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29 materials found

Keywords: Exploratory-analysis  or Multiple sequence alignment  or Introduction bioinformatics 


A Critical Guide to the PDB

This Critical Guide in the Introduction to Bioinformatics series provides a brief outline of the Protein Data Bank – the PDB – the world’s primary repository of biological macromolecular structures. The rationale for creating the resource and the kinds of information it provides are discussed,...

Scientific topics: Database management

Keywords: Introduction bioinformatics, Introduction pdb, Protein structure analysis, Protein structure databases, Protein structures

A Critical Guide to the PDB https://tess.elixir-europe.org/materials/a-critical-guide-to-the-pdb This Critical Guide in the Introduction to Bioinformatics series provides a brief outline of the Protein Data Bank – the PDB – the world’s primary repository of biological macromolecular structures. The rationale for creating the resource and the kinds of information it provides are discussed, and issues relating to its evolution and growth are explored. Specifically, this Guide introduces the principal features of the PDB, the nature (and quality) of its contents and how these may be interrogated. On reading this Guide, users will be able to: i) explain some of the ways in which knowledge of protein structures is useful; ii) identify the constituent databases of the wwPDB; iii) explain key features of the RCSB PDB in terms of its data distribution, growth and redundancy statistics; iv) search the PDB using simple and advanced keywords and full sequences, and analyse differences between them; and v) explain various structural quality criteria, and infer the quality of individual PDB entries. Database management Introduction bioinformatics, Introduction pdb, Protein structure analysis, Protein structure databases, Protein structures Beginners 2018-09-08
A Critical Guide to InterPro

This Critical Guide in the Introduction to Bioinformatics series provides an introduction to the InterPro database, the largest, most comprehensive, integrated protein family database in the world. The rationale for creating the resource, the nature of its contributing databases and the kinds of...

Scientific topics: Database management

Keywords: Introduction bioinformatics, Introduction interpro, Protein family classification, Protein family databases, Protein family hierarchies, Protein function annotation, Protein sequence analysis

A Critical Guide to InterPro https://tess.elixir-europe.org/materials/a-critical-guide-to-interpro This Critical Guide in the Introduction to Bioinformatics series provides an introduction to the InterPro database, the largest, most comprehensive, integrated protein family database in the world. The rationale for creating the resource, the nature of its contributing databases and the kinds of information they provide are discussed, and the role of InterPro in protein classification and function-annotation projects is outlined. Specifically, this Guide introduces the principal components of the InterPro database, the differences between them, and how their integration creates a resource whose diagnostic power is greater than the sum of its parts. On reading this Guide, users will be able to: i) explain how protein family databases are used to help annotate uncharacterised protein sequences; ii) identify InterPro’s constituent data resources and explain the main methods that underpin them; iii) search InterPro using keywords and full sequences; iv) analyse and interpret search results in terms of protein family hierarchies, their structural domains and functional features; and v) track the provenance of InterPro’s annotations. Database management Introduction bioinformatics, Introduction interpro, Protein family classification, Protein family databases, Protein family hierarchies, Protein function annotation, Protein sequence analysis Beginners 2018-09-08
A Critical Guide to the UniProtKB Flat-file Format

This Critical Guide briefly presents the need for biological databases and for a standard format for storing and organising biological data. Web-based interfaces have made databases more user-friendly, but knowledge of the underlying file format offers a deeper understanding of how to navigate...

Scientific topics: Database management

Keywords: Flat file databases, Flat files, Introduction bioinformatics, Uniprotkb flat file format

