加密
计算机科学
钥匙(锁)
编码(内存)
DNA折纸
控制重构
启发式
信息隐藏
分布式计算
DNA运算
DNA纳米技术
信息安全
密码学
嵌入
理论计算机科学
认证(法律)
纳米技术
机制(生物学)
物理不可克隆功能
云计算
信息敏感性
密文
数据安全
概率加密
信息交流
逆向工程
作者
Meng Sun,Bo Kou,Mo Xie,Borui Zhang,Ya Ding,Linlin Wang,Chunhai Fan,Jie Chao
摘要
The rapid growth of data volume and computing technologies has exposed the limitations of traditional encryption in terms of physical protection, system flexibility, and key management. Confronted with increasingly sophisticated attack threats, the static defense paradigm based on a single-mechanism encryption has become inadequate for maintaining information security. Therefore, integrating multimechanism strategies for collaborative defense within a dynamic architecture is essential to enhance information security. Here, we develop an algorithm-empowered encryption strategy using photocontrolled DNA origami nanostructures, which deeply integrates algorithms with molecular-scale programmable structural reconfiguration to establish a bioalgorithmic collaborative security framework. Rectangular DNA origami nanostructures serve as encoding physical substrates, storing digits and alphabets through binary mapping for information steganography. Additionally, dynamic connectors constructed from azobenzene-modified DNA strands establish linkages between DNA origami nanostructures, with the interstructural states precisely regulated via ultraviolet-visible (UV-vis) irradiation. Meanwhile, embedding the classical substitution-permutation ciphers into dynamically controllable nanostructures, combined with computationally driven key management, enables molecular-level information encryption and programmatic control. The cooperative encryption mechanism of substitution and permutation ciphers enhances information confusion and diffusion, while computational algorithms assist in optimizing the key layout and performing heuristic searches, further ensuring the security of molecular-level information processing. This work offers a promising perspective for research in information security and biointegrated intelligent systems.
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