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21.
Nucleotide binding properties of two vacant noncatalytic sites of thioredoxin-activated chloroplast coupling factor 1 (CF(1)) were studied. Kinetics of nucleotide binding to noncatalytic sites is described by the first-order equation that allows for two nucleotide binding sites that differ in kinetic features. Dependence of the nucleotide binding rate on nucleotide concentration suggests that tight nucleotide binding is preceded by rapid reversible binding of nucleotides. ADP binding is cooperative. The preincubation of CF(1) with Mg(2+) produces only slight effect on the rate of ADP binding and decreases the ATP binding rate. The ATP and ADP dissociation from noncatalytic sites is described by the first-order equation for similar sites with dissociation rate constants k(-2)(ADP)=1.5 x 10(-1) min(-1) and k(-2)(ATP) congruent with 10(-3) min(-1), respectively. As follows from the study, the noncatalytic sites of CF(1) are not homogeneous. One of them retains the major part of endogenous ADP after CF(1) precipitation with ammonium sulfate. Its other two sites can bind both ADP and ATP but have different kinetic parameters and different affinity for nucleotides. 相似文献
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The pH-dependence of ADP and ATP affinity for CF1 tight nucleotide-binding sites was studied under conditions of equilibrium between bound and free labeled nucleotides. With the nucleotide/CF1 ratio>1, the ATP content in tightly bound nucleotides depended only slightly on medium pH. With the nucleotide/CF1 ratio approaching 1, tightly bound ATP content grew rapidly with decreasing pH. Calculations of ADP/ATP ratio in free and tightly bound nucleotides showed that decreasing the pH from 8.0 to 6.0 induced a 150 times greater affinity of the nucleotide-binding site for ATP than for ADP. The data indicates that ATP-ADP equilibrium at the CF1 tight nucleotide-binding site depends on protonation of specific acid-base groups of the enzyme.Abbreviations CF1, BF1, and MF1
coupling factors of chloroplasts, bacteria, and mitochondria, respectively
- AdN
adenine nucleotide 相似文献
24.
Nucleotide binding properties of two vacant noncatalytic sites of thioredoxin-activated chloroplast coupling factor 1 (CF1) were studied. Kinetics of nucleotide binding to noncatalytic sites is described by the first-order equation that allows for two nucleotide binding sites that differ in kinetic features. Dependence of the nucleotide binding rate on nucleotide concentration suggests that tight nucleotide binding is preceded by rapid reversible binding of nucleotides. ADP binding is cooperative. The preincubation of CF1 with Mg2+ produces only slight effect on the rate of ADP binding and decreases the ATP binding rate. The ATP and ADP dissociation from noncatalytic sites is described by the first-order equation for similar sites with dissociation rate constants k−2(ADP)=1.5×10−1 min−1 and k−2(ATP)≅10−3 min−1, respectively. As follows from the study, the noncatalytic sites of CF1 are not homogeneous. One of them retains the major part of endogenous ADP after CF1 precipitation with ammonium sulfate. Its other two sites can bind both ADP and ATP but have different kinetic parameters and different affinity for nucleotides. 相似文献
25.
The interaction between sulfite, an efficient Mg2+-dependent F1-ATPase activator, and chloroplast CF1-ATPase was studied. The sulfite anion was shown to inhibit ADP and ATP binding to the noncatalytic sites of CF1. The stimulating activity of sulfite persists when all noncatalytic sites are nucleotide-occupied. Phosphate, a competing candidate for binding to CF1 catalytic sites, suppresses this activity. These results support the suggestion that the stimulation of Mg2+-dependent ATPase activity of CF1 is caused by sulfite binding to its catalytic sites. 相似文献