sn-spMF: matrix factorization informs tissue-specific genetic regulation of gene expression.

Citation	He, Yuan, et al. “Sn-SpMF: Matrix Factorization Informs Tissue-Specific Genetic Regulation of Gene Expression”. 2020. Genome Biology, vol. 21, no. 1, 2020, p. 235.
Center	University of Chicago
Author	Yuan He, Surya B Chhetri, Marios Arvanitis, Kaushik Srinivasan, François Aguet, Kristin G Ardlie, Alvaro N Barbeira, Rodrigo Bonazzola, Hae Kyung Im, GTEx Consortium, Christopher D Brown, Alexis Battle
Keywords	Matrix factorization, Tissue-specific eQTLs, TRANSCRIPTION FACTORS, Ubiquitous eQTLs
Abstract	Genetic regulation of gene expression, revealed by expression quantitative trait loci (eQTLs), exhibits complex patterns of tissue-specific effects. Characterization of these patterns may allow us to better understand mechanisms of gene regulation and disease etiology. We develop a constrained matrix factorization model, sn-spMF, to learn patterns of tissue-sharing and apply it to 49 human tissues from the Genotype-Tissue Expression (GTEx) project. The learned factors reflect tissues with known biological similarity and identify transcription factors that may mediate tissue-specific effects. sn-spMF, available at https://github.com/heyuan7676/ts_eQTLs , can be applied to learn biologically interpretable patterns of eQTL tissue-specificity and generate testable mechanistic hypotheses.
Year of Publication	2020
Journal	Genome biology
Volume	21
Issue	1
Number of Pages	235
Date Published	12/2020
ISSN Number	1474-760X
DOI	10.1186/s13059-020-02129-6
Alternate Journal	Genome Biol
PMCID	PMC7488540
PMID	32912314
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