Topological Single‐stranded DNA Encoding and Programmable Assembly of Molecular Nanostructures for NIR‐II Cancer Theranostics

Author:

Wang Zhiqiang1,Wang Linlin1,Chen Hong1,Li Ting1,Li Jili1,Zhang Lili1,Zhong Minjuan1,Liu Yanlan1ORCID,Tan Weihong123ORCID

Affiliation:

1. Molecular Science and Biomedicine Laboratory (MBL) State Key Laboratory of Chemo/Biosensing and Chemometrics College of Chemistry and Chemical Engineering Aptamer Engineering Center of Hunan Province Hunan University Changsha Hunan 410082 China

2. The Key Laboratory of Zhejiang Province for Aptamers and Theranostics Zhejiang Cancer Hospital Hangzhou Institute of Medicine (HIM) Chinese Academy of Sciences Hangzhou Zhejiang 310022 China

3. Institute of Molecular Medicine (IMM) Renji Hospital Shanghai Jiao Tong University School of Medicine and College of Chemistry and Chemical Engineering Shanghai Jiao Tong University Shanghai 200240 China

Abstract

AbstractMolecular nanotechnology promises to offer privileged access to developing NIR‐II materials with precise structural and functional manipulation for transformable theranostic applications. However, the lack of an affordable, yet general, method makes this goal currently inaccessible. By virtue of the intriguing nucleic acid chemistry, here we present an artificial base‐directed topological single‐strand DNA encoding design that enables one‐step synthesis of valence‐controlled NIR‐II molecular nanostructures and spatial assembly of these nanostructures to modulate their behaviors in living systems. As proof‐of‐concept studies, we construct ultrasmall Ag2S quantum dots and pH‐responsive, size‐tunable CuS assemblies for in vivo NIR‐II fluorescence imaging and deep tumor photothermal therapy. This work paves a new way for creating functionally diversified architectures and broadens the scope of DNA‐encoded material engineering.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Publisher

Wiley

Subject

General Chemistry,Catalysis

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