README.md
In CreRecombinase/RColumbo: R Package to accompany the Columbo method
RColumbo
Installing RColumbo (without root privelages) (on RCC)
0. Load required modules and edit .bash_profile
module load cmake
module load R
Add this line to the end of ~/.bash_profile:
export LD_LIBRARY_PATH=$HOME/lib:$LD_LIBRARY_PATH
then run
source ~/.bash_profile
1. Download and install HDF5
The HDF5 module on RCC does not support C++
tar -xzf hdf5-1.10.0-patch1.tar.gz
cd hdf5-1.10.0-patch1
./configure --prefix=$HOME --enable-cxx --enable-build-mode=production
make install
2. Download blosc
git clone https://github.com/Blosc/c-blosc
cd c-blosc
mkdir build
cd build
cmake -DCMAKE_INSTALL_PREFIX=$HOME ..
make
make install
3. Install RColumbo
from within R
#Install devools if necessary
install.packages(devtools)
library(devtools)
#Install rhdf5 if necessary
source("https://bioconductor.org/biocLite.R")
biocLite("rhdf5")
devtools::install_github("CreRecombinase/h5")
devtools::install_github("CreRecombinase/RColumbo",ref="release")
library(RColumbo)
4. Read compressed HDF5 files really fast
The eQTL results are stored as dataframes in HDF5 (.h5) files. There is one file for each chromosome. Each h5 file
has a cis_eQTL dataframe and a trans_eQTL dataframe. The dataframes can be read using RColumbo's read_h5_df function:
library(RColumbo)
eqtl_file <- "/project/xinhe/eQTL/WB_Chr2_v6p_ortho_flip.h5"
cis_eqtl_df <- read_h5_df(eqtl_file,groupname="cis_eQTL")
trans_eqtl_df <- read_h5_df(eqtl_file,groupname="trans_eQTL")
The columns of these dataframes are as follows
chrom: chromosome
fgeneid: a gene identifier (it's a basically the ensembl gene ID)
pos: chromosome coordinate as given by GTEx
theta:estimated eQTL regression coefficient (no intercept)
* serr: standard error of eQTL regression coefficient
CreRecombinase/RColumbo documentation built on May 6, 2019, 12:52 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
RColumbo
Installing RColumbo (without root privelages) (on RCC)
0. Load required modules and edit .bash_profile
module load cmake
module load R
Add this line to the end of ~/.bash_profile:
export LD_LIBRARY_PATH=$HOME/lib:$LD_LIBRARY_PATH
then run
source ~/.bash_profile
1. Download and install HDF5
The HDF5 module on RCC does not support C++
tar -xzf hdf5-1.10.0-patch1.tar.gz
cd hdf5-1.10.0-patch1
./configure --prefix=$HOME --enable-cxx --enable-build-mode=production
make install
2. Download blosc
git clone https://github.com/Blosc/c-blosc
cd c-blosc
mkdir build
cd build
cmake -DCMAKE_INSTALL_PREFIX=$HOME ..
make
make install
3. Install RColumbo
from within R
#Install devools if necessary
install.packages(devtools)
library(devtools)
#Install rhdf5 if necessary
source("https://bioconductor.org/biocLite.R")
biocLite("rhdf5")
devtools::install_github("CreRecombinase/h5")
devtools::install_github("CreRecombinase/RColumbo",ref="release")
library(RColumbo)
4. Read compressed HDF5 files really fast
The eQTL results are stored as dataframes in HDF5 (.h5) files. There is one file for each chromosome. Each h5 file
has a cis_eQTL dataframe and a trans_eQTL dataframe. The dataframes can be read using RColumbo's read_h5_df function:
library(RColumbo)
eqtl_file <- "/project/xinhe/eQTL/WB_Chr2_v6p_ortho_flip.h5"
cis_eqtl_df <- read_h5_df(eqtl_file,groupname="cis_eQTL")
trans_eqtl_df <- read_h5_df(eqtl_file,groupname="trans_eQTL")
The columns of these dataframes are as follows
chrom: chromosome
fgeneid: a gene identifier (it's a basically the ensembl gene ID)
pos: chromosome coordinate as given by GTEx
theta:estimated eQTL regression coefficient (no intercept)
* serr: standard error of eQTL regression coefficient
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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