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13 materials found

Authors: Kathi Zarnack  or Paul Yorke 


ChIP-seq analysis using R - Experimental design and peak calling.

This lecture is an introduction to ChIP-seq experiments and data. It provides a theoretical background to experimental design and peak calling.

Keywords: ChIP-Seq, Experimental-design, Peak-calling, Visualisation

ChIP-seq analysis using R - Experimental design and peak calling. https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-experimental-design-and-peak-calling-cfd4c18f-6c86-45ae-ab0b-630422c76af6 This lecture is an introduction to ChIP-seq experiments and data. It provides a theoretical background to experimental design and peak calling. ChIP-Seq, Experimental-design, Peak-calling, Visualisation
ChIP-seq analysis using R

ChIP-seq is the most commonly used technique to study binding profiles of chromatin proteins, such as TFs or histone modification patterns. This course is an introduction to ChIP-seq data, and data analysis mainly using R, some command line based peak-callers and online software. It provides a...

Keywords: ChIP-Seq, Experimental-design, Peak-calling, Differential-binding, Visualisation, Annotation, Homo-sapiens, R-programming

ChIP-seq analysis using R https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-5049bc9c-9bbb-4a6b-9244-37ed3980da0e ChIP-seq is the most commonly used technique to study binding profiles of chromatin proteins, such as TFs or histone modification patterns. This course is an introduction to ChIP-seq data, and data analysis mainly using R, some command line based peak-callers and online software. It provides a theoretical background and the means to perform peak calling and differential binding analysis. ChIP-Seq, Experimental-design, Peak-calling, Differential-binding, Visualisation, Annotation, Homo-sapiens, R-programming
Signalling Networks: From Data to Modelling

What is the course about? Signalling pathways and networks are very important to regulate and control cellular processes, cell fate, and their malfunctions often lead to diseases, such as cancer or diabetes. This course provides an introductory overview of the most useful resources and tools to...

Keywords: Signalling

Signalling Networks: From Data to Modelling https://tess.elixir-europe.org/materials/signalling-networks-from-data-to-modelling What is the course about? Signalling pathways and networks are very important to regulate and control cellular processes, cell fate, and their malfunctions often lead to diseases, such as cancer or diabetes. This course provides an introductory overview of the most useful resources and tools to investigate signalling pathways and networks, and also introduces basic approaches to model signalling events. The hands-on training will give a wide overview of tools and concepts related to signalling networks. What will I Learn? In this course you will learn how to use Cytoscape, where to find the most reliable signaling data, how to reconstruct, analyze and visualize a network. You will also learn how to develop your own models, mostly with logic modelling, what other modelling approaches exist, and how you can apply a model for your own research work. Signalling Grad students post-docs 2016-04-14 2017-10-09
Network Analysis with Cytoscape and PSICQUIC

This workshop will guide novice users through the process of analysing interaction networks – that allow biologists to map and characterise signalling pathways and to predict the function of unknown proteins. It will use practical examples in the popular open-source tool Cytoscape and the...

Keywords: Cytoscape

Network Analysis with Cytoscape and PSICQUIC https://tess.elixir-europe.org/materials/network-analysis-with-cytoscape-and-psicquic This workshop will guide novice users through the process of analysing interaction networks – that allow biologists to map and characterise signalling pathways and to predict the function of unknown proteins. It will use practical examples in the popular open-source tool Cytoscape and the PSICQUIC client to access several protein interaction repositories at the same time to integrate protein data from different sources. Data from external sources will then be incorporated using different Cytoscape apps to perform clustering and GO enrichment analysis over our newly created networks. Cytoscape Biologists, Genomicists, Computer Scientists 2016-04-14 2017-10-09
ChIP-seq analysis using R - Practical talk

ChIP-seq is the most commonly used technique to study binding profiles of chromatin proteins, such as TFs or histone modification patterns. This practical is an introduction to ChIP-seq data analysis mainly using R, some command line based peak-callers and online software. It provides means to...

Keywords: ChIP-Seq, Peak-calling, Differential-binding, Visualisation, Annotation, Homo-sapiens, R-programming

ChIP-seq analysis using R - Practical talk https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-practical-talk ChIP-seq is the most commonly used technique to study binding profiles of chromatin proteins, such as TFs or histone modification patterns. This practical is an introduction to ChIP-seq data analysis mainly using R, some command line based peak-callers and online software. It provides means to perform peak calling, annotation, motif search and differential binding analysis. ChIP-Seq, Peak-calling, Differential-binding, Visualisation, Annotation, Homo-sapiens, R-programming
ChIP-seq analysis using R - Practical

ChIP-seq is the most commonly used technique to study binding profiles of chromatin proteins, such as TFs or histone modification patterns. This practical is an introduction to ChIP-seq data analysis mainly using R, some command line based peak-callers and online software. It provides means to...

