ANGSD: Analysis of next generation Sequencing Data
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Fst PCA: Difference between revisions
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</pre> | </pre> | ||
= | == 3 Populations simulated data== | ||
= | <pre> | ||
msms -ms 44 10 -t 930 -r 400 -I 3 12 14 18 -n 1 1.682020 -n 2 3.736830 -n 3 7.292050 -eg 0 2 116.010723 -eg 0 3 160.246047 -ma x 0.881098 0.561966 0.881098 x 2.797460 0.561966 2.797460 x -ej 0.028985 3 2 -en 0.028985 2 0.287184 -ema 0.028985 3 x 7.293140 x 7.293140 x x x x x -ej 0.197963 2 1 -en 0.303501 1 1 >msoutput.txt | |||
../misc/msToGlf -in msoutput.txt -out raw -singleOut 1 -regLen 0 -depth 8 -err 0.005 | |||
../misc/splitgl raw.glf.gz 22 1 6 >pop1.glf.gz | |||
../misc/splitgl raw.glf.gz 22 7 13 >pop2.glf.gz | |||
../misc/splitgl raw.glf.gz 22 14 22 >pop3.glf.gz | |||
echo \"1 250000000\" >fai.fai | |||
../angsd -glf pop1.glf.gz -nind 6 -doSaf 1 -out pop1 -fai fai.fai -issim 1 | |||
../angsd -glf pop2.glf.gz -nind 7 -doSaf 1 -out pop2 -fai fai.fai -issim 1 | |||
../angsd -glf pop3.glf.gz -nind 9 -doSaf 1 -out pop3 -fai fai.fai -issim 1 | |||
../misc/realSFS pop1.saf.idx >pop1.saf.idx.ml | |||
../misc/realSFS pop2.saf.idx >pop2.saf.idx.ml | |||
../misc/realSFS pop3.saf.idx >pop3.saf.idx.ml | |||
../misc/realSFS pop1.saf.idx pop2.saf.idx -p 20 >pop1.pop2.saf.idx.ml | |||
../misc/realSFS pop1.saf.idx pop3.saf.idx -p 20 >pop1.pop3.saf.idx.ml | |||
../misc/realSFS pop2.saf.idx pop3.saf.idx -p 20 >pop2.pop3.saf.idx.ml | |||
../misc/realSFS fst index pop1.saf.idx pop2.saf.idx -fstout pop1.pop2 -sfs pop1.pop2.saf.idx.ml | |||
../misc/realSFS fst index pop1.saf.idx pop3.saf.idx -fstout pop1.pop3 -sfs pop1.pop3.saf.idx.ml | |||
../misc/realSFS fst index pop2.saf.idx pop3.saf.idx -fstout pop2.pop3 -sfs pop2.pop3.saf.idx.ml | |||
../misc/realSFS fst index pop1.saf.idx pop2.saf.idx pop3.saf.idx -fstout pop1.pop2.pop3 -sfs pop1.pop2.saf.idx.ml -sfs pop1.pop3.saf.idx.ml -sfs pop2.pop3.saf.idx.ml | |||
../misc/realSFS fst stats pop1.pop2.fst.idx | |||
../misc/realSFS fst stats pop1.pop3.fst.idx | |||
../misc/realSFS fst stats pop2.pop3.fst.idx | |||
../misc/realSFS fst stats pop1.pop2.pop3.fst.idx | |||
</pre> | |||
Which gives the following output | |||
<pre> | |||
$ ../misc/realSFS fst stats pop1.pop2.fst.idx | |||
-> You are printing the optimized SFS to the terminal consider dumping into a file | |||
-> E.g.: './realSFS fst stats pop1.pop2.fst.idx >sfs.ml.txt' | |||
-> Assuming idxname:pop1.pop2.fst.idx | |||
-> Assuming .fst.gz file: pop1.pop2.fst.gz | |||
-> FST.Unweight[nObs:51085]:0.114638 Fst.Weight:0.186980 | |||
$ ../misc/realSFS fst stats pop1.pop3.fst.idx | |||
-> You are printing the optimized SFS to the terminal consider dumping into a file | |||
-> E.g.: './realSFS fst stats pop1.pop3.fst.idx >sfs.ml.txt' | |||
-> Assuming idxname:pop1.pop3.fst.idx | |||
-> Assuming .fst.gz file: pop1.pop3.fst.gz | |||
-> FST.Unweight[nObs:51085]:0.121007 Fst.Weight:0.192111 | |||
