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Keywords: Experimental-design  or Transcriptomics 


Exploring Microscope Platform

How to use the Microscope Platform to annotate and analyze microbial genomes.

Keywords: Annotation, Genomics, Metabolomics, Microbial evolution, Sequence analysis, Transcriptomics

Exploring Microscope Platform https://tess.elixir-europe.org/materials/exploring-microscope-platform How to use the Microscope Platform to annotate and analyze microbial genomes. Annotation, Genomics, Metabolomics, Microbial evolution, Sequence analysis, Transcriptomics
RNA-Seq: isoform detection and quantification

transcriptome from new condition tissue-speci c transcriptome different development stages transcriptome from non model organism cancer cell RNA maturation mutant How to manage RNA-Seq data with genes subjected to di erential splicing? Is it possible to discover new isoforms? Is it...

Keywords: Isoforms, RNA-seq, Transcriptomics

RNA-Seq: isoform detection and quantification https://tess.elixir-europe.org/materials/rna-seq-isoform-detection-and-quantification transcriptome from new condition tissue-speci c transcriptome different development stages transcriptome from non model organism cancer cell RNA maturation mutant How to manage RNA-Seq data with genes subjected to di erential splicing? Is it possible to discover new isoforms? Is it possible to quantify abundance of each isoform Isoforms, RNA-seq, Transcriptomics
NGS data exploration with the MicroScope Platform

Exploring data annotation on the genomics and transcriptomics levels with the MicroScope Platform and its tools

Keywords: Genomics, NGS, RNA-seq, SNP, Transcriptomics

NGS data exploration with the MicroScope Platform https://tess.elixir-europe.org/materials/ngs-data-exploration-with-the-microscope-platform Exploring data annotation on the genomics and transcriptomics levels with the MicroScope Platform and its tools Genomics, NGS, RNA-seq, SNP, Transcriptomics
Exploring microbiomes with the MicroScope Platform

This module is separated in different courses: MicroScope: General overview, Keyword search and gene cart functionalities Functional annotation of microbial genomes Functional annotation of microbial genomes: Prediction of enzymatic functions Relational...

Keywords: Annotation, Genomics, Metabolomics, Microbial evolution, Transcriptomics

Exploring microbiomes with the MicroScope Platform https://tess.elixir-europe.org/materials/exploring-microbiomes-with-the-microscope-platform This module is separated in different courses: MicroScope: General overview, Keyword search and gene cart functionalities Functional annotation of microbial genomes Functional annotation of microbial genomes: Prediction of enzymatic functions Relational annotation of bacterial genomes: synteny Automatic functional assignation and expert annotation of genes Relational annotation of bacterial genomes: phylogenetic profiles Relational annotation of bacterial genomes: pan-genome analysis Relational annotation of bacterial genomes: metabolic pathways Syntactic re-annotation of public microbial genomes Syntactic annotation of microbial genomes Annotation, Genomics, Metabolomics, Microbial evolution, Transcriptomics
Transcriptome de novo assembly

Not available

Keywords: Transcriptomics

Transcriptome de novo assembly https://tess.elixir-europe.org/materials/transcriptome-de-novo-assembly Not available Transcriptomics
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
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 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 - Quality Control

This practical illustrates steps that can be undertaken to assess the quality of the sequencing data. We will start from the fastq files and assess their quality in respect to potential contamination and technical artifacts.

Scientific topics: RNA-Seq

Keywords: ChIP-Seq, RNA-Seq, QC, Data-format, Experimental-design

ChIP-seq analysis using R - Quality Control https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-quality-control This practical illustrates steps that can be undertaken to assess the quality of the sequencing data. We will start from the fastq files and assess their quality in respect to potential contamination and technical artifacts. RNA-Seq ChIP-Seq, RNA-Seq, QC, Data-format, Experimental-design
ChIP-seq analysis using R - File formats and QC

This lecture introduces the file formats of sequencing data before alignment and covers the general quality control of sequencing data focussing on RNA-Seq and ChIP-Seq.

Scientific topics: RNA-Seq

Keywords: ChIP-Seq, RNA-Seq, QC, Data-format, Experimental-design

ChIP-seq analysis using R - File formats and QC https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-file-formats-and-qc This lecture introduces the file formats of sequencing data before alignment and covers the general quality control of sequencing data focussing on RNA-Seq and ChIP-Seq. RNA-Seq ChIP-Seq, RNA-Seq, QC, Data-format, Experimental-design
ChIP-seq analysis using R - Quality Control Walkthrough

This practical illustrates steps that can be undertaken to assess the quality of the sequencing data. We will start from the fastq files and assess their quality in respect to potential contamination and technical artifacts.

Scientific topics: RNA-Seq

Keywords: ChIP-Seq, RNA-Seq, QC, Data-format, Experimental-design

ChIP-seq analysis using R - Quality Control Walkthrough https://tess.elixir-europe.org/materials/chip-seq-analysis-using-r-quality-control-walkthrough This practical illustrates steps that can be undertaken to assess the quality of the sequencing data. We will start from the fastq files and assess their quality in respect to potential contamination and technical artifacts. RNA-Seq ChIP-Seq, RNA-Seq, QC, Data-format, Experimental-design
ChIP-Seq

No description available

Keywords: ChIP-Seq, Experimental-design, QC, ChIP-Seq-QC, Data-format, Alignment, Peak-calling, Differential-binding, Annotation

ChIP-Seq https://tess.elixir-europe.org/materials/chip-seq No description available ChIP-Seq, Experimental-design, QC, ChIP-Seq-QC, Data-format, Alignment, Peak-calling, Differential-binding, Annotation
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, QC, Data-format, Alignment, Peak-calling, Differential-binding, Visualisation, Annotation

ChIP-seq analysis using R https://tess.elixir-europe.org/materials/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 theoretical background and the means to perform peak calling and differential binding analysis. ChIP-Seq, Experimental-design, QC, Data-format, Alignment, Peak-calling, Differential-binding, Visualisation, Annotation