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Licence: MIT License  or Apache Software License 2.0 


BioExcel Building Blocks (BioBB) Training Material

BioExcel Building Blocks (BioBB) is a software library for interoperable biomolecular simulation workflows, built within the BioExcel CoE project, and developed following best practices on software development aligned with ELIXIR.

Keywords: molecular dynamics, Docking, Modeling, life sciences

Resource type: Jupyter notebook

BioExcel Building Blocks (BioBB) Training Material http://tess.elixir-uk.org/materials/bioexcel-building-blocks-biobb-training-material BioExcel Building Blocks (BioBB) is a software library for interoperable biomolecular simulation workflows, built within the BioExcel CoE project, and developed following best practices on software development aligned with ELIXIR. Josep Lluís Gelpí Stian Soiland-Reyes molecular dynamics, Docking, Modeling, life sciences PhD students computational scientists Computational biologists
Tutorials on COBREXA

COBREXA.jl provides tutorials and notebooks with the purpose of explaining the most important concepts and functions for metabolic modelling and model handling to users, and then practicing them. The documentation contains basic tutorials (explaining the core package concepts and basic design...

Scientific topics: Simulation experiment, Personalised medicine

Operations: Modelling and simulation

Keywords: cell-level simulations, Biomodelling, HPC

Resource type: Tutorial

Tutorials on COBREXA http://tess.elixir-uk.org/materials/tutorials-on-cobrexa COBREXA.jl provides tutorials and notebooks with the purpose of explaining the most important concepts and functions for metabolic modelling and model handling to users, and then practicing them. The documentation contains basic tutorials (explaining the core package concepts and basic design ideas), advanced tutorials (describing complicated functionality required for optimised execution of large analyses) and Jupyter notebooks that demonstrate the concepts from tutorials in a more practical setting, with realistic data. Simulation experiment Personalised medicine cell-level simulations, Biomodelling, HPC
Use Scholia and Wikidata to find scientific literature

Scholia is a useful tool for finding scientific literature. Based on the main topic of a publication, you can find literature similar to a publication you are looking into or literature you didn’t know about or consider. Additionally, you can take advantage of all of the annotation work of others...

Keywords: Literature

Resource type: Tutorial

Use Scholia and Wikidata to find scientific literature http://tess.elixir-uk.org/materials/use-scholia-and-wikidata-to-find-scientific-literature Scholia is a useful tool for finding scientific literature. Based on the main topic of a publication, you can find literature similar to a publication you are looking into or literature you didn’t know about or consider. Additionally, you can take advantage of all of the annotation work of others when finding literature. Proper annotation also makes scientific literature more findable. Literature Researchers
DE-Sim examples, tutorials, and documentation

*DE-Sim* is an open-source, Python-based object-oriented discrete-event simulation (DES) tool that makes it easy to use large, heterogeneous datasets and high-level data science tools such as [NumPy](https://numpy.org/), [Scipy](https://scipy.org/scipylib/index.html),...

Scientific topics: Computational biology, Mathematics, Computer science, Simulation experiment

Operations: Visualisation, Modelling and simulation

Keywords: data-driven modeling, Computational modelling, discrete-event simulation, DES, object-oriented programming, Python, data visualization, Data Science

Resource type: examples, Tutorial, Jupyter notebook, API reference

DE-Sim examples, tutorials, and documentation http://tess.elixir-uk.org/materials/de-sim-examples-tutorials-and-documentation *DE-Sim* is an open-source, Python-based object-oriented discrete-event simulation (DES) tool that makes it easy to use large, heterogeneous datasets and high-level data science tools such as [NumPy](https://numpy.org/), [Scipy](https://scipy.org/scipylib/index.html), [pandas](https://pandas.pydata.org/), and [SQLAlchemy](https://www.sqlalchemy.org/) to build and simulate complex computational models. Similar to [Simula](http://www.simula67.info/), *DE-Sim* models are implemented by defining logical process objects which read the values of a set of shared variables and schedule events to modify their values at discrete instants in time. This website provides examples, tutorials, and documentation for *DE-Sim*. Computational biology Mathematics Computer science Simulation experiment data-driven modeling, Computational modelling, discrete-event simulation, DES, object-oriented programming, Python, data visualization, Data Science computational scientists Computational biologists bioinformaticians software engineers programmers
BioSimulations tutorial and help

BioSimulations is a web application for sharing and re-using biomodels, simulations, and visualizations of simulations results. BioSimulations supports a wide range of modeling frameworks (e.g., kinetic, constraint-based, and logical modeling), model formats (e.g., BNGL, CellML, SBML), and...

Scientific topics: Simulation experiment, Systems biology, Computational biology

Operations: Modelling and simulation, Visualisation

Keywords: SystemsBiology, ComputationalBiology, Computational modelling, Modeling, Biomodelling, Model, Kinetic modeling, SED-ML, COMBINE

Resource type: Documentation

BioSimulations tutorial and help http://tess.elixir-uk.org/materials/biosimulations-help BioSimulations is a web application for sharing and re-using biomodels, simulations, and visualizations of simulations results. BioSimulations supports a wide range of modeling frameworks (e.g., kinetic, constraint-based, and logical modeling), model formats (e.g., BNGL, CellML, SBML), and simulation tools (e.g., COPASI, libRoadRunner/tellurium, NFSim, VCell). BioSimulations aims to help researchers discover published models that might be useful for their research and quickly try them via a simple web-based interface. Simulation experiment Systems biology Computational biology SystemsBiology, ComputationalBiology, Computational modelling, Modeling, Biomodelling, Model, Kinetic modeling, SED-ML, COMBINE Life Science Researchers Computational biologists modelers
Datanator tutorial

Datanator is an integrated database of genomic and biochemical data designed to help investigators find data about specific molecules and reactions in specific organisms and specific environments for meta-analyses and mechanistic models. Datanator currently includes metabolite concentrations, RNA...

