Difference between revisions of "DNA Punch Cards for Storing Data"

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(Overview)
(Overview)
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[[Category:Self-assembly]]
 
[[Category:Self-assembly]]
 
==Overview==
 
==Overview==
DNA storage systems draw significant interest in the scientific community due to the potential for high storage density and stability. These systems are typically based on synthetic-DNA; these systems are costly, have a high read/write latency, and are prone to errors. However, these issues can be resolved through the use of native DNA punch cards.<ref name=naturednapunchcards/>.
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Synthetic DNA storage systems draw significant interest in the scientific community due to the potential for high storage density and stability. These systems are costly, have a high read/write latency, and are prone to errors. However, these issues can be resolved through the use of native DNA punch cards.<ref name=naturednapunchcards/>.
  
 
==Results==
 
==Results==

Revision as of 19:56, 13 July 2022

Overview

Synthetic DNA storage systems draw significant interest in the scientific community due to the potential for high storage density and stability. These systems are costly, have a high read/write latency, and are prone to errors. However, these issues can be resolved through the use of native DNA punch cards.[1].

Results

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References

  1. Tabatabaei, S.K., Wang, B., Athreya, N.B.M. et al. - DNA punch cards for storing data on native DNA sequences via enzymatic nicking
    Nature Communications ,2020
    Bibtex
    Author : Tabatabaei, S.K., Wang, B., Athreya, N.B.M. et al.
    Title : DNA punch cards for storing data on native DNA sequences via enzymatic nicking
    In : Nature Communications -
    Address :
    Date : 2020