$ ../misc/realSFS fst stats pop2.pop3.fst.idx | |||
-> You are printing the optimized SFS to the terminal consider dumping into a file | |||
-> E.g.: './realSFS fst stats pop2.pop3.fst.idx >sfs.ml.txt' | |||
-> Assuming idxname:pop2.pop3.fst.idx | |||
-> Assuming .fst.gz file: pop2.pop3.fst.gz | |||
-> FST.Unweight[nObs:51085]:0.069462 Fst.Weight:0.125002 | |||
$ ../misc/realSFS fst stats pop1.pop2.pop3.fst.idx | |||
-> You are printing the optimized SFS to the terminal consider dumping into a file | |||
-> E.g.: './realSFS fst stats pop1.pop2.pop3.fst.idx >sfs.ml.txt' | |||
-> Assuming idxname:pop1.pop2.pop3.fst.idx | |||
-> Assuming .fst.gz file: pop1.pop2.pop3.fst.gz | |||
-> FST.Unweight[nObs:51085]:0.114638 Fst.Weight:0.186980 | |||
-> FST.Unweight[nObs:51085]:0.121007 Fst.Weight:0.192111 | |||
-> FST.Unweight[nObs:51085]:0.069462 Fst.Weight:0.125002 | |||
</pre> | |||
=New Fancy Method (sim data)= | =New Fancy Method (sim data)= | ||
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= | |||
=Old nice version= | |||
==Fst== | |||
# Generate .saf files from each population using ANGSD [[SFS Estimation]] | |||
## using a 2D-SFS as a prior, estimated using ngs2dSFS | |||
## using marginal spectra as priors, estimated using '''realSFS''' | |||
==PCA== | |||
More information here: | |||
https://github.com/mfumagalli/ngsTools#ngscovar | |||
=cite= | |||
If you use these methods, you should cite the m. fumagalli paper http://www.ncbi.nlm.nih.gov/pubmed/23979584 |
Revision as of 16:13, 17 June 2015
Matteo Fumagalli has been working on methods to estimate Fst and doing PCA/Covariance based on ANGSD output files.
The main documentation for this is found here: https://github.com/mfumagalli/ngsTools
We are also working on a new implementation that generalizes the above approach to multiple populations.
new fancy version
Two Populations real data
#this is with 2pops ../angsd -b list1 -anc hg19ancNoChr.fa -out pop1 -dosaf 1 -gl 1 ../angsd -b list2 -anc hg19ancNoChr.fa -out pop1 -dosaf 1 -gl 1 ../misc/realSFS pop1.saf.idx pop2.saf.idx >pop1.pop2.ml ../misc/realSFS fst index pop1.saf.idx pop2.saf.idx -sfs pop1.pop2.ml -fstout here ../misc/realSFS fst stats here.fst.idx -> FST.Unweight:0.069395 Fst.Weight:0.042349
3 Populations simulated data
msms -ms 44 10 -t 930 -r 400 -I 3 12 14 18 -n 1 1.682020 -n 2 3.736830 -n 3 7.292050 -eg 0 2 116.010723 -eg 0 3 160.246047 -ma x 0.881098 0.561966 0.881098 x 2.797460 0.561966 2.797460 x -ej 0.028985 3 2 -en 0.028985 2 0.287184 -ema 0.028985 3 x 7.293140 x 7.293140 x x x x x -ej 0.197963 2 1 -en 0.303501 1 1 >msoutput.txt ../misc/msToGlf -in msoutput.txt -out raw -singleOut 1 -regLen 0 -depth 8 -err 0.005 ../misc/splitgl raw.glf.gz 22 1 6 >pop1.glf.gz ../misc/splitgl raw.glf.gz 22 7 13 >pop2.glf.gz ../misc/splitgl raw.glf.gz 22 14 22 >pop3.glf.gz echo \"1 250000000\" >fai.fai ../angsd -glf pop1.glf.gz -nind 6 -doSaf 1 -out pop1 -fai fai.fai -issim 1 ../angsd -glf pop2.glf.gz -nind 7 -doSaf 1 -out pop2 -fai fai.fai -issim 1 ../angsd -glf pop3.glf.gz -nind 9 -doSaf 1 -out pop3 -fai fai.fai -issim 1 ../misc/realSFS pop1.saf.idx >pop1.saf.idx.ml ../misc/realSFS pop2.saf.idx >pop2.saf.idx.ml ../misc/realSFS pop3.saf.idx >pop3.saf.idx.ml ../misc/realSFS pop1.saf.idx pop2.saf.idx -p 20 >pop1.pop2.saf.idx.ml ../misc/realSFS pop1.saf.idx pop3.saf.idx -p 20 >pop1.pop3.saf.idx.ml ../misc/realSFS pop2.saf.idx pop3.saf.idx -p 20 >pop2.pop3.saf.idx.ml ../misc/realSFS fst index pop1.saf.idx pop2.saf.idx -fstout pop1.pop2 -sfs pop1.pop2.saf.idx.ml ../misc/realSFS fst index pop1.saf.idx pop3.saf.idx -fstout pop1.pop3 -sfs pop1.pop3.saf.idx.ml ../misc/realSFS fst index pop2.saf.idx pop3.saf.idx -fstout pop2.pop3 -sfs pop2.pop3.saf.idx.ml ../misc/realSFS fst index pop1.saf.idx pop2.saf.idx pop3.saf.idx -fstout pop1.pop2.pop3 -sfs pop1.pop2.saf.idx.ml -sfs pop1.pop3.saf.idx.ml -sfs pop2.pop3.saf.idx.ml ../misc/realSFS fst stats pop1.pop2.fst.idx ../misc/realSFS fst stats pop1.pop3.fst.idx ../misc/realSFS fst stats pop2.pop3.fst.idx ../misc/realSFS fst stats pop1.pop2.pop3.fst.idx
Which gives the following output
$ ../misc/realSFS fst stats pop1.pop2.fst.idx -> You are printing the optimized SFS to the terminal consider dumping into a file -> E.g.: './realSFS fst stats pop1.pop2.fst.idx >sfs.ml.txt' -> Assuming idxname:pop1.pop2.fst.idx -> Assuming .fst.gz file: pop1.pop2.fst.gz -> FST.Unweight[nObs:51085]:0.114638 Fst.Weight:0.186980 $ ../misc/realSFS fst stats pop1.pop3.fst.idx -> You are printing the optimized SFS to the terminal consider dumping into a file -> E.g.: './realSFS fst stats pop1.pop3.fst.idx >sfs.ml.txt' -> Assuming idxname:pop1.pop3.fst.idx -> Assuming .fst.gz file: pop1.pop3.fst.gz -> FST.Unweight[nObs:51085]:0.121007 Fst.Weight:0.192111 $ ../misc/realSFS fst stats pop2.pop3.fst.idx -> You are printing the optimized SFS to the terminal consider dumping into a file -> E.g.: './realSFS fst stats pop2.pop3.fst.idx >sfs.ml.txt' -> Assuming idxname:pop2.pop3.fst.idx -> Assuming .fst.gz file: pop2.pop3.fst.gz -> FST.Unweight[nObs:51085]:0.069462 Fst.Weight:0.125002 $ ../misc/realSFS fst stats pop1.pop2.pop3.fst.idx -> You are printing the optimized SFS to the terminal consider dumping into a file -> E.g.: './realSFS fst stats pop1.pop2.pop3.fst.idx >sfs.ml.txt' -> Assuming idxname:pop1.pop2.pop3.fst.idx -> Assuming .fst.gz file: pop1.pop2.pop3.fst.gz -> FST.Unweight[nObs:51085]:0.114638 Fst.Weight:0.186980 -> FST.Unweight[nObs:51085]:0.121007 Fst.Weight:0.192111 -> FST.Unweight[nObs:51085]:0.069462 Fst.Weight:0.125002
New Fancy Method (sim data)
