Polyphosphate:AMP phosphotransferase, an enzyme which catalyzes the phosphorylation of AMP to ADP at the expense of polyphosphate, was purified more than 1,500-fold from Acinetobacter strain 210A by streptomycin sulfate precipitation and by Mono-Q, Phenyl Superose, and Superose column chromatography. Streptomycin sulfate precipitation appeared to be an effective step in the purification procedure. During the following chromatographic steps, there was a 29-fold increase in specific activity but the yield was low (0.3%).Kinetic studies showed apparent Km values of 0.26 mM for AMP and 0.8 PM for polyphosphate with an average chain length of 35 phosphate groups. The highest activities were found with polyphosphate molecules of 18 to 44 phosphate residues. The polyphosphate chain was degraded completely to ADP. The mechanism of degradation is processive. No activity was obtained with ortho-, pyro-, tri-, and tetraphosphate. The enzyme was inhibited by pyro-, tri-, and tetraphosphate. The inhibition by tri-and tetraphosphate was mixed with polyphosphate as a substrate. The inhibition constants for the dissociation of the enzyme-inhibitor complex and for the enzyme-inhibitor-substrate complex were 0.9 and 6.5 mM, respectively, for triphosphate and 0.7 and 1.5 mM, respectively, for tetraphosphate.
Polyphosphatase, an enzyme which hydrolyses highly polymeric polyphosphates to Pi, was purified 77-fold from Acinetobacter johnsonii 210A by Q-Sepharose, hydroxylapatite and Mono-Q column chromatography. The native molecular mass estimated by gel filtration and native gel electrophoresis was 55 kDa. SDS-polyacrylamide gel electrophoresis indicated that polyphosphatase of Acinetobacter johnsonii 210A is a monomer. The enzyme was specific for highly polymeric polyphosphates and showed no activity towards pyrophosphate and organic phosphate esters. The enzyme was inhibited by iodoacetamide and in the presence of 10 mM Mg2+ by pyro- and triphosphate. The apparent Km-value for polyphosphate with an average chain length of 64 residues was 5.9 microM and for tetraphosphate 1.2 mM. Polyphosphate chains were degraded to short chain polymers by a processive mechanism. Polyphosphatase activity was maximal in the presence of Mg2+ and K+.
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