Cellular life is highly complex. In order to expand our understanding of the workings of human cells, in particular in the context of health and disease, detailed knowledge about the underlying molecular systems is needed. The unifying theme of this thesis concerns the use of data derived from sequencing of RNA, both within the field of transcriptomics itself and as a guide for further studies at the level of protein expression. In paper I, we showed that publicly available RNA-seq datasets are consistent across different studies, requiring only light processing for the data to cluster according to biological, rather than technical characteristics. This suggests that RNA-seq has developed into a reliable and highly reproducible technology, ...
A key first step in understanding cellular processes is a quantitative and comprehensive measurement...
Gene expression involves multiple steps from the transcription of a mRNA in the nucleus to the produ...
Amongst the many processes that shape the final set of RNA molecules present in eukaryote cells, spl...
With the improvement of high-throughput technologies during the last decade, several studies explori...
High-throughput sequencing has greatly influenced the amount of data produced and biological questio...
In the last decades, transcriptome profiling has been one of the most utilized approaches to investi...
Gene expression is the fundamental level at which the results of various genetic and regulatory prog...
This book evaluates and comprehensively summarizes the scientific findings that have been achieved t...
High-throughput single-cell RNA Sequencing (scRNA-seq) is a powerful platform for the characterisati...
The manifestation of phenotype at the cellular and organismal level is determined in large part by g...
The availability of the human genome sequence has allowed identification of disease-causing mutation...
Human protein complexes play crucial roles in various biological processes as the functional module....
Abstract Background Early application of second-gener...
From a single embryo to billions of cells, a whole organism is constructed in a carefully regulated ...
From a single embryo to billions of cells, a whole organism is constructed in a carefully regulated ...
A key first step in understanding cellular processes is a quantitative and comprehensive measurement...
Gene expression involves multiple steps from the transcription of a mRNA in the nucleus to the produ...
Amongst the many processes that shape the final set of RNA molecules present in eukaryote cells, spl...
With the improvement of high-throughput technologies during the last decade, several studies explori...
High-throughput sequencing has greatly influenced the amount of data produced and biological questio...
In the last decades, transcriptome profiling has been one of the most utilized approaches to investi...
Gene expression is the fundamental level at which the results of various genetic and regulatory prog...
This book evaluates and comprehensively summarizes the scientific findings that have been achieved t...
High-throughput single-cell RNA Sequencing (scRNA-seq) is a powerful platform for the characterisati...
The manifestation of phenotype at the cellular and organismal level is determined in large part by g...
The availability of the human genome sequence has allowed identification of disease-causing mutation...
Human protein complexes play crucial roles in various biological processes as the functional module....
Abstract Background Early application of second-gener...
From a single embryo to billions of cells, a whole organism is constructed in a carefully regulated ...
From a single embryo to billions of cells, a whole organism is constructed in a carefully regulated ...
A key first step in understanding cellular processes is a quantitative and comprehensive measurement...
Gene expression involves multiple steps from the transcription of a mRNA in the nucleus to the produ...
Amongst the many processes that shape the final set of RNA molecules present in eukaryote cells, spl...