2021
DOI: 10.1101/2021.07.28.454193
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Long term conservation of DNA at ambient temperature. Implications for DNA data storage

Abstract: DNA conservation is central to many applications. This leads to an ever-increasing number of samples which are more and more difficult and costly to store or transport. A way to alleviate this problem is to develop procedures for storing samples at room temperature while maintaining their stability. A variety of commercial systems have been proposed but they fail to completely protect DNA from deleterious factors, mainly water. On the other side, Imagene company has developed a procedure for long-term conserva… Show more

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Cited by 3 publications
(4 citation statements)
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“…0.45 Zettabytes (ZB) equivalent to 450 x 10 6 Terabytes (TB) per gram of DNA, all of humanity's digital data in 2019 (45 ZB) could fit in 100 g of DNA ( 3 ). Moreover, DNA storage does not require energy since these molecules are perfectly stable at room temperature under appropriate conditions ( 4, 5 ).…”
Section: Main Textmentioning
confidence: 99%
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“…0.45 Zettabytes (ZB) equivalent to 450 x 10 6 Terabytes (TB) per gram of DNA, all of humanity's digital data in 2019 (45 ZB) could fit in 100 g of DNA ( 3 ). Moreover, DNA storage does not require energy since these molecules are perfectly stable at room temperature under appropriate conditions ( 4, 5 ).…”
Section: Main Textmentioning
confidence: 99%
“…Each bit of the binary file is converted into DNA using the one bit per base Church-Gao-Kosuri (CGK) encoding scheme ( 4 ) attributing randomly A or C for 0 and T or G for 1. Combinatorial effect of the CGK method confers flexibility in the conversion of binary information into DNA, allowing to apply multiple constraints on the final sequence, which are necessary for (i) DNA synthesis and sequencing (limitation of homopolymer length, controlled GC content), (ii) DNA assembly (forbidden restriction sites) and (iii) DNA biosafety (limiting transcription and translation).…”
Section: Main Textmentioning
confidence: 99%
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