Abstract
We report the identification and purification of a novel enzyme from soybean root nodules that catalyzes the hydrolysis of 5-hydroxyisourate, which is the true product of the urate oxidase reaction. The product of this reaction is 2-oxo-4-hydroxy-4-carboxy-5-ureidoimidazoline, and the new enzyme is designated 5-hydroxyisourate hydrolase. The enzyme was purified from crude extracts of soybean root nodules approximately 100-fold to apparent homogeneity with a final specific activity of 10 micromol/min/mg. The enzyme exhibited a native molecular mass of approximately 68 kDa by gel filtration chromatography and migrated as a single band on SDS-polyacrylamide gel electrophoresis with a subunit molecular mass of 68 +/- 2 kDa. The purified enzyme obeyed normal Michaelis-Menten kinetics, and the K(m) for 5-hydroxyisourate was determined to be 15 microM. The amino-terminal end of the purified protein was sequenced, and the resulting sequence was not found in any available data bases, confirming the novelty of the protein. These data suggest the existence of a hitherto unrecognized enzymatic pathway for the formation of allantoin.
Highlights
The ureides are the major form of nitrogen transport molecules in tropical legumes such as soybean
Purine oxidation is the major route for ureide biogenesis, and the so-called ureide pathway is constituted by the enzymes that carry out the conversion of IMP to allantoin and allantoate
Because the flux through the ureide pathway is critical for nitrogen fixation and metabolism, it is difficult to conceive that the nonenzymatic conversion of HIU to allantoin is the mechanism for ureide synthesis in vivo
Summary
The ureides are the major form of nitrogen transport molecules in tropical legumes such as soybean. Urate oxidase catalyzes the conversion of urate to 5-hydroxyisourate, which decomposes cleanly to allantoin under most in vitro conditions. OHCU has previously been characterized as the species in the pathway leading from HIU to allantoin under nonenzymatic conditions (Ref. 9 and Scheme 1).
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