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Cryptographic approaches to authenticating synthetic DNA sequences

Casey-Tyler Berezin, Samuel Peccoud, Diptendu Mohan Kar, Jean Peccoud

2024Trends in biotechnology23 citationsDOIOpen Access PDF

Abstract

In a bioeconomy that relies on synthetic DNA sequences, the ability to ensure their authenticity is critical. DNA watermarks can encode identifying data in short sequences and can be combined with error correction and encryption protocols to ensure that sequences are robust to errors and securely communicated. New digital signature techniques allow for public verification that a sequence has not been modified and can contain sufficient information for synthetic DNA to be self-documenting. In translating these techniques from bacteria to more complex genetically modified organisms (GMOs), special considerations must be made to allow for public verification of these products. We argue that these approaches should be widely implemented to assert authorship, increase the traceability, and detect the unauthorized use of synthetic DNA.

Topics & Concepts

ENCODEComputer scienceEncryptionTraceabilityCryptographyComputational biologyDigital signatureSignature (topology)DNADECIPHERDNA sequencingComputer securityBiologyGeneticsGeneHash functionMathematicsSoftware engineeringGeometryEnvironmental DNA in Biodiversity StudiesCRISPR and Genetic EngineeringDNA and Biological Computing
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