Nature Communications (Oct 2023)

Digital data storage on DNA tape using CRISPR base editors

  • Afsaneh Sadremomtaz,
  • Robert F. Glass,
  • Jorge Eduardo Guerrero,
  • Dennis R. LaJeunesse,
  • Eric A. Josephs,
  • Reza Zadegan

DOI
https://doi.org/10.1038/s41467-023-42223-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract While the archival digital memory industry approaches its physical limits, the demand is significantly increasing, therefore alternatives emerge. Recent efforts have demonstrated DNA’s enormous potential as a digital storage medium with superior information durability, capacity, and energy consumption. However, the majority of the proposed systems require on-demand de-novo DNA synthesis techniques that produce a large amount of toxic waste and therefore are not industrially scalable and environmentally friendly. Inspired by the architecture of semiconductor memory devices and recent developments in gene editing, we created a molecular digital data storage system called “DNA Mutational Overwriting Storage” (DMOS) that stores information by leveraging combinatorial, addressable, orthogonal, and independent in vitro CRISPR base-editing reactions to write data on a blank pool of greenly synthesized DNA tapes. As a proof of concept, this work illustrates writing and accurately reading of both a bitmap representation of our school’s logo and the title of this study on the DNA tapes.