Add to ORKGDuring ATP synthesis, ATP synthase has to bind MgADP in the presence of an excess of MgATP. Thus, for efficient ATP synthesis it would be desirable if incoming substrate could be bound to a catalytic site with a preference for MgADP over MgATP. We tested three hypotheses predicting the existence of such a site. However, our results showed that, at least in absence of an electrochemical proton gradient, none of the three catalytic sites has a higher affinity for MgADP than for MgATP
AbstractWe prepared two types of E. coli F1 by slightly different gel filtration procedures of the p...
AbstractThe function of F1-ATPase relies critically on the intrinsic ability of its catalytic and no...
AbstractUsing site-directed tryptophan fluorescence we studied nucleotide occupancy of the catalytic...
AbstractDuring ATP synthesis, ATP synthase has to bind MgADP in the presence of an excess of MgATP. ...
AbstractIn active MF1, one of the two non-exchangeable tightly bound adenine nucleotides is an ATP, ...
AbstractAn early proposal was that for rapid ATP synthesis by the rotational ATP synthase, a specifi...
AbstractNucleotide binding to nucleotide-depleted F1-ATPase from Escherichia coli (EcF1) during MgAT...
AbstractNucleotide-depleted mitochondrial F1-ATPase binds 3'-(2')-O-(2-nitro-4-azidobenzoyl)-derivat...
The F-type ATPase, TF0F1, from the thermophilic Bacillus PS3, which is free of nucleotides after iso...
AbstractThe Mg2+ cofactor of the F1F0 ATP synthase is required for the asymmetry of the catalytic si...
AbstractThe interactions between ADP and Mg2+ that result in the slowly reversible inhibition of the...
ATP synthase (F1Fo-ATPase) catalyses the production of ATP from ADP and orthophosphate by using the ...
F1-ATPase from Bacillus subtilis (BF1) is severely suppressed by the MgADP inhibition. Here, we have...
AbstractThe ADP analogue NAP3-2N3ADP is able to bind to one or two high-affinity sites on mitochondr...
AbstractThe F-type ATPase, TF0F1, from the thermophilic Bacillus PS3, which is free of nucleotides a...
AbstractWe prepared two types of E. coli F1 by slightly different gel filtration procedures of the p...
AbstractThe function of F1-ATPase relies critically on the intrinsic ability of its catalytic and no...
AbstractUsing site-directed tryptophan fluorescence we studied nucleotide occupancy of the catalytic...
AbstractDuring ATP synthesis, ATP synthase has to bind MgADP in the presence of an excess of MgATP. ...
AbstractIn active MF1, one of the two non-exchangeable tightly bound adenine nucleotides is an ATP, ...
AbstractAn early proposal was that for rapid ATP synthesis by the rotational ATP synthase, a specifi...
AbstractNucleotide binding to nucleotide-depleted F1-ATPase from Escherichia coli (EcF1) during MgAT...
AbstractNucleotide-depleted mitochondrial F1-ATPase binds 3'-(2')-O-(2-nitro-4-azidobenzoyl)-derivat...
The F-type ATPase, TF0F1, from the thermophilic Bacillus PS3, which is free of nucleotides after iso...
AbstractThe Mg2+ cofactor of the F1F0 ATP synthase is required for the asymmetry of the catalytic si...
AbstractThe interactions between ADP and Mg2+ that result in the slowly reversible inhibition of the...
ATP synthase (F1Fo-ATPase) catalyses the production of ATP from ADP and orthophosphate by using the ...
F1-ATPase from Bacillus subtilis (BF1) is severely suppressed by the MgADP inhibition. Here, we have...
AbstractThe ADP analogue NAP3-2N3ADP is able to bind to one or two high-affinity sites on mitochondr...
AbstractThe F-type ATPase, TF0F1, from the thermophilic Bacillus PS3, which is free of nucleotides a...
AbstractWe prepared two types of E. coli F1 by slightly different gel filtration procedures of the p...
AbstractThe function of F1-ATPase relies critically on the intrinsic ability of its catalytic and no...
AbstractUsing site-directed tryptophan fluorescence we studied nucleotide occupancy of the catalytic...