Enzyme associations in T4 phage DNA precursor synthesis

Abstract

A direct approach is described to the question: are enzymes of DNA precursor synthesis organized into a supramolecular structure? This approach involved sedimentation analysis of several T4 phage-coded early enzyme activities in crude lysates of infected Escherichia coli. One-third to 1/2 of several activities tested.sbd.dCMP hydroxymethylase, dTMP synthetase, deoxynucleoside 5''-monophosphate kinase, deoxyuridine triphosphatase, and probably dCMP deaminase, but not dihydrofolate reductase or DNA polymerase.sbd.sedimented much more rapidly than expected from molecular weight. About 5% of the host cell nucleoside diphosphate kinase, known to participate in T4 DNA precursor synthesis, cosedimented with these activities. To show that this rapidly sedimenting material represents an organized enzyme complex rather than a nonspecific aggregate, the kinetics of formation of dTTP with dUMP as the initial substrate was studied. This 3 step reaction sequence reached its maximal rate within a few seconds when catalyzed by enzymes in the aggregate, but an equivalent mixture of uncomplexed enzymes required nearly 20 min before dTTP synthesis reached its maximal rate. The effect of aggregation is evidently to decrease the volume into which intermediates are free to diffuse. Because there is reason to believe that intracellular concentration gradients of DNA precursors exist, the properties of this enzyme aggregate in vitro may help to explain how such gradients are maintained.