A Mutant of <em>Escherichia coli</em> Defective in Ribonucleosidediphosphate Reductase 2. Characterization of the Enzymatic Defect.

We have studied the ribonucleosidediphosphate reductase of a deoxyuridine-requiring mutant LD195 of Escherichia coli K. This enzyme was purified 50 fold from the mutant and a control strain. In all steps of the purification the mutant strain yielded normal activity of the Bi subunit of the enzyme but approximately 10 % of the wild-type activity of the B2 subunit The activity is similarly reduced for all three substrates tested CDP, UDP, and GDP. The mutation appears to affect the physical structure of the B2 subunit, since addition of high concentrations of sodium acetate can restore enzymatic activity to the partially purified B2 subunit from the mutant strain. In contrast, the same concentrations strongly inhibit the wild- type B2 subunit. Although the mutant has a requirement of deoxyuridine at 42 &#176;C but not at 30 &#176;C (as shown in an accompanying paper), mutant protein B2 is not more thermo-labile than wild-type protein B2 This requirement therefore probably reflects an increased demand of deoxyribonucleotides at higher temperatures. Hydroxyurea inhibits mutant and wild-type ribonucleosidediphosphate reductase to the same extent in vitro. In spite of this, hydroxyurea inhibits growth of the mutant strain at a 20 fold lower concentration than that required for comparable inhibition of growth of the parent. This is explained by the greatly decreased protein B2 activity of the mutant. [ABSTRACT FROM AUTHOR]