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H2 -Fueled ATP Synthesis on an Electrode: Mimicking Cellular Respiration.

ABSTRACT: ATP, the molecule used by living organisms to supply energy to many different metabolic processes, is synthesized mostly by the ATPase synthase using a proton or sodium gradient generated across a lipid membrane. We present evidence that a modified electrode surface integrating a NiFeSe hydrogenase and a F1 F0 -ATPase in a lipid membrane can couple the electrochemical oxidation of H2 to the synthesis of ATP. This electrode-assisted conversion of H2 gas into ATP could serve to generate this biochemical fuel locally when required in biomedical devices or enzymatic synthesis of valuable products.

SUBMITTER: Gutierrez-Sanz O 

PROVIDER: S-EPMC5132028 | biostudies-literature | 2016 May

REPOSITORIES: biostudies-literature

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H2 -Fueled ATP Synthesis on an Electrode: Mimicking Cellular Respiration.

Gutiérrez-Sanz Óscar Ó   Natale Paolo P   Márquez Ileana I   Marques Marta C MC   Zacarias Sonia S   Pita Marcos M   Pereira Inês A C IA   López-Montero Iván I   De Lacey Antonio L AL   Vélez Marisela M  

Angewandte Chemie (International ed. in English) 20160315 21

ATP, the molecule used by living organisms to supply energy to many different metabolic processes, is synthesized mostly by the ATPase synthase using a proton or sodium gradient generated across a lipid membrane. We present evidence that a modified electrode surface integrating a NiFeSe hydrogenase and a F1 F0 -ATPase in a lipid membrane can couple the electrochemical oxidation of H2 to the synthesis of ATP. This electrode-assisted conversion of H2 gas into ATP could serve to generate this bioch  ...[more]

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