摘要:SummaryRetinal dystrophies (RDs) lead to irreversible vision impairment with no radical treatment. Although photoreceptor cells (PRCs) differentiated from human induced pluripotent stem cells (iPSCs) are essential for the study of RDs as a scalable source, current differentiation methods for PRCs require multiple steps. To address these issues, we developed a method to generate PRCs from human iPSCs by introducing the transcription factors, CRX and NEUROD1. This approach enabled us to generate induced photoreceptor-like cells (iPRCs) expressing PRC markers. Single-cell RNA sequencing revealed the transcriptome of iPRCs in which the genes associated with phototransduction were expressed. Generated iPRCs exhibited their functional properties in calcium imaging. Furthermore, light-induced damage on iPRCs was inhibited by an antioxidant compound. This simple approach would facilitate the availability of materials for PRC-related research and provide a useful application for disease modeling and drug discovery.Graphical abstractDisplay OmittedHighlights•Introduction of CRX and NEUROD1 to iPSCs generated photoreceptor-like cells•Generated photoreceptor-like cells expressed phototransduction-associated genes•Generated photoreceptor-like cells exhibited functional property•Light-induced damage models were constructed using photoreceptor-like cellsMolecular biology, Cell biology, Stem cells research