Functionalization of Nucleic Acid Molecular Machines under Physiological Conditions: A Review DOI
Mo Zhou,

Hongzhen Peng,

Shihua Luo

et al.

ACS Applied Bio Materials, Journal Year: 2025, Volume and Issue: unknown

Published: April 1, 2025

In-situ fabrication of nucleic acid molecular machines in biological environments is desirable for smart theranostic applications. However, given the complex nature environments, integration multiple functional modules into a coordinated machine remains challenging. Recent advances nanotechnology offer solutions to these challenges. Here, we outline design principles acid–based tailored physiological conditions, drawing on recent examples. We review cutting-edge technologies that facilitate their functionalization settings, particularly presynthesis modifications using unnatural bases and postsynthesis via bioorthogonal chemistry noncovalent interactions. discuss advantages limitations suggest future directions overcome existing

Language: Английский

Functionalization of Nucleic Acid Molecular Machines under Physiological Conditions: A Review DOI
Mo Zhou,

Hongzhen Peng,

Shihua Luo

et al.

ACS Applied Bio Materials, Journal Year: 2025, Volume and Issue: unknown

Published: April 1, 2025

In-situ fabrication of nucleic acid molecular machines in biological environments is desirable for smart theranostic applications. However, given the complex nature environments, integration multiple functional modules into a coordinated machine remains challenging. Recent advances nanotechnology offer solutions to these challenges. Here, we outline design principles acid–based tailored physiological conditions, drawing on recent examples. We review cutting-edge technologies that facilitate their functionalization settings, particularly presynthesis modifications using unnatural bases and postsynthesis via bioorthogonal chemistry noncovalent interactions. discuss advantages limitations suggest future directions overcome existing

Language: Английский

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