Abstract
DNA nanostructures present new opportunities as Nanotags for electron microscopy (EM) imaging, leveraging their high programmability, unique shapes, biomolecule conjugation capability, and stability compatible with standard cryogenic sample preparation protocols. This perspective highlights the potential of DNA Nanotags to enable high-throughput multiplexed EM analysis and facilitate in situ particle identification for cryogenic electron tomography (cryo-ET). Meanwhile, applying Nanotags in live-cell environments requires the efficient cellular uptake of intact structures and successful cytosolic migration. Promising strategies such as employing direct cytosolic delivery platforms and expressing RNA-based Nanotags in situ are discussed, while more systematic studies are needed to fully understand the intracellular trafficking and achieve precise localization of DNA Nanotags.