Background: Recent interest in reference-free deconvolution of DNA methylation data has led to several supervised methods, but these methods do not easily permit the interpretation of underlying cell types.
Results: We propose a simple method for reference-free deconvolution that provides both proportions of putative cell types defined by their underlying...
Background: Recent interest in reference-free deconvolution of DNA methylation data has led to several supervised methods, but these methods do not easily permit the interpretation of underlying cell types.
Results: We propose a simple method for reference-free deconvolution that provides both proportions of putative cell types defined by their underlying...
Background: Recent interest in reference-free deconvolution of DNA methylation data has led to several supervised methods, but these methods do not easily permit the interpretation of underlying cell types.
Results: We propose a simple method for reference-free deconvolution that provides both proportions of putative cell types defined by their underlying...
Background: Recent interest in reference-free deconvolution of DNA methylation data has led to several supervised methods, but these methods do not easily permit the interpretation of underlying cell types.
Results: We propose a simple method for reference-free deconvolution that provides both proportions of putative cell types defined by their underlying...
Background: Recent interest in reference-free deconvolution of DNA methylation data has led to several supervised methods, but these methods do not easily permit the interpretation of underlying cell types.
Results: We propose a simple method for reference-free deconvolution that provides both proportions of putative cell types defined by their underlying...
Exposure to arsenic early in life has been associated with increased risk of several chronic diseases and is believed to alter epigenetic programming in utero. In the present study, we evaluate the epigenome-wide association of arsenic exposure in utero and DNA methylation in placenta (n=37), umbilical artery (n=45) and human...