Visualisation of Phosphate in Subcalicoblastic Extracellular Calcifying Medium and on a Skeleton of Coral by Using a Novel Probe, Fluorescein-4-Isothiocyanate-Labelled Alendronic Acid.

The overload of nutrients of anthropogenic origin, including phosphate, onto coastal waters has been reported to have detrimental effects on corals. However, to the best of our knowledge, the phosphate concentration threshold for inhibiting coral calcification is unclear owing to a lack of information on the molecular mechanisms involved in the inhibitory effect of phosphate. Therefore, in this study, we prepared a new phosphate analogue, fluorescein-4-isothiocyanate (FITC)-labelled alendronic acid (FITC-AA), from commercially available reagents and used it as a novel probe to demonstrate its transfer pathway from ambient seawater into Acropora digitifera. When the juveniles at 1 d post-settlement were treated with FITC-AA in a laboratory tank, this phosphate analogue was found in the subcalicoblastic extracellular calcifying medium (SCM) and was absorbed on the basal plate in the juveniles within a few minutes. When the juveniles bear zooxanthellae at 3 months post-settlement, FITC-AA was observed on the corallite walls within a few minutes after adding ambient seawater. We concluded that FITC-AA in ambient seawater was transferred via a paracellular pathway to SCM and then absorbed on the coral CaCO3 skeletons because FITC-AA with a high polarity group cannot permeate through cell membranes.