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arxiv 2209.11923 v1 pith:LVPFF5NW submitted 2022-09-24 cs.LG

DeepChrome 2.0: Investigating and Improving Architectures, Visualizations, & Experiments

classification cs.LG
keywords genehistonedeepchromeexpressionmodificationsignalsnetworkexperiments
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Histone modifications play a critical role in gene regulation. Consequently, predicting gene expression from histone modification signals is a highly motivated problem in epigenetics. We build upon the work of DeepChrome by Singh et al. (2016), who trained classifiers that map histone modification signals to gene expression. We present a novel visualization technique for providing insight into combinatorial relationships among histone modifications for gene regulation that uses a generative adversarial network to generate histone modification signals. We also explore and compare various architectural changes, with results suggesting that the 645k-parameter convolutional neural network from DeepChrome has the same predictive power as a 12-parameter linear network. Results from cross-cell prediction experiments, where the model is trained and tested on datasets of varying sizes, cell-types, and correlations, suggest the relationship between histone modification signals and gene expression is independent of cell type. We release our PyTorch re-implementation of DeepChrome on GitHub \footnote{\url{github.com/ssss1029/gene_expression_294}}.\parfillskip=0pt

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