Tools To Calculate Average Coverage For A Bam File?
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13.8 years ago
Biomed 5.0k

I would like to get the average coverage of all the captured bases in a bam file. What would be the best way to do this? What I am looking is a simple one number like 40X. Given that there may be millions of bases sequenced in a next gen study I would like to get the overall average coverage for all these bases as a single number.

Thanks

coverage bam sequencing • 252k views
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5
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People seem to be equally devided between GATK, Samtools and BedTools.

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The Depth of Coverage is depreciated in GATK4. It's only available in GATK3. See here

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DepthOfCoverage is available as beta https://gatk.broadinstitute.org/hc/en-us/articles/360041851491-DepthOfCoverage-BETA-#--intervals

This is what I ended up using, after trying bedtools

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Most answers seems to be very old and hence would like to have updated suggestions.

I have 6 bam files and I have used samtools depth to calculate chromosome wise depth for all chromosomes and then plotted in R. While looking at the plots at 2-3 places, depth shows upto 200-3500 and hence I would like to calculate average read depth of each chromosome from each bam file. For e.g.: 1) average depth of chr1 from bam1, average depth of chr1 from bam2, ...until bam6. 2) average depth of chr1 from all 6 bam together.

Kindly guide.

Thanks.

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1
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Try the solutions if they don't work then you need to reframe the question with your commands and write a new query in a new post. This is advised. And yes paired end should work.

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in addition, if you have already plotted depths it means that you have got a temporal R data.frame (or similar type) in there containing chromosome, position and depth information. splitting such data.frame by chromosome and calculating average values should be straight-forward. I would just suggest to take into account empty values not reported by samtools depth dividing each chromosome depths' sum by the size of the chromosome, and not by the number of depth values.

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1
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Why is it wrong to take the number of sequenced bases and divide by the genome size?

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5
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because you cannot align all the bases on the genome, some reads are optical duplicates, etc...

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1
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Okay, contamination is a fair point, but even if some reads fail to match, that could still be a sign of genetic divergence, and should still count towards genome coverage. Do any of the other suggestions deal with duplicates implicitly?

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0
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Qualimap is very fast and excellent tool. thanks

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Hi,

I have multiple paired-end bam files from RNA-Seq data, already aligned and computed depth with samtools depth > bam.depth. Would any one please guide for any straight forward/latest way to compute coverage plots, avg. coverage plots and other metrics from depth files?

Picard CollectRNAseqmetrics, RSeQC and QoRTs have not been helpful. :-(

Thanks.

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0
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Have you run any of the other tools mentioned in this thread (e.g. Qualimap, pileup from BBMap)?

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1
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@genomax My bam files are very big and Qualimap has not been helpful, so as bbmap which is Java-based (memory issues like Picard and QoRTs) and hence I used samtools depth. My depth files are also in GB.

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Both programs will happily accept larger allocations of RAM and can open very large files. If you don't have access to a machine with more RAM then that is a different problem.

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58
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11.6 years ago
russdurrett ▴ 540

if you have samtools and awk, you can keep it simple with this:

samtools depth  *bamfile*  |  awk '{sum+=$3} END { print "Average = ",sum/NR}'

and with stdev:

samtools depth *bamfile*  |  awk '{sum+=$3; sumsq+=$3*$3} END { print "Average = ",sum/NR; print "Stdev = ",sqrt(sumsq/NR - (sum/NR)**2)}'
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Not sure this works. It calculates coverage over regions but does not account for regions that were not covered with a read. Then it divides all the sum with the number of rows that were reported... but the positions without a read hit are not included. Basically - it gives a too high result.

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16
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samtools depth -a

Using the '-a' flag outputs all positions (including zero depth), which should solve this problem.

