DNA Data Storage.

IF 2.7 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY BioTech Pub Date : 2023-06-01 DOI:10.3390/biotech12020044

Tomasz Buko, Nella Tuczko, Takao Ishikawa

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Abstract

The demand for data storage is growing at an unprecedented rate, and current methods are not sufficient to accommodate such rapid growth due to their cost, space requirements, and energy consumption. Therefore, there is a need for a new, long-lasting data storage medium with high capacity, high data density, and high durability against extreme conditions. DNA is one of the most promising next-generation data carriers, with a storage density of 10¹⁹ bits of data per cubic centimeter, and its three-dimensional structure makes it about eight orders of magnitude denser than other storage media. DNA amplification during PCR or replication during cell proliferation enables the quick and inexpensive copying of vast amounts of data. In addition, DNA can possibly endure millions of years if stored in optimal conditions and dehydrated, making it useful for data storage. Numerous space experiments on microorganisms have also proven their extraordinary durability in extreme conditions, which suggests that DNA could be a durable storage medium for data. Despite some remaining challenges, such as the need to refine methods for the fast and error-free synthesis of oligonucleotides, DNA is a promising candidate for future data storage.

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DNA数据存储。

对数据存储的需求正以前所未有的速度增长，而目前的方法由于其成本、空间要求和能源消耗而不足以适应这种快速增长。因此，需要一种新的、持久的数据存储介质，它具有高容量、高数据密度和在极端条件下的高耐久性。DNA是最有前途的下一代数据载体之一，其存储密度为每立方厘米10¹⁹位数据，其三维结构使其密度比其他存储介质高约8个数量级。PCR过程中的DNA扩增或细胞增殖过程中的复制使大量数据的快速和廉价复制成为可能。此外，如果储存在最佳条件下并脱水，DNA可能会保存数百万年，这使得它对数据存储很有用。许多关于微生物的太空实验也证明了它们在极端条件下的非凡耐久性，这表明DNA可能是一种持久的数据存储介质。尽管仍然存在一些挑战，例如需要改进快速和无差错合成寡核苷酸的方法，但DNA是未来数据存储的有希望的候选者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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