Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray
Deoxyribonucleic acid (DNA) has been used as a material for a variety of applications, including surface functionalization for cell biological or in vitro reconstitution studies. Use of DNA-based surface functionalization eliminates limitations of multiplexing posed by traditionally used methods in...
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sg-ntu-dr.10356-1392482020-06-01T10:13:33Z Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray Kabir H. Biswas Cho, Nam-Joon Groves, Jay T. School of Chemical and Biomedical Engineering School of Materials Science & Engineering Science::Biological sciences Vesicles Lipids Deoxyribonucleic acid (DNA) has been used as a material for a variety of applications, including surface functionalization for cell biological or in vitro reconstitution studies. Use of DNA-based surface functionalization eliminates limitations of multiplexing posed by traditionally used methods in applications requiring spatially segregated surface functionalization. Recently, we have reported a stochastic, membrane fusion-based strategy to fabricate multicomponent membrane array substrates displaying spatially segregated protein ligands using biotin-streptavidin and Ni-NTA-polyhistidine interactions. Here, we report the delivery of DNA oligonucleotide-conjugated lipid molecules to membrane corrals, allowing spatially segregated membrane corral functionalization in a membrane microarray. Incubation of microbeads coated with the supported membrane resulted in an exchange of lipid contents with planar membrane corrals present on a micropatterned substrate. Increases in the system temperature and membrane corral size resulted in alterations in the rate constant of lipid exchange, which are in agreement with our previously developed analytical model and further confirm that lipid exchange is a diffusion-based process that takes place after the formation of a long "fusion-stalk" between the two membranes. We take advantage of the physical dimensions of the fusion-stalk with a large aspect ratio to deliver DNA oligonucleotide-conjugated lipid molecules to membrane corrals. We believe that the ability to functionalize membrane corrals with DNA oligonucleotides significantly increases the utility of the stochastic fusion-mediated lipid delivery strategy in the functionalization of biomolecules such as DNA or DNA-conjugated protein ligands. NRF (Natl Research Foundation, S’pore) 2020-05-18T06:43:53Z 2020-05-18T06:43:53Z 2018 Journal Article Kabir H. Biswas, Cho, N.-J., & Groves, J. T. (2018). Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray. Langmuir, 34(33), 9781-9788. doi:10.1021/acs.langmuir.8b01364 0743-7463 https://hdl.handle.net/10356/139248 10.1021/acs.langmuir.8b01364 30032610 2-s2.0-85050738450 33 34 9781 9788 en Langmuir © 2018 American Chemical Society. All rights reserved. |
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Science::Biological sciences Vesicles Lipids |
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Science::Biological sciences Vesicles Lipids Kabir H. Biswas Cho, Nam-Joon Groves, Jay T. Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray |
| description |
Deoxyribonucleic acid (DNA) has been used as a material for a variety of applications, including surface functionalization for cell biological or in vitro reconstitution studies. Use of DNA-based surface functionalization eliminates limitations of multiplexing posed by traditionally used methods in applications requiring spatially segregated surface functionalization. Recently, we have reported a stochastic, membrane fusion-based strategy to fabricate multicomponent membrane array substrates displaying spatially segregated protein ligands using biotin-streptavidin and Ni-NTA-polyhistidine interactions. Here, we report the delivery of DNA oligonucleotide-conjugated lipid molecules to membrane corrals, allowing spatially segregated membrane corral functionalization in a membrane microarray. Incubation of microbeads coated with the supported membrane resulted in an exchange of lipid contents with planar membrane corrals present on a micropatterned substrate. Increases in the system temperature and membrane corral size resulted in alterations in the rate constant of lipid exchange, which are in agreement with our previously developed analytical model and further confirm that lipid exchange is a diffusion-based process that takes place after the formation of a long "fusion-stalk" between the two membranes. We take advantage of the physical dimensions of the fusion-stalk with a large aspect ratio to deliver DNA oligonucleotide-conjugated lipid molecules to membrane corrals. We believe that the ability to functionalize membrane corrals with DNA oligonucleotides significantly increases the utility of the stochastic fusion-mediated lipid delivery strategy in the functionalization of biomolecules such as DNA or DNA-conjugated protein ligands. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Kabir H. Biswas Cho, Nam-Joon Groves, Jay T. |
| format |
Article |
| author |
Kabir H. Biswas Cho, Nam-Joon Groves, Jay T. |
| author_sort |
Kabir H. Biswas |
| title |
Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray |
| title_short |
Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray |
| title_full |
Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray |
| title_fullStr |
Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray |
| title_full_unstemmed |
Fabrication of multicomponent, spatially segregated DNA and protein-functionalized supported membrane microarray |
| title_sort |
fabrication of multicomponent, spatially segregated dna and protein-functionalized supported membrane microarray |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139248 |
| _version_ |
1681056820413595648 |