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Enthalpy and entropy synergistic regulation-based programmable DNA motifs for biosensing and information encryption.

Lin Lin ZhengJin Ze LiMei WenDongmei XiYanxi ZhuQin WeiXiao-Bing ZhangGuoliang KeFan XiaZhong-Feng Gao
Published in: Science advances (2023)
Deoxyribonucleic acid (DNA) provides a collection of intelligent tools for the development of information cryptography and biosensors. However, most conventional DNA regulation strategies rely solely on enthalpy regulation, which suffers from unpredictable stimuli-responsive performance and unsatisfactory accuracy due to relatively large energy fluctuations. Here, we report an enthalpy and entropy synergistic regulation-based pH-responsive A + /C DNA motif for programmable biosensing and information encryption. In the DNA motif, the variation in loop length alters entropic contribution, and the number of A + /C bases regulates enthalpy, which is verified through thermodynamic characterizations and analyses. On the basis of this straightforward strategy, the performances, such as p K a , of the DNA motif can be precisely and predictably tuned. The DNA motifs are finally successfully applied for glucose biosensing and crypto-steganography systems, highlighting their potential in the field of biosensing and information encryption.
Keyphrases
  • circulating tumor
  • cell free
  • single molecule
  • nucleic acid
  • adipose tissue
  • health information
  • type diabetes
  • circulating tumor cells
  • metabolic syndrome
  • healthcare
  • skeletal muscle
  • blood glucose
  • stress induced