Random access DNA memory using Boolean search in an archival file storage system
Author(s)
Banal, James L; Shepherd, Tyson R; Berleant, Joseph; Huang, Hellen; Reyes, Miguel; Ackerman, Cheri M; Blainey, Paul C; Bathe, Mark; ... Show more Show less
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DNA is an ultrahigh-density storage medium that could meet exponentially growing worldwide demand for archival data storage if DNA synthesis costs declined sufficiently and if random access of files within exabyte-to-yottabyte-scale DNA data pools were feasible. Here, we demonstrate a path to overcome the second barrier by encapsulating data-encoding DNA file sequences within impervious silica capsules that are surface labelled with single-stranded DNA barcodes. Barcodes are chosen to represent file metadata, enabling selection of sets of files with Boolean logic directly, without use of amplification. We demonstrate random access of image files from a prototypical 2-kilobyte image database using fluorescence sorting with selection sensitivity of one in 106 files, which thereby enables one in 106N selection capability using N optical channels. Our strategy thereby offers a scalable concept for random access of archival files in large-scale molecular datasets.
Date issued
2021Department
Massachusetts Institute of Technology. Department of Biological Engineering; Koch Institute for Integrative Cancer Research at MITJournal
Nature Materials
Publisher
Springer Science and Business Media LLC