The human transcriptome is complex, comprising multiple transcript types, mostly in the form of non-coding RNA (ncRNA). The majority of ncRNA is of the long form (lncRNA, ≥ 200 bp), which plays an important role in gene regulation through multiple mechanisms including epigenetics, chromatin modification, control of transcription factor binding, and regulation of alternative splicing. Both mRNA and ncRNA exhibit additional variability in the form of alternative splicing and RNA editing. All aspects of the human transcriptome can potentially be dysregulated by environmental exposures. Next-generation RNA sequencing (RNA-Seq) is the best available methodology to measure this although it has limitations, including experimental bias. The third p...
Gene expression is the fundamental level at which the results of various genetic and regulatory prog...
RNA-sequencing, commonly referred to as RNA-seq, is the most recently developed method for the analy...
Background: We used RNA sequencing to analyze transcript profiles of ten autopsy brain regions from ...
In the last decades, transcriptome profiling has been one of the most utilized approaches to investi...
Gene expression studies are extremely useful for understanding a broad range of biological, physiolo...
Up-to-date research in biology, biotechnology, and medicine requires fast genome and transcriptome a...
The manifestation of phenotype at the cellular and organismal level is determined in large part by g...
Abstract Background We used RNA sequencing to analyze...
Extensive genome-wide transcriptome study mediated by high throughput sequencing technique has revol...
Next-generation sequencing (NGS) technologies are now well established and have become a routine ana...
The availability of the human genome sequence has allowed identification of disease-causing mutation...
Studies on gene expression in response to therapy have led to the discovery of pharmacogenomics biom...
International audienceModern toxicology is challenged in its aspiration to test and risk-assess the ...
Sequencing the human genome empowers translational medicine, facilitating transcriptome-wide molecul...
Cellular life is highly complex. In order to expand our understanding of the workings of human cells...
Gene expression is the fundamental level at which the results of various genetic and regulatory prog...
RNA-sequencing, commonly referred to as RNA-seq, is the most recently developed method for the analy...
Background: We used RNA sequencing to analyze transcript profiles of ten autopsy brain regions from ...
In the last decades, transcriptome profiling has been one of the most utilized approaches to investi...
Gene expression studies are extremely useful for understanding a broad range of biological, physiolo...
Up-to-date research in biology, biotechnology, and medicine requires fast genome and transcriptome a...
The manifestation of phenotype at the cellular and organismal level is determined in large part by g...
Abstract Background We used RNA sequencing to analyze...
Extensive genome-wide transcriptome study mediated by high throughput sequencing technique has revol...
Next-generation sequencing (NGS) technologies are now well established and have become a routine ana...
The availability of the human genome sequence has allowed identification of disease-causing mutation...
Studies on gene expression in response to therapy have led to the discovery of pharmacogenomics biom...
International audienceModern toxicology is challenged in its aspiration to test and risk-assess the ...
Sequencing the human genome empowers translational medicine, facilitating transcriptome-wide molecul...
Cellular life is highly complex. In order to expand our understanding of the workings of human cells...
Gene expression is the fundamental level at which the results of various genetic and regulatory prog...
RNA-sequencing, commonly referred to as RNA-seq, is the most recently developed method for the analy...
Background: We used RNA sequencing to analyze transcript profiles of ten autopsy brain regions from ...