Condensed DNA Nanosphere for DNA Origami Cryptography

Author:

Gao Rui1,Cai Zhuang1,Wang Jianbang1,Liu Huajie1

Affiliation:

1. Key Laboratory of Advanced Civil Engineering Materials of Ministry of Education, School of Chemical Science and Engineering, Shanghai Research Institute for Intelligent Autonomous Systems, Tongji University, Shanghai 200092, China

Abstract

Maintaining the confidentiality and integrity of the messages during a transmission is one of the most important aims of encrypted communication systems. Many achievements were made using biomolecules to improve the quality of the messages in communication. At the same time, it is still a challenge to construct cooperative communications based on the interactions between biomolecules to achieve the confidentiality and integrity of the transmitted messages. DNA-based encrypted communications have been developed, and in particular, DNA-origami-based message encryption can combine steganography and pattern encryption and exhibits extremely high confidentiality. Nevertheless, limited by biological characteristics, encrypted messages based on DNA require a strict storage environment in the process of transmission. The integrity of the message encoded in the DNA may be damaged when the DNA is in an unfriendly and hard environment. Therefore, it is particularly significant to improve the stability of DNA when it is exposed to a harsh environment during transmission. Here, we encoded the information into the DNA strands that were condensed for encryption to form a nanosphere covered with a shell of SiO2, which brings high-density messages and exhibits higher stability than separated DNA. The solid shell of SiO2 could prevent DNA from contacting the harsh environment, thereby protecting the DNA structure and maintaining the integrity of the information. At the same time, DNA nanospheres can achieve high throughput input and higher storage density per unit volume, which contribute to confusing the message strand (M-strand) with the interference strand in the stored information. Condensing DNA into the nanosphere that is used for DNA origami cryptography has the potential to be used in harsh conditions with higher confidentiality and integrity for the transmitted messages.

Funder

National Natural Science Foundation of China

Science and Technology Committee of Shanghai Municipality

Shanghai Pilot Program for Basic Research

Fundamental Research Funds for the Central Universities

Publisher

MDPI AG

Subject

Organic Chemistry,Inorganic Chemistry,Electrochemistry,Chemistry (miscellaneous)

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