Chlamydomonas reinhardtii has a small family of purple acid phosphatase homologue genes that are differentially expressed in response to phytate

Purple acid phosphatases (PAPs) are metallophosphoesterase enzymes involved in the acquisition and recycling of phosphorus. PAP phytases from microorganisms and plants are responsible for the dephosphorylation of phytate. Phytate is the main storage form of phosphorus in plant seeds and constitutes the major form of organic phosphorus present in soil. Although some phosphatases have been studied in Chlamydomonas reinhardtii, no gene coding for PAPs have so far been characterized. In this study, six PAP homologue genes were identified and characterized in silico in C. reinhardtii (CrPAP1 to CrPAP6). A metallophosphoesterase domain including the seven conserved residues characteristic of PAP enzymes was found in all six CrPAPs. The phylogenetic tree comprising PAP homologue sequences from microalgae, plants, and animals showed nine major clades and CrPAPs resolved in four of them. A constitutive expression was found for CrPAP2, CrPAP3, CrPAP4, and CrPAP6 in all media tested, while CrPAP1 and CrPAP5 were induced by the addition of phytate in a medium without phosphate salts. Our results provide a starting point for further functional analysis of the CrPAP gene family, and the evaluation of their potential as phytases in C. reinhardtii.