Glycerol-Assisted DNA Self-Assembly at Low Temperatures

Zhengyang Sun; Wen Wang; Bryan Wei

doi:10.1002/smll.202505770

Glycerol-Assisted DNA Self-Assembly at Low Temperatures

Zhengyang Sun
, Wen Wang
, Bryan Wei

Tsinghua University
BGI Research
BGI Research
BGI Research

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

In preparing DNA nanostructures, thermal annealing is a common procedure to direct the proper DNA self-assembly. However, the denaturing condition is not ideal in biomolecular applications in which physiological or lower temperature is preferred. In this study, glycerol is supplemented in the reaction system for DNA self-assembly at arbitrary temperatures. The simple implementation leads to the successful generation of a variety of synthetic constructs. Notably, the glycerol-based DNA nanostructure production sets the assembly temperature to an unprecedented freezing level. The co-assembly test with guest protein from cell lysate shows a perfect compatibility of the method with the functioning of natural biomolecules and points to the emerging opportunities in molecular and cellular biology applications.

Original language	English
Article number	e05770
Journal	Small
Volume	21
Issue number	40
DOIs	https://doi.org/10.1002/smll.202505770
State	Published - 9 Oct 2025
Externally published	Yes

Keywords

DNA nanostructures
glycerol
self-assembly

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10.1002/smll.202505770

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title = "Glycerol-Assisted DNA Self-Assembly at Low Temperatures",

abstract = "In preparing DNA nanostructures, thermal annealing is a common procedure to direct the proper DNA self-assembly. However, the denaturing condition is not ideal in biomolecular applications in which physiological or lower temperature is preferred. In this study, glycerol is supplemented in the reaction system for DNA self-assembly at arbitrary temperatures. The simple implementation leads to the successful generation of a variety of synthetic constructs. Notably, the glycerol-based DNA nanostructure production sets the assembly temperature to an unprecedented freezing level. The co-assembly test with guest protein from cell lysate shows a perfect compatibility of the method with the functioning of natural biomolecules and points to the emerging opportunities in molecular and cellular biology applications.",

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AU - Sun, Zhengyang

AU - Wang, Wen

AU - Wei, Bryan

PY - 2025/10/9

Y1 - 2025/10/9

N2 - In preparing DNA nanostructures, thermal annealing is a common procedure to direct the proper DNA self-assembly. However, the denaturing condition is not ideal in biomolecular applications in which physiological or lower temperature is preferred. In this study, glycerol is supplemented in the reaction system for DNA self-assembly at arbitrary temperatures. The simple implementation leads to the successful generation of a variety of synthetic constructs. Notably, the glycerol-based DNA nanostructure production sets the assembly temperature to an unprecedented freezing level. The co-assembly test with guest protein from cell lysate shows a perfect compatibility of the method with the functioning of natural biomolecules and points to the emerging opportunities in molecular and cellular biology applications.

AB - In preparing DNA nanostructures, thermal annealing is a common procedure to direct the proper DNA self-assembly. However, the denaturing condition is not ideal in biomolecular applications in which physiological or lower temperature is preferred. In this study, glycerol is supplemented in the reaction system for DNA self-assembly at arbitrary temperatures. The simple implementation leads to the successful generation of a variety of synthetic constructs. Notably, the glycerol-based DNA nanostructure production sets the assembly temperature to an unprecedented freezing level. The co-assembly test with guest protein from cell lysate shows a perfect compatibility of the method with the functioning of natural biomolecules and points to the emerging opportunities in molecular and cellular biology applications.

KW - DNA nanostructures

KW - glycerol

KW - self-assembly

UR - https://www.scopus.com/pages/publications/105014725815

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DO - 10.1002/smll.202505770

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JF - Small

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M1 - e05770

ER -

Glycerol-Assisted DNA Self-Assembly at Low Temperatures

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Keywords

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