A Critical Guide to the UniProtKB Flat-file Format https://tess.elixir-europe.org/materials/a-critical-guide-to-the-uniprotkb-flat-file-format This Critical Guide briefly presents the need for biological databases and for a standard format for storing and organising biological data. Web-based interfaces have made databases more user-friendly, but knowledge of the underlying file format offers a deeper understanding of how to navigate and mine the information they contain, so that humans and machines can get the most out of them. This Guide explores the file format that underpins one of today’s most popular protein sequence databases – UniProtKB. Specifically, this Guide introduces the concept of database ‘flat-files’, and examines features of the UniProtKB flat-file format. On reading this Guide, users will be able to: i) identify key fields within UniProtKB/Swiss-Prot and UniProtKB/TrEMBL flat-files; ii) explain what these fields mean, what information they contain and what the information is used for; iii) analyse the information in different fields and infer structural and functional features of a sequence; iv) examine and investigate the provenance of annotations; and v) compare annotations at different time-points and evaluate the likely impact of annotation changes. Database management Flat file databases, Flat files, Introduction bioinformatics, Uniprotkb flat file format Beginners 2018-09-08
A Critical Guide to UniProtKB

This Critical Guide in the Introduction to Bioinformatics series provides a brief outline of the UniProt protein sequence database, with a particular focus on the UniProt Knowledgebase – UniProtKB. The rationale for creating the resource, its contributing databases and the kinds of information...

Scientific topics: Database management

Keywords: Introduction bioinformatics, Introduction uniprot, Protein sequence databases, Uniprot knowledgebase

A Critical Guide to UniProtKB https://tess.elixir-europe.org/materials/a-critical-guide-to-uniprotkb This Critical Guide in the Introduction to Bioinformatics series provides a brief outline of the UniProt protein sequence database, with a particular focus on the UniProt Knowledgebase – UniProtKB. The rationale for creating the resource, its contributing databases and the kinds of information they provide are discussed, and issues behind the quality of their annotations are explored. Specifically, this Guide introduces the principal components of the UniProt Knowledgebase, and the differences between them. On reading this Guide, users will be able to: i) identify and explain the characteristic features of UniProtKB/Swiss-Prot and UniProtKB/TrEMBL entries; ii) distinguish annotations that are computed, and hence not experimentally validated; iii) search UniProtKB using keywords, full sequences and peptides, and interpret the results; iv) analyse and track the provenance of annotations; and v) infer which annotations are likely to be accurate and which erroneous. Database management Introduction bioinformatics, Introduction uniprot, Protein sequence databases, Uniprot knowledgebase Beginners 2018-09-08
A Critical Guide to BLAST

This Critical Guide in the Introduction to Bioinformatics series provides an overview of the BLAST similarity search tool, briefly examining the underlying algorithm and its rise to popularity. Several Web-based and stand-alone implementations are reviewed, and key features of typical search...

Keywords: Introduction bioinformatics, Introduction blast, Sequence database searching, Sequence similarity searching

A Critical Guide to BLAST https://tess.elixir-europe.org/materials/a-critical-guide-to-blast This Critical Guide in the Introduction to Bioinformatics series provides an overview of the BLAST similarity search tool, briefly examining the underlying algorithm and its rise to popularity. Several Web-based and stand-alone implementations are reviewed, and key features of typical search results are discussed. Specifically, this Guide introduces concepts and theories that underpin the BLAST search tool, and examines features of search outputs important for understanding and interpreting BLAST results. On reading this Guide, users will be able to: i) search a variety of Web-based sequence databases with different query sequences, and alter search parameters; ii) explain a range of typical search parameters, and the likely impacts on search outputs of changing them; iii) analyse the information conveyed in search outputs and infer the significance of reported matches; iv) examine and investigate the annotations of reported matches, and their provenance; and v) compare the outputs of different BLAST implementations and evaluate the implications of any differences. Introduction bioinformatics, Introduction blast, Sequence database searching, Sequence similarity searching Beginners 2018-09-08
A Critical Guide to Unix

This Critical Guide in the Introduction to Bioinformatics series briefly introduces the Unix Operating System, and provides a subset of some of the most helpful and commonly used commands, including those that allow various types of search, navigation and file manipulation. Several keystroke...

