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| Home > Publications database > Harnessing the Dynamic Nature of a Zirconium‐Oxo Nanocluster for Reversible Protein Capture and Proteolysis |
| Home > Publications database > Harnessing the Dynamic Nature of a Zirconium‐Oxo Nanocluster for Reversible Protein Capture and Proteolysis |
| Journal Article | PUBDB-2025-04427 |
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2025
Wiley-VCH
Weinheim
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Please use a persistent id in citations: doi:10.1002/anie.202512482
Abstract: Selective proteolysis remains a significant challenge with relevance to industrial and pharmaceutical applications, motivating development of chemical strategies emulating the specificity of natural proteases. Here, we report that the discrete Zr-oxo nanocluster-based solid, [Zr17O8(OH)24(OH2)12(HCO2)12(SO4)8] · 6 HCl · 30 H2O (Zr17) serves as an efficient, recyclable heterogeneous catalyst for site-selective proteolysis with tunable fragment selectivity. A combination of solution- and solid-state NMR spectroscopy highlighted the importance of the ligand environment of solid Zr17 for enabling efficient protein-cluster interaction and controlling reactivity. We demonstrate that Zr17 achieves a proteolytic performance comparable to natural enzymes while allowing fine modulation of peptide product profiles by adjusting reaction parameters. Substrate adsorption and product desorption were found to be governed by the net charge of both catalyst and substrate, as well as rapid reorganization of the cluster's capping ligands, according to UV-Vis/IR spectroscopy and isothermal titration calorimetry. Crucially, the insoluble nature and excellent stability of Zr17, evidenced by pair distribution function analysis, allowed reuse across multiple catalytic cycles, overcoming a major limitation of proteolytic systems. This study reveals how cluster surface chemistry governs substrate interaction and catalysis, guiding rational design of next-generation cluster-based catalysts, including hybrid materials such as metal-organic frameworks.
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