Synthesis of the H-cluster framework of iron-only hydrogenase

Fuel cells: iron is the new platinum In conventional hydrogen fuel cells the rapid interconversion of protons and electrons to hydrogen requires catalysis by expensive metals, usually platinum. In the living world enzymes catalyse this same reaction at extraordinary rates using abundant metals. Tard...

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Published in	Nature (London) Vol. 433; no. 7026; pp. 610 - 613
Main Authors	Tard, Cédric, Liu, Xiaoming, Ibrahim, Saad K., Bruschi, Maurizio, Gioia, Luca De, Davies, Siân C., Yang, Xin, Wang, Lai-Sheng, Sawers, Gary, Pickett, Christopher J.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 10.02.2005 Nature Publishing Nature Publishing Group
Subjects	Analytical, structural and metabolic biochemistry Binding Sites Biological and medical sciences Biomimetic Materials - chemical synthesis Biomimetic Materials - chemistry Biotechnology Catalysis Chemical Sciences Chemical synthesis Clostridium - enzymology Desulfovibrio desulfuricans - enzymology Electrochemistry Enzymes and enzyme inhibitors Fuel cells Fundamental and applied biological sciences. Psychology Humanities and Social Sciences Hydrogen Hydrogen - chemistry Hydrogen production Hydrogenase - chemical synthesis Hydrogenase - chemistry Iron Iron - chemistry Iron-Sulfur Proteins - chemical synthesis Iron-Sulfur Proteins - chemistry letter Lyases Models, Molecular multidisciplinary Other Oxidation-Reduction Protons Science Science (multidisciplinary) Structure-Activity Relationship Sulfur - chemistry Hydrogenase Enzyme Active site Iron Oxidoreductases Mechanism of action Iron Sulfur cluster
Online Access	Get full text
ISSN	0028-0836 1476-4687 1476-4687
DOI	10.1038/nature03298

