Inositol 1,4,5-trisphosphate (InsP3) is a key second messenger in many cell types and also in distinct subcellular regions of single living cells; however, little is examined about the subcellular dynamics of InsP3 in a variety of cell types. We have developed fluorescent indicators to locate InsP3 dynamics in single living cells based on an intramolecular fluorescence resonance energy transfer. Our indicator has visualized InsP3 dynamics in the cytoplasm of cultured cells and even in single thin dendrites of hippocampal neurons, which has been unseen previously. We have further localized the present indicator in the nucleus and pinpointed nuclear InsP3 dynamics. The observation with our nuclear InsP3 indicator has solved a question on nuclear propagation of InsP3 from the cytoplasm and has drawn a conclusion that the nuclear InsP3 dynamics synchronously occurs with cytosolic InsP3 dynamics evoked by agonist stimulations. The present approach contributes to the understanding of when, where, and how InsP3 is generated and removed in a variety of living cells.