Biomolecule-Driven Two-Factor Authentication Strategy for Access Control of Molecular Devices

Xiaokang Zhang, Yuan Liu, Bin Wang, Shihua Zhou, Peijun Shi, Ben Cao, Yanfen Zheng, Qiang Zhang, Kirilov Kasabov Nikola

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)

Abstract

The rise of DNA nanotechnology is promoting the development of molecular security devices and marking an essential change in information security technology, to one that can resist the threats resulting from the increase in computing power, brute force attempts, and quantum computing. However, developing a secure and reliable access control strategy to guarantee the confidentiality of molecular security devices is still a challenge. Here, a biomolecule-driven two-factor authentication strategy for access control of molecular devices is developed. Importantly, the two-factor is realized by applying the specificity and nicking properties of the nicking enzyme and the programmable design of the DNA sequence, endowing it with the characteristic of a one-time password. To demonstrate the feasibility of this strategy, an access control module is designed and integrated to further construct a role-based molecular access control device. By constructing a command library composed of three commands (Ca, Cb, Ca and Cb), the authorized access of three roles in the molecular device is realized, in which the command Ca corresponds to the authorization of role A, Cb corresponds to the authorization of role B, and Ca and Cb corresponds to the authorization of role C. In this way, when users access the device, they not only need the correct factor but also need to apply for role authorization in advance to obtain secret information. This strategy provides a highly robust method for the research on access control of molecular devices and lays the foundation for research on the next generation of information security.
Original languageEnglish
Pages (from-to)18178–18189
Number of pages12
JournalACS Nano
Volume17
Issue number18
Early online date13 Sept 2023
DOIs
Publication statusPublished (in print/issue) - 26 Sept 2023

Bibliographical note

Funding Information:
This work is supported by 111 Project (No. D23006), the National Natural Science Foundation of China (Nos. 62272079, 61972266), Liaoning Revitalization Talents Program (No. XLYC2008017), Natural Science Foundation of Liaoning Province (Nos. 2021-MS-344, 2021-KF-11-03, 2022-KF-12-14), the Postgraduate Education Reform Project of Liaoning Province (No. LNYJG2022493), the Dalian Outstanding Young Science and Technology Talent Support Program (No. 2022RJ08).

Publisher Copyright:
© 2023 American Chemical Society.

Keywords

  • nicking enzyme
  • molecular devices
  • nucleic acids
  • DNA nanotechnology
  • DNA strand displacement

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