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Purines/purine nucleotides catalysts

Multifunctional Catalysts Participate in Purine Nucleotide Biosynthesis... [Pg.293]

Figure 34-7 summarizes the roles of the intermediates and enzymes of pyrimidine nucleotide biosynthesis. The catalyst for the initial reaction is cytosolic carbamoyl phosphate synthase II, a different enzyme from the mitochondrial carbamoyl phosphate synthase I of urea synthesis (Figure 29-9). Compartmentation thus provides two independent pools of carbamoyl phosphate. PRPP, an early participant in purine nucleotide synthesis (Figure 34-2), is a much later participant in pyrimidine biosynthesis. Figure 34-7 summarizes the roles of the intermediates and enzymes of pyrimidine nucleotide biosynthesis. The catalyst for the initial reaction is cytosolic carbamoyl phosphate synthase II, a different enzyme from the mitochondrial carbamoyl phosphate synthase I of urea synthesis (Figure 29-9). Compartmentation thus provides two independent pools of carbamoyl phosphate. PRPP, an early participant in purine nucleotide synthesis (Figure 34-2), is a much later participant in pyrimidine biosynthesis.
FR901483 in suppressing the immune system results from an antimetabolite activity whereby adenylosuccinate synthetase and/or adenylosuccinate lyase are inhibited. These enzymes function as key catalysts in the de novo purine nucleotide biosynthetic pathway. Addition of adenosine or deoxyadenosine (but not deoxyguanosine, deoxycytidine, uridine or thymidine) results in elimination of the immunosuppressive activity of FR901483. Thus, FR901483 may inhibit one of the key steps for adenosine biosynthesis (Scheme 1). [Pg.4]

Potentially tautomeric pyrimidines and purines are /V-alkylated under two-phase conditions, using tetra-n-butylammonium bromide or Aliquat as the catalyst [75-77], Alkylation of, for example, uracil, thiamine, and cytosine yield the 1-mono-and 1,3-dialkylated derivatives [77-81]. Theobromine and other xanthines are alkylated at N1 and/or at N3, but adenine is preferentially alkylated at N9 (70-80%), with smaller amounts of the N3-alkylated derivative (20-25%), under the basic two-phase conditions [76]. These observations should be compared with the preferential alkylation at N3 under neutral conditions. The procedure is of importance in the derivatization of nucleic acids and it has been developed for the /V-alkylation of nucleosides and nucleotides using haloalkanes or trialkyl phosphates in the presence of tetra-n-butylammonium fluoride [80], Under analogous conditions, pyrimidine nucleosides are O-acylated [79]. The catalysed alkylation reactions have been extended to the glycosidation of pyrrolo[2,3-r/]pyrimidines, pyrrolo[3,2-c]pyridines, and pyrazolo[3,4-r/]pyrimidines (e.g. Scheme 5.20) [e.g. 82-88] as a route to potentially biologically active azapurine analogues. [Pg.211]

See other pages where Purines/purine nucleotides catalysts is mentioned: [Pg.111]    [Pg.234]    [Pg.29]    [Pg.33]    [Pg.758]    [Pg.532]    [Pg.174]    [Pg.50]    [Pg.67]   
See also in sourсe #XX -- [ Pg.293 , Pg.294 ]



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Purine nucleotides

Purines/purine nucleotides

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