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Antibody-controlled actuation of DNA-based molecular circuits

Author

Listed:
  • Wouter Engelen

    (Laboratory of Chemical Biology and Institute of Complex Molecular Systems, Eindhoven University of Technology)

  • Lenny H. H. Meijer

    (Laboratory of Chemical Biology and Institute of Complex Molecular Systems, Eindhoven University of Technology)

  • Bram Somers

    (Laboratory of Chemical Biology and Institute of Complex Molecular Systems, Eindhoven University of Technology)

  • Tom F. A. de Greef

    (Laboratory of Chemical Biology and Institute of Complex Molecular Systems, Eindhoven University of Technology)

  • Maarten Merkx

    (Laboratory of Chemical Biology and Institute of Complex Molecular Systems, Eindhoven University of Technology)

Abstract

DNA-based molecular circuits allow autonomous signal processing, but their actuation has relied mostly on RNA/DNA-based inputs, limiting their application in synthetic biology, biomedicine and molecular diagnostics. Here we introduce a generic method to translate the presence of an antibody into a unique DNA strand, enabling the use of antibodies as specific inputs for DNA-based molecular computing. Our approach, antibody-templated strand exchange (ATSE), uses the characteristic bivalent architecture of antibodies to promote DNA-strand exchange reactions both thermodynamically and kinetically. Detailed characterization of the ATSE reaction allowed the establishment of a comprehensive model that describes the kinetics and thermodynamics of ATSE as a function of toehold length, antibody–epitope affinity and concentration. ATSE enables the introduction of complex signal processing in antibody-based diagnostics, as demonstrated here by constructing molecular circuits for multiplex antibody detection, integration of multiple antibody inputs using logic gates and actuation of enzymes and DNAzymes for signal amplification.

Suggested Citation

  • Wouter Engelen & Lenny H. H. Meijer & Bram Somers & Tom F. A. de Greef & Maarten Merkx, 2017. "Antibody-controlled actuation of DNA-based molecular circuits," Nature Communications, Nature, vol. 8(1), pages 1-8, April.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14473
    DOI: 10.1038/ncomms14473
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    Cited by:

    1. Yuan Liang & Yunkai Qie & Jing Yang & Ranfeng Wu & Shuang Cui & Yuliang Zhao & Greg J. Anderson & Guangjun Nie & Suping Li & Cheng Zhang, 2023. "Programming conformational cooperativity to regulate allosteric protein-oligonucleotide signal transduction," Nature Communications, Nature, vol. 14(1), pages 1-13, December.

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