Nucleic Acid Nanomaterial-Mediated Single-Cell Encapsulation and Its Application
Yue Qiu, Mengyu Huang, Xiaotong Jiang, Peiru Chen, Zhenzhen Guo, Kaixiang Zhang

TL;DR
This review discusses how DNA nanomaterials can be used to encapsulate single cells, offering precise control and biocompatibility for biomedical applications.
Contribution
The paper systematically summarizes recent advances in DNA nanomaterial-based single-cell encapsulation and highlights its unique advantages and applications.
Findings
DNA nanomaterials provide programmable architecture and high biocompatibility for cell encapsulation.
They enable precise spatial control and modular functionality for biomedical research.
Challenges and future directions in DNA-based cell encapsulation are critically discussed.
Abstract
Single-cell encapsulation, by constructing cell-scale microenvironments, enables precise protection, regulation, and functional enhancement of individual cells, holding significant importance in biomedical fields such as bioanalysis and cell therapy. Although various materials—including polymers, nanoparticles, hydrogels, polyphenols, and inorganic minerals—have been explored for single-cell encapsulation, limitations in controllability, biocompatibility, and multifunctional integration remain. In contrast, DNA nanomaterials offer unique advantages, including programmable architecture, high biocompatibility, precise spatial control, and modular functionality, making them highly suitable for the development of intelligent single-cell encapsulation systems. In this review, a systematic summary of recent advances in DNA nanomaterial-based single-cell encapsulation is presented. The…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsAdvanced biosensing and bioanalysis techniques · RNA Interference and Gene Delivery · Innovative Microfluidic and Catalytic Techniques Innovation
