Accurate imputation of tissue-specific gene expression can be a powerful tool for understanding the biological mechanisms underlying human complex traits. Existing imputation methods can be grouped into two categories according to the types of predictors used. The first category uses genotype data, while the second category uses whole-blood expression data. Both data types can be easily collected from blood, avoiding invasive tissue biopsies. In this study, we attempted to build an optimal predictive model for imputing tissue-specific gene expression by combining the genotype and whole-blood expression data. We first evaluated the imputation performance of each standalone model (using genotype data [GEN model] and using whole-blood expressi...
The genetic control of gene expression is a core component of human physiology. For the past several...
Transcriptome prediction methods such as PrediXcan and FUSION have become popular in complex trait m...
The identification of pathogenically-relevant genes and tissues for complex traits can be a difficul...
Integrating molecular information across tissues and cell types is essential for understanding the c...
The purpose of this upload is to release the tissue-specific gene expression imputation models we ge...
Gene expression and its regulation can vary substantially across tissue types. In order to generate ...
Transcriptome-wide association analysis is a powerful approach to studying the genetic architecture ...
Popular transcriptome imputation methods such as PrediXcan and FUSIon use parametric linear assumpti...
Transcriptome prediction methods such as PrediXcan and FUSION have become popular in complex trait m...
Large-scale transcriptomic datasets provide valuable opportunities to better understand the regulati...
In vivo experimental analysis of human brain tissue poses substantial challenges and ethical concern...
The identification of pathogenically-relevant genes and tissues for complex traits can be a difficul...
The purpose of this upload is to release the tissue-specific gene expression imputation models we ge...
Recent developments allowed generating multiple high-quality 'omics' data that could increase the pr...
With the improvement of high-throughput technologies during the last decade, several studies explori...
The genetic control of gene expression is a core component of human physiology. For the past several...
Transcriptome prediction methods such as PrediXcan and FUSION have become popular in complex trait m...
The identification of pathogenically-relevant genes and tissues for complex traits can be a difficul...
Integrating molecular information across tissues and cell types is essential for understanding the c...
The purpose of this upload is to release the tissue-specific gene expression imputation models we ge...
Gene expression and its regulation can vary substantially across tissue types. In order to generate ...
Transcriptome-wide association analysis is a powerful approach to studying the genetic architecture ...
Popular transcriptome imputation methods such as PrediXcan and FUSIon use parametric linear assumpti...
Transcriptome prediction methods such as PrediXcan and FUSION have become popular in complex trait m...
Large-scale transcriptomic datasets provide valuable opportunities to better understand the regulati...
In vivo experimental analysis of human brain tissue poses substantial challenges and ethical concern...
The identification of pathogenically-relevant genes and tissues for complex traits can be a difficul...
The purpose of this upload is to release the tissue-specific gene expression imputation models we ge...
Recent developments allowed generating multiple high-quality 'omics' data that could increase the pr...
With the improvement of high-throughput technologies during the last decade, several studies explori...
The genetic control of gene expression is a core component of human physiology. For the past several...
Transcriptome prediction methods such as PrediXcan and FUSION have become popular in complex trait m...
The identification of pathogenically-relevant genes and tissues for complex traits can be a difficul...