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Multicomponent molecular memory

Author

Listed:
  • Christopher E. Arcadia

    (Brown University)

  • Eamonn Kennedy

    (Brown University)

  • Joseph Geiser

    (Brown University)

  • Amanda Dombroski

    (Brown University)

  • Kady Oakley

    (Brown University)

  • Shui-Ling Chen

    (Brown University)

  • Leonard Sprague

    (Brown University)

  • Mustafa Ozmen

    (Brown University)

  • Jason Sello

    (Brown University)

  • Peter M. Weber

    (Brown University)

  • Sherief Reda

    (Brown University)

  • Christopher Rose

    (Brown University)

  • Eunsuk Kim

    (Brown University)

  • Brenda M. Rubenstein

    (Brown University)

  • Jacob K. Rosenstein

    (Brown University)

Abstract

Multicomponent reactions enable the synthesis of large molecular libraries from relatively few inputs. This scalability has led to the broad adoption of these reactions by the pharmaceutical industry. Here, we employ the four-component Ugi reaction to demonstrate that multicomponent reactions can provide a basis for large-scale molecular data storage. Using this combinatorial chemistry we encode more than 1.8 million bits of art historical images, including a Cubist drawing by Picasso. Digital data is written using robotically synthesized libraries of Ugi products, and the files are read back using mass spectrometry. We combine sparse mixture mapping with supervised learning to achieve bit error rates as low as 0.11% for single reads, without library purification. In addition to improved scaling of non-biological molecular data storage, these demonstrations offer an information-centric perspective on the high-throughput synthesis and screening of small-molecule libraries.

Suggested Citation

  • Christopher E. Arcadia & Eamonn Kennedy & Joseph Geiser & Amanda Dombroski & Kady Oakley & Shui-Ling Chen & Leonard Sprague & Mustafa Ozmen & Jason Sello & Peter M. Weber & Sherief Reda & Christopher , 2020. "Multicomponent molecular memory," Nature Communications, Nature, vol. 11(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-14455-1
    DOI: 10.1038/s41467-020-14455-1
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    Cited by:

    1. Jan Kretschmer & Tomáš David & Martin Dračínský & Ondřej Socha & Daniel Jirak & Martin Vít & Radek Jurok & Martin Kuchař & Ivana Císařová & Miloslav Polasek, 2022. "Paramagnetic encoding of molecules," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    2. Ahmed A. Agiza & Kady Oakley & Jacob K. Rosenstein & Brenda M. Rubenstein & Eunsuk Kim & Marc Riedel & Sherief Reda, 2023. "Digital circuits and neural networks based on acid-base chemistry implemented by robotic fluid handling," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Chao Pan & S. Kasra Tabatabaei & S. M. Hossein Tabatabaei Yazdi & Alvaro G. Hernandez & Charles M. Schroeder & Olgica Milenkovic, 2022. "Rewritable two-dimensional DNA-based data storage with machine learning reconstruction," Nature Communications, Nature, vol. 13(1), pages 1-12, December.

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