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4
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[FYI] Only available from v1.3, I couldn't find that parameter in my version

https://github.com/samtools/samtools/issues/374

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6
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That's true. To be fair, the denominator needs to be the size of genome where the BAM file was generated against, rather than the number of bases covered at least once (that's what NR is in this context). To get the genome size from the BAM file:

samtools view -H *bamfile* | grep -P '^@SQ' | cut -f 3 -d ':' | awk '{sum+=$1} END {print sum}'
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0
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Please correct me if I am wrong, but none of these answers seem to work with nanopore data.

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1
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why would it not?

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0
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Hi. So when I try to do it in your method, I'm getting a result of 1.6-1.8 from my tumor BAM files. So the average coverage is 1.6X? It's not supposed to be this low.

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1
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In the first command, its $3 for me

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I agree, and edited Russ' answer accordingly to avoid confusing anyone else.

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To anyone who uses this: Please note that these commands ignore positions with 0 coverage. If you are working with a genome that has limited coverage, the average and stdev coverages given here may be incorrect. If so, use the "-a" option with samtools depth to output all positions, e.g.:

samtools depth -a  *bamfile* | *the rest of the command*
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samtools depth is the most straightforward way to do this

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42
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13.8 years ago

Try the genomeCoverageBed tool in the BEDtools package, which takes a BAM or BED file as input and:

computes a histogram of feature coverage (e.g., aligned sequences) for a given genome. Optionally, by using the –d option, it will report the depth of coverage at each base on each chromosome in the genome file (-g).

The way we run this is to first make a tab-delimited genome.txt file with "contig_name contig_size" information for all contigs in your genome and then run genomeCoverageBed on a sorted BAM file:

$ genomeCoverageBed -ibam sortedBamFile.bam -g genome.txt > coverage.txt

This will give you a summary histogram of coverage across each contig and for the entire genome, from which you can obtain the modal or mean value (the single fold-coverage value you are looking for).

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With your command, I have different value for the same contig. For instance:

jcf7180001864843    2   4   137928  2.90006e-05
jcf7180001864843    3   28  137928  0.000203004
jcf7180001864843    4   10  137928  7.25016e-05

What does it mean? How can I have one value for each contig?

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That's because it reports a histogram. From the documentation: The values in the output are:

  1. chromosome (or entire genome) [eg jcf7180001864843]
  2. depth of coverage from features in input file [eg. 2]
  3. number of bases on chromosome (or genome) with depth equal to column 2. [eg. 4]
  4. size of chromosome (or entire genome) in base pairs [eg. 137928]
  5. fraction of bases on chromosome (or entire genome) with depth equal to column 2. [2.90006e-05]

[all values taken from your first row]

If you want to get the average coverage: add up the product of bases per coverage [2* 4+3* 28+4* 10+...] and divide by the total number of bases [137928].

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Hello Ronald,

I have a question about what you are saying. So for the average coverage you are stating, that would be per scafffold correct? I attempted to open a topic recently and was referred to this one :)

Cheers

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The example given by @ronald.jaepel demonstrates calculating mean coverage for one scaffold (jcf7180001864843). You can perform this calculation on a per-scaffold basis by, e.g., subsetting on the scaffolds in the tabular text file. You can also calculate averages (or other summary statistics) for multiple or all scaffolds.

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1
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Is your BAM file sorted (as noted on the help doc page linked by @student-t above)?

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what is content of genome.txt

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From Casey's original reply above

...tab-delimited genome.txt file with "contig_name contig_size" information for all contigs in your genome...

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1
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To add to this for future readers, those genome.txt files are so called "chromosome size files", formatted as "contig name <TAB> length"; e.g. like this:

chr1    248956422
chr2    242193529
chr3    198295559

Those files can be downloaded for example with fetchChromSizes from UCSC, found here for linux (navigate back for Mac version): https://hgdownload.cse.ucsc.edu/admin/exe/linux.x86_64/

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... as the link points out, the chromosome size file (ie genome.txt) can be retrieve directly through this URL:

  http://hgdownload.soe.ucsc.edu/goldenPath/<db>/bigZips/<db>.chrom.sizes

where: <db> - name of UCSC database, e.g.: hg38, hg18, mm9, etc ...

