| Abstract: | Reversible gamma-PO3 transfer in ATP reactions can be recognized by exchange of 18O from the beta,gamma-bridge position to the beta-P-nonbridge positions: (see article). Such intramolecular exchange is less demanding for the detection of the bond cleavage than the usual ATP:ADP isotope exchange because it does not require dissociation of bound ADP from the intermediate complex. Acyl phosphate intermediates are indicated for the glutamine synthetase and carbamyl-P synthetase reactions by their extreme requirements for glutamate and bicarbonate, respectively, for positional oxygen exchange. No support is given for E-P or concerted mechanisms. No support is found for an active CO2 in the latter reaction, although this is not ruled out by the data. Positional isomerization in ATP occurs with lamellae from spinach chloroplast only in the light. When the ATP molecule interacts, it also undergoes complete exchange of the gamma-PO3 oxygen with water before it rejoins the pool of free ATP. The difference in rates of the two exchanges suggests that the torsional motion of ADP-beta-PO3 is greatly hindered on the enzyme. This may explain, by the argument of substrate activation, the rapid reversibility of the ATPase reaction on the enzyme. |
