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Purple acid phosphatase (PAP) catalyzes the hydrolysis of phosphate monoesters and anhydrides to release phosphate within an acidic pH range. Among the 29 PAP-like proteins in Arabidopsis (Arabidopsis thaliana), AtPAP15 (At3g07130) displays a greater degree of amino acid identity with soybean (Glycine max; GmPHY) and tobacco (Nicotiana tabacum) PAP (NtPAP) with phytase activity than the other AtPAPs. In this study, transgenic Arabidopsis that expressed an AtPAP15 promoter:: b-glucuronidase (GUS) fusion protein showed that AtPAP15 expression was developmentally and temporally regulated, with strong GUS staining at the early stages of seedling growth and pollen germination. The expression was also organ/tissue specific, with strongest GUS staining in the vasculature, pollen grains, and roots. The recombinant AtPAP purified from transgenic tobacco exhibited broad substrate specificity with moderate phytase activity. AtPAP15 T-DNA insertion lines exhibited a lower phytase and phosphatase activity in seedling and germinating pollen and lower pollen germination rate compared with the wild type and their complementation lines. Therefore, AtPAP15 likely mobilizes phosphorus reserves in plants, particularly during seed and pollen germination. Since AtPAP15 is not expressed in the root hair or in the epidermal cells, it is unlikely to play any role in external phosphorus assimilation.
At pH in the range of 4 to 7, purple acid phosphatases (PAPs) catalyze the hydrolysis of a wide range of activated phosphoric acid monoesters and diesters and anhydrides (Klabunde et al., 1996). They are distinguished from the other phosphatases by their insensitivity to L-(+) tartrate inhibition and therefore are also known as tartrate-resistant acid phosphatases. Their characteristic pink or purple color derives from a charge transfer transition between a Tyr residue and the "chromophoric" ferric ion in the binuclear Fe(III)- Me(II) center, where the metal (Me) is iron, zinc, or manganese (Schenk et al., 1999). PAP proteins are also characterized by seven conserved amino acid residues (shown in boldface) in the five conserved motifs DXG, GDXXY, GNH(D/E), VXXH, and GHXH, which are involved in the coordination of the dimetal nuclear center (Li et al., 2002).
PAPs are widespread in mammals, fungi, bacteria, and plants. Interestingly, while only a few copies of PAP-like genes are present in mammalian and fungal genomes (Mullaney and Ullah, 2003; Flanagan et al., 2006), multiple copies are present in plant genomes (Schenk et...