Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases
The mussel byssus cuticle is a wear-resistant and extensible metalloprotein composite. Here, the authors probed the cuticle nanostructure and composition before, during and after fabrication revealing a crucial role of metal-binding proteins that self-organize via liquid-liquid phase separation.
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Nature Portfolio
2020
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oai:doaj.org-article:80dfa9cdc44948c0a4b677b761b1ddf32021-12-02T14:41:12ZHierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases10.1038/s41467-020-14709-y2041-1723https://doaj.org/article/80dfa9cdc44948c0a4b677b761b1ddf32020-02-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-14709-yhttps://doaj.org/toc/2041-1723The mussel byssus cuticle is a wear-resistant and extensible metalloprotein composite. Here, the authors probed the cuticle nanostructure and composition before, during and after fabrication revealing a crucial role of metal-binding proteins that self-organize via liquid-liquid phase separation.Franziska JehleElena Macías-SánchezSanja SvibenPeter FratzlLuca BertinettiMatthew J. HarringtonNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-9 (2020) |
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Science Q Franziska Jehle Elena Macías-Sánchez Sanja Sviben Peter Fratzl Luca Bertinetti Matthew J. Harrington Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
description |
The mussel byssus cuticle is a wear-resistant and extensible metalloprotein composite. Here, the authors probed the cuticle nanostructure and composition before, during and after fabrication revealing a crucial role of metal-binding proteins that self-organize via liquid-liquid phase separation. |
format |
article |
author |
Franziska Jehle Elena Macías-Sánchez Sanja Sviben Peter Fratzl Luca Bertinetti Matthew J. Harrington |
author_facet |
Franziska Jehle Elena Macías-Sánchez Sanja Sviben Peter Fratzl Luca Bertinetti Matthew J. Harrington |
author_sort |
Franziska Jehle |
title |
Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
title_short |
Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
title_full |
Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
title_fullStr |
Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
title_full_unstemmed |
Hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
title_sort |
hierarchically-structured metalloprotein composite coatings biofabricated from co-existing condensed liquid phases |
publisher |
Nature Portfolio |
publishDate |
2020 |
url |
https://doaj.org/article/80dfa9cdc44948c0a4b677b761b1ddf3 |
work_keys_str_mv |
AT franziskajehle hierarchicallystructuredmetalloproteincompositecoatingsbiofabricatedfromcoexistingcondensedliquidphases AT elenamaciassanchez hierarchicallystructuredmetalloproteincompositecoatingsbiofabricatedfromcoexistingcondensedliquidphases AT sanjasviben hierarchicallystructuredmetalloproteincompositecoatingsbiofabricatedfromcoexistingcondensedliquidphases AT peterfratzl hierarchicallystructuredmetalloproteincompositecoatingsbiofabricatedfromcoexistingcondensedliquidphases AT lucabertinetti hierarchicallystructuredmetalloproteincompositecoatingsbiofabricatedfromcoexistingcondensedliquidphases AT matthewjharrington hierarchicallystructuredmetalloproteincompositecoatingsbiofabricatedfromcoexistingcondensedliquidphases |
_version_ |
1718390002321195008 |