Publikation: Bipartite design of a self-fibrillating protein copolymer with nanopatterned peptide display capabilities
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Datum
2010
Autor:innen
Bruning, Marc
Kreplak, Laurent
Leopoldseder, Sonja
Müller, Shirley A.
Ringler, Philippe
Duchesne, Laurence
Fernig, David G
Engel, Andreas
Ucurum-Fotiadis, Zöhre
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Nano letters. 2010, 10(11), pp. 4533-4537. ISSN 1530-6984. eISSN 1530-6992. Available under: doi: 10.1021/nl1024886
Zusammenfassung
The development of biomatrices for technological and biomedical applications employs self-assembled scaffolds built from short peptidic motifs. However, biopolymers composed of protein domains would offer more varied molecular frames to introduce finer and more complex functionalities in bioreactive scaffolds using bottom-up approaches. Yet, the rules governing the three-dimensional organization of protein architectures in nature are complex and poorly understood. As a result, the synthetic fabrication of ordered protein association into polymers poses major challenges to bioengineering. We have now fabricated a self-assembling protein nanofiber with predictable morphologies and amenable to bottom-up customization, where features supporting function and assembly are spatially segregated. The design was inspired by the cross-linking of titin filaments by telethonin in the muscle sarcomere. The resulting fiber is a two-protein system that has nanopatterned peptide display capabilities as shown by the recruitment of functionalized gold nanoparticles at regular intervals of ∼ 5 nm, yielding a semiregular linear array over micrometers. This polymer promises the uncomplicated display of biologically active motifs to selectively bind and organize matter in the fine nanoscale. Further, its conceptual design has high potential for controlled plurifunctionalization.
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Fachgebiet (DDC)
570 Biowissenschaften, Biologie
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Nanofiber, protein polymer, protein engineering, self-assembly, biomaterial, peptide display system, gold nanoparticles, 1D array
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BRUNING, Marc, Laurent KREPLAK, Sonja LEOPOLDSEDER, Shirley A. MÜLLER, Philippe RINGLER, Laurence DUCHESNE, David G FERNIG, Andreas ENGEL, Zöhre UCURUM-FOTIADIS, Olga MAYANS, 2010. Bipartite design of a self-fibrillating protein copolymer with nanopatterned peptide display capabilities. In: Nano letters. 2010, 10(11), pp. 4533-4537. ISSN 1530-6984. eISSN 1530-6992. Available under: doi: 10.1021/nl1024886BibTex
@article{Bruning2010Bipar-42007,
year={2010},
doi={10.1021/nl1024886},
title={Bipartite design of a self-fibrillating protein copolymer with nanopatterned peptide display capabilities},
number={11},
volume={10},
issn={1530-6984},
journal={Nano letters},
pages={4533--4537},
author={Bruning, Marc and Kreplak, Laurent and Leopoldseder, Sonja and Müller, Shirley A. and Ringler, Philippe and Duchesne, Laurence and Fernig, David G and Engel, Andreas and Ucurum-Fotiadis, Zöhre and Mayans, Olga}
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<dcterms:abstract xml:lang="eng">The development of biomatrices for technological and biomedical applications employs self-assembled scaffolds built from short peptidic motifs. However, biopolymers composed of protein domains would offer more varied molecular frames to introduce finer and more complex functionalities in bioreactive scaffolds using bottom-up approaches. Yet, the rules governing the three-dimensional organization of protein architectures in nature are complex and poorly understood. As a result, the synthetic fabrication of ordered protein association into polymers poses major challenges to bioengineering. We have now fabricated a self-assembling protein nanofiber with predictable morphologies and amenable to bottom-up customization, where features supporting function and assembly are spatially segregated. The design was inspired by the cross-linking of titin filaments by telethonin in the muscle sarcomere. The resulting fiber is a two-protein system that has nanopatterned peptide display capabilities as shown by the recruitment of functionalized gold nanoparticles at regular intervals of ∼ 5 nm, yielding a semiregular linear array over micrometers. This polymer promises the uncomplicated display of biologically active motifs to selectively bind and organize matter in the fine nanoscale. Further, its conceptual design has high potential for controlled plurifunctionalization.</dcterms:abstract>
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