Keywords: ChIP-Seq, Peak-calling, Differential-binding, Visualisation, Annotation, Homo-sapiens, R-programming

ChIP-seq analysis using R - Practical https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-practical ChIP-seq is the most commonly used technique to study binding profiles of chromatin proteins, such as TFs or histone modification patterns. This practical is an introduction to ChIP-seq data analysis mainly using R, some command line based peak-callers and online software. It provides means to perform peak calling, annotation, motif search and differential binding analysis. ChIP-Seq, Peak-calling, Differential-binding, Visualisation, Annotation, Homo-sapiens, R-programming
Metagenomics 2015

Link to the GitHub repo containing all the publicly available files from the 2015 Metagenomics course held at TGAC in November 2015

Scientific topics: Metagenomics

Keywords: Metagenomics

Metagenomics 2015 https://tess.elixir-europe.org/materials/metagenomics-2015 Link to the GitHub repo containing all the publicly available files from the 2015 Metagenomics course held at TGAC in November 2015 Metagenomics Metagenomics PhD post-docs 2015-11-23 2017-10-09
Introduction to Linux Command Line

Introduction to Linux basic command line

Scientific topics: Computer science

Keywords: Linux basics

Introduction to Linux Command Line https://tess.elixir-europe.org/materials/introduction-to-linux-command-line Introduction to Linux basic command line Computer science Linux basics 2015-10-28 2017-10-09
EMBO 2015

Link to the GitHub repository containing all the training materials made available for the 2015 EMBO event held at TGAC

Scientific topics: Protein binding sites, Molecular interactions, pathways and networks

Keywords: Bioinformatics, Multiple sequence alignment, Network visualization, Protein protein interaction networks

EMBO 2015 https://tess.elixir-europe.org/materials/embo-2015 Link to the GitHub repository containing all the training materials made available for the 2015 EMBO event held at TGAC Protein binding sites Molecular interactions, pathways and networks Bioinformatics, Multiple sequence alignment, Network visualization, Protein protein interaction networks PhD students post-docs 2015-10-08 2017-10-09
GBS

Training Materials from the 2015 GBS course run by TGAC

Keywords: Genotyping

GBS https://tess.elixir-europe.org/materials/gbs Training Materials from the 2015 GBS course run by TGAC Genotyping Graduate Students post-docs 2015-09-17 2017-10-09
De Novo

Training Materials from the 2015 De Novo course run by TGAC

Keywords: De novo, De novo genome assembly

De Novo https://tess.elixir-europe.org/materials/de-novo Training Materials from the 2015 De Novo course run by TGAC De novo, De novo genome assembly PhD PhD students post-docs postdoctoral researchers 2015-09-17 2017-10-09
Python @ TGAC - Python for Life Scientists: Managing biological data with Python

Python is an object-oriented programming language that is ideal for biological data analysis. The course will start with very basic language concepts and instructions and will cover all the main language aspects, including variables, types, modules, functions, exceptions, control of flux, input,...

Keywords: Biopython, Python, Python biologists

Python @ TGAC - Python for Life Scientists: Managing biological data with Python https://tess.elixir-europe.org/materials/python-tgac-python-for-life-scientists-managing-biological-data-with-python Python is an object-oriented programming language that is ideal for biological data analysis. The course will start with very basic language concepts and instructions and will cover all the main language aspects, including variables, types, modules, functions, exceptions, control of flux, input, output, and classes. All the examples and practical sessions will focus on solving particular biological problems. In particular, examples and practical sessions will cover: Working with DNA and protein sequences Data retrieval from files and their manipulation Running applications, such as BLAST, locally and from a script Finding motifs in sequences Parsing Swiss-Prot files, PDB files, ENSEMBL records, blast output files, etc. Biopython will be also introduced and applied to some of the mentioned examples. The course is meant to be highly interactive and the students will continuously put theory into practice while learning. By the end of the course, the students will have a good understanding of Python basics and will have acquired the skills to manage any type of bioinformatics record and to run applications from scripts. Unix/Linux basic skills will be provided at the beginning of the course. Biopython, Python, Python biologists PhD post-docs 2015-07-14 2017-10-09
De Novo Assembly @ TGAC 2015

This course took place between 12-15 May 2015 Overview: The course will provide an introduction to de novo assembly, with a hands on introduction followed by in-depth analysis of the key steps in the process. It covers several aspects such as the initial setup of a de novo genome sequencing...

Keywords: De novo

De Novo Assembly @ TGAC 2015 https://tess.elixir-europe.org/materials/de-novo-assembly-tgac-2015 This course took place between 12-15 May 2015 Overview: The course will provide an introduction to de novo assembly, with a hands on introduction followed by in-depth analysis of the key steps in the process. It covers several aspects such as the initial setup of a de novo genome sequencing project, quality control and preprocessing of datasets, generation and evaluation of first pass assemblies, assembly improvement and finishing. Practical exercises will be performed on small-scale real datasets, including Illumina and Pacbio sequences, including best practices and tips based on TGAC’s faculty experience. The course will consist of a mixture of conceptual lectures, methodological lectures and hands on sessions, as well as group activities and discussions. The participants will gain first-hand experience and understanding on NGS assembly, working with the assistance of the faculty, troubleshooting small problems, and reviewing the results. De novo PhD post-docs 2015-07-14 2017-10-09