Abstract
AbstractDNA is a promising candidate for long-term data storage due to its high density and endurance. The key challenge in DNA storage today is the cost of synthesis. In this work, we proposecomposite motifs, a frame-work that uses a mixture of prefabricated motifs as building blocks to reduce synthesis cost by scaling logical density. To write data, we introduce Bridge Oligonucleotide Assembly, an enzymatic ligation technique for synthesizing oligos based on composite motifs. To sequence data, we introduce Direct Oligonucleotide Sequencing, a nanopore-based technique to sequence oligos without assembly and amplification. To decode data, we introduce Motif-Search, a novel consensus caller that provides accurate reconstruction despite synthesis and sequencing errors. Using the proposed methods, we present an end-to-end experiment where we store the text “HelloWorld” at a logical density of 84 bits/cycle (14–42×improvement over state-of-the-art.)
Publisher
Cold Spring Harbor Laboratory
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1. Using Soft Information to Improve Error Tolerance of Motif-Based DNA Storage Systems;2023 24th International Conference on Digital Signal Processing (DSP);2023-06-11