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Hair cells (HCs) are mechanosensory receptors found in sensory epithelia in the vertebrate inner ear that detect sound and head movements. HCs are fragile and prone to damage from various causes like disease, aging, and noise pollution. Unlike mammals, lower vertebrates including birds, amphibians and fish can regenerate HCs. To understand the underlying molecular mechanisms of HCs regeneration, we study the lateral line (LL) in a powerful genetic and regenerative animal model: the zebrafish. The LL is a skin‐deep fish sensory organ that is evolutionarily linked to the vertebrate sensory epithelia of the inner ear. It is composed of stereotypical distributed sensory patches called neuromasts (NMs) which contain HCs that are highly similar in function, cellular structure and gene expression to HCs of the inner ear. LL‐HCs are deflected and activate by surrounding water movements. Using CRISPR‐Cas9 …