RNA alternative splicing is primarily responsible for transcriptome diversity and is relevant to human development and disease. However, current approaches to splicing quantication make simplifying assumptions which are violated when RNA sequencing data are heterogeneous. Influences from genetic and environmental background contribute to variability within a group of samples purported to represent the same biological condition. This work describes three methods which account for data heterogeneity when detecting differential RNA splicing between sample groups. First, a robust model is implemented for outlier detection within a group of purported replicates. Next, large RNA-seq datasets with high within-group variability are addressed with a...
Changes in gene expression can correlate with poor disease outcomes in two ways: through changes in ...
Thousands of alternative exons are spliced out of messenger RNA to increase protein diversity. High-...
RNA-sequencing has revolutionized biomedical research and, in particular, our ability to study gene ...
RNA alternative splicing is primarily responsible for transcriptome diversity and is relevant to hum...
The emergence of RNA-seq technology has made it possible to estimate isoform-specific gene expressio...
The emergence of RNA-seq technology has made it possible to estimate isoform-specific gene expressio...
Alternative splicing (AS) is a major source of cellular and functional complexity in the eukaryotic ...
Identification of genetic variants affecting splicing in RNA sequencing population studies is still ...
Abstract To characterize the genetic variation of alternative splicing, we develop GLiMMPS, a robust...
This is a supplementary data set for the publication, the abstract of which follows. The ubiquity o...
Alternative splicing is a ubiquitous gene regulatory mechanism with important roles during normal de...
Alternative splicing is a ubiquitous gene regulatory mechanism with important roles during normal de...
DNA arrays have been widely used to perform transcriptome-wide analysis of gene expression, and many...
Changes in gene expression can correlate with poor disease outcomes in two ways: through changes in ...
High-throughput next-generation sequencing technologies have led to a rapid increase in the number o...
Changes in gene expression can correlate with poor disease outcomes in two ways: through changes in ...
Thousands of alternative exons are spliced out of messenger RNA to increase protein diversity. High-...
RNA-sequencing has revolutionized biomedical research and, in particular, our ability to study gene ...
RNA alternative splicing is primarily responsible for transcriptome diversity and is relevant to hum...
The emergence of RNA-seq technology has made it possible to estimate isoform-specific gene expressio...
The emergence of RNA-seq technology has made it possible to estimate isoform-specific gene expressio...
Alternative splicing (AS) is a major source of cellular and functional complexity in the eukaryotic ...
Identification of genetic variants affecting splicing in RNA sequencing population studies is still ...
Abstract To characterize the genetic variation of alternative splicing, we develop GLiMMPS, a robust...
This is a supplementary data set for the publication, the abstract of which follows. The ubiquity o...
Alternative splicing is a ubiquitous gene regulatory mechanism with important roles during normal de...
Alternative splicing is a ubiquitous gene regulatory mechanism with important roles during normal de...
DNA arrays have been widely used to perform transcriptome-wide analysis of gene expression, and many...
Changes in gene expression can correlate with poor disease outcomes in two ways: through changes in ...
High-throughput next-generation sequencing technologies have led to a rapid increase in the number o...
Changes in gene expression can correlate with poor disease outcomes in two ways: through changes in ...
Thousands of alternative exons are spliced out of messenger RNA to increase protein diversity. High-...
RNA-sequencing has revolutionized biomedical research and, in particular, our ability to study gene ...