nRep <- 100 nPop1 <- 24 nPop2 <- 16 cmd <- paste("msms -ms",nPop1+nPop2,nRep,"-t 930 -r 400 -I 2",nPop1,nPop2,"0 -g 1 9.70406 -n 1 2 -n 2 1 -ma x 0.0 0.0 x -ej 0.07142857 2 1 >msoutput.txt ",sep=" ") system(cmd) ##system("msms -ms 40 1 -t 930 -r 400 -I 2 20 20 0 -g 1 9.70406 -n 1 2 -n 2 1 -ma x 0.0 0.0 x -ej 0.07142857 2 1 >msoutput.txt ") source("../R/readms.output.R") to2dSFS <- function(p1.d,p2.d,nPop1,nPop2) sapply(0:nPop1,function(x) table(factor(p2.d[p1.d==x],levels=0:nPop2))) source("../R/readms.output.R") a<- read.ms.output(file="msoutput.txt") p1.d <- unlist((sapply(a$gam,function(x) colSums(x[1:nPop1,])))) p2.d <- unlist((sapply(a$gam,function(x) colSums(x[-c(1:nPop1),])))) par(mfrow=c(1,2)) barplot(table(p1.d)) barplot(table(p2.d)) sfs.2d <- t(sapply(0:nPop1,function(x) table(factor(p2.d[p1.d==x],levels=0:nPop2)))) system("../misc/msToGlf -in msoutput.txt -out raw -singleOut 1 -regLen 0 -depth 8 -err 0.005") system("../misc/splitgl raw.glf.gz 20 1 12 >pop1.glf.gz") system("../misc/splitgl raw.glf.gz 20 13 20 >pop2.glf.gz") system("echo \"1 250000000\" >fai.fai") system("../angsd -glf pop1.glf.gz -nind 12 -doSaf 1 -out pop1 -fai fai.fai -issim 1") system("../angsd -glf pop2.glf.gz -nind 8 -doSaf 1 -out pop2 -fai fai.fai -issim 1") system("../misc/realSFS pop1.saf.idx >pop1.saf.idx.ml") system("../misc/realSFS pop2.saf.idx >pop2.saf.idx.ml") system("../misc/realSFS pop1.saf.idx pop2.saf.idx -maxIter 500 -p 20 >pop1.pop2.saf.idx.ml") getFst<-function(est){ N1<-nrow(est)-1 N2<-ncol(est)-1 cat("N1: ",N1 ," N2: ",N2,"\n") est0<-est est0[1,1]<-0 est0[N1+1,N2+1]<-0 est0<-est0/sum(est0) aMat<<-matrix(NA,nrow=N1+1,ncol=N2+1) baMat<<-matrix(NA,nrow=N1+1,ncol=N2+1) for(a1 in 0:(N1)) for(a2 in 0:(N2)){ p1 <- a1/N1 p2 <- a2/N2 q1 <- 1 - p1 q2 <- 1 - p2 alpha1 <- 1 - (p1^2 + q1^2) alpha2 <- 1 - (p2^2 + q2^2) al <- 1/2 * ( (p1-p2)^2 + (q1-q2)^2) - (N1+N2) * (N1*alpha1 + N2*alpha2) / (4*N1*N2*(N1+N2-1)) bal <- 1/2 * ( (p1-p2)^2 + (q1-q2)^2) + (4*N1*N2-N1-N2)*(N1*alpha1 + N2*alpha2) / (4*N1*N2*(N1+N2-1)) aMat[a1+1,a2+1]<<-al baMat[a1+1,a2+1]<<-bal ## print(signif(c(a1=a1,a2=a2,p1=p1,p2=p2,al1=alpha1,al2=alpha2,al),2)) } ## unweighted average of single-locus ratio estimators fstU <- sum(est0*(aMat/baMat),na.rm=T) ## weighted average of single-locus ratio estimators fstW <- sum(est0*aMat,na.rm=T)/sum(est0*baMat,na.rm=T) c(fstW=fstW,fstU=fstU) } > getFst(sfs.2d) N1: 24 N2: 16 fstW fstU 0.11945801 0.08249571 est <- matrix(as.integer(scan("pop1.pop2.saf.idx.ml")),byrow=T,ncol=nPop2+1) > getFst(est) N1: 24 N2: 16 fstW fstU 0.11925903 0.08241461 cmd<"fst index pop1.saf.idx pop2.saf.idx -sfs pop1.pop2.saf.idx.ml -fstout testing" system(cmd) ##view the per site 'alpha' 'beta' if you want cmd<-"../misc/realSFS fst print testing.fst.idx |head" ##use fancy new emperical bayes cmd<- "../misc/realSFS fst stats testing.fst.idx " system(cmd) -> FST.Unweight:0.083316 Fst.Weight:0.119372
Old nice version
Fst
- Generate .saf files from each population using ANGSD SFS Estimation
- using a 2D-SFS as a prior, estimated using ngs2dSFS
- using marginal spectra as priors, estimated using realSFS
PCA
More information here: https://github.com/mfumagalli/ngsTools#ngscovar
cite
If you use these methods, you should cite the m. fumagalli paper http://www.ncbi.nlm.nih.gov/pubmed/23979584