However! If you supply bam as input, the -g option is ignored so there is no need for this file in the first place.

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13.8 years ago
Michael 55k

And the mandatory R solution. The Rsamtools package can be used to read in the BAM file.

Here is a code example:

library(Rsamtools)
bamcoverage <- function (bamfile) {
  # read in the bam file
  bam <- scanBam(bamfile)[[1]] # the result comes in nested lists
  # filter reads without match position
  ind <- ! is.na(bam$pos)
  ## remove non-matches, they are not relevant to us
  bam <- lapply(bam, function(x) x[ind])
  ranges <- IRanges(start=bam$pos, width=bam$qwidth, names=make.names(bam$qname, unique=TRUE))
  ## names of the bam data frame:
  ## "qname"  "flag"   "rname"  "strand" "pos"    "qwidth"
  ## "mapq"   "cigar"  "mrnm"   "mpos"   "isize"  "seq"    "qual"
  ## construc: genomic ranges object containing all reads
  ranges <- GRanges(seqnames=Rle(bam$rname), ranges=ranges, strand=Rle(bam$strand), flag=bam$flag, readid=bam$rname )
  ## returns a coverage for each reference sequence (aka. chromosome) in the bam file
  return (mean(coverage(ranges)))      
}

And the output:

> bamcoverage("~/test.bam")
gi|225184640|emb|AL009126.3| 
                    15.35720

The good thing about this is you can do much more with the genomic ranges object than computing the coverage, the downside is, that the code is not that efficient.

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@Michael : What maximum size of input bam file that can be handled by this solution ? It slurps the whole bamfile in memory ??

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Sorry for the late reply. Yes it does, and it is not very memory efficient. For a 850MB BAM file with approximately 17 million alignments the R process uses up to 15GB of memory during processing.

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A reply four years after.....

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@Micheal: Will it work for paired end BAM files?

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Yes, it will work.

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Hi! I used this R code with Rsamtools with my bam file and the result was:

6503.159

What could have gone wrong?

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You might have incredibly high coverage :) I would try a different tool, now 8 years later. Honestly, this code was only intended to show it can be done in R too. But I am not even sure it works correctly.

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Thanks!!! I'll look for another tools :) genomecoverage from bedtools looks good too. I'll try that one. Thanks for the advice!

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16
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13.8 years ago

did you try the GATK "DepthOfCoverage" ? http://www.broadinstitute.org/gsa/wiki/index.php/Depth_of_Coverage_v3.0

or you can run 'samtools pileup' and calculate the mean value for the coverage column.

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I have used the samtools method (which excludes bases with 0 coverage) and the BEDTools version (which includes bases with 0 coverage). The former will give a higher mean coverage. This will have an impact on genome where there are large areas that are not sequenced.

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1
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Sorry I am new to bioinformatics. I have used 'samtools mpileup', but how can I get mean value for the depth column. Thanks.

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1
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I tried GATK DepthOfCoverage last July with no luck - complicated java.lang.RuntimeExceptions. I did find success with BEDtools however (see answer below/above)

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I use this method to calculate % of sites with at least a coverage of 20x in a list of sites from a bed. It provides that number directly as output.

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0
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That's the gte_20 value from the sample_cumulative_coverage_proportions file, correct?

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I was interested in this issue too, but I wanted to know the coverage for certain genes. after looking to this tool's wiki I've realized that I can feed it with a list of genes intervals (which of course I'll have to retrieve from UCSC or Ensembl) and I'll surely sort my problem out! look what an unexpected great piece of information I've just found! once again thanks a lot, Pierre.

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Thanks Pierre. I haven't tried Depthof Coverage but I tried Samtools. Samtools would give you a base by base coverage, and I use it successfully like Jorge explained but I 'll look at GATK for sure.