Keywords: Command line, Introduction bioinformatics, Introduction unix, Unix commands, Unix operating system

A Critical Guide to Unix https://tess.elixir-europe.org/materials/a-critical-guide-to-unix This Critical Guide in the Introduction to Bioinformatics series briefly introduces the Unix Operating System, and provides a subset of some of the most helpful and commonly used commands, including those that allow various types of search, navigation and file manipulation. Several keystroke short-cuts are also explained, which help to make the routine use of Unix commands more efficient. Specifically, this Guide showcases some of the simplest, most frequently used commands to help new users to understand and gain confidence in using the Unix Operating System. On reading the Guide, users will be able: i) to exploit a range of commands: to manipulate files, directories and processes; to navigate directory structures and explore their contents; to search for files, and search and compare file contents; and to direct command outputs into files or into other commands; and ii) to explain what many simple commands mean and how they’re used. Command line, Introduction bioinformatics, Introduction unix, Unix commands, Unix operating system Beginners 2018-09-08
RNA-seq module Frederik Coppens

Material concerning RNA-seq analysis, with an emphasis on the statistical aspects.

Keywords: FASTQ, Alignment, BAM, Differential-expression, Statistical-model, Exploratory-analysis

RNA-seq module Frederik Coppens https://tess.elixir-europe.org/materials/rna-seq-module-frederik-coppens-4a328fa8-0bef-471c-84e4-b0d89d216128 Material concerning RNA-seq analysis, with an emphasis on the statistical aspects. FASTQ, Alignment, BAM, Differential-expression, Statistical-model, Exploratory-analysis
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
STAO 2014 Understanding a genetic disease thanks to Bioinformatics

This workshop allows to discover several bioinformatics tools and databases (genome browser, alignment tool, BLAST, dbSNP, UniProtKB, PDB) in the context of the discovery of a rare variant leading to the production of a non functional insulin in a Norwegian family. Additional documents are ...

Keywords: Blast, Genome browsing, Introduction bioinformatics, Protein structure visualisation, Variant detection

STAO 2014 Understanding a genetic disease thanks to Bioinformatics https://tess.elixir-europe.org/materials/stao-2014-understanding-a-genetic-disease-thanks-to-bioinformatics This workshop allows to discover several bioinformatics tools and databases (genome browser, alignment tool, BLAST, dbSNP, UniProtKB, PDB) in the context of the discovery of a rare variant leading to the production of a non functional insulin in a Norwegian family. Additional documents are available: http://education.expasy.org/cours/Toronto Blast, Genome browsing, Introduction bioinformatics, Protein structure visualisation, Variant detection high school 2014-11-10 2017-10-09
BLAST and multiple sequence alignment (MSA) programs

Background The rapid identification of pathogens infecting livestock is essential to appropriately respond to the threat. The number and the variety of pathogen sequenced genomes have been growing more dramatically these recent years, because of the new sequencing technologies. This wealth of...

Keywords: Blast, E learning, Multiple sequence alignment

BLAST and multiple sequence alignment (MSA) programs https://tess.elixir-europe.org/materials/blast-and-multiple-sequence-alignment-msa-programs Background The rapid identification of pathogens infecting livestock is essential to appropriately respond to the threat. The number and the variety of pathogen sequenced genomes have been growing more dramatically these recent years, because of the new sequencing technologies. This wealth of new data is very useful to the research field through the development of bioinformatics tools and databases that deal with large amount of sequences. Among them, BLAST (Basic Local Alignment Search Tool) and MSA () programs are very efficient for protein or nucleotide sequence similarity search. The present course introduces the main biological databases, alignment tool BLAST and Multiple sequence alignments (MSA) programs, and interpretation of results. Goal The ultimate aim is the better management of animal diseases by preparing laboratory technicians, veterinarians and molecular epidemiologists from diagnostic and research laboratories of developing FAO and IAEA member states, to be self-sufficient in the data analysis by interpreting the phylogenetic trees and their relationships. Target audience Researchers, Laboratory technicians, veterinarians, epidemiologists from diagnostic and research laboratories of member states of IAEA and FAO. The concepts are explained in generalized way to help all academicians, researchers, students from all countries working in the field of molecular genetics and epidemiology. AuthorsViral-zone, Swiss-Prot group at the SIB Swiss Institute of Bioinformatics   Blast, E learning, Multiple sequence alignment Bench biologists Biologists Laboratory technicians Researchers Veterinarians 2014-04-28 2017-10-09
Introduction to Multiple Sequence Alignments (MSAs) and Phylogenies

Slides used for teaching an introduction to phylogenies and MSAs in the context of phylogenies for the first day of a two-day course on MSAs at Cambridge University, in the UK, in December 2013. Course taught together with Holger Dinkel and Terri Attwood.