Scientific topics: Omics, Bioinformatics, Systems biology, Cell biology, Molecular biology

Operations: Filtering, Query and retrieval

Keywords: genomics, Proteomics, transcriptomics, Metabolomics, reaction kinetics, Kinetic modeling, meta analysis

Resource type: Tutorial

Datanator tutorial http://tess.elixir-uk.org/materials/datanator-tutorial Datanator is an integrated database of genomic and biochemical data designed to help investigators find data about specific molecules and reactions in specific organisms and specific environments for meta-analyses and mechanistic models. Datanator currently includes metabolite concentrations, RNA modifications and half-lives, protein abundances and modifications, and reaction kinetics integrated from several databases and numerous publications. The Datanator website and REST API provide tools for extracting clouds of data about specific molecules and reactions in specific organisms and specific environments, as well as data about similar molecules and reactions in taxonomically similar organisms. This tutorial provides a brief introduction to the Datanator database and web application. The tutorial illustrates how to search the Datanator database and obtain and refine clouds of data about specific metabolites, RNA, proteins, and reactions of interest. Omics Bioinformatics Systems biology Cell biology Molecular biology genomics, Proteomics, transcriptomics, Metabolomics, reaction kinetics, Kinetic modeling, meta analysis mololecular cell biologists systems biologists bioinformaticians Computational biologists modelers
Rare Disease Pathway and Network Analysis

The European Joint Project on Rare Diseases (EJP-RD) and the Helis Academy organized a workshop with training for pathway and network analysis.

Keywords: Pathway analysis, Biological networks, Network analysis, Pathways

Resource type: Tutorial

Rare Disease Pathway and Network Analysis http://tess.elixir-uk.org/materials/rare-disease-pathway-and-network-analysis The European Joint Project on Rare Diseases (EJP-RD) and the Helis Academy organized a workshop with training for pathway and network analysis. Pathway analysis, Biological networks, Network analysis, Pathways Life Science Researchers
Introduction to GitHub

The aim for today is to learn the basics of GitHub so that you can use it for your own projects. - Background - What is version control? What is Git? What is GitHub? - How can you use GitHub? How can it be useful for your work? - Practical session: working with GitHub

Keywords: GitHub, Reproducibility

Resource type: Training materials

Introduction to GitHub http://tess.elixir-uk.org/materials/introduction-to-github The aim for today is to learn the basics of GitHub so that you can use it for your own projects. - Background - What is version control? What is Git? What is GitHub? - How can you use GitHub? How can it be useful for your work? - Practical session: working with GitHub Gabriella Rustici GitHub, Reproducibility Senior Managers
Beginners introduction to Git and GitHub

__Morning session__ (Sergio and Mark) https://tinyurl.com/git-intro-zoology: - Background and motivation - What is version control? What is Git? What is GitHub? - How can you use Git and GitHub? How can they be useful for you? - Practical session: working with Git and GitHub __Afternoon...

Keywords: Git, GitHub, control version, Reproducibility

Resource type: Training materials

Beginners introduction to Git and GitHub http://tess.elixir-uk.org/materials/beginners-introduction-to-git-and-github __Morning session__ (Sergio and Mark) https://tinyurl.com/git-intro-zoology: - Background and motivation - What is version control? What is Git? What is GitHub? - How can you use Git and GitHub? How can they be useful for you? - Practical session: working with Git and GitHub __Afternoon session__ (Mark and Anne) https://tinyurl.com/git-course: markdown, pages and wikis; creating good README files; issue tracking; sofware licenses Mark Fernandes pajanne Git, GitHub, control version, Reproducibility Researchers
CWL User Guide

This guide will introduce you to writing tool wrappers and workflows using the Common Workflow Language (CWL). This guide describes the current stable specification, version 1.0.

Keywords: CWL, commonwl, Workflows

Resource type: Tutorial

CWL User Guide http://tess.elixir-uk.org/materials/cwl-user-guide This guide will introduce you to writing tool wrappers and workflows using the Common Workflow Language (CWL). This guide describes the current stable specification, version 1.0. CWL, commonwl, Workflows bioinformaticians tool authors
Open Science MOOC: Module 5, Open Research Software and Open Source

Software and technology underpin modern science. There is an increasing demand for more sophisticated open source software, matched by an increasing willingness for researchers to openly collaborate on new tools. These developments come with a specific ethical, legal and economic challenges that...

Keywords: open source

Open Science MOOC: Module 5, Open Research Software and Open Source http://tess.elixir-uk.org/materials/open-science-mooc-module-5-open-research-software-and-open-source Software and technology underpin modern science. There is an increasing demand for more sophisticated open source software, matched by an increasing willingness for researchers to openly collaborate on new tools. These developments come with a specific ethical, legal and economic challenges that impact upon research workflows. This module will introduce the necessary tools required for transforming software into something that can be openly accessed and re-used by others. open source
Introductory image processing on biological images using python.

A jupyter notebook python practical designed to give students a introduction to opening and processing image files derived from biological samples.

Resource type: Jupyter notebook, PDF

Introductory image processing on biological images using python. http://tess.elixir-uk.org/materials/introductory-image-processing-on-biological-images-using-python A jupyter notebook python practical designed to give students a introduction to opening and processing image files derived from biological samples. Anatole Chessel Volker Baecker Bioimage Analysts Image Analysts Computer Vision scientists bioinformaticians computational scientists Biophysicists Biologists Microscopists Python for Biologists PhD students