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14
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13.8 years ago

Here's a very simple perl script I wrote that does exactly this that you're free to use:

($num,$den)=(0,0);
while ($cov=<STDIN>) {
    $num=$num+$cov;
    $den++;
}
$cov=$num/$den;
print "Mean Coverage = $cov\n";

Just pipe samtools pileup to it like so:

/path/to/samtools pileup in.bam | awk '{print $4}' | perl mean_coverage.pl

It will also work easily for genomic regions. Just index the BAM file and use samtools view like so:

/path/to/samtools view -b in.bam <genomic region> | /path/to/samtools pileup - | awk '{print $4}' | perl mean_coverage.pl

Hope someone finds this useful.

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4
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One more comment on this pipeline... In my data, where I have relatively low coverage there are quite a few genomic positions not covered at all. These will not show up in the pileup command, so I guess that the mean coverage calculated this way will be the mean coverage of the covered positions. Am I right? Is there a way (in the "samtools pileup" command) to output all positions even if they are not covered by any read?

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looks promising. Thanks

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0
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I am certainly going to try this. Thanks for the answer.

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Nice answer! Tried it and it's working! The only thing I'd like to mention is that I think that the BAM file needs to be sorted.

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That's correct, panos. This simple solution is only if every base is covered at least once because samtools pileup doesn't report bases with zero coverage. Thanks for pointing that out!

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can you give me a detailed description about $cov=[HTML] you used ? Thanks!

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Very useful thanks! Used it on my own dataset (sorry to bump an old thread but still very handy)

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I made a BioStars account to upvote your contribution. I've been trying to find something this simple and straightforward for some time now.. Thanks!

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3
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this is a very old answer. you would find then useful a simpler samtools depth based solution:

samtools depth [-b regions.bed] input.bam | awk '{c++;s+=$3}END{print s/c}'
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@Jorge Amigo

samtools depth bamfile | awk '{sum+=$3} END { print "Average = ",sum/NR}'

by @russdurrett also gives same output for my paired-end bam file from RNA-Seq:-)

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that's because NR is an awk variable that stores the number of rows, therefore the c variable on my code is not wrong, but it is superfluous.

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I ran:

samtools depth zm_cp.bam | awk '{sum+=$3} END { print "Average = ",sum/NR}'

and the result was:

Average =  6495.19

:O is this okay?

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Does this also works with mpileup? I ran:

samtools mpileup zm_cp.bam | awk '{print $4}' | perl mean_coverage.pl

and this was the result:

[mpileup] 1 samples in 1 input files
<mpileup> Set max per-file depth to 8000

Mean Coverage = 5107.87408859271

:O is this okay?

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0
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Hello, I know this post is quite old, but I am trying to use this as it seems to work wonderfully for everyone else. I am new to bioinformatics and genomics, so please be patient with me. I have run the command 'samtools mpileup A186944_mtgenome.srt.dup.bam | awk '{print $4}' | perl coverage.pl' where my bam file is a sorted bam with duplicates removed and I get the following error:

Illegal division by zero at coverage.pl line 6.

Can someone please help me figure out the error? I think it's maybe because there are 0's where unmapped reads occur? How do I obtain coverage for just the mapped reads, and eliminate the 0 denominator?

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11
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6.3 years ago

A modern, very fast, solution for this would be mosdepth.

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0
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how do i install other than bioconda?

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You can install the executable from their github release page: https://github.com/brentp/mosdepth/releases

Latest version at time of commenting (0.2.9):

(Download executable) wget https://github.com/brentp/mosdepth/releases/download/v0.2.9/mosdepth

(Update permissions to run it) chmod a+x mosdepth

(Good to go!) <path_to_mosdepth> --help

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0
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Why not use bioconda?

More installation options and instructions can be found on the GitHub page.

