Difference between revisions of "Visualisation of mapped reads"
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* <code>mm10_chr19-1-20000000.fasta</code>: mouse reference genome sequence | * <code>mm10_chr19-1-20000000.fasta</code>: mouse reference genome sequence | ||
* <code>mm10_chr19-1-20000000_Ensembl.gtf</code>: Ensembl mouse gene models | * <code>mm10_chr19-1-20000000_Ensembl.gtf</code>: Ensembl mouse gene models | ||
| − | |||
| − | |||
| − | |||
Data | Data | ||
| − | The data is available in the directory | + | The data is available in the directory 04_Visualisation_of_mapped_reads: |
| − | cd / | + | cd ~/i2rda_data/04_Visualisation_of_mapped_reads |
| − | Indexing BAM files | + | = Indexing BAM files = |
To enable fast access to any part of the BAM files we need to create an index using samtools: | To enable fast access to any part of the BAM files we need to create an index using samtools: | ||
| − | samtools index SRR769314_duplicates_marked.bam | + | samtools index SRR769314_duplicates_marked.bam |
| − | samtools index SRR769316_duplicates_marked.bam | + | samtools index SRR769316_duplicates_marked.bam |
| − | + | = Starting IGV = | |
| − | |||
| − | igv.sh & | + | igv.sh & |
To load the mouse genome: | To load the mouse genome: | ||
| − | + | Select Genomes -> Load Genome from File... | |
| − | + | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> Reference | |
| − | + | Select the mm10_chr19-1-20000000.fasta file | |
| − | + | Click [Open] | |
| − | Select Genomes -> Load Genome from File... | ||
| − | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> Reference | ||
| − | Select the mm10_chr19-1-20000000.fasta file | ||
| − | Click [Open] | ||
To load the alignments: | To load the alignments: | ||
| − | Select File -> Load from File... | + | Select File -> Load from File... |
| − | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads | + | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads |
| − | Select the SRR769314_duplicates_marked.bam and SRR769316_duplicates_marked.bam files | + | Select the SRR769314_duplicates_marked.bam and SRR769316_duplicates_marked.bam files |
| − | Click [Open] | + | Click [Open] |
To load the Ensembl gene models: | To load the Ensembl gene models: | ||
| − | Select File -> Load from File... | + | Select File -> Load from File... |
| − | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> Reference | + | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> Reference |
| − | Select the mm10_chr19-1-20000000_Ensembl.gtf file | + | Select the mm10_chr19-1-20000000_Ensembl.gtf file |
| − | Click [Open] | + | Click [Open] |
Zoom in until you start seeing reads. | Zoom in until you start seeing reads. | ||
| − | 1. Navigate to chr19:3715000-3718000 (note that you don't have to include commas in the base coordinates, as IGV will add these) | + | 1. Navigate to <code>chr19:3715000-3718000</code> (note that you don't have to include commas in the base coordinates, as IGV will add these) and identify reads spanning exon-exon junctions |
| − | and identify reads spanning exon-exon junctions | ||
2. Navigate to chr19:5748800-5751100. Zoom in to observe each end of this exon-exon junction. | 2. Navigate to chr19:5748800-5751100. Zoom in to observe each end of this exon-exon junction. | ||
| − | What do you think of the alignment? How would you fix it? | + | |
| + | <ins>Question</ins>: | ||
| + | * What do you think of the alignment? How would you fix it? | ||
Add the reads aligned using gene annotation data: | Add the reads aligned using gene annotation data: | ||
| − | Select File -> Load from File... | + | Select File -> Load from File... |
| − | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> with_gtf | + | Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> with_gtf |
| − | Select the SRR769314_duplicates_marked.bam and SRR769316_duplicates_marked.bam files | + | Select the SRR769314_duplicates_marked.bam and SRR769316_duplicates_marked.bam files |
| − | Click [Open] | + | Click [Open] |
| + | |||
| + | 3. Navigate to <code>chr19:5748800-5751100</code>. Verify that the alignment looks better. | ||
| + | |||
| + | <ins>Question</ins>: | ||
| + | * How accurate do you think TopHat would be to detect novel (unannotated) junctions? | ||
| + | |||
| + | 4. Navigate to <code>chr19:4709000-4756000</code>. Right click on the track names and select Collapsed. | ||
| − | + | <ins>Question</ins>: | |
| − | + | * What do you think of the difference in coverage between the SRR769314 and SRR769316 samples? | |
| − | |||
| − | What do you think of the difference in coverage between the SRR769314 and SRR769316 samples | ||
| − | |||
| − | |||
| − | + | 5. Navigate to <code>chr19:6982100-6987800</code>. Right click on the track names and select Sashimi Plot. | |
| − | + | <ins>Question</ins>: | |
| + | * Can you identify which isoform is more expressed in each sample? | ||
Revision as of 20:23, 8 May 2017
Introduction
In contrast to the other more quantitative stages, this exercise is qualitative in the sense that we get a visual feel for a certain area of interest.
