AbstractNucleic acids are not only essential biomolecules that drive critical life processes such as growth, development, reproduction, inheritance, and mutation, but also serve as significant markers for disease diagnosis, pathogen identification, and cancer screening. Nevertheless, several challenges have hindered the widespread use of nucleic acids in biomedicine, such as susceptibility to degradation, limited cellular uptake efficiency, potential toxicity, and uncontrollable activity. Photo‐regulation offers an effective solution to address these challenges. It allows for the precise control of nucleic acid structure and function and enhances the stability and safety of their application in biomedicine. In this review, we systematically review the structural characteristics of the three primary photosensitive groups commonly used in the regulation of nucleic acid molecules (i.e., photocleavable molecules, photoisomerization molecules, and photo‐crosslinking molecules) under light irradiation. Subsequently, recent research advances in the development and application of photo‐modulation strategies based on these photosensitive molecules in antisense oligonucleotides, RNA interference, nucleic acid amplification, and CRISPR/Cas systems are outlined. Finally, we discuss the challenges faced in the widespread application of these photo‐regulatory strategies and outline potential future directions for their development.

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