Isolation of H-protein loaded with methylamine as a transient species in glycine decarboxylase reactions.

A three-step protocol was devised to purify H-protein, which can be readily released as a soluble protein from pea mitochondria. After the final step of purification (anion-exchange chromatography) the native enzyme was eluted as two distinct peaks at 250 and 350 mM-KCl if the lysis buffer contained glycine. Each from exhibited an identical Mr of 15000 on SDS/PAGE and they were not distinguishable by PAGE under non-denaturating conditions. Both forms catalysed the rapid fixation of [14C]bicarbonate to the carboxy group atom of glycine during the exchange reaction, whereas the reversible exchange of electrons between NADH and lipoamide bound to the H-protein in the presence of 5,5'-dithiobis-(2-nitrobenzoic acid) was seen only with the form eluted at 350 mM-KCl. During the early steps of H-protein isolation, when P- and H-protein react together in the presence of glycine, the methylamine intermediate bound to the lipoamide of the H-protein accumulates in the medium at the expense of oxidized H-protein. Under these conditions the methylamine intermediate, which is a rather stable structure, was easily separated from the oxidized H-protein on ion-exchange chromatography. The methylamine bound to the lipoamide of the H-protein prevented the reversible exchange of electrons between NADH and lipoamide. High concentrations of glycine were required for the loading of H-protein with methylamine catalysed by a large excess of P-protein.