Theorell-Chance mechanism product inhibition

Rate experiments that are typically carried out in the presence of different concentrations of an alternative product (or product analog) while using the normal substrates . This approach can be particularly useful when the normal product cannot be used because it is unstable, insoluble, or ineffective (the latter indicated by a very high Ki value). Moreover, the normal product may be consumed as an essential substrate in a coupled assay system for the primary enzyme. Fromm and Zewe used the alternative product inhibition approach in their study of hexokinase. Wratten and Cleland later applied this procedure to exclude the Theorell-Chance mechanism for liver alcohol dehydrogenase. See Abortive Complexes... 

As pointed out previously in this review the steady-state kinetics of mitochondrial transhydrogenase, earlier interpreted to indicate a ternary Theorell-Chance mechanism on the basis of competitive relationships between NAD and NADH and between NADP and NADPH, and noncompetitive relationships between NAD" and NADP" and between NADH and NADPH, has been reinterpreted in the light of more recent developments in the interpretation of steady-state kinetic data. Thus, although the product inhibition patterns obtained in the earlier reports [75-77] using submitochondrial particles were close to identical to those obtained in a more recent report [90] using purified and reconstituted transhydrogenase, the reinterpretation favors a random mechanism with the two dead-end complexes NAD E NADP and NADH E NADPH. A random mechanism is also supported by the observation that the transhydrogenase binds to immobilized NAD as well as NADP [105] in the absence of the second substrate. 

In the presence of activator, pyruvate, the substrate saturation curves of the R. ruhrum ADP-Glc PPase are hyperbolic at low temperatures. Using kinetic studies its reaction mechanism was studied. The product inhibition patterns eliminated all known sequential mechanisms except the ordered BiBi or Theorell—Chance mechanisms. Small intercept effects suggested the existence of significant concentrations of central transis-tory complexes. Kinetic constants obtained in the study also favored the ordered BiBi mechanism. In addition studies using ATP-[ P]-pyrophosphate isotope exchange at equilibrium supported a sequential-ordered mechanism, which indicated that ATP is the first substrate to bind and that ADP-Glc is the last product to... 

The product inhibition patterns in the Theorell-Chance mechanism are different from those of the Ordered Bi Bi mechanism. Note that the product inhibition equations are symmetrical Equations (9.34) and (9.38) are symmetrical and so are Eqs. (9.35) and (9.37). Thus, product inhibition studies only identify A-Q and B-P pairs and do not reveal the order of substrate addition and product release. 

The main value of product inhibition studies of dehydrogenases has been to distinguish between ordered and random mechanisms and to provide additional kinetic estimates of the dissociation constants of enzyme-coenzyme compounds. On both counts the method has been especially useful for reactions that are essentially irreversible or for other reasons cannot be studied in both directions 122,138). It is also in such circumstances that product inhibition studies are most reliable because, as Alberty (7) emphasized when proposing the method, with readily reversible reactions it may be difficult to estimate true initial rates with small concentrations of substrates in the presence of a product. The reality of ternary complexes in an ordered mechanism of the Theorell-Chance type has also been demonstrated with several enzymes (134) by product inhibition studies. 

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