Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties
Coiled coils with defined assembly properties and dissociation constants are highly attractive components in synthetic biology and for fabrication of peptide-based hybrid nanomaterials and nanostructures. Complex assemblies based on multiple different peptides typically require orthogonal peptides o...
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sg-ntu-dr.10356-1035262023-07-14T15:45:41Z Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties Aronsson, Christopher Dånmark, Staffan Zhou, Feng Öberg, Per Enander, Karin Su, Haibin Aili, Daniel School of Materials Science & Engineering Coiled coils with defined assembly properties and dissociation constants are highly attractive components in synthetic biology and for fabrication of peptide-based hybrid nanomaterials and nanostructures. Complex assemblies based on multiple different peptides typically require orthogonal peptides obtained by negative design. Negative design does not necessarily exclude formation of undesired species and may eventually compromise the stability of the desired coiled coils. This work describe a set of four promiscuous 28-residue de novo designed peptides that heterodimerize and fold into parallel coiled coils. The peptides are non-orthogonal and can form four different heterodimers albeit with large differences in affinities. The peptides display dissociation constants for dimerization spanning from the micromolar to the picomolar range. The significant differences in affinities for dimerization make the peptides prone to thermodynamic social self-sorting as shown by thermal unfolding and fluorescence experiments, and confirmed by simulations. The peptides self-sort with high fidelity to form the two coiled coils with the highest and lowest affinities for heterodimerization. The possibility to exploit self-sorting of mutually complementary peptides could hence be a viable approach to guide the assembly of higher order architectures and a powerful strategy for fabrication of dynamic and tuneable nanostructured materials. Published version 2015-10-01T07:23:10Z 2019-12-06T21:14:34Z 2015-10-01T07:23:10Z 2019-12-06T21:14:34Z 2015 2015 Journal Article Aronsson, C., Dånmark, S., Zhou, F., Öberg, P., Enander, K., Su, H., et al. (2015). Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties. Scientific Reports, 5, 14063-. 2045-2322 https://hdl.handle.net/10356/103526 http://hdl.handle.net/10220/38765 10.1038/srep14063 26370878 en Scientific Reports This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ application/pdf |
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Coiled coils with defined assembly properties and dissociation constants are highly attractive components in synthetic biology and for fabrication of peptide-based hybrid nanomaterials and nanostructures. Complex assemblies based on multiple different peptides typically require orthogonal peptides obtained by negative design. Negative design does not necessarily exclude formation of undesired species and may eventually compromise the stability of the desired coiled coils. This work describe a set of four promiscuous 28-residue de novo designed peptides that heterodimerize and fold into parallel coiled coils. The peptides are non-orthogonal and can form four different heterodimers albeit with large differences in affinities. The peptides display dissociation constants for dimerization spanning from the micromolar to the picomolar range. The significant differences in affinities for dimerization make the peptides prone to thermodynamic social self-sorting as shown by thermal unfolding and fluorescence experiments, and confirmed by simulations. The peptides self-sort with high fidelity to form the two coiled coils with the highest and lowest affinities for heterodimerization. The possibility to exploit self-sorting of mutually complementary peptides could hence be a viable approach to guide the assembly of higher order architectures and a powerful strategy for fabrication of dynamic and tuneable nanostructured materials. |
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School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Aronsson, Christopher Dånmark, Staffan Zhou, Feng Öberg, Per Enander, Karin Su, Haibin Aili, Daniel |
| format |
Article |
| author |
Aronsson, Christopher Dånmark, Staffan Zhou, Feng Öberg, Per Enander, Karin Su, Haibin Aili, Daniel |
| spellingShingle |
Aronsson, Christopher Dånmark, Staffan Zhou, Feng Öberg, Per Enander, Karin Su, Haibin Aili, Daniel Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| author_sort |
Aronsson, Christopher |
| title |
Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| title_short |
Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| title_full |
Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| title_fullStr |
Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| title_full_unstemmed |
Self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| title_sort |
self-sorting heterodimeric coiled coil peptides with defined and tuneable self-assembly properties |
| publishDate |
2015 |
| url |
https://hdl.handle.net/10356/103526 http://hdl.handle.net/10220/38765 |
| _version_ |
1772828170277355520 |