Glutamate déshydrogénase.

The object of this paper is to analyse the effects of the coenzymes NAD(P)+ and NAD(P)H, and the effectors ADP and GTP, on the polyhexameric structure of pig-liver dehydrogenase. The linear polymerisation model proposed by Eisenberg for the native quaternary structure of this protein is valid with any effector; the observed variations of the degree of polymerization are explained by the modification of the apparent association constant of the hexamers. The appendices I and II define the free and associated areas and give, the theoretical foundations of the variation of the association constant of hexamers in terms of the binding of the ligands to the protemers. The increase in the degree of polymerization of the glutamate dehydrogenase with the binding of NAD(P)H is explained by a higher affinity of the coenzymes for the protomers which have an associated area compared to the protomers which have a free area. No variation is observed with NAD(P)+, ADP, or GTP alone. The formation of the protein · GTP · NAD(P)H ternary complex leads to a complete depolymerization when the two ligands are in saturating concentrations. The systematic study of the variations of polymerization in terms of increasing concentration of NAD(P)H at constant concentration of GTP, or in terms of increasing concentration of GTP at constant concentration of NAD(P)H shows that the interaction between the two opposite protomers of two consecutive hexamers is responsible for the sigmoidal shape of the depolymerization curves. The reversibility of this effect by ADP is assigned to a competition between the binding of ADP and the binding of GTP. [ABSTRACT FROM AUTHOR]