Background: Next generation sequencing (NGS) technologies can be applied in complex microbial ecosystems for metatranscriptome analysis by employing direct cDNA sequencing, which is known as RNA sequencing (RNA-seq). RNA-seq generates large datasets of great complexity, the comprehensive interpretation of which requires a reliable bioinformatic pipeline. In this study, we focus on the development of such a metatranscriptome pipeline, which we validate using Illumina RNA-seq datasets derived from the small intestine microbiota of two individuals with an ileostomy. Results: The metatranscriptome pipeline developed here enabled effective removal of rRNA derived sequences, followed by confident assignment of the predicted function and taxonomic...
GOALS: We describe advanced approaches for the computational meta-analysis of a collection of indepe...
The advance of DNA sequencing technologies has dramatically expanded our knowledge of microbial comm...
With the advent of high through-put sequencing (HTS), the emerging science of metagenomics is transf...
Background: Next generation sequencing (NGS) technologies can be applied in complex microbial ecosys...
The human intestinal microbiome is a microbial ecosystem that expresses as many as 100 times more ge...
BackgroundAlthough metatranscriptomics-the study of diverse microbial population activity based on R...
BACKGROUND: Metatranscriptomic landscapes can provide insights in functional relationships within na...
Abstract Background Metatranscriptomics is emerging a...
The analysis of microbiota composition in humans, animals, and built environments is important becau...
Background: Metagenomics seeks to understand microbial communities and assemblages by DNA sequencin...
Metatranscriptomic analysis of diverse microbial communities reveals core metabolic pathways and mic...
<div><p>With the advent of high through-put sequencing (HTS), the emerging science of metagenomics i...
The human gut is the natural habitat for a large and dynamic bacterial community that has a great re...
To date, meta-omic approaches use high-throughput sequencing technologies, which produce a huge amou...
With the advent of high through-put sequencing (HTS), the emerging science of metagenomics is transf...
GOALS: We describe advanced approaches for the computational meta-analysis of a collection of indepe...
The advance of DNA sequencing technologies has dramatically expanded our knowledge of microbial comm...
With the advent of high through-put sequencing (HTS), the emerging science of metagenomics is transf...
Background: Next generation sequencing (NGS) technologies can be applied in complex microbial ecosys...
The human intestinal microbiome is a microbial ecosystem that expresses as many as 100 times more ge...
BackgroundAlthough metatranscriptomics-the study of diverse microbial population activity based on R...
BACKGROUND: Metatranscriptomic landscapes can provide insights in functional relationships within na...
Abstract Background Metatranscriptomics is emerging a...
The analysis of microbiota composition in humans, animals, and built environments is important becau...
Background: Metagenomics seeks to understand microbial communities and assemblages by DNA sequencin...
Metatranscriptomic analysis of diverse microbial communities reveals core metabolic pathways and mic...
<div><p>With the advent of high through-put sequencing (HTS), the emerging science of metagenomics i...
The human gut is the natural habitat for a large and dynamic bacterial community that has a great re...
To date, meta-omic approaches use high-throughput sequencing technologies, which produce a huge amou...
With the advent of high through-put sequencing (HTS), the emerging science of metagenomics is transf...
GOALS: We describe advanced approaches for the computational meta-analysis of a collection of indepe...
The advance of DNA sequencing technologies has dramatically expanded our knowledge of microbial comm...
With the advent of high through-put sequencing (HTS), the emerging science of metagenomics is transf...