ANGSD: Analysis of next generation Sequencing Data
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2d SFS Estimation: Difference between revisions
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Angsd can estimate a 2d site frequency spectrum. This is an extension of the 1d site frequency spectrum [[SFS Estimation|method]]. | Angsd can estimate a 2d site frequency spectrum. This is an extension of the 1d site frequency spectrum [[SFS Estimation|method]]. Never versions of ANGSD can estimate even higher dimensions (upto 4) | ||
And is best explained by a full example. | And is best explained by a full example. | ||
Revision as of 13:34, 11 May 2015
Angsd can estimate a 2d site frequency spectrum. This is an extension of the 1d site frequency spectrum method. Never versions of ANGSD can estimate even higher dimensions (upto 4)
And is best explained by a full example.
Example
- Assume you have a 12 bamfiles for population in the file pop1.list
- Assume you have a 14 bamfiles for population in the file pop2.list
- Assume you have a fastafile containing the ancestral state in the anc.fa
- Assume we are only interested in chr1
Let's start by finding the positions for which we have data in population1 and population2
# as always you can add -minMapQ 1 and -minQ 20 to only keep high quality data. angsd -GL 1 -b pop1.list -anc anc.fa -r chr1: -P 10 -out pop1 -doSaf 1 angsd -GL 1 -b pop2.list -anc anc.fa -r chr1: -P 10 -out pop2 -doSaf 1
Each run will generate 2 files of interest: pop1.saf,pop1.saf.pos and pop2.saf,pop2.saf.pos
If we were interested in estimating the 1d sfs for each population we could do it like this using the realSFS program. (See more on page )
realSFS pop1.saf 24 -P 24 >pop1.saf.sfs realSFS pop2.saf 28 -P 24 >pop2.saf.sfs #first argument is saf file, second argument is the number of chromosomes, -P 24 is the number of cores we want to use
Now we find the positions that occurs both in population1 and population2 using the uniq POSIX program.
gunzip -c pop1.saf.pos.gz pop2.saf.pos.gz|sort -S 50%|uniq -d|sort -k1,1 -S 50% >intersect.txt
And now we redo the angsd sample allelefrequence calculation by conditioning on the sites that occur in both populations
# as always you can add -minMapQ 1 and -minQ 20 to only keep high quality data. angsd -GL 1 -b pop1.list -anc anc.fa -r chr1: -P 10 -out pop1 -sites intersect.txt -doSaf 1 angsd -GL 1 -b pop2.list -anc anc.fa -r chr1: -P 10 -out pop2 -sites intersect.txt -doSaf 1
Notice that the last 2 commands will overwrite the: pop1.saf,pop1.saf.pos and pop2.saf,pop2.saf.pos files.
And we now estimate the joint site frequency spectra by using the realSFS program
realSFS 2dsfs pop1.saf pop2.saf 24 28 -P 24 >2dsfs.sfs
The output is then located in a nice matrix format(25x29) in the file: 2dsfs.sfs. Good luck visualising it, some people are using dadi, we have been using heat maps in R.