Ornithine transcarbamylase from Salmonella typhimurium: purification, subunit composition, kinetic analysis, and immunological cross-reactivity.

AUTOR(ES)

Abdelal, A T

RESUMO

Ornithine transcarbamylase (OTCase) was purified to hemogeneity from a derepressed strain of Salmonella typhimurium. The optimal pH for enzyme activity is 8.0. The molecular weight of the enzyme was calculated to be 116,000, based on measurements of the sedimentation coefficient by sucrose gradient ultracentrifugation and the Stokes radius by gel filtration. Polyacrylamide gel electrophoresis of cross-linked OTCase in the presence of sodium dodecyl sulfate showed that the enzyme is composed of three identical subunits. The molecular weight of the monomer was determined to be 39,000. Steady-state kinetics indicate that the reaction mechanism is sequential. The limiting Michealis constants for carbamylphosphate and ornithine were determined to be 0.06 and 0.2 mM, respectively. The dissociation constant for carbamylphosphate was 0.02 mM. Product and dead-end inhibition patterns are consistent with an ordered Bi Bi mechanism, in which carbamylphosphate is the first substrate added and phosphate is the last product released. OTCase activity was inhibited by arginine, but relatively high concentrations were required for significant inhibition. The inhibition by arginine might be physiologically significant in the regulation of carbamlphosphate utilization; a single carbamylphosphate synthetase is responsible for the synthesis of carbamylphosphate for both arginine and pyrimidines in S. typhimurium and the inhibition by argine might serve to divert carbamlphosphate to the synthesis of pyrimidines when arginine is present at high concentrations. The crossreaction of OTCases from different microorganisms with purified antibodies raised against the homogeneous OTCase from S. typhimurium was investigated. The results of immunotitration and immunodiffusion experiments revealed a high degree of identity between the enzymes form S. typhimurium and Esherichia coli B and W. In these three cases, a single gen (argl) encodes OTCase. Wild-type E. coli K-12 and strain 3000 X 111, which carry two OTCase genes (argI, argF), also revealed similar cross-reactivity, supporting the hypothesis that argF is the product of a relatively recent duplication. The activity of OTCase from Bacillus subtilis was partially inhibited by antibodies against the enzyme from S. typhimurium, indicating unusual conservation of primary structure among widely different taxonomic groups. OTCase from Saccharomyces cerevisiae, whose molecular weight and primary structure are similar to those of the enzyme from S. typhimurium, was without detectable cross-reactivity.

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