Imputing missing RNA-sequencing data from DNA methylation by using a transfer learning–based neural network | Zendy

Xiang Zhou | Zendy; Hua Chai | Zendy; Huiying Zhao | Zendy; ChingHsing Luo | Zendy; Yuedong Yang | Zendy

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Imputing missing RNA-sequencing data from DNA methylation by using a transfer learning–based neural network

Author(s) -

Xiang Zhou,

Hua Chai,

Huiying Zhao,

ChingHsing Luo,

Yuedong Yang

Publication year - 2020

Publication title -

gigascience

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.947

H-Index - 54

ISSN - 2047-217X

DOI - 10.1093/gigascience/giaa076

Subject(s) - dna methylation , computational biology , imputation (statistics) , computer science , missing data , epigenetics , cluster analysis , data mining , methylation , gene , biology , artificial intelligence , gene expression , machine learning , genetics

Gene expression plays a key intermediate role in linking molecular features at the DNA level and phenotype. However, owing to various limitations in experiments, the RNA-seq data are missing in many samples while there exist high-quality of DNA methylation data. Because DNA methylation is an important epigenetic modification to regulate gene expression, it can be used to predict RNA-seq data. For this purpose, many methods have been developed. A common limitation of these methods is that they mainly focus on a single cancer dataset and do not fully utilize information from large pan-cancer datasets.

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