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Journal Article
How to make DNA data storage more applicable
2024
Overview
The high-capacity and long-lasting storage features of DNA have enabled researchers to demonstrate its data storage capabilities.Current challenges becoming apparent are high storage costs and slow retrieval of the data.Enzymatic read-in and read-out hold promise for lower prices for DNA synthesis and data retrieval.New fast read-out options include direct optic readout and sequence-mediated signals.Graphene for fast sequencing along with DNA wires and nanocellulose as chassis boost application.
The storage of digital data is becoming a worldwide problem. DNA has been recognized as a biological solution due to its ability to store genetic information without alteration over long periods. The first demonstrations of high-capacity long-lasting DNA digital data storage have been shown. However, high storage costs and slow retrieval of the data must be overcome to make DNA data storage more applicable and marketable. Herein, we discuss the issues and recent advances in DNA data storage methods and highlight pathways to make this technology more applicable to real-world digital data storage. We envision that a combination of molecular biology, nanotechnology, novel polymers, electronics, and automation with systematic development will allow DNA data storage sufficient for everyday use.
The storage of digital data is becoming a worldwide problem. DNA has been recognized as a biological solution due to its ability to store genetic information without alteration over long periods. The first demonstrations of high-capacity long-lasting DNA digital data storage have been shown. However, high storage costs and slow retrieval of the data must be overcome to make DNA data storage more applicable and marketable. Herein, we discuss the issues and recent advances in DNA data storage methods and highlight pathways to make this technology more applicable to real-world digital data storage. We envision that a combination of molecular biology, nanotechnology, novel polymers, electronics, and automation with systematic development will allow DNA data storage sufficient for everyday use.
Publisher
Elsevier Ltd,Elsevier Limited
Subject