Aims
In this part you will learn to:
- Use a genome browser, the Broad Institute's IGV, to visualise mapped reads
Software to be used
- samtools v0.1.19: http://samtools.sourceforge.net/
- Integrated Genomics Viewer (IGV) 2.3.92: http://www.broadinstitute.org/igv/
To load these up:
module load samtools IGV
We'll be using the same data as before, but this time we will have two alignment files (i.e. two samples) from the same study. They are samples SRR769314 and SRR769316. The are tailored with respect to the time allocated for the workshop. They were aligned to the first 20 Mb of chromosome 19 of the mouse reference genome (GRCm38/mm10) using TopHat and duplicates have already been marked using Picard MarkDuplicates.
We shall will use the following files:
-
SRR769314_duplicates_marked.bam: aligned reads (without and with using gene annotation) -
SRR769316_duplicates_marked.bam: aligned reads (without and with using gene annotation) -
mm10_chr19-1-20000000.fasta: mouse reference genome sequence -
mm10_chr19-1-20000000_Ensembl.gtf: Ensembl mouse gene models
Data The data is available in the directory 04_Visualisation_of_mapped_reads:
cd ~/i2rda_data/04_Visualisation_of_mapped_reads
Indexing BAM files
To enable fast access to any part of the BAM files we need to create an index using samtools:
samtools index SRR769314_duplicates_marked.bam samtools index SRR769316_duplicates_marked.bam
Starting IGV
igv.sh &
To load the mouse genome:
Select Genomes -> Load Genome from File... Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> Reference Select the mm10_chr19-1-20000000.fasta file Click [Open]
To load the alignments:
Select File -> Load from File... Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads Select the SRR769314_duplicates_marked.bam and SRR769316_duplicates_marked.bam files Click [Open]
To load the Ensembl gene models:
Select File -> Load from File... Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> Reference Select the mm10_chr19-1-20000000_Ensembl.gtf file Click [Open]
Zoom in until you start seeing reads.
1. Navigate to chr19:3715000-3718000 (note that you don't have to include commas in the base coordinates, as IGV will add these) and identify reads spanning exon-exon junctions
2. Navigate to chr19:5748800-5751100. Zoom in to observe each end of this exon-exon junction.
Question:
- What do you think of the alignment? How would you fix it?
Add the reads aligned using gene annotation data:
Select File -> Load from File... Navigate to home -> training -> Data/ -> 06_Visualisation_of_mapped_reads -> with_gtf Select the SRR769314_duplicates_marked.bam and SRR769316_duplicates_marked.bam files Click [Open]
3. Navigate to chr19:5748800-5751100. Verify that the alignment looks better.
Question:
- How accurate do you think TopHat would be to detect novel (unannotated) junctions?
4. Navigate to chr19:4709000-4756000. Right click on the track names and select Collapsed.
Question:
- What do you think of the difference in coverage between the SRR769314 and SRR769316 samples?
5. Navigate to chr19:6982100-6987800. Right click on the track names and select Sashimi Plot.
Question:
- Can you identify which isoform is more expressed in each sample?