Keywords: Molecular evolution, Multiple sequence alignment, Phylogenetics, Protein sequence analysis, Sequence alignment

Introduction to Multiple Sequence Alignments (MSAs) and Phylogenies https://tess.elixir-europe.org/materials/introduction-to-multiple-sequence-alignments-msas-and-phylogenies Slides used for teaching an introduction to phylogenies and MSAs in the context of phylogenies for the first day of a two-day course on MSAs at Cambridge University, in the UK, in December 2013. Course taught together with Holger Dinkel and Terri Attwood. Molecular evolution, Multiple sequence alignment, Phylogenetics, Protein sequence analysis, Sequence alignment Bench biologists Post-Doctoral Fellows Postgraduate students principle investigators 2013-12-19 2017-10-09
Understanding Multiple Sequence Alignments - Lecture Handouts & Utopia Hands-On

This presentation aims to provide a basic understanding of the range of contexts in which protein sequence alignments are used and are useful, focusing on the importance of sequence similarities and differences, and what they tell us. Overall, the objective is to offer different perspectives and...

Keywords: Multiple sequence alignment, Protein sequence analysis, Sequence analysis

Understanding Multiple Sequence Alignments - Lecture Handouts & Utopia Hands-On https://tess.elixir-europe.org/materials/understanding-multiple-sequence-alignments-lecture-handouts-utopia-hands-on This presentation aims to provide a basic understanding of the range of contexts in which protein sequence alignments are used and are useful, focusing on the importance of sequence similarities and differences, and what they tell us. Overall, the objective is to offer different perspectives and insights into the meaning of alignments, and to convey an understanding of the use of metaphor and its role in interpreting alignments. The talk is accompanied by a hands-on practical analysis using the Utopia sequence analysis suite. Multiple sequence alignment, Protein sequence analysis, Sequence analysis Biomedical researchers Life Science Researchers Postgraduate students 2013-12-17 2017-10-09
Clinical Bioinformatics I - Tutor notes

Clinical Bioinformatics I is a 10 credit module of the new MSc in Clinical Bioinformatics, delivered by Nowgen/NGRL and the University of Manchester in the UK. Clinical Bioinformatics is one of the streams of the NHS Scientific Training Programme (STP). The programme is a mixture of work...

Keywords: Clinical bioinformatics, Genomics, Introduction bioinformatics

Clinical Bioinformatics I - Tutor notes https://tess.elixir-europe.org/materials/clinical-bioinformatics-i-tutor-notes Clinical Bioinformatics I is a 10 credit module of the new MSc in Clinical Bioinformatics, delivered by Nowgen/NGRL and the University of Manchester in the UK. Clinical Bioinformatics is one of the streams of the NHS Scientific Training Programme (STP). The programme is a mixture of work placement based training interspersed with academic teaching.  The tutor notes describe the content taught on each day of the 5 day course, and the approach used to teach the materials. Each day is divided into two parts, a series of lectures in the morning to introduce the topics, then the afternoon sessions present a series of case studies for the students to work through in a 'problem based learning (PBL) approach to reinforce the lecture content.  Clinical bioinformatics, Genomics, Introduction bioinformatics Life Science Researchers healthcare professionals postgrad 2013-11-28 2017-10-09
Similarity searching, multiple sequence alignment and protein families - undergraduate lab

Lab 3 in a series of labs given as part of a "bioinformatics for biologists" course targeted at 2nd/3rd year undergraduates and focusing on informed use of tools. Some instructions are specific to our local computer lab setup but overall the content should be adaptable. Note that because some of...

