hydrogenase : Related Words Words similar in meaning to hydrogenase
- oxidation«
- hydrogenases«
- hydrogen«
- active site«
- enzyme«
- ec«
- -hydrogenase«
- clostridium pasteurianum«
- pdb structure«
- molecular hydrogen«
- o2«
- h2 evolution«
- iron hydrogenase«
- h2 oxidation«
- methenyl«
- oxygen«
- sulfur cluster«
- acceptor«
- iron«
- monomeric hydrogenases«
- cytochrome c3«
- -only hydrogenases«
- hydrogen uptake«
- hydrogen dehydrogenase«
- mechanism«
- biofuel cell«
- catalysis«
- subunit«
- ferredoxin«
- hydrogen molecule«
- nickel«
- al«
- metal«
- tof«
- electron donor«
- electron«
- catalytic activity«
- hydride«
- biological function«
- anode«
- cofactor«
- uptake«
- finding«
- electricity«
- protein«
- ligand«
- inactivation«
- uptake hydrogenases«
- unequal overpotential«
- typical enzymatic biofuel cell«
- transmembrane protonmotive force«
- solar h2 production system«
- solar h2 production«
- putative channel«
- protein film electrochemistry«
- potential multihaem cytochrome«
- physiological electron donor«
- past research effort«
- o2-inactivation«
- o2 sensitivity«
- nilsson lill«
- mononuclear fe active site«
- molecular dynamic simulation approach«
- microbian community«
- methylenetetrahydromethanopterin«
- methanothermococcus jannaschii«
- metallorganic cluster«
- metallocluster«
- intramolecular transport«
- intoxicated form«
- hydrogenotrophic methanogenic archaea«
- hydrogenases proficient«
- hydrogen:quinone oxidoreductase«
- hydrogen:nadph+ oxidoreductase«
- hydrogen:ferricytochrome«
- hydrogen:acceptor oxidoreductase«
- hydrogen:5,10-methenyltetrahydromethanopterin oxidoreductase«
- heterodimeric hydrogenases«
- h2 uptake«
- h2 oxidation/production«
- h2 metalloenzymes«
- h2 evolution reaction«
- h2 cleavage«
- h2 affinity«
- green alga scenedesmus obliquus«
- free hydrogenases«
- ferredoxin function«
- energy from/as molecular h2«
- dithiolate cofactor«
- cytochrome c6«
- coenzyme f420«
- clean biological energy source«
- -only hydrogenase«
- proton«
- scientist«
- water splitting reaction«
- true redox catalyst«
- reversible heterolytic cleavage«
- natural electron donor«
- molecular tunnel«
- megasphaera elsdenii«
- hydrogenases catalyze reversible h2 uptake«
- hydrogen:nad+ oxidoreductase«
- hydrogen:ferredoxin oxidoreductase«
- h2/o2 fuel cell«
- h2 consumption«
- free hydrogenase«
- ferrocytochrome c3«
- ferricytochrome c3«
- desulfovibrio spp«
- desulfomicrobium baculatum«
- destructive modification«
- dependent hydrogenases«
- c3 oxidoreductase«
- biochemical classification«
- bidirectional hydrogenases«
- active site metal content«
- renewable energy«
- amino acid«
- usa |«
- thauer«
- pyruvate fermentation«
- numerous catalyst«
- hydrogenase mimic«
- f420 oxidoreductase«
- different catalyst«
- artificial catalyst«
- membrane«
- sea setting«
- phenazine hydrogenase«
- oxygen tolerance«
- coenzyme f420 hydrogenase«
- c3 hydrogenase«
- redox partner«
- active site structure«
- approach«
- type«
- sulphur cluster«
- proton reduction«
- periplasmic«
- ecosystem«
- splitting water«
- menaquinol«
- knallgas«
- ferredoxin hydrogenase«
- desulfovibrio vulgaris«
- desulfovibrio desulfuricans«
- stripp«
- reversible oxidation«
- reversible reduction«
- reduced ferredoxin«
- photosynthetic production«
- photosynthetic microorganism«
- heterodimeric protein«
- turnover frequency«
- ralstonia eutropha«
- photosynthetic electron transport chain«
- apoenzyme«
- siegbahn«
- methanosarcina«
- heavy metal contaminant«
- electrocatalysts«
- catalyse«
- biological hydrogen production«
- hydrogenase enzyme«
- catalyst poisoning«
- single superfamily«
- protein body«
- chlorinated compound«
- s cluster«
- molecular weight compound«
- iron centre«
- chemical storage«
- strict anaerobe«
- incident sunlight«
- excess electron«
- iron center«
- low energy demand«
- enzymatic mechanism«
- various system«
- protein surface«
- mutagenesis study«
- methanogenic archaea«
- enzymatic function«
- dynamic motion«
- menaquinone«
- structural classification«
- platinum catalyst«
- selenocysteine«
- dihydrogen«
- anaerobic metabolism«
- methylene«
- inorganic chemist«
- fe(ii«
- ah2«
- storage«
- reactive specie«
- fumarate«
- nadp«
- reversible reaction«
- fuel«
- dioxygen«
- cytoplasmic membrane«
- reduction«
- capture«
- catalytic mechanism«
- reduction reaction«
- carbocation«
- intense research«
- popular approach«
- iron atom«
- computational analysis«
- sustainable production«
- cytoplasmic«
- production«
- 5,10-methenyltetrahydromethanopterin hydrogenase«
- 5,10-methylenetetrahydromethanopterin«
- 5,10-methenyltetrahydromethanopterin«
- 2-dihydropentaprenyloxyphenazine«
- 2-(2,3-dihydropentaprenyloxy)phenazine«