Coloc: under a single causal variant assumption

Fine mapping under a single causal variant assumption

The Approximate Bayes Factor colocalisation analysis described in the next section essentially works by fine mapping each trait under a single causal variant assumption and then integrating over those two posterior distributions to calculate probabilities that those variants are shared. Of course, this means we can look at each trait on its own quite simply, and we can do that with the function finemap.abf.

First we load some simulated data. See the data vignette to understand how to format your datasets.

library(coloc)
data(coloc_test_data)
attach(coloc_test_data)

Then we analyse the statistics from a single study, asking about the evidence that each SNP in turn is solely causal for any association signal we see. As we might expect, that evidence is maximised at the SNP with the smallest p value

plot_dataset(D1)
my.res <- finemap.abf(dataset=D1)
my.res[21:30,]

The SNP.PP column shows the posterior probability that exactly that SNP is causal. Note the last line in this data.frame does not correspond to a SNP, but to the null model, that no SNP is causal.

tail(my.res,3)

Finally, if you do have full genotype data as here, while this is a fast method for fine mapping, it can be sensible to consider multiple causal variant models too. One package that allows you to do this is GUESSFM, described in5

(Approximate) Bayes Factor colocalisation analyses

Introduction

The idea behind the ABF analysis is that the association of each trait with SNPs in a region may be summarised by a vector of 0s and at most a single 1, with the 1 indicating the causal SNP (so, assuming a single causal SNP for each trait). The posterior probability of each possible configuration can be calculated and so, crucially, can the posterior probabilities that the traits share their configurations. This allows us to estimate the support for the following cases:

The basic coloc.abf function

The function coloc.abf is ideally suited to the case when only summary data are available.

my.res <- coloc.abf(dataset1=D1,
                    dataset2=D2)
print(my.res) 

Note that if you do find strong evidence for H4, we can extract the posterior probabilities for each SNP to be causal conditional on H4 being true. This is part of the calculation required by coloc, and contained in the column SNP.PP.H4 in the "results" element of the returned list. So we can extract the more likely causal variants by

subset(my.res$results,SNP.PP.H4>0.01)

or the 95% credible set by

o <- order(my.res$results$SNP.PP.H4,decreasing=TRUE)
cs <- cumsum(my.res$results$SNP.PP.H4[o])
w <- which(cs > 0.95)[1]
my.res$results[o,][1:w,]$snp


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coloc documentation built on Oct. 3, 2023, 5:07 p.m.