Keywords: Blast, Hmmer, Interpro, Multiple sequence alignment, Similarity searching

Similarity searching, multiple sequence alignment and protein families - undergraduate lab https://tess.elixir-europe.org/materials/similarity-searching-multiple-sequence-alignment-and-protein-families-undergraduate-lab Lab 3 in a series of labs given as part of a "bioinformatics for biologists" course targeted at 2nd/3rd year undergraduates and focusing on informed use of tools. Some instructions are specific to our local computer lab setup but overall the content should be adaptable. Note that because some of the exercises make use of public databases they need to be checked and in some cases updated every time the lab is run. The lab is meant to be easily assessed using an online quiz (I use moodle). I provides a hands on introduction to NCBI BLAST, Interproscan, Clustal, MUSCLE and T-COFFEE, and HMMER.  Blast, Hmmer, Interpro, Multiple sequence alignment, Similarity searching biology and bioinformatics sophomore undergraduates 2013-11-12 2017-10-09
Multiple sequence alignment and phylogeny - undergraduate lab

This is lab 4 in a series of labs given as part of an undergraduate "Bioinformatics for biologists" course delivered to 2nd and 3rd year biology and bioinformatics undergraduate students, as part of a course focusing on using bioinformatics tools. Some instructions in it are specific to our lab...

Keywords: Clustalw, Multiple sequence alignment, Phylip, Phylogeny

Multiple sequence alignment and phylogeny - undergraduate lab https://tess.elixir-europe.org/materials/multiple-sequence-alignment-and-phylogeny-undergraduate-lab This is lab 4 in a series of labs given as part of an undergraduate "Bioinformatics for biologists" course delivered to 2nd and 3rd year biology and bioinformatics undergraduate students, as part of a course focusing on using bioinformatics tools. Some instructions in it are specific to our lab environment - including some not so current programs (clustalw, treetool, seaview, phylip) as that's what we have installed at the moment and they're stable, but the content can easily be adapted to other environments and programs. The lab is meant to be easily assessed and I get the students to answer the question in a moodle quiz which makes marking easier. The lab follows some lectures on multiple sequence alignment and molecular phylogeny. Clustalw, Multiple sequence alignment, Phylip, Phylogeny biology and bioinformatics sophomore undergraduates 2013-11-12 2017-10-09
Introduction to Bioinformatics

An introduction to bioinformatics for bench biologists delivered as part of the EMBL Australia Masterclass on Protein Sequence Analysis http://oz-masterclass.wikispaces.com/ . Focuses on using UniProt to explore different reasons why information inferred by "direct assay" and "prediction" could...

Keywords: Introduction bioinformatics

Introduction to Bioinformatics https://tess.elixir-europe.org/materials/introduction-to-bioinformatics An introduction to bioinformatics for bench biologists delivered as part of the EMBL Australia Masterclass on Protein Sequence Analysis http://oz-masterclass.wikispaces.com/ . Focuses on using UniProt to explore different reasons why information inferred by "direct assay" and "prediction" could be wrong, and what we can do to spot it. Introduction bioinformatics Bench biologists 2013-10-23 2017-10-09
eBioKit

Extensive teaching experience gained by conducting bioinformatics training courses in Kenya, Uganda, Mauritius (UoM), SriLanka, Sweden, Chile and Zimbabwe showed that it was difficult to successfully teach and demonstrate several bioinformatics resources, due to and often limited by slow Internet...

