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hJAM is a hierarchical model which unifies the framework of Mendelian Randomization and Transcriptome-wide association studies.
You can install the development version from GitHub with:
if (!require("devtools")) { install.packages("devtools") } else {}
::install_github("lailylajiang/hJAM") devtools
This is a basic example of fitting hJAM model:
library(hJAM)
# Download the data for data example 2 from the package
data(Gl)
data(betas.Gy)
data(marginal_A)
If you don’t have conditional A matrix, you can use
get_cond_A
(if more than one X) or
get_cond_alpha
(if only one X) to convert the marginal
effects to conditional A matrix with the reference panel.
= get_cond_A(marginal_A = marginal_A, Gl = Gl, N.Gx = 339224, ridgeTerm = T)
conditional_A = get_cond_alpha(alphas = marginal_A[, 1], Gl = Gl, N.Gx = 339224, ridgeTerm = T) conditional_alpha
After obtained the conditional A matrix, fit hJAM model with function
hJAM_lnreg
.
# fit the hJAM model
hJAM_lnreg(betas.Gy = betas.Gy, Gl = Gl, N.Gy = 459324, A = conditional_A, ridgeTerm = T)
#> ------------------------------------------------------
#> hJAM output
#> ------------------------------------------------------
#> Number of SNPs used in model: 210
#>
#> Estimate StdErr 95% CI Pvalue
#> bmi 0.322 0.061 (0.202, 0.442) 3.189944e-07
#> t2d 0.119 0.017 (0.085, 0.153) 4.124526e-11
#> ------------------------------------------------------
In the package, you could also implement hJAM with Egger regression,
which is designed to detect the unmeasured pleiotropy effect. The
function for hJAM with Egger regression is hJAM_egger
.
# fit the hJAM model
hJAM_egger(betas.Gy = betas.Gy, Gl = Gl, N.Gy = 459324, A = conditional_A, ridgeTerm = T)
#> ------------------------------------------------------
#> hJAM egger output
#> ------------------------------------------------------
#> Number of SNPs used in model: 210
#>
#> Estimate StdErr 95% CI Pvalue
#> bmi 0.302 0.070 (0.163, 0.44) 2.817908e-05
#> t2d 0.107 0.027 (0.055, 0.16) 8.175202e-05
#>
#> Intercept
#> Est.Int StdErr.Int 95% CI.Int Pvalue.Int
#> [1,] "0.453" "0.787" "(-1.099, 2.005)" "0.565"
#> ------------------------------------------------------
The user could use SNPs_heatmap
and
SNPs_scatter_plot
to display the correlation and pattern of
the SNPs that the user used in the analysis.
= SNPs_scatter_plot(A = conditional_A, betas.Gy = betas.Gy, num_X = 2)
scatter_plot_p scatter_plot_p
= SNPs_heatmap(Gl)
heatmap_p heatmap_p
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.