The RNA workbench: Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy

Björn A. Grüning; Jörg Fallmann; Dilmurat Yusuf; Sebastian Will; Anika Erxleben; Florian Eggenhofer; Torsten Houwaart; Bérénice Batut; Pavankumar Videm; Andrea Bagnacani; Markus Wolfien; Steffen C. Lott; Youri Hoogstrate; Wolfgang R. Hess; Olaf Wolkenhauer; Steve Hoffmann; Altuna Akalin; Uwe Ohler; Peter F. Stadler; Rolf Backofen

doi:10.1093/nar/gkx409

The RNA workbench: Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy

Björn A. Grüning^*, Jörg Fallmann, Dilmurat Yusuf, Sebastian Will, Anika Erxleben, Florian Eggenhofer, Torsten Houwaart, Bérénice Batut, Pavankumar Videm, Andrea Bagnacani, Markus Wolfien, Steffen C. Lott, Youri Hoogstrate, Wolfgang R. Hess, Olaf Wolkenhauer, Steve Hoffmann, Altuna Akalin, Uwe Ohler, Peter F. Stadler, Rolf Backofen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

37 Scopus citations

Abstract

RNA-based regulation has become a major research topic in molecular biology. The analysis of epigenetic and expression data is therefore incomplete if RNA-based regulation is not taken into account. Thus, it is increasingly important but not yet standard to combine RNA-centric data and analysis tools with other types of experimental data such as RNA-seq or ChIP-seq. Here, we present the RNA workbench, a comprehensive set of analysis tools and consolidated workflows that enable the researcher to combine these two worlds. Based on the Galaxy framework the workbench guarantees simple access, easy extension, flexible adaption to personal and security needs, and sophisticated analyses that are independent of command-line knowledge. Currently, it includes more than 50 bioinformatics tools that are dedicated to different research areas of RNA biology including RNA structure analysis, RNA alignment, RNA annotation, RNA-protein interaction, ribosome profiling, RNA-seq analysis and RNA target prediction. The workbench is developed and maintained by experts in RNA bioinformatics and the Galaxy framework. Together with the growing community evolving around this workbench, we are committed to keep the workbench up-to-date for future standards and needs, providing researchers with a reliable and robust framework for RNA data analysis.

Original language	English
Pages (from-to)	W560-W566
Journal	Nucleic Acids Research
Volume	45
Issue number	W1
DOIs	https://doi.org/10.1093/nar/gkx409
State	Published - 3 Jul 2017
Externally published	Yes

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Grüning, B. A., Fallmann, J., Yusuf, D., Will, S., Erxleben, A., Eggenhofer, F., Houwaart, T., Batut, B., Videm, P., Bagnacani, A., Wolfien, M., Lott, S. C., Hoogstrate, Y., Hess, W. R., Wolkenhauer, O., Hoffmann, S., Akalin, A., Ohler, U., Stadler, P. F., & Backofen, R. (2017). The RNA workbench: Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy. Nucleic Acids Research, 45(W1), W560-W566. https://doi.org/10.1093/nar/gkx409

@article{b7809ab8200648768657d0feb1c3c41e,

title = "The RNA workbench: Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy",

abstract = "RNA-based regulation has become a major research topic in molecular biology. The analysis of epigenetic and expression data is therefore incomplete if RNA-based regulation is not taken into account. Thus, it is increasingly important but not yet standard to combine RNA-centric data and analysis tools with other types of experimental data such as RNA-seq or ChIP-seq. Here, we present the RNA workbench, a comprehensive set of analysis tools and consolidated workflows that enable the researcher to combine these two worlds. Based on the Galaxy framework the workbench guarantees simple access, easy extension, flexible adaption to personal and security needs, and sophisticated analyses that are independent of command-line knowledge. Currently, it includes more than 50 bioinformatics tools that are dedicated to different research areas of RNA biology including RNA structure analysis, RNA alignment, RNA annotation, RNA-protein interaction, ribosome profiling, RNA-seq analysis and RNA target prediction. The workbench is developed and maintained by experts in RNA bioinformatics and the Galaxy framework. Together with the growing community evolving around this workbench, we are committed to keep the workbench up-to-date for future standards and needs, providing researchers with a reliable and robust framework for RNA data analysis.",

author = "Gr{\"u}ning, \{Bj{\"o}rn A.\} and J{\"o}rg Fallmann and Dilmurat Yusuf and Sebastian Will and Anika Erxleben and Florian Eggenhofer and Torsten Houwaart and B{\'e}r{\'e}nice Batut and Pavankumar Videm and Andrea Bagnacani and Markus Wolfien and Lott, \{Steffen C.\} and Youri Hoogstrate and Hess, \{Wolfgang R.\} and Olaf Wolkenhauer and Steve Hoffmann and Altuna Akalin and Uwe Ohler and Stadler, \{Peter F.\} and Rolf Backofen",

