Transcriptomics
Training material for all kinds of transcriptomics analysis.
Requirements
Before diving into this topic, we recommend you to have a look at:
- Introduction to Galaxy Analyses
- slides Slides: Quality Control
- tutorial Hands-on: Quality Control
- slides Slides: Mapping
- tutorial Hands-on: Mapping
Material
You can view the tutorial materials in different languages by clicking the dropdown icon next to the slides (slides) and tutorial (tutorial) buttons below.Introduction
Start here if you are new to RNA-Seq analysis in Galaxy
Lesson | Slides | Hands-on | Recordings | Input dataset | Workflows |
---|---|---|---|---|---|
Introduction to Transcriptomics
|
|||||
Reference-based RNA-Seq data analysis | |||||
De novo transcriptome reconstruction with RNA-Seq
|
End-to-End Analysis
These tutorials take you from raw sequencing reads to pathway analysis
Lesson | Slides | Hands-on | Recordings | Input dataset | Workflows |
---|---|---|---|---|---|
1: RNA-Seq reads to counts | |||||
2: RNA-seq counts to genes | |||||
3: RNA-seq genes to pathways |
Visualisation
Tutorials covering data visualisation
Other
Assorted Tutorials
Frequently Asked Questions
Common questions regarding this topic have been collected on a dedicated FAQ page . Common questions related to specific tutorials can be accessed from the tutorials themselves.
Follow topic updates rss-feed with our RSS Feed
Editorial Board
This material is reviewed by our Editorial Board:
Bérénice Batut Maria Doyle Florian HeylContributors
This material was contributed to by:
Anthony Bretaudeau Clea Siguret Belinda Phipson Fotis E. Psomopoulos Charity Law Chao Zhang Matti Hoch Shian Su Markus Wolfien Olivier Dameron Florian Heyl Beatriz Serrano-Solano Clemens Blank IGC Bioinformatics Unit Anton Nekrutenko Matt Ritchie Toby Hodges Myrthe van Baardwijk Sofoklis Keisaris James Taylor Anne Siegel Björn Grüning Harriet Dashnow Mateo Boudet Jovana Maksimovic Mira Kuntz Sanjay Kumar Srikakulam Peter van Heusden Pavankumar Videm Anika Erxleben Bérénice Batut Andrea Bagnacani Cristóbal Gallardo Xavier Garnier Xi Liu José Manuel Domínguez Nicola Soranzo Lucille Delisle Iacopo Cristoferi Mallory Freeberg Erwan Corre Daniel Maticzka Helena Rasche Marek Ostaszewski Maria Doyle Gildas Le Corguillé Saskia Hiltemann Mo Heydarian Anna TrigosFunding
These individuals or organisations provided funding support for the development of this resource
BeYond-COVID
BY-COVID is an EC funded project that tackles the data challenges that can hinder effective pandemic response.
This project has received funding from the European Union’s Horizon Europe research and innovation programme under grant agreement № 101046203 (BY-COVID)
Gallantries
This project (2020-1-NL01-KA203-064717) is funded with the support of the Erasmus+ programme of the European Union. Their funding has supported a large number of tutorials within the GTN across a wide array of topics.
References
- Shirley Pepke et al: Computation for ChIP-seq and RNA-seq studies
-
Paul L. Auer & R. W. Doerge: Statistical Design and Analysis of RNA Sequencing Data
Insights into proper planning of your RNA-seq run! To read before any RNA-seq experiment! -
Ian Korf: Genomics: the state of the art in RNA-seq analysis
A refreshingly honest view on the non-trivial aspects of RNA-seq analysis -
Marie-Agnès Dillies et al: A comprehensive evaluation of normalization methods for Illumina high-throughput RNA sequencing data analysis
Systematic comparison of seven representative normalization methods for the differential analysis of RNA-seq data (Total Count, Upper Quartile, Median (Med), DESeq, edgeR, Quantile and Reads Per Kilobase per Million mapped reads (RPKM) normalization) -
Franck Rapaport et al: Comprehensive evaluation of differential gene expression analysis methods for RNA-seq data
Evaluation of methods for differential gene expression analysis - Charlotte Soneson & Mauro Delorenzi: A comparison of methods for differential expression analysis of RNA-seq data
- Adam Roberts et al: Improving RNA-Seq expression estimates by correcting for fragment bias
-
Manuel Garber et al: Computational methods for transcriptome annotation and quantification using RNA-seq
Classical paper about the computational aspects of RNA-seq data analysis - Cole Trapnell et al: Differential gene and transcript expression analysis of RNA-seq experiments with TopHat and Cufflinks
- Zhong Wang et al: RNA-Seq: a revolutionary tool for transcriptomics
- Dittrich, M. T. and Klau, G. W. and Rosenwald, A. and Dandekar, T. and Muller, T.: Identifying functional modules in protein-protein interaction networks: an integrated exact approach
- May, Ali; Brandt, Bernd W; El-Kebir, Mohammed; Klau, Gunnar W; Zaura, Egija; Crielaard, Wim; Heringa, Jaap; Abeln, Sanne: metaModules identifies key functional subnetworks in microbiome-related disease
- Pavankumar, Videm; Dominic, Rose; Fabrizio, Costa; Rolf, Backofen: BlockClust: efficient clustering and classification of non-coding RNAs from short read RNA-seq profiles