DNA assembly for nanopore data storage readout

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作者
Randolph Lopez
Yuan-Jyue Chen
Siena Dumas Ang
Sergey Yekhanin
Konstantin Makarychev
Miklos Z Racz
Georg Seelig
Karin Strauss
Luis Ceze
机构
[1] University of Washington,Department of Bioengineering
[2] University of Washington,Molecular Engineering & Sciences Institute
[3] Microsoft Research,Department of Electrical & Computer Engineering
[4] University of Washington,Paul G. Allen School for Computer Science & Engineering
[5] University of Washington,undefined
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Nature Communications | / 10卷
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摘要
Synthetic DNA is becoming an attractive substrate for digital data storage due to its density, durability, and relevance in biological research. A major challenge in making DNA data storage a reality is that reading DNA back into data using sequencing by synthesis remains a laborious, slow and expensive process. Here, we demonstrate successful decoding of 1.67 megabytes of information stored in short fragments of synthetic DNA using a portable nanopore sequencing platform. We design and validate an assembly strategy for DNA storage that drastically increases the throughput of nanopore sequencing. Importantly, this assembly strategy is generalizable to any application that requires nanopore sequencing of small DNA amplicons.
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