Keywords: Advanced bioinformatics training, Introduction bioinformatics

eBioKit https://tess.elixir-europe.org/materials/ebiokit Extensive teaching experience gained by conducting bioinformatics training courses in Kenya, Uganda, Mauritius (UoM), SriLanka, Sweden, Chile and Zimbabwe showed that it was difficult to successfully teach and demonstrate several bioinformatics resources, due to and often limited by slow Internet access. For that reason a bioinformatics platform, eBioKit  was engineered to ease the administrative burden of regularly updating large databases and installing software. This platform contains more than 300 bioinformatics applications (EMBOSS, Galaxy, Blast, RSAT etc),  and most relevant databases (ENSEMBL, Uniprot, OMIM, PDB, etc) locally, solving the network speed related problems and problems associated with the installation of software. Version 2 of this system has been successfully tested in real world situations both for capacity building and research in Kenya at ILRI, the Biosciences eastern and central Africa (BecA), KEMRI Wellcome Trust Research Programme (KWTRP) and The International Centre of Insect Physiology and Ecology (ICIPE). The system has further been deployed in the SANBio bioinformatics network in Southern Africa (10 countries) and Sri Lanka (Version 1) and has recently been adopted by the H3ABioNet African Bioinformatics Network as a platform to provide bioinformatics training and bioinformatics computing services at nodes in the network (http://www.h3abionet.org).  Advanced bioinformatics training, Introduction bioinformatics Bachelor students Bench biologists Life Science Researchers PhD students 2013-10-03 2017-10-09
Variant-calling

No description available

Keywords: Alignment, Annotation, BAM, BCF, De-novo-transcriptome-assembly, Exploratory-analysis, FASTQ, Pre-processing, QC, Statistical-model, Variant-calling, VCF

Variant-calling https://tess.elixir-europe.org/materials/variant-calling No description available Alignment, Annotation, BAM, BCF, De-novo-transcriptome-assembly, Exploratory-analysis, FASTQ, Pre-processing, QC, Statistical-model, Variant-calling, VCF
Day 4 - RNA-Seq Analysis

Day 4 focuses on the final steps after production of significant gene lists, including gene clustering, visualization, and annotation.

Keywords: Exploratory-analysis, Differential-expression, Statistical-model, Annotation

Day 4 - RNA-Seq Analysis https://tess.elixir-europe.org/materials/day-4-rna-seq-analysis Day 4 focuses on the final steps after production of significant gene lists, including gene clustering, visualization, and annotation. Exploratory-analysis, Differential-expression, Statistical-model, Annotation
Statistics and RNA-Seq

This lecture and optional practical introduce the relevant statistical concepts along with its computational counterparts used on a common RNA-Seq data analysis workflow.

Keywords: FASTQ, Alignment, BAM, Differential-expression, Statistical-model, Exploratory-analysis

Statistics and RNA-Seq https://tess.elixir-europe.org/materials/statistics-and-rna-seq This lecture and optional practical introduce the relevant statistical concepts along with its computational counterparts used on a common RNA-Seq data analysis workflow. FASTQ, Alignment, BAM, Differential-expression, Statistical-model, Exploratory-analysis
Material for the course RNA-seq data analysis with Chipster

This material covers the whole RNA-seq data analysis pipeline, from quality control of raw reads to differential expression analysis.

Scientific topics: RNA-Seq

Keywords: RNA-Seq, FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis

Material for the course RNA-seq data analysis with Chipster https://tess.elixir-europe.org/materials/material-for-the-course-rna-seq-data-analysis-with-chipster This material covers the whole RNA-seq data analysis pipeline, from quality control of raw reads to differential expression analysis. RNA-Seq RNA-Seq, FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis
Day 3 - RNA-Seq Analysis

Day 3 focuses on statistical analysis of RNA-Seq data and identification of differentiall expressed genes in multiple comparisons.

Keywords: QC, Exploratory-analysis, Differential-expression, Statistical-model, Pre-processing

Day 3 - RNA-Seq Analysis https://tess.elixir-europe.org/materials/day-3-rna-seq-analysis Day 3 focuses on statistical analysis of RNA-Seq data and identification of differentiall expressed genes in multiple comparisons. QC, Exploratory-analysis, Differential-expression, Statistical-model, Pre-processing
RNA-Seq Analysis with Biocluster and R

Sequencing of RNA (RNA-Seq) is the latest method to assess global gene expression because it

Scientific topics: RNA-Seq

Keywords: RNA-Seq, Alignment, Annotation, BAM, Differential-expression, Exploratory-analysis, Expression-estimation, FASTA, FASTQ, Feature-summarisation, Pre-processing, QC, Statistical-model

