Transcriptomics, the study of RNA molecules, provides in-depth understanding of cellular functions and the genomic landscape of transcription. Transcriptomics refers to the study of all classes on RNA molecules including mRNA, tRNA, and siRNA. In this chapter, we specifically focus on mRNA, which encodes the protein-coding portion of the genomic DNA. We discuss the use of mRNA in annotation of genomes and in studying differential regulation of genes under experimental conditions
Impact statement This review describes the impact of transcriptomics on experimental biology and ...
Special Issue on Data MiningInternational audienceBiology is now an information-intensive science an...
Cellular life is highly complex. In order to expand our understanding of the workings of human cells...
Transcriptomics, the study of RNA molecules, provides in-depth understanding of cellular functions a...
This book presents an overview of the RNA networks controlling gene expression in fungi highlighting...
Part of the Advances in Experimental Medicine and Biology book series (AEMB, volume 1157)mRNA proces...
Gene expression studies are extremely useful for understanding a broad range of biological, physiolo...
provides unprecedented access to sequence and ex-pression variation in the transcriptome [1,2] and a...
Most studies on eukaryotic gene regulation have focused on mature mRNA levels. Nevertheless, the ste...
Up-to-date research in biology, biotechnology, and medicine requires fast genome and transcriptome a...
Transcriptome analysis is the study of the transcriptome, of the complete set of RNA transcripts tha...
RNA sequencing (RNA-seq) is a high-throughput method by which the sequence of each RNA molecule in a...
The functionality of a genome is determined by a set of actively transcribed genes and their post-tr...
. transcriptome. at the transcriptional level, which will form the foundation for functional genomic...
International audienceThe deep sequencing of an mRNA population, RNA-seq, is a very successful appli...
Impact statement This review describes the impact of transcriptomics on experimental biology and ...
Special Issue on Data MiningInternational audienceBiology is now an information-intensive science an...
Cellular life is highly complex. In order to expand our understanding of the workings of human cells...
Transcriptomics, the study of RNA molecules, provides in-depth understanding of cellular functions a...
This book presents an overview of the RNA networks controlling gene expression in fungi highlighting...
Part of the Advances in Experimental Medicine and Biology book series (AEMB, volume 1157)mRNA proces...
Gene expression studies are extremely useful for understanding a broad range of biological, physiolo...
provides unprecedented access to sequence and ex-pression variation in the transcriptome [1,2] and a...
Most studies on eukaryotic gene regulation have focused on mature mRNA levels. Nevertheless, the ste...
Up-to-date research in biology, biotechnology, and medicine requires fast genome and transcriptome a...
Transcriptome analysis is the study of the transcriptome, of the complete set of RNA transcripts tha...
RNA sequencing (RNA-seq) is a high-throughput method by which the sequence of each RNA molecule in a...
The functionality of a genome is determined by a set of actively transcribed genes and their post-tr...
. transcriptome. at the transcriptional level, which will form the foundation for functional genomic...
International audienceThe deep sequencing of an mRNA population, RNA-seq, is a very successful appli...
Impact statement This review describes the impact of transcriptomics on experimental biology and ...
Special Issue on Data MiningInternational audienceBiology is now an information-intensive science an...
Cellular life is highly complex. In order to expand our understanding of the workings of human cells...
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