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Efficient and Explicit Balanced Primer Codes

Yeow Meng Chee, Han Mao Kiah, Hengjia Wei

2020IEEE Transactions on Information Theory28 citationsDOI

Abstract

To equip DNA-based data storage with random-access capabilities, Yazdi et al. (2018) prepended DNA strands with specially chosen address sequences called primers and provided certain design criteria for these primers. We provide explicit constructions of error-correcting codes that are suitable as primer addresses and equip these constructions with efficient encoding algorithms. Specifically, our constructions take cyclic or linear codes as inputs and produce sets of primers with similar error-correcting capabilities. Using certain classes of BCH codes, we obtain infinite families of primer sets of length n, minimum distance d with (d + 1) log <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">4</sub> n + O(1) redundant symbols. Our techniques involve reversible cyclic codes (1964), an encoding method of Tavares et al. (1971) and Knuth's balancing technique (1986). In our investigation, we also construct efficient and explicit binary balanced error-correcting codes and codes for DNA computing.

Topics & Concepts

BCH codeComputer sciencePrimer (cosmetics)Construct (python library)Error detection and correctionBinary numberEncoding (memory)Luby transform codeAlgorithmDiscrete mathematicsLinear codeMathematicsBlock codeTheoretical computer scienceDecoding methodsArithmeticArtificial intelligenceOrganic chemistryProgramming languageChemistryDNA and Biological ComputingAdvanced biosensing and bioanalysis techniquesCellular Automata and Applications
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