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Abstract	Fuel cells: iron is the new platinum In conventional hydrogen fuel cells the rapid interconversion of protons and electrons to hydrogen requires catalysis by expensive metals, usually platinum. In the living world enzymes catalyse this same reaction at extraordinary rates using abundant metals. Tard et al . now report the chemical synthesis of the iron–sulphur structure at the heart of the hydrogenase protein. The resulting iron–sulphur framework functions as an electrocatalyst for proton reduction, a potentially important step towards new materials to replace platinum in the anodes of fuel cells. The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active sites—through mechanistic studies of hydrogenases 1 , 2 , 3 , 4 , synthetic assemblies 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 and in silico models 13 , 14 , 15 —will help guide the design of new materials for hydrogen production or uptake 16 . Here we report the assembly of the iron-sulphur framework of the active site of iron-only hydrogenase (the H-cluster), and show that it functions as an electrocatalyst for proton reduction. Through linking of a di-iron subsite to a {4Fe4S} cluster, we achieve the first synthesis of a metallosulphur cluster core involved in small-molecule catalysis. In addition to advancing our understanding of the natural biological system, the availability of an active, free-standing analogue of the H-cluster may enable us to develop useful electrocatalytic materials for application in, for example, reversible hydrogen fuel cells. (Platinum is currently the preferred electrocatalyst for such applications, but is expensive, limited in availability and, in the long term, unsustainable 17 .)
AbstractList	Fuel cells: iron is the new platinum In conventional hydrogen fuel cells the rapid interconversion of protons and electrons to hydrogen requires catalysis by expensive metals, usually platinum. In the living world enzymes catalyse this same reaction at extraordinary rates using abundant metals. Tard et al . now report the chemical synthesis of the iron–sulphur structure at the heart of the hydrogenase protein. The resulting iron–sulphur framework functions as an electrocatalyst for proton reduction, a potentially important step towards new materials to replace platinum in the anodes of fuel cells. The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active sites—through mechanistic studies of hydrogenases 1 , 2 , 3 , 4 , synthetic assemblies 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 and in silico models 13 , 14 , 15 —will help guide the design of new materials for hydrogen production or uptake 16 . Here we report the assembly of the iron-sulphur framework of the active site of iron-only hydrogenase (the H-cluster), and show that it functions as an electrocatalyst for proton reduction. Through linking of a di-iron subsite to a {4Fe4S} cluster, we achieve the first synthesis of a metallosulphur cluster core involved in small-molecule catalysis. In addition to advancing our understanding of the natural biological system, the availability of an active, free-standing analogue of the H-cluster may enable us to develop useful electrocatalytic materials for application in, for example, reversible hydrogen fuel cells. (Platinum is currently the preferred electrocatalyst for such applications, but is expensive, limited in availability and, in the long term, unsustainable 17 .) The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active sites-through mechanistic studies of hydrogenases, synthetic assemblies and in silico models-will help guide the design of new materials for hydrogen production or uptake. Here we report the assembly of the iron-sulphur framework of the active site of iron-only hydrogenase (the H-cluster), and show that it functions as an electrocatalyst for proton reduction. Through linking of a di-iron subsite to a {4Fe4S} cluster, we achieve the first synthesis of a metallosulphur cluster core involved in small-molecule catalysis. In addition to advancing our understanding of the natural biological system, the availability of an active, free-standing analogue of the H-cluster may enable us to develop useful electrocatalytic materials for application in, for example, reversible hydrogen fuel cells. (Platinum is currently the preferred electrocatalyst for such applications, but is expensive, limited in availability and, in the long term, unsustainable.) [PUBLICATION ABSTRACT] The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active sites--through mechanistic studies of hydrogenases, synthetic assemblies and in silico models--will help guide the design of new materials for hydrogen production or uptake. Here we report the assembly of the iron-sulphur framework of the active site of iron-only hydrogenase (the H-cluster), and show that it functions as an electrocatalyst for proton reduction. Through linking of a di-iron subsite to a {4Fe4S} cluster, we achieve the first synthesis of a metallosulphur cluster core involved in small-molecule catalysis. In addition to advancing our understanding of the natural biological system, the availability of an active, free-standing analogue of the H-cluster may enable us to develop useful electrocatalytic materials for application in, for example, reversible hydrogen fuel cells. (Platinum is currently the preferred electrocatalyst for such applications, but is expensive, limited in availability and, in the long term, unsustainable.).The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active sites--through mechanistic studies of hydrogenases, synthetic assemblies and in silico models--will help guide the design of new materials for hydrogen production or uptake. Here we report the assembly of the iron-sulphur framework of the active site of iron-only hydrogenase (the H-cluster), and show that it functions as an electrocatalyst for proton reduction. Through linking of a di-iron subsite to a {4Fe4S} cluster, we achieve the first synthesis of a metallosulphur cluster core involved in small-molecule catalysis. In addition to advancing our understanding of the natural biological system, the availability of an active, free-standing analogue of the H-cluster may enable us to develop useful electrocatalytic materials for application in, for example, reversible hydrogen fuel cells. (Platinum is currently the preferred electrocatalyst for such applications, but is expensive, limited in availability and, in the long term, unsustainable.). The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active sites--through mechanistic studies of hydrogenases, synthetic assemblies and in silico models--will help guide the design of new materials for hydrogen production or uptake. Here we report the assembly of the iron-sulphur framework of the active site of iron-only hydrogenase (the H-cluster), and show that it functions as an electrocatalyst for proton reduction. Through linking of a di-iron subsite to a {4Fe4S} cluster, we achieve the first synthesis of a metallosulphur cluster core involved in small-molecule catalysis. In addition to advancing our understanding of the natural biological system, the availability of an active, free-standing analogue of the H-cluster may enable us to develop useful electrocatalytic materials for application in, for example, reversible hydrogen fuel cells. (Platinum is currently the preferred electrocatalyst for such applications, but is expensive, limited in availability and, in the long term, unsustainable.).
Audience	Academic
Author	Liu, Xiaoming Gioia, Luca De Yang, Xin Bruschi, Maurizio Wang, Lai-Sheng Sawers, Gary Pickett, Christopher J. Tard, Cédric Ibrahim, Saad K. Davies, Siân C.
Author_xml	– sequence: 1 givenname: Cédric surname: Tard fullname: Tard, Cédric organization: Department of Biological Chemistry – sequence: 2 givenname: Xiaoming surname: Liu fullname: Liu, Xiaoming organization: Department of Biological Chemistry – sequence: 3 givenname: Saad K. surname: Ibrahim fullname: Ibrahim, Saad K. organization: Department of Biological Chemistry – sequence: 4 givenname: Maurizio surname: Bruschi fullname: Bruschi, Maurizio organization: Department of Biotechnology and Biosciences, University of Milano-Bicocca – sequence: 5 givenname: Luca De surname: Gioia fullname: Gioia, Luca De organization: Department of Biotechnology and Biosciences, University of Milano-Bicocca – sequence: 6 givenname: Siân C. surname: Davies fullname: Davies, Siân C. organization: Department of Biological Chemistry – sequence: 7 givenname: Xin surname: Yang fullname: Yang, Xin organization: Department of Physics, Washington State University, WR Wiley Environmental Science Laboratory and Chemical Sciences Division, Pacific Northwest National Laboratory – sequence: 8 givenname: Lai-Sheng surname: Wang fullname: Wang, Lai-Sheng organization: Department of Physics, Washington State University, WR Wiley Environmental Science Laboratory and Chemical Sciences Division, Pacific Northwest National Laboratory – sequence: 9 givenname: Gary surname: Sawers fullname: Sawers, Gary organization: Department of Molecular Microbiology, John Innes Centre – sequence: 10 givenname: Christopher J. surname: Pickett fullname: Pickett, Christopher J. email: chris.pickett@bbsrc.ac.uk organization: Department of Biological Chemistry
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Snippet	Fuel cells: iron is the new platinum In conventional hydrogen fuel cells the rapid interconversion of protons and electrons to hydrogen requires catalysis by... The metal-sulphur active sites of hydrogenases catalyse hydrogen evolution or uptake at rapid rates. Understanding the structure and function of these active...
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SubjectTerms	Analytical, structural and metabolic biochemistry Binding Sites Biological and medical sciences Biomimetic Materials - chemical synthesis Biomimetic Materials - chemistry Biotechnology Catalysis Chemical Sciences Chemical synthesis Clostridium - enzymology Desulfovibrio desulfuricans - enzymology Electrochemistry Enzymes and enzyme inhibitors Fuel cells Fundamental and applied biological sciences. Psychology Humanities and Social Sciences Hydrogen Hydrogen - chemistry Hydrogen production Hydrogenase - chemical synthesis Hydrogenase - chemistry Iron Iron - chemistry Iron-Sulfur Proteins - chemical synthesis Iron-Sulfur Proteins - chemistry letter Lyases Models, Molecular multidisciplinary Other Oxidation-Reduction Protons Science Science (multidisciplinary) Structure-Activity Relationship Sulfur - chemistry
Title	Synthesis of the H-cluster framework of iron-only hydrogenase
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