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Avocado: a multi-scale deep tensor factorization method learns a latent representation of the human epigenome

Jacob Schreiber, Timothy Durham, Jeffrey A. Bilmes, William Stafford Noble

2020Genome biology133 citationsDOIOpen Access PDF

Abstract

The human epigenome has been experimentally characterized by thousands of measurements for every basepair in the human genome. We propose a deep neural network tensor factorization method, Avocado, that compresses this epigenomic data into a dense, information-rich representation. We use this learned representation to impute epigenomic data more accurately than previous methods, and we show that machine learning models that exploit this representation outperform those trained directly on epigenomic data on a variety of genomics tasks. These tasks include predicting gene expression, promoter-enhancer interactions, replication timing, and an element of 3D chromatin architecture.

Topics & Concepts

EpigenomicsEpigenomeComputer scienceRepresentation (politics)BiologyArtificial intelligenceComputational biologyGenomicsExternal Data RepresentationGenomeGeneticsDNA methylationGeneGene expressionLawPolitical sciencePoliticsEpigenetics and DNA MethylationGenomics and Chromatin DynamicsRNA modifications and cancer