Adenine deaminase and adenine utilization in Saccharomyces cerevisiae.

AUTOR(ES)

Deeley, M C

RESUMO

Compared with other purine salvage and nitrogen catabolism enzymatic activities, adenine deaminase (adenine aminohydrolase [AAH]; EC 3.5.4.2) activity in Saccharomyces cerevisiae is uniquely regulated. AAH specific activity is not induced by adenine and is reduced sevenfold when cells are cultivated in medium containing proline in place of ammonium as the sole nitrogen source. Exogenous adenine enters metabolic pathways primarily via the function of either AAH or adenine phosphoribosyltransferase (APRT; EC 2.4.2.7). Exogenous adenosine cannot normally be utilized as a purine source. Strains efficiently utilized adenosine or inosine when grown in pH 4.5 medium containing Triton X-100. A recessive mutation permitting utilization of adenosine or inosine in standard media was isolated. In both situations, growth of purine auxotrophs required either AAH or APRT activity. With medium containing either ammonium or proline as a nitrogen source, minimum doubling times of purine auxotrophs deficient in either APRT or AAH were measured. In proline-based medium, AAH and APRT permitted equal utilization of exogenous adenine. In ammonium-based medium, the absence of APRT increased the minimum doubling time by 50%. Similar experiments using sufficient exogenous histidine to feedback inhibit histidine biosynthesis failed to affect the growth rates of adenine auxotrophs blocked in AAH or APRT, indicating that the histidine-biosynthetic pathway does not play a significant role in adenine utilization. The gene that encodes AAH in S. cerevisiae was isolated by complementation using yeast strain XD1-1, which is deficient in AAH, APRT, and purine synthesis. A 1.36-kb EcoRI-SphI fragment was demonstrated to contain the structural gene for AAH by expressing this DNA in Escherichia coli under control of the trp promoter-operator. Northern (RNA) studies using the AAH-, APRT-, and CDC3-coding regions indicated that AAH regulation was not mediated at the level of transcription or mRNA degradation.

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