On the mechanism of sulfite activation of chloroplast thylakoid ATPase and the relation of ADP tightly bound at a catalytic site to the binding change mechanism

Washed chloroplast thylakoid membranes upon exposure to [3H]ADP retain a tightly bound [3H]ADP on a catalytic site of the ATP synthase. The presence of sufficient endogenous or added Mg2+ results in an enzyme with essentially no ATPase activity. Sulfite activates the ATPase, and many molecules of AT...

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Bibliographic Details
Published in:Biochemistry (Easton) 1990-01, Vol.29 (2), p.402-407
Main Authors: Du, Ziyun, Boyer, Paul D
Format: Article
Language:English
Subjects:
140505 > Solar Energy Conversion-- Photochemical, Photobiological, & Thermochemical Conversion-- (1980-)
ACID ANHYDRASES
adenosine diphosphate
Adenosine Diphosphate - metabolism
Adenosine Diphosphate - pharmacology
Adenosine Triphosphatases - antagonists & inhibitors
Adenosine Triphosphatases - metabolism
Adenosine Triphosphate - pharmacology
adenosinetriphosphatase
ADP
ALKALINE EARTH METAL COMPOUNDS
ATP
ATP-ASE
BASIC BIOLOGICAL SCIENCES
Binding Sites
BIOCHEMICAL REACTION KINETICS
Biological and medical sciences
BIOLOGICAL EFFECTS
catalytic activity
CELL CONSTITUENTS
CHEMICAL REACTIONS
CHLOROPLASTS
Chloroplasts - enzymology
DECOMPOSITION
ENZYMATIC HYDROLYSIS
Enzyme Activation - drug effects
ENZYMES
Fundamental and applied biological sciences. Psychology
HYDROGEN COMPOUNDS
HYDROLASES
HYDROLYSIS
Interactions. Associations
Intermolecular phenomena
ISOTOPE APPLICATIONS
KINETICS
ligases
LYSIS
Magnesium - pharmacology
MAGNESIUM COMPOUNDS
MEMBRANE PROTEINS
MITOCHONDRIA
Molecular biophysics
NUCLEOTIDES
ORGANIC COMPOUNDS
ORGANOIDS
OXYGEN COMPOUNDS
PHOSPHOHYDROLASES
Plants - enzymology
PROTEINS
REACTION KINETICS
SOLAR ENERGY
SOLVOLYSIS
Spinacia oleracea
sulfite
SULFITES
Sulfites - pharmacology
SULFUR COMPOUNDS 550201 > Biochemistry-- Tracer Techniques
THYLAKOID MEMBRANE PROTEINS
thylakoid membranes
thylakoids
TRACER TECHNIQUES
TRITIUM COMPOUNDS
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Summary:Washed chloroplast thylakoid membranes upon exposure to [3H]ADP retain a tightly bound [3H]ADP on a catalytic site of the ATP synthase. The presence of sufficient endogenous or added Mg2+ results in an enzyme with essentially no ATPase activity. Sulfite activates the ATPase, and many molecules of ATP per synthase can be hydrolyzed before most of the bound [3H]ADP is released, a result interpreted as indicating that the ADP is not bound at a site participating in catalysis by the sulfite-activated enzyme [Larson, E. M., Umbach, A., & Jagendorf, A. T. (1989) Biochim. Biophys. Acta 973, 75-85]. We present evidence that this is not the case. The Mg2(+)- and ADP-inhibited enzyme when exposed to MgATP and 20-100 mM sulfite shows a lag of about 1 min at 22 degrees C and of about 15 s at 37 degrees C before reaching the same steady-state rate as attained with light-activated ATPase that has not been inhibited by Mg2+ and ADP. The lag is not eliminated if the enzyme is exposed to sulfite prior to MgATP addition, indicating that ATPase turnover is necessary for the activation. The release of most of the bound [3H]ADP parallels the onset of ATPase activity, although some [3H]ADP is not released even with prolonged catalytic turnover and may be on poorly active or inactive enzyme or at noncatalytic sites. The results are consistent with most of the tightly bound [3H]ADP being at a catalytic site and being replaced as this Mg2(+)- and ADP-inhibited site regains equivalent participation with other catalytic sites on the activated enzyme.
ISSN:0006-2960
1520-4995
DOI:10.1021/bi00454a014