Abstract
The regulatory gamma subunit and an alpha beta complex were isolated from the catalytic F1 portion of the chloroplast ATP synthase. The isolated gamma subunit was devoid of catalytic activity, whereas the alpha beta complex exhibited a very low ATPase activity (approximately 200 nmol/min/mg of protein). The alpha beta complex migrated as a hexameric alpha 3 beta 3 complex during ultracentrifugation and gel filtration but reversibly dissociated into alpha and beta monomers after freezing and thawing in the presence of ethylenediamine tetraacetic acid and in the absence of nucleotides. Conditions are described in which the gamma and alpha beta preparations were combined to rapidly and efficiently reconstitute a fully functional catalytic core enzyme complex. The reconstituted enzyme exhibited normal tight binding and sensitivity to the inhibitory epsilon subunit and to the allosteric inhibitor tentoxin. However, neither the alpha beta complex nor the isolated gamma subunit alone could bind the epsilon subunit or tentoxin with high affinity. Similarly, high affinity binding sites for ATP and ADP, which are characteristic of the core alpha 3 beta 3 gamma enzyme, were absent from the alpha beta complex. The results indicate that when the gamma subunit binds to the alpha beta complex, it induces a three-dimensional conformation in the enzyme, which is necessary for tight binding of the inhibitors and for high-affinity, asymmetric nucleotide binding.
Highlights
Foundation (OSR-9255223), from the United States Department of Agriculture (93-37306-9633), and from the University of Kansas (GRF 3063)
The 'Y subunit has been isolated in reconstitutively active form from the F 1 enzymes of several different bacterial species including Escherichia coli [17], the thermophilic bacterium PS3 [18], and R. rubrum [19]
The 'Y subunit could be reconstituted with the other F lor F I-F 0 subunits to restore, to varying extents, the catalytic activity to the v-less enzymes
Summary
Vol 270, No 17, Issue of April 28, pp. 9763-9769, 1995 Printed in U.S.A. In Vitro Assembly of the Core Catalytic Complex of the Chloroplast ATP Synthase*. The two protein preparations were readily reconstituted with each other to form a fully functional core enzyme complex Using this reconstitution system, we have been able to demonstrate that an a3f33"Y complex is likely to be the minimum structure required for asymmetric nucleotide binding and, for cooperative catalysis by CF r- Formation of the core complex is prerequisite for proper binding of the inhibitory e subunit and for binding of the allosteric CF l-specific inhibitor tentoxin. We have been able to demonstrate that an a3f33"Y complex is likely to be the minimum structure required for asymmetric nucleotide binding and, for cooperative catalysis by CF r- Formation of the core complex is prerequisite for proper binding of the inhibitory e subunit and for binding of the allosteric CF l-specific inhibitor tentoxin
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