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5
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13.8 years ago
Heikki ▴ 360

@michael.james.clark, thank you. I wrote for myself a script that I can add to when the need arises:

#!/usr/bin/env perl

use strict;
use warnings;

# Usage: samtools pileup file.bam | bam_coverage.pl

my $num;        # per residue coverage
my $len;        # sequence length counter 
my $min = 1000; # minimum coverage
my $max = 0;    # maximum coverage

while (<>) {
    my @a = split /\t/;
    $num += $a[3];
    $min = $a[3] if $min > $a[3];
    $max = $a[3] if $max < $a[3];
    $len++;
}

printf  "Mean coverage  : %.1f\n", $num/$len;
printf  "Coverage range : %d - %d\n", $min, $max;
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1
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Heiki thanks for the codes. It is working for me

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This doesn't work because mpileup does not report the bases with coverage of zero

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5
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13.4 years ago
Rm 8.3k

use

samtools pileup accepted_hits.bam | awk '{ count++ ; SUM += $4 } END { print "Total: " SUM "\t" "Nucleotides: " count "\t" "Average_coverage: " SUM/count }'

(use $8 instead; if pileup with -cf option)

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I used the above command to extract the average coverage on my aligned bam files and my statistics are: Total: 8011581243 Nucleotides: 510234050 Average_coverage: 15.7018

I want to know that the average_coverage is stating that on a distribution each of my base is read atleast 15 time right? What does the total signifies and the Nucleotides count: 510234050. Is this the total no of bases that are in the exonic region? then how will I calculate the number of reads from here that actually got mapped on in the exome region? Can we do this from the nucleotides count? I know for each reads consist of 100 bases so if I divide this 510234050 bases with 100 it gives me the reads but that will not give me the reads that actually got mapped in the exome region. How t extract that?

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11.3 years ago
William ★ 5.3k

How about just running qualimap in GUI mode or to create a QC PDF? Your can run it on the whole genome or on 1 or multiple regions using a bed file.

global coverage stats

coverage histogram

percentage of genome covered x times plot

http://qualimap.bioinfo.cipf.es/

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I tried using QualiMap2 on HPC. It just doesn't work.

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9.5 years ago
5heikki 11k

This is for people who have a sam/bam file consisting of reads mapped to multiple contigs (samtools needs to be in $PATH):

BBMap: http://sourceforge.net/projects/bbmap/

bbmap/pileup.sh -h

Written by Brian Bushnell
Last modified May 19, 2015

Description:  Calculates per-scaffold coverage information from an unsorted sam file.

Usage:  pileup.sh in=<input> out=<output>

Input may be stdin or a SAM file, compressed or uncompressed.
Output may be stdout or a file.

Input Parameters:
in=<file>           The input sam file; this is the only required parameter.
ref=<file>          Scans a reference fasta for per-scaffold GC counts, not otherwise needed.
fastaorf=<file>     An optional fasta file with ORF header information in PRODIGAL's output format.  Must also specify 'outorf'.
unpigz=t            Decompress with pigz for faster decompression.

..
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does it work with a bam file ?

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1
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Yes it does. Use the latest version.

$ pileup.sh
Written by Brian Bushnell
Last modified September 1, 2016
Description:  Calculates per-scaffold coverage information from an unsorted sam or bam file.
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0
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Could you introduce a bed file, say exome, and get the coverage stats?

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13.8 years ago
Mdperry ▴ 40

BioPerl has a library named Bio-Samtools which provides a familiar Perl/BioPerl access to samtools. I heard the author, Lincoln Stein, give a talk on on how he wove the two together use XS. As I recall, one of his examples was exactly the question you posed

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3.2 years ago
MSRS ▴ 590

Now the new release of Samtools for coverage analysis.

samtools coverage input.bam
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Does it provide depth per chromosome or for entire genome?

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0
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Better check documentation before asking.

