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A pitfall for machine learning methods aiming to predict across cell types

Jacob Schreiber, Ritambhara Singh, Jeffrey A. Bilmes, William Stafford Noble

2020Genome biology56 citationsDOIOpen Access PDF

Abstract

Machine learning models that predict genomic activity are most useful when they make accurate predictions across cell types. Here, we show that when the training and test sets contain the same genomic loci, the resulting model may falsely appear to perform well by effectively memorizing the average activity associated with each locus across the training cell types. We demonstrate this phenomenon in the context of predicting gene expression and chromatin domain boundaries, and we suggest methods to diagnose and avoid the pitfall. We anticipate that, as more data becomes available, future projects will increasingly risk suffering from this issue.

Topics & Concepts

BiologyContext (archaeology)ChromatinComputational biologyLocus (genetics)MemorizationMachine learningHuman geneticsDomain (mathematical analysis)GenomicsArtificial intelligenceComputer scienceGeneGenomeGeneticsCognitive psychologyMathematical analysisPsychologyPaleontologyMathematicsGenomics and Chromatin DynamicsRNA and protein synthesis mechanismsRNA Research and Splicing
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