We suggest that both succinyl-CoA synthetases catalyze the reverse reaction in the citric acid cycle in which the ADP-forming enzyme augments ATP production, whereas the GDP-forming enzyme supports GTPdependent anabolic processes. Widely accepted shuttle mechanisms are invoked to explain how transport of P-enolpyruvate across mitochondrial membranes can transfer high energy phosphate between the cytosol and mitochondrial matrix.
Two succinyl-CoA synthetases, one highly specific for GTP/GDP and the other for ATP/ADP, have been purified to homogeneity from pigeon liver and breast muscle. The two enzymes are differentially distributed in pigeon, with only the GTP-specific enzyme detected in liver and the ATP-specific enzyme in breast muscle. Based on assays in the direction of CoA formation, the ratios of GTP-specific to ATP-specific activities in kidney, brain, and heart are ϳ7, 1, and 0.1, respectively. Both enzymes have the characteristic ␣-and -subunits found in other succinyl-CoA synthetases. Studies of the ␣-subunit by electrophoresis, mass spectrometry, reversed-phase high performance liquid chromatography, and peptide mapping showed that it was the same in the two enzymes. Characterization of the -subunits by the same methods indicated that they were different, with the tryptic peptide maps providing evidence that the -subunits likely differ along their entire sequences. Because the two succinyl-CoA synthetases incorporate the same ␣-subunit, the determinants of nucleotide specificity must reside within the -subunit. Determination of the apparent Michaelis constants showed that the affinity of the GTP-specific enzyme for GDP is greater than that of the ATP-specific enzyme for ADP (7 versus 250 M). Rather large differences in apparent K m values were also observed for succinate and phosphate.
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