Biomolecular Click Reactions Using a Minimal pH-Activated Catcher/Tag Pair for Producing Native-Sized Spider-Silk Proteins
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| Title: | Biomolecular Click Reactions Using a Minimal pH-Activated Catcher/Tag Pair for Producing Native-Sized Spider-Silk Proteins |
| Author(s): | Fan, Ruxia ; Hakanpää, Johanna ; Elfving, Karoliina ; Taberman, Helena ; Linder, Markus B. ; Aranko, A. Sesilja |
| Date: | 2023-03-06 |
| Language: | en |
| Pages: | 10 |
| Department: | Department of Bioproducts and Biosystems German Electron Synchrotron |
| Series: | Angewandte Chemie - International Edition, Volume 62, issue 11 |
| ISSN: | 1433-7851 1521-3773 |
| DOI-number: | 10.1002/anie.202216371 |
| Keywords: | Catcher/Tag, Protein Engineering, Protein Ligation, Protein Modifications, Spider Silk |
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Fan , R , Hakanpää , J , Elfving , K , Taberman , H , Linder , M B & Aranko , A S 2023 , ' Biomolecular Click Reactions Using a Minimal pH-Activated Catcher/Tag Pair for Producing Native-Sized Spider-Silk Proteins ' , Angewandte Chemie - International Edition , vol. 62 , no. 11 , e202216371 . https://doi.org/10.1002/anie.202216371 |
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Abstract:A type of protein/peptide pair known as Catcher/Tag pair spontaneously forms an intermolecular isopeptide bond which can be applied for biomolecular click reactions. Covalent protein conjugation using Catcher/Tag pairs has turned out to be a valuable tool in biotechnology and biomedicines, but it is essential to increase the current toolbox of orthogonal Catcher/Tag pairs to expand the range of applications further, for example, for controlled multiple-fragment ligation. We report here the engineering of novel Catcher/Tag pairs for protein ligation, aided by a crystal structure of a minimal CnaB domain from Lactobacillus plantarum. We show that a newly engineered pair, called SilkCatcher/Tag enables efficient pH-inducible protein ligation in addition to being compatible with the widely used SpyCatcher/Tag pair. Finally, we demonstrate the use of the SilkCatcher/Tag pair in the production of native-sized highly repetitive spider-silk-like proteins with >90 % purity, which is not possible by traditional recombinant production methods.
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Description:Funding Information: We thank Eva Crosas for her help with the early phases of the structure refinement. Protein crystallization was performed at SPC facility at EMBL Hamburg and the CD spectroscopy and mass spectrometry of the crystallized proteins at the Center for Structural Systems Biology (CSSB, Deutsches Elektronen‐Synchrotron DESY). We acknowledge technical support by the SPC facility at EMBL Hamburg. The synchrotron data was collected at beamline operated by EMBL Hamburg at the PETRA III storage ring (DESY, Hamburg, Germany). This work was supported by the Academy of Finland through its Centres of Excellence Programme Life‐Inspired Hybrid Materials (LIBER, 2022–2029) under project no 346105 and Academy of Finland projects nos. 317395, 308772, and 333238. We are grateful for the support by the FinnCERES Materials Bioeconomy Ecosystem and use of the Bioeconomy Infrastructure at the Aalto University. Publisher Copyright: © 2023 Wiley-VCH GmbH.
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