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Constructing benchmark test sets for biological sequence analysis using independent set algorithms

Samantha Petti, Sean R. Eddy

2022PLoS Computational Biology21 citationsDOIOpen Access PDF

Abstract

Biological sequence families contain many sequences that are very similar to each other because they are related by evolution, so the strategy for splitting data into separate training and test sets is a nontrivial choice in benchmarking sequence analysis methods. A random split is insufficient because it will yield test sequences that are closely related or even identical to training sequences. Adapting ideas from independent set graph algorithms, we describe two new methods for splitting sequence data into dissimilar training and test sets. These algorithms input a sequence family and produce a split in which each test sequence is less than p% identical to any individual training sequence. These algorithms successfully split more families than a previous approach, enabling construction of more diverse benchmark datasets.

Topics & Concepts

Sequence (biology)Benchmark (surveying)AlgorithmSet (abstract data type)BenchmarkingComputer scienceTest setAlignment-free sequence analysisSequence analysisMultiple sequence alignmentSequence alignmentGraphTest (biology)MathematicsArtificial intelligenceTheoretical computer scienceBiologyGeneticsPeptide sequencePaleontologyBusinessGeographyProgramming languageMarketingGeneGeodesyGenomics and Phylogenetic StudiesGenomics and Chromatin DynamicsRNA and protein synthesis mechanisms
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