note = "Publisher Copyright: {\textcopyright}The Author(s) 2017. Published by Oxford University Press on behalf of Nucleic Acids Research.",

year = "2017",

month = jul,

day = "3",

doi = "10.1093/nar/gkx409",

language = "English",

volume = "45",

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Grüning, BA, Fallmann, J, Yusuf, D, Will, S, Erxleben, A, Eggenhofer, F, Houwaart, T, Batut, B, Videm, P, Bagnacani, A, Wolfien, M, Lott, SC, Hoogstrate, Y, Hess, WR, Wolkenhauer, O, Hoffmann, S, Akalin, A, Ohler, U, Stadler, PF & Backofen, R 2017, 'The RNA workbench: Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy', Nucleic Acids Research, vol. 45, no. W1, pp. W560-W566. https://doi.org/10.1093/nar/gkx409

TY - JOUR

T1 - The RNA workbench

T2 - Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy

AU - Grüning, Björn A.

AU - Fallmann, Jörg

AU - Yusuf, Dilmurat

AU - Will, Sebastian

AU - Erxleben, Anika

AU - Eggenhofer, Florian

AU - Houwaart, Torsten

AU - Batut, Bérénice

AU - Videm, Pavankumar

AU - Bagnacani, Andrea

AU - Wolfien, Markus

AU - Lott, Steffen C.

AU - Hoogstrate, Youri

AU - Hess, Wolfgang R.

AU - Wolkenhauer, Olaf

AU - Hoffmann, Steve

AU - Akalin, Altuna

AU - Ohler, Uwe

AU - Stadler, Peter F.

AU - Backofen, Rolf

PY - 2017/7/3

Y1 - 2017/7/3

N2 - RNA-based regulation has become a major research topic in molecular biology. The analysis of epigenetic and expression data is therefore incomplete if RNA-based regulation is not taken into account. Thus, it is increasingly important but not yet standard to combine RNA-centric data and analysis tools with other types of experimental data such as RNA-seq or ChIP-seq. Here, we present the RNA workbench, a comprehensive set of analysis tools and consolidated workflows that enable the researcher to combine these two worlds. Based on the Galaxy framework the workbench guarantees simple access, easy extension, flexible adaption to personal and security needs, and sophisticated analyses that are independent of command-line knowledge. Currently, it includes more than 50 bioinformatics tools that are dedicated to different research areas of RNA biology including RNA structure analysis, RNA alignment, RNA annotation, RNA-protein interaction, ribosome profiling, RNA-seq analysis and RNA target prediction. The workbench is developed and maintained by experts in RNA bioinformatics and the Galaxy framework. Together with the growing community evolving around this workbench, we are committed to keep the workbench up-to-date for future standards and needs, providing researchers with a reliable and robust framework for RNA data analysis.

AB - RNA-based regulation has become a major research topic in molecular biology. The analysis of epigenetic and expression data is therefore incomplete if RNA-based regulation is not taken into account. Thus, it is increasingly important but not yet standard to combine RNA-centric data and analysis tools with other types of experimental data such as RNA-seq or ChIP-seq. Here, we present the RNA workbench, a comprehensive set of analysis tools and consolidated workflows that enable the researcher to combine these two worlds. Based on the Galaxy framework the workbench guarantees simple access, easy extension, flexible adaption to personal and security needs, and sophisticated analyses that are independent of command-line knowledge. Currently, it includes more than 50 bioinformatics tools that are dedicated to different research areas of RNA biology including RNA structure analysis, RNA alignment, RNA annotation, RNA-protein interaction, ribosome profiling, RNA-seq analysis and RNA target prediction. The workbench is developed and maintained by experts in RNA bioinformatics and the Galaxy framework. Together with the growing community evolving around this workbench, we are committed to keep the workbench up-to-date for future standards and needs, providing researchers with a reliable and robust framework for RNA data analysis.

UR - https://www.scopus.com/pages/publications/85023158230

U2 - 10.1093/nar/gkx409

DO - 10.1093/nar/gkx409

M3 - Article

C2 - 28582575

AN - SCOPUS:85023158230

SN - 0305-1048

VL - 45

SP - W560-W566

JO - Nucleic Acids Research

JF - Nucleic Acids Research

IS - W1

ER -

The RNA workbench: Best practices for RNA and high-throughput sequencing bioinformatics in Galaxy

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