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This work elaborates on the molecular background of oxygen sensitivity in [FeFe] hydrogenases. Hydrogenases are iron-sulphur proteins that catalyse hydrogen turnover in micro organisms. [FeFe] hydrogenases in particular are high-efficiency catalysts for hydrogen evolution but irreversibly inactivated by oxygen. Their unique [4Fe-4S]-[2Fe-2S] cofactor is referred to as "H-cluster". Three different [FeFe] hydrogenases were analysed by electrochemistry. These were the bacterial hydrogenases CaHydA and DdH as well as CrHydA1 of Chlamydomonas reinhardtii, a unicellular green alga. The effects of…mehr

Produktbeschreibung
This work elaborates on the molecular background of oxygen sensitivity in [FeFe] hydrogenases. Hydrogenases are iron-sulphur proteins that catalyse hydrogen turnover in micro organisms. [FeFe] hydrogenases in particular are high-efficiency catalysts for hydrogen evolution but irreversibly inactivated by oxygen. Their unique [4Fe-4S]-[2Fe-2S] cofactor is referred to as "H-cluster". Three different [FeFe] hydrogenases were analysed by electrochemistry. These were the bacterial hydrogenases CaHydA and DdH as well as CrHydA1 of Chlamydomonas reinhardtii, a unicellular green alga. The effects of oxygen and carbonmonoxide (CO) were probed, the latter of which reversibly inhibits hydrogenases. DdH is inactivated by oxygen ten times more rapid than CrHydA1 and three orders of magnitude faster than CaHydA. The same correlation was found for CO inhibition, although reactivation is in the same range for all three enzymes. Moreover, CO was shown to prevent the H-cluster from oxygen damage. Given that CO can not bind the [4Fe-4S] part of the cofactor, the capability of CO to protect the entire H-cluster proves that oxygen attacks the [2Fe-2S] site exclusively, too.
Autorenporträt
Sven Stripp wurde 1980 am Rande des Ruhrgebietes geboren. Er absolvierte die Ausbildung zum Diplom Biologen an der Ruhr-Universität Bochum und promovierte danach bei Prof. Dr. Thomas Happe. Momentan arbeitet Sven Stripp als wissenschaftlicher Mitarbeiter in der Arbeitsgruppe von Prof. Dr. Joachim Heberle an der Freien Universität Berlin.