Organizer: de.NBI

Start: Monday, 16 September 2019 @ 09:00

End: Monday, 16 September 2019 @ 17:00

Venue: Heidelberg

City: Heidelberg

County: Karlsruhe

Country: Germany

Description:

Educators:
Julianus Pfeuffer, Timo Sachsenberg

Date:
16.09.2019

Location:
GCB 2019.
Heidelberg

Contents:
Computational mass spectrometry provides important tools and bioinformatic solutions for the analysis of proteomics data. Different methods for label-free quantification have been developed in recent years and were successfully applied in a wide range of studies. Targeted approaches for label-free quantification, like SWATH-MS, achieve deep proteome coverage over a large number of samples while non-targeted methods have shown great potential in unbiased discovery studies. This de.NBI training event introduces key concepts of both targeted SWATH-MS and non-targeted label-free analysis using workflow-based processing of real-life datasets. We will introduce several open-source software tools for proteomics, primarily focusing on OpenMS (http://www.OpenMS.org). In a hands-on session, we will demonstrate how to combine these tools into complex data analysis workflows including visualization of the results. Participants will have the opportunity to bring their own data and design custom analysis workflows together with instructors. For participants interested in developing their own algorithms and methods within the OpenMS framework, we provide a brief introduction to pyOpenMS – the python interface to the OpenMS development library.
Training material and handouts will be prepared for both users that want to design proteomic workflows, as well as training material for algorithm and tool developers.

Software Requirements:
The participants should bring their own laptop computers. Installer versions of required software will be made available.

Keywords:
LC-MS based proteomics, OpenMS, workflows, KNIME, data analysis

Tools:
OpenMS/pyOpenMS, KNIME

Event type:
  • Meetings and conferences
Proteomics and metabolomics with OpenMS and pyOpenMS - GCB2019 https://tess.elixir-europe.org/events/proteomics-and-metabolomics-with-openms-and-pyopenms Educators: Julianus Pfeuffer, Timo Sachsenberg Date: 16.09.2019 Location: GCB 2019. Heidelberg Contents: Computational mass spectrometry provides important tools and bioinformatic solutions for the analysis of proteomics data. Different methods for label-free quantification have been developed in recent years and were successfully applied in a wide range of studies. Targeted approaches for label-free quantification, like SWATH-MS, achieve deep proteome coverage over a large number of samples while non-targeted methods have shown great potential in unbiased discovery studies. This de.NBI training event introduces key concepts of both targeted SWATH-MS and non-targeted label-free analysis using workflow-based processing of real-life datasets. We will introduce several open-source software tools for proteomics, primarily focusing on OpenMS (http://www.OpenMS.org). In a hands-on session, we will demonstrate how to combine these tools into complex data analysis workflows including visualization of the results. Participants will have the opportunity to bring their own data and design custom analysis workflows together with instructors. For participants interested in developing their own algorithms and methods within the OpenMS framework, we provide a brief introduction to pyOpenMS – the python interface to the OpenMS development library. Training material and handouts will be prepared for both users that want to design proteomic workflows, as well as training material for algorithm and tool developers. Software Requirements: The participants should bring their own laptop computers. Installer versions of required software will be made available. Keywords: LC-MS based proteomics, OpenMS, workflows, KNIME, data analysis Tools: OpenMS/pyOpenMS, KNIME 2019-09-16 09:00:00 UTC 2019-09-16 17:00:00 UTC de.NBI Heidelberg, Heidelberg, Germany Heidelberg Heidelberg Karlsruhe Germany [] [] [] meetings_and_conferences [] []