RNA-Seq Analysis with Biocluster and R https://tess.elixir-europe.org/materials/rna-seq-analysis-with-biocluster-and-r Sequencing of RNA (RNA-Seq) is the latest method to assess global gene expression because it RNA-Seq RNA-Seq, Alignment, Annotation, BAM, Differential-expression, Exploratory-analysis, Expression-estimation, FASTA, FASTQ, Feature-summarisation, Pre-processing, QC, Statistical-model
Material provided by Charlotte Soneson

This folder contains material provided by Charlotte Soneson. The following material is included:

Scientific topics: RNA-Seq

Keywords: RNA-Seq, Differential-expression, Statistical-model, Exploratory-analysis

Material provided by Charlotte Soneson https://tess.elixir-europe.org/materials/material-provided-by-charlotte-soneson This folder contains material provided by Charlotte Soneson. The following material is included: RNA-Seq RNA-Seq, Differential-expression, Statistical-model, Exploratory-analysis
RNA-seq module Eija Korpelainen

All material concerning RNA-seq data analysis with Chipster

Keywords: FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis

RNA-seq module Eija Korpelainen https://tess.elixir-europe.org/materials/rna-seq-module-eija-korpelainen All material concerning RNA-seq data analysis with Chipster FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis
Exercises for the course RNA-seq data analysis with Chipster

This practical covers the whole RNA-seq data analysis pipeline, from quality control of raw reads to differential expression analysis, using the free Chipster software. Material updated in Dec 2015.

Keywords: FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis

Exercises for the course RNA-seq data analysis with Chipster https://tess.elixir-europe.org/materials/exercises-for-the-course-rna-seq-data-analysis-with-chipster This practical covers the whole RNA-seq data analysis pipeline, from quality control of raw reads to differential expression analysis, using the free Chipster software. Material updated in Dec 2015. FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis
Day 2 - RNA-Seq Analysis

Day 2 continues throught the steps in a typical RNA-Seq experiment from alignment to sample QC and count normalization, including a brief overview of the IGV Genome Browser.

Keywords: Alignment, BAM, FASTA, FASTQ, QC, Exploratory-analysis, Feature-summarisation, Pre-processing

Day 2 - RNA-Seq Analysis https://tess.elixir-europe.org/materials/day-2-rna-seq-analysis Day 2 continues throught the steps in a typical RNA-Seq experiment from alignment to sample QC and count normalization, including a brief overview of the IGV Genome Browser. Alignment, BAM, FASTA, FASTQ, QC, Exploratory-analysis, Feature-summarisation, Pre-processing
Lecture slides for the course RNA-seq data analysis with Chipster

This material covers the whole RNA-seq data analysis pipeline, from quality control of raw reads to differential expression analysis. It discusses also experimental design. Material updated in Dec 2015.

Keywords: FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis

Lecture slides for the course RNA-seq data analysis with Chipster https://tess.elixir-europe.org/materials/lecture-slides-for-the-course-rna-seq-data-analysis-with-chipster This material covers the whole RNA-seq data analysis pipeline, from quality control of raw reads to differential expression analysis. It discusses also experimental design. Material updated in Dec 2015. FASTQ, QC, Pre-processing, Alignment, BAM, Expression-estimation, Feature-summarisation, Differential-expression, Statistical-model, Exploratory-analysis
Exploratory analysis and downstream analysis

This lecture gives an overview of exploratory analysis (clustering) and supervised analysis (prediction/classification), as well as visualization methods (heatmaps/PCA) and gene set analysis. It also shows how to transform count data to make it more suitable to apply the traditional methods...

Keywords: Statistical-model, Exploratory-analysis

Exploratory analysis and downstream analysis https://tess.elixir-europe.org/materials/exploratory-analysis-and-downstream-analysis This lecture gives an overview of exploratory analysis (clustering) and supervised analysis (prediction/classification), as well as visualization methods (heatmaps/PCA) and gene set analysis. It also shows how to transform count data to make it more suitable to apply the traditional methods developed (e.g.) for microarray data. Statistical-model, Exploratory-analysis