Skin can detect a wide range of stimuli through the touch system, which is mediated by specific cells and structures. Merkel cells, one of these specialized types of skin cells, sense gentle touch and texture. In mammals, Merkel cells are identified by the expression of the transcription factors Sox2 and Atoh1. Recently, the Rasmussen lab identified Merkel cells in the zebrafish skin that share many characteristics of mammalian Merkel cells, including expression of Sox2 and Atoh1a. Interestingly, a paper by Konig in 2018 also described a novel cell type that expresses serotonin (5-HT), calretinin, and synaptic vesicle glycoprotein 2 (SV2), termed “HCS” cells, within the zebrafish skin. These researchers proposed that HCS cells are a different sensory population than Merkel cells, because of differing visual characteristics between these cells. However, the paper did not present any conclusive evidence, making the relationship between HCS cells and Merkel cells still uncertain. I hypothesized that Merkel cells and HCS cells are actually the same population of cells. I tested my hypothesis using antibody staining and confocal imaging of zebrafish skin. I found that Atoh1a-positive Merkel cells express serotonin and SV2, demonstrating that Merkel cells in zebrafish are the same cells as HCS cells. Overall, my results resolve the identity of recently described sensory cell types in the zebrafish skin. In future research, I hope to use zebrafish Merkel cells as a promising model to better understand touch system development and regeneration.