A S Hobbs scite author profile

Time-resolved measurements of charge translocation and phosphorylation kinetics during the pre-steady state of the NaK-ATPase reaction cycle are presented. NaK-ATPase-containing microsomes prepared from the electric organ of Electrophorus electricus were adsorbed to planar lipid bilayers for investigation of charge translocation, while rapid acid quenching was used to study the concomitant enzymatic partial reactions involved in phosphoenzyme formation. To facilitate comparison of these data, conditions were standardized with respect to pH (6.2), ionic composition, and temperature (24°C). The different phases of the current generated by the enzyme are analyzed under various conditions and compared with the kinetics of phosphoenzyme formation. The slowest time constant (,~l = 8 s -1) is related to the influence of the capacitive coupling of the adsorbed membrane fragments on the electrical signal. The relaxation time associated with the decaying phase of the electrical signal (,~l = 10-70 s -l) depends on ATP and caged ATP concentration. It is assigned to the ATP and caged ATP binding and exchange reaction. A kinetic model is proposed that explains the behavior of the relaxation time at different ATP and caged ATP concentrations. Control measurements with the rapid mixing technique confirm this assignment. The rising phase of the electrical signal was analyzed with a kinetic model based on a condensed Albers-Post cycle. Together with kinetic information obtained from rapid mixing studies, the analysis suggests that electroneutral ATP release, ATP and caged ATP binding, and exchange and phospholylation are followed by a fast electrogenic EIP --~ E2P transition. At 24°C and pH 6.2, the rate constant for the EIP --* E2P transition in NaK-ATPase from eel electric organ is > 1,000 s -1.

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Potassium-induced changes in phosphorylation and dephosphorylation of (Na+ + K+)-ATPase observed in the transient state.

Hobbs¹,

Albers²,

Froehlich³

1980

Journal of Biological Chemistry

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Evidence for Parallel Pathways of Phosphoenzyme Formation in the Mechanism of ATP Hydrolysis by Electrophorus Na,K-ATPase

Froehuch

Hobbs

Albers

1983

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Evidence for two sodium sites on the external aspect of Na–K pump in human erythrocytes

Hobbs

Dunham

1976

Nature

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A S Hobbs

Pre-steady-state charge translocation in NaK-ATPase from eel electric organ.

Potassium-induced changes in phosphorylation and dephosphorylation of (Na+ + K+)-ATPase observed in the transient state.

Evidence for Parallel Pathways of Phosphoenzyme Formation in the Mechanism of ATP Hydrolysis by Electrophorus Na,K-ATPase

Evidence for two sodium sites on the external aspect of Na–K pump in human erythrocytes

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