Purification and characterization of phosphofructokinase of Bacillus licheniformis

The phosphofructokinase (PFK) of Bacillus licheniformis was purified about 50–65-fold and examined for a number of enzymatic and physical characteristics. The enzyme is quite unstable under normal assay conditions, but Mg²⁺, K⁺, adenosine-5′-diphosphate, phosphoenolpyruvate (PEP), and fructose-6-phosphate (fru-6-P) are fairly effective stabilizing agents. Saturation functions for ATP and fru-6-P were hyperbolic. Several attempts to induce positive cooperative binding of fru-6-P were unsuccessful. However, “sigmoidal” saturation kinetics for fru-6-P could be observed under assay conditions that permitted an irreversible inactivation of the PFK during assay. Several divalent cations could support the catalysis of B. licheniformis PFK and the enzyme was activated by both NH₄⁺ and K⁺ ions. B. licheniformis PFK is inhibited by citrate, ATP, PEP, Ca²⁺, and several other metabolic intermediates, but the inhibition caused by citrate and ATP at high fru-6-P concentration and by calcium can be relieved by Mg²⁺ addition while PEP inhibition is specifically relieved by fru-6-P. There are at least three binding sites for PEP on the PFK molecule. The active form of this PFK has a molecular weight of about 134,000 daltons. In the presence of Mg²⁺, adenosine-5′-triphosphate (ATP), and PEP, at 0 °C, the PFK molecule is rapidly dissociated to an inactive form with a molecular weight of about 68,000 daltons. Association of these subunits to yield the active form of PFK occurs spontaneously, and rapidly, when the temperature is raised to 30 °C. Ninety percent of the original activity is recovered after activation. Growth of B. licheniformis on several different substrates resulted in minor variations of PFK activity. In a parallel fashion, sporulation involved no irreversible inactivation of PFK and the level of the activity was about the same throughout the life cycle. Control of this enzyme during sporulation could be affected by any or all of the cell constituents found to regulate PFK activity in vitro, but it is considered likely that the most significant in vivo negative effector is PEP, with this inhibition being reversed by fru-6-P.