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Low cost DNA data storage using photolithographic synthesis and advanced information reconstruction and error correction

Chemistry

Low cost DNA data storage using photolithographic synthesis and advanced information reconstruction and error correction

P. L. Antkowiak, J. Lietard, et al.

Discover the groundbreaking DNA storage system developed by Philipp L. Antkowiak and colleagues. Utilizing massively parallel light-directed synthesis, this cost-effective method tackles high sequence error rates with innovative encoding and reconstruction algorithms, achieving perfect data recovery. Witness the fascinating achievement of storing sheet music of Mozart, showcasing the immense potential of DNA for data storage.

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Playback language: English
Abstract
This paper demonstrates a DNA storage system using massively parallel light-directed synthesis, which is cheaper than conventional methods but has a high sequence error rate. Reliable information storage is achieved through encoding and reconstruction algorithms, enabling perfect data recovery even with high error rates. The authors successfully stored and retrieved sheet music of Mozart, highlighting the potential for cost-effective DNA data storage.
Publisher
Nature Communications
Published On
Oct 22, 2020
Authors
Philipp L. Antkowiak, Jory Lietard, Mohammad Zalbagi Darestani, Mark M. Somoza, Wendelin J. Stark, Reinhard Heckel, Robert N. Grass
Tags
DNA storage
light-directed synthesis
data recovery
encoding algorithms
high error rates
cost-effective
sheet music

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