, modified aquaporins that can be adapted to these new environments should be developed. Another challenge is that biomimetic membranes that incorporate high densities of aquaporin should be defect-free, and this can only be efficiently ascertained with the availability of completely inactive mutants that behave otherwise like the wild type aquaporin, or with effective non-toxic water channel inhibitors that are so far inexistent. In this review, we describe approaches that can potentially be used to overcome these challenges. |
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School of Biological Sciences |
| author_facet |
School of Biological Sciences To, Janet Torres, Jaume |
| format |
Article |
| author |
To, Janet Torres, Jaume |
| author_sort |
To, Janet |
| title |
Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? |
| title_short |
Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? |
| title_full |
Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? |
| title_fullStr |
Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? |
| title_full_unstemmed |
Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes? |
| title_sort |
can stabilization and inhibition of aquaporins contribute to future development of biomimetic membranes? |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/81710 http://hdl.handle.net/10220/39662 |
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1759853799937146880 |