LDpred 1.0.2

A Python package that adjusts GWAS summary statistics for the effects of linkage disequilibrium (LD)

# LDpred #

LDpred is a Python based software package that adjusts GWAS summary statistics for the effects of linkage disequilibrium (LD). The details of the method is described in Vilhjalmsson et al. (AJHG 2015) [http://www.cell.com/ajhg/abstract/S0002-9297(15)00365-1]

• The current version is 1.0.2

## Getting Started ## ### News ### Mar 9th, 2019: Version 1.0.2 released.

Mar 1st, 2019: Version 1.0 is finally available on pip using

pip install ldpred

Feb 28th, 2019: Added a wiki with Q and A. Please add questions (and answers) https://github.com/bvilhjal/ldpred/wiki/LDpred-Wiki

### Requirements ### LDpred currently requires three Python packages to be installed and in path. These are h5py [http://www.h5py.org/](http://www.h5py.org/), scipy [http://www.scipy.org/](http://www.scipy.org/) and libplinkio [https://github.com/mfranberg/libplinkio](https://github.com/mfranberg/libplinkio). Lastly, LDpred has currently only been tested with Python 3.6+.

The first two packages h5py and scipy are commonly used Python packages, and pre-installed on many computer systems. The last libplinkio package can be installed using pip (https://pip.pypa.io/en/latest/quickstart.html), which is also pre-installed on many systems.

With pip, one can install libplinkio using the following command:

pip install plinkio

or if you need to install it locally you can try

pip install –user plinkio

With these three packages in place, you should be all set to install and use LDpred.

### Installing LDpred ###

As with most Python packages, configurating LDpred is simple. You can use pip to install it by typing

pip install ldpred

This should automatically take care of dependencies.

Alternatively you can use git (which is installed on most systems) and clone this repository using the following git command:

git clone https://github.com/bvilhjal/ldpred.git

Finally, you can also download the source files and place them somewhere.

With the Python source code in place and the three packages h5py, scipy, and libplinkio installed, then you should be ready to use LDpred.

### How to run tests ### A couple of simulated data examples can be found in the test_data directory. These datasets were simulated using two different values of p (fraction of causal markers) and with heritability set to 0.1. The sample size used when simulating the summary statistics is 10,000.

### Code Contributions ### I encourage users to extend the code, and adapt it too their needs. Currently there are no formal guidelines set for contributions, and pull requests will be reviewed on a case by case basis.

### Who do I talk to? ### If you have any questions or trouble getting the method to work, try first to look at issues, to see if it is reported there. Also, you can check if some of the cloned LDpred repos have addressed your issue.

In emergencies, please contact Bjarni Vilhjalmsson (bjarni.vilhjalmsson@gmail.com), but expect slow replies.

## Using LDpred ## A typical LDpred workflow consists of 3 steps:

### Step 1: Coordinate data ### The first step is a data synchronization step, where two or three data sets, genotypes and summary statistics are synchronized. This generates a HDF5 file which contains the synchronized genotypes. This step can be done by running

python LDpred.py coord

use –help for detailed options. This step requires at least one genotype file (the LD reference genotypes), where we recommend at least 1000 unrelated individuals with the same ancestry make-up as the individuals for which summary statistics datasets are obtained from. Another genotype file can also be given if the user intends to validate the predictions using a separate set of genotypes.

### Step 2: Generate LDpred SNP weights ### After generating the coordinated data file then the one can apply LDpred and run it on the synchronized dataset. This step can be done by running

python LDpred.py gibbs

use –help for detailed options. This step generates two files, a LD file with LD information for the given LD radius, and the re-weighted effect estimates. The LD file enables the user to not have to generate the LD file again when trying, e.g., different values of p (the fraction of causal variants). However, it is re-generated if a different LD radius is given. The other file that LDpred generates contains the LDpred-adjusted effect estimates.

### Step 3: Generating individual risk scores ### Individual risk scores can be generated using the following command

python LDpred.py score

use –help for detailed options. It calculates polygenic risk scores for the individuals in the validation data if given, otherwise it treats the LD reference genotypes as validation genotypes. A phenotype file can be provided, covariate file, as well as plink-formatted principal components file.

### Additional methods: LD-pruning + Thresholding ### In addition to the LDpred gibbs sampler and infinitesimal model methods, the package also implements LD-pruning + Thresholding as an alternative method. You can run this using the following command

python LDpred.py p+t

This method often yields better predictions than LDpred when the LD reference panel is small, or when the training data is very large (due to problems with gibbs sampler convergence).

### Acknowledges ### Thanks to all who provided bug reports and contributed code.