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Pyrimidine trifunctional protein

A second, cytosolic CPS activity (CPSII) occurs in mammals as part of the CAD trifunctional protein that catalyzes the first three steps of pyrimidine synthesis (CPSII, asparate tran-scarbamoylase, and dihydroorotase). The activities of these three enzymes—CPSII, aspartate transcarbamoylase, and dihydroorotase—result in the production of orotic acid from ammonium, bicarbonate, and ATP. CPSII has no role in ureagenesis, but orotic aciduria results from hepatocellular accumulation of carbamyl phosphate and helps distinguish CPSI deficiency from other UCDs. Defects in CPSI classically present with neonatal acute hyperammonemic encephalopathy. The plasma citrulline and urine orotic acid concentrations are both low. A definitive diagnosis can be established by enzyme assay of biopsied liver tissue or by mutation analysis. [Pg.200]

There are two multifunctional proteins in the pathway for de novo biosynthesis of pyrimidine nucleotides. A trifunctional protein, called dihydroorotate synthetase (or CAD, where the letters are the initials of the three enzymatic activities), catalyzes reactions 1, 2 and 3 of the pathway (HCC>5"- CAP— CA-asp—> DHO Fig. 15-15). The enzymatic activities of carbamoyl phosphate synthetase, aspartate transcarbamoylase and dihydroorotase, are contained in discrete globular domains of a single polypeptide chain of 243 kDa, where they are covalently connected by segments of polypeptide chain whch are susceptible to digestion by proteases such as trypsin. A bifunctional enzyme, UMP synthase, catalyzes reactions 5 and 6 of the pyrimidine pathway (orotate— OMP—> UMP Fig. 15-15). Two enzymatic activities, those of orotate phosphoribosyltransferase and OMP decarboxylase, are contained in a single protein of 51.5 kDa which associates as a dimer. [Pg.438]

The first three reactions are catalyzed by a trifunctional protein which contains carbamoyl-phosphate synthetase II, aspartate carbamoyltransferase and dihydro-orotase. This set of reactions begins with the synthesis of carbamoyl phosphate followed by its condensation with aspartic acid. The third step involves the closure of the ring through the removal of water by the action of dihydro-orotase to yield dihydro-orotate. The fourth enzyme, dihydro-orotate oxidase, oxidizes dihydro-orotate to orotate and is a mitochondrial flavoprotein enzyme located on the outer surface of the inner membrane and utilizes NAD" " as the electron acceptor. The synthesis of UMP from orotate is catalyzed by a bifunctional protein which comprises orotate PRTase and orotidine 5 -phosphate (OMP) decarboxylase. The former phosphoribosylates orotate to give OMP the latter decarboxylates OMP to UMP, the immediate precursor for the other pyrimidine nucleotides. It is interesting to note that whereas five molecules of ATP (including the ATP used in the synthesis of PRPP) are used in the de novo synthesis of IMP, no net ATP is used in the de novo synthesis of UMP. In de novo pyrimidine synthesis, two ATP molecules are used to synthesize carbamoyl phosphate and one ATP is needed to synthesize the PRPP used by orotate PRTase but 3 ATPs... [Pg.104]


See other pages where Pyrimidine trifunctional protein is mentioned: [Pg.868]    [Pg.868]   
See also in sourсe #XX -- [ Pg.438 ]




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