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Eulertigs: minimum plain text representation of k-mer sets without repetitions in linear time

Sebastian Schmidt, Jarno Alanko

2023Algorithms for Molecular Biology10 citationsDOIOpen Access PDF

Abstract

A fundamental operation in computational genomics is to reduce the input sequences to their constituent k-mers. For maximum performance of downstream applications it is important to store the k-mers in small space, while keeping the representation easy and efficient to use (i.e. without k-mer repetitions and in plain text). Recently, heuristics were presented to compute a near-minimum such representation. We present an algorithm to compute a minimum representation in optimal (linear) time and use it to evaluate the existing heuristics. Our algorithm first constructs the de Bruijn graph in linear time and then uses a Eulerian-cycle-based algorithm to compute the minimum representation, in time linear in the size of the output.

Topics & Concepts

HeuristicsRepresentation (politics)Computer scienceDe Bruijn graphAlgorithmTime complexityDe Bruijn sequenceEulerian pathGraphTheoretical computer scienceRunning timeMathematicsDiscrete mathematicsApplied mathematicsPoliticsLawPolitical scienceLagrangianOperating systemAlgorithms and Data CompressionGenomics and Phylogenetic StudiesGenomics and Chromatin Dynamics
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