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Publications on Artificial Metalloenzymes

13. Reactivity Tuning of Metal‐Free Artificial Photoenzymes through Binding Site Specific Bioconjugation

Thomas Kuckhoff, Richard C. Brewster, Calum T. J. Ferguson*, Amanda G. Jarvis*

Eur. J. Org. Chem. 2023, 26, e202201412.

12. Protein–Substrate Supramolecular Interactions for the Shape‐Selective Hydroformylation of Long‐Chain α‐Olefins

P. J. Deuss, A. G. Jarvis

Supramolecular Catalysis: New Directions and Developments, 2022, p. 547-560.

11. Macrocylases as synthetic tools for ligand synthesis: enzymatic synthesis of cyclic peptides containing metal-binding amino acids.

R. C. Brewster, I. Colmernero, C. E. Soden, A. G. Jarvis*

Royal Society, Open Sci. 2021, 8, 211098. (part of a special issue: Catalysis for a sustainable future).


10. News and Views: Striking gold with chimeric proteins

A. G. Jarvis,

Nat. Catal. 2021, 4, 639-640.

9. Engineering Thermostability in Artificial Metalloenzymes to Increase Catalytic Activity

M. V. Doble, L. Obrecht, H-J. Joosten, M. Lee, H. J. Rozeboom, E. Branigan, J. H. Naismith, D. B. Janssen, A. G. Jarvis*, P. C. J. Kamer

ACS Catal. 2021, 11, 3620.

8. Palladium in biological media: Can the synthetic chemist's most versatile transition metal become a powerful biological tool?

R. C. Brewster, E. Klemencic, A. G. Jarvis

J. Inorg. Biochem. 2021, 251, 111317

7. Designer metalloenzymes for synthetic biology: Enzyme hybrids for catalysis

A. G. Jarvis

Curr. Opin. Chem. Biol. 2020, 58, 63-71.

6. Catalysis and biophysical investigation of rhodium hydroformylase

H. T. Imam, A. G. Jarvis*, I. Baig, C. C. R. Allen, A. C. Marr*, P. C. J. Kamer*

Catal. Sci. Technol. 20199, 6428-6437.

5. Artificial Metalloenzymes as Catalysts for Oxidative Lignin Degradation

M. V. Doble, A. G. Jarvis*, A. C. C. Ward, J. D. Colburn, J. P. Goetz, M. Buehl, P. C. J. Kamer

ACS Sustainable Chem. Eng. 2018, 6, 15100.

4. Chapter 10: Hybrid Catalysts for other C-C and C-X bond formation reactions.

P. J. Deuss, M. V. Doble, A. G. Jarvis, and P. C. J. Kamer

Artificial metalloenzymes and metalloDNAzymes in catalysis. From design to application. Wiley, 2018.

3. Enzyme activity by design: an artificial rhodium hydroformylase for linear aldehydes

A. G. Jarvis*, L. Obrecht, P. J. Deuss, W. Laan, E. K. Gibson, P. P. Wells, and P. C. J. Kamer*

Angew. Chem., Int. Ed. 2017, 56, 13596-13600. VIP paper

2. Outperforming Nature’s Catalysts: Designing Metalloenzymes for Chemical Synthesis

C. Fehl, A. G. Jarvis, M. Espling, B. Davis and P. C. J. Kamer

Modern Development in Catalysis, 2017, 89-122. World Scientific

1. Catalyst design in oxidation chemistry; from KMnO­4 to artificial metalloenzymes

M. V. Doble, A. C. C. Ward, P. J. Deuss, A. G. Jarvis*, and P. C. J. Kamer

Bioorganic and Medicinal Chemistry, 2014, 22, 5657-5677.


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