Rational design of a photo-responsive UVR8-derived protein and a self-assembling peptide-protein conjugate for responsive hydrogel formationElectronic supplementary information (ESI) available. See DOI: 10.1039/c5nr05213k

Responsive hydrogels hold great potential in controllable drug delivery, regenerative medicine, sensing, etc . We introduced in this study the first example of a photo-responsive protein for hydrogel formation. Based on the first example of the crystal structure of a photo-responsive protein, Arabid...

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Hauptverfasser: Zhang, Xiaoli, Dong, Chunming, Huang, Weiyun, Wang, Huaimin, Wang, Ling, Ding, Dan, Zhou, Hao, Long, Jiafu, Wang, Tingliang, Yang, Zhimou
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Sprache:eng
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Zusammenfassung:Responsive hydrogels hold great potential in controllable drug delivery, regenerative medicine, sensing, etc . We introduced in this study the first example of a photo-responsive protein for hydrogel formation. Based on the first example of the crystal structure of a photo-responsive protein, Arabidopsis thaliana protein UVR8, we designed and expressed its derived protein UVR8-1 with a hexa-peptide WRESAI. We also prepared supramolecular nanofibers with a TIP-1 protein at their surface. The simple mixing of these two components resulted in rapid hydrogel formation through the specific interactions between the protein TIP-1 and the peptide WRESAI. Since the protein could show a reversible dimer-monomer transformation, the resulting gels also showed a reversible gel-sol phase transition which was controlled by photo-irradiation. The photo-controllable gel-sol phase transition could be applied for protein delivery and cell separation. We reported a photo-responsive protein and a self-assembling peptide-protein conjugate for the construction of photo-responsive hydrogels.
ISSN:2040-3364
2040-3372
DOI:10.1039/c5nr05213k