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Transcript
Biosynthesis of Pyrimidines Ayesha Shaukat M.Phil, M.Sc Biochemistry Introduction: • Pyrimidines like Purines does not require any special dietary requirements. • Because body can form Pyrimidines from components of normal diet. • Pyrimidines are not synthesized as nucleotide. • Synthesized by two methods as in purines. • 1)De-novo synthesis • 2)Salavage mechanism Pyrimidine Biosynthesis • In contrast to purines, pyrimidines are not synthesized as nucleotides • Rather, the pyrimidine ring is completed before a ribose-5-P is added • Carbamoyl-P and aspartate are the precursors of the six atoms of the pyrimidine ring 1)De-novo synthesis: • Substances take part in de-novo synthesis: • i.Carbamoyl phosphate: • Carbamoyl phosphate use in the synthesis of Pyrimidines synthesized in cytosol by the catalysis of Carbamoyl phosphate synthase-2. • ii.Aspartic acid: • React with Carbamoyl phosphate forming Ncarbamoyl aspartate. • iii.ATP: CPS II • Carbamoyl phosphate for pyrimidine synthesis is made by carbamoyl phosphate synthetase II (CPS II) • This is a cytosolic enzyme (whereas CPS I is mitochondrial and used for the urea cycle) • Substrates are HCO3-, glutamine, 2 ATP de novo Pyrimidine Synthesis • Aspartate transcarbamoylase (ATCase) catalyzes the condensation of carbamoyl phosphate with aspartate to form carbamoylaspartate • Note that carbamoyl phosphate represents an ‘activated’ carbamoyl group More Pyrimidine Synthesis • Step 3: ring closure and dehydration catalyzed by dihydroorotase • Step 4: Synthesis of a true pyrimidine (orotate) by DHO dehydrogenase • Step 5: Orotate is joined with a ribose-P to form orotidine-5’-phosphate • The ribose-P donor is PRPP • Step 6: OMP decarboxylase makes UMP Metabolic channeling • Eukaryotic pyrimidine synthesis involves channeling and multifunctional polypeptides • UDP is made from UMP, and UTP is made for UDP • CTP sythetase forms CTP from UTP and ATP Deoxyribonucleotide Biosynthesis • Reduction at 2’-position commits nucleotides to DNA synthesis • Replacement of 2’-OH with hydride is catalyzed by ribonucleotide reductase • An 22-type enzyme - subunits R1 (86 kD) and R2 (43.5 kD) • R1 has two regulatory sites, a specificity site and an overall activity site
