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-Structure paper
Title | An evolved artificial radical cyclase enables the construction of bicyclic terpenoid scaffolds via an H-atom transfer pathway. |
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Journal, issue, pages | Nat. Chem., Year 2024 |
Publish date | Sep 1, 2023 (structure data deposition date) |
Authors | Chen, D. / Zhang, X. / Vorobieva, A.A. / Tachibana, R. / Stein, A. / Jakob, R.P. / Zou, Z. / Graf, D.A. / Li, A. / Maier, T. ...Chen, D. / Zhang, X. / Vorobieva, A.A. / Tachibana, R. / Stein, A. / Jakob, R.P. / Zou, Z. / Graf, D.A. / Li, A. / Maier, T. / Correia, B.E. / Ward, T.R. |
External links | Nat. Chem. / PubMed:39030420 |
Methods | X-ray diffraction |
Resolution | 1.9 Å |
Structure data | PDB-8qex: |
Chemicals |
ChemComp-UFU: ChemComp-HOH: |
Source |
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Keywords | METAL BINDING PROTEIN / metal-catalyzed hydrogen-atom-transfer / artificial radical cyclase / protein design |