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Literature DB >> 33305760

[FeFe]-Hydrogenases: maturation and reactivity of enzymatic systems and overview of biomimetic models.

Julian T Kleinhaus¹, Florian Wittkamp¹, Shanika Yadav¹, Daniel Siegmund², Ulf-Peter Apfel³.

Abstract

While hydrogen plays an ever-increasing role in modern society, nature has utilized hydrogen since a very long time as an energy carrier and storage molecule. Among the enzymatic systems that metabolise hydrogen, [FeFe]-hydrogenases are one of the most powerful systems to perform this conversion. In this light, we will herein present an overview on developments in [FeFe]-hydrogenase research with a strong focus on synthetic mimics and their application within the native enzymatic environment. This review spans from the biological assembly of the natural enzyme and the highly controversial discussed mechanism for the hydrogen generation to the synthesis of multiple mimic platforms as well as their electrochemical behaviour.

Entities: Chemical

Mesh：

Substances：

Year: 2021 PMID： 33305760 DOI： 10.1039/d0cs01089h

Source DB: PubMed Journal: Chem Soc Rev ISSN： 0306-0012 Impact factor: 54.564

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Cited

13 in total

Review 1. Second and Outer Coordination Sphere Effects in Nitrogenase, Hydrogenase, Formate Dehydrogenase, and CO Dehydrogenase.

Authors: Sven T Stripp; Benjamin R Duffus; Vincent Fourmond; Christophe Léger; Silke Leimkühler; Shun Hirota; Yilin Hu; Andrew Jasniewski; Hideaki Ogata; Markus W Ribbe
Journal: Chem Rev Date: 2022-07-18 Impact factor: 72.087

2. Hydride state accumulation in native [FeFe]-hydrogenase with the physiological reductant H₂ supports its catalytic relevance.

Authors: Moritz Senger; Tobias Kernmayr; Marco Lorenzi; Holly J Redman; Gustav Berggren
Journal: Chem Commun (Camb) Date: 2022-06-23 Impact factor: 6.065

3. Time-Resolved Infrared Spectroscopy Reveals the pH-Independence of the First Electron Transfer Step in the [FeFe] Hydrogenase Catalytic Cycle.

Authors: Monica L K Sanchez; Seth Wiley; Edward Reijerse; Wolfgang Lubitz; James A Birrell; R Brian Dyer
Journal: J Phys Chem Lett Date: 2022-06-23 Impact factor: 6.888

4. CO substitution by PPh₃ in Fe₂S₂(CO)₆ proceeds via a novel Fe₂S intermediate.

Authors: Fanjun Zhang; Toby J Woods; Thomas B Rauchfuss; Federica Arrigoni; Giuseppe Zampella
Journal: Chem Commun (Camb) Date: 2021-04-23 Impact factor: 6.222

5. Computational and Experimental Investigations of the Fe₂(μ-S₂)/Fe₂(μ-S)₂ Equilibrium.

Authors: Federica Arrigoni; Giuseppe Zampella; Fanjun Zhang; Husain N Kagalwala; Qian-Li Li; Toby J Woods; Thomas B Rauchfuss
Journal: Inorg Chem Date: 2021-03-02 Impact factor: 5.165

6. Organometallic Fe₂(μ-SH)₂(CO)₄(CN)₂ Cluster Allows the Biosynthesis of the [FeFe]-Hydrogenase with Only the HydF Maturase.

Authors: Yu Zhang; Lizhi Tao; Toby J Woods; R David Britt; Thomas B Rauchfuss
Journal: J Am Chem Soc Date: 2022-01-18 Impact factor: 16.383

7. Combining metal-metal cooperativity, metal-ligand cooperativity and chemical non-innocence in diiron carbonyl complexes.

Authors: Cody B van Beek; Nicolaas P van Leest; Martin Lutz; Sander D de Vos; Robertus J M Klein Gebbink; Bas de Bruin; Daniël L J Broere
Journal: Chem Sci Date: 2022-01-18 Impact factor: 9.825

Review 8. Proposed Mechanism for the Biosynthesis of the [FeFe] Hydrogenase H-Cluster: Central Roles for the Radical SAM Enzymes HydG and HydE.

Authors: R David Britt; Lizhi Tao; Guodong Rao; Nanhao Chen; Lee-Ping Wang
Journal: ACS Bio Med Chem Au Date: 2021-10-27

9. Inhibition of [FeFe]-hydrogenase by formaldehyde: proposed mechanism and reactivity of FeFe alkyl complexes.

Authors: Fanjun Zhang; Toby J Woods; Lingyang Zhu; Thomas B Rauchfuss
Journal: Chem Sci Date: 2021-11-16 Impact factor: 9.825

10. Surprising Condensation Reactions of the Azadithiolate Cofactor.

Authors: Fanjun Zhang; Casseday P Richers; Toby J Woods; Thomas B Rauchfuss
Journal: Angew Chem Int Ed Engl Date: 2021-08-18 Impact factor: 16.823