A SINGLE-CELL IMMUNOASSAY FOR PHOSPHATE STRESS IN THE DINOFLAGELLATE PROROCENTRUM MINIMUM (DINOPHYCEAE)

Current techniques for studying phytoplankton physiology in the field, such as measurements of biochemical activities, nutrient addition bioassays, and determination of photosynthetic efficiency, are useful for assessing the physiology of the bulk community but suffer from a lack of specificity. This would be improved by the development of single-cell methods for monitoring in situ physiology. Here we develop and test an antibody-based assay for identifying phosphate stress in the model dinoflagellate Prorocentrum minimum (Pavillard) Schiller. Antiserum was raised against a cell-surface alkaline phosphatase purified from P. minimum. Western screening indicated that the antiserum reacted with phosphate-stressed cells but not nitrate-stressed or phosphate-replete cells in culture. Immunodepletion confirmed the identification of this protein as an alkaline phosphatase. Based on Western blots, the antiserum appeared to be specific for phosphate-regulated proteins in P. minimum because there is no discernible cross-reaction with closely related P. micans. A whole-cell immunofluorescence assay was used to identify phosphate stress in field populations of P. minimum from Narragansett Bay, Rhode Island. The percentage of labeled P. minimum cells in this environment during the summer of 1998 decreased through time as the inorganic phosphate concentration increased. The percentage of antibody-labeled cells significantly correlated with the percentage of ELF-97-labeled cells determined as another single-cell assay of phosphate stress. This is the first antibody-based method developed for monitoring cell-specific physiology in a dinoflagellate, and the method described here may serve as a model for developing similar tools in other species of phytoplankton.