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I saw it can give coverage for a specific proportion. But I am looking to find the coverage for entire bam file. I was wondering if there a way to use this tool for entire genome. I am working in university cluster and they have an older version of samtools. So I do not have access to samtools coverage to test this. Anyway thank you.

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Samtools gives coverage both specific portion and entire genome. See here

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3 months ago
GenoMax 147k

To make this thread a little more complete. adding pandepth as a current tool : https://github.com/HuiyangYu/PanDepth

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3.2 years ago

Also tiwih meandepth

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3.2 years ago
Divon ▴ 230

Genozip calculates coverage a bit differently, based on the number of bases rather than reads - ignoring hard-clipped and soft-clipped bases, as well as unmapped, secondary, supplementary and duplicate alignments. It can also calculate approximate coverage directly on a FASTQ file.

 $ genocat --coverage my-sample.bam.genozip

--coverage for: my-sample.bam.genozip
Contig         LN        Reads        Bases       Bases   Depth
1              249.3 Mb  61,215,549   9.0 Gb      7.1 %   36.10
2              243.2 Mb  63,342,488   9.3 Gb      7.3 %   38.26
3              198.0 Mb  50,819,357   7.5 Gb      5.9 %   37.76
4              191.2 Mb  48,131,726   7.1 Gb      5.6 %   37.04
5              180.9 Mb  46,495,225   6.8 Gb      5.4 %   37.81
6              171.1 Mb  43,659,445   6.4 Gb      5.0 %   37.53
7              159.1 Mb  41,171,496   6.0 Gb      4.7 %   38.01
8              146.4 Mb  38,081,676   5.6 Gb      4.4 %   38.27
9              141.2 Mb  31,755,198   4.7 Gb      3.7 %   33.05
10             135.5 Mb  34,954,121   5.1 Gb      4.0 %   37.90
11             135.0 Mb  35,234,129   5.2 Gb      4.1 %   38.38
12             133.9 Mb  34,523,219   5.1 Gb      4.0 %   37.91
13             115.2 Mb  24,526,664   3.6 Gb      2.8 %   31.32
14             107.3 Mb  23,525,557   3.5 Gb      2.7 %   32.21
15             102.5 Mb  22,613,925   3.3 Gb      2.6 %   32.41
16             90.4 Mb   23,675,707   3.5 Gb      2.7 %   38.41
17             81.2 Mb   22,148,439   3.2 Gb      2.5 %   40.01
18             78.1 Mb   19,542,517   2.9 Gb      2.3 %   36.81
19             59.1 Mb   16,374,766   2.4 Gb      1.9 %   40.50
20             63.0 Mb   16,530,922   2.4 Gb      1.9 %   38.52
21             48.1 Mb   9,811,790    1.4 Gb      1.1 %   29.93
22             51.3 Mb   10,238,901   1.5 Gb      1.2 %   29.26
X              155.3 Mb  20,421,365   3.0 Gb      2.3 %   19.29
Y              59.4 Mb   3,971,007    582.0 Mb    0.5 %    9.80
MT             16.6 Kb   105,906      15.5 Mb     0.0 %  937.41
Other contigs            28,989,258   4.1 Gb      3.2 %
-----
All contigs              771,860,353  113.3 Gb    88.8%   36.60
Soft clip                             1.2 Gb      0.9 %
Unmapped                 17,071,958   2.4 Gb      1.9 %
Supplementary            1,028,655    52.2 Mb     0.0 %
Duplicate                71,068,615   10.6 Gb     8.3 %
TOTAL                    861,029,581  127.5 Gb    100.0%

Documentation: https://genozip.com/coverage.html

Installing: https://genozip.com/installing.html

Publication: https://www.researchgate.net/publication/349347156_Genozip_-_A_Universal_Extensible_Genomic_Data_Compressor

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Entering edit mode
2.7 years ago
Mansi • 0

Nice tool to get coverage stats: https://github.com/brentp/goleft/tree/master/covstats

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