Adenine phosphoribosyltransferase (APT; EC 2.4.2.7) is a constitutively expressed enzyme involved in the one-step salvage of adenine to AMP. The Arabidopsis thaliana genome contains five sequences annotated as encoding APT or APT-like enzymes. Three of these have now been cloned, over-expressed and compared using kinetic analyses. At a cytosolic pH, all bind adenine efficiently based on their K-m values (0.8-2.6 muM), although APT1. metabolizes adenine at a rate 31-53 times faster than APT2 and APT3, respectively. Since APT also has a possible role in the interconversion of cytokinin bases to nucleotides, we characterized the activity of each isoform on zeatin, isopentenyladenine and benzyladenine. Based on their K-m, values, APT2 and APT3 had much higher affinities than APT1 for all three cytokinins (15-440 muM for APT2 and 3 vs. 1.8-2.5 mM for APTI); conversely the V-max values for APT2 and APT3 on these CK substrates showed the opposite trend, being 4- to 19-fold lower than those of APT1 Anti-peptide antibodies for APTI, APT2, and APT3 were prepared and used to examine the subcellular localization of each isoform. Based on these results, APTI and APT3 appear to be cytosolic, while the localization of APT2 was inconclusive although sequence analysis implies that APT2 is also cytosolic. Each isoform was modelled against the crystal structure of APT from Leishmania donovani, and structural differences in substrate specificity-determining domains have been found. The estimated kinetic activities of these APTs suggest that they contribute primarily to adenine recycling, although an involvement in cytokinin interconversion cannot be discounted.
