Contents

1 Initializing RaMWAS parameters

There are several ways to initialize the parameters for calling RaMWAS pipeline functions. The parameters can be stored in an R list like this:

param = ramwasParameters(
    dirproject = ".",
    dirbam = "bams",
    filebamlist = "bam_list.txt",
    filecpgset = "Simulated_chromosome.rds",
    cputhreads = 2,
    scoretag = "MAPQ",
    minscore = 4,
    minfragmentsize = 50,
    maxfragmentsize = 250,
    filecovariates = "covariates.txt",
    modelcovariates = NULL,
    modeloutcome = "age",
    modelPCs = 0,
    toppvthreshold = 1e-5,
    cvnfolds = 10,
    mmalpha = 0,
    mmncpgs = c(5,10,50,100,500,1000,5000,10000)
)

Alternatively, the parameters can be set in a separate R code file, which is processed into a list as above by parametersFromFile function. The R code file can contain lines like this:

### R parameter file
dirbam = "/ramwas_project/bams/"
dirproject = "/ramwas_project/"
filebamlist = "/ramwas_project/000_list_of_files.txt"
scoretag = "AS"
minscore = 100

### platform dependent part
if(.Platform$OS.type == "windows"){
    filecpgset="C:/RaMWAS/CpG_set/cpgset_hg19_SNPS_at_MAF_0.05.rds"
} else {
    filecpgset="/computing_cluster/ramwas/cpgset_hg19_SNPS_at_MAF_0.05.rds"
}

2 Explanation of all parameters

2.1 Parameters pointing to directories

The project directory parameter is dirproject. Files specified by file* parameters are looked for here, unless they have the full path specified. By default dirproject is set to the current directory.

The dirbam directory is the location where RaMWAS expects to find BAM files. If it is not an absolute path, it is considered to be relative to the dirproject.

The dirfilter directory is, by default, the same as dirproject. All files created by RaMWAS are created within this directory. If the user wants to test different read filtering rules, they can set dirfilter to TRUE. This will set it to something like “Filter_MAPQ_4”, there “MAPQ” is the BAM field used for filtering and “4” is the threshold.

The dirrbam parameter is the location where RaMWAS saves RaMWAS raw data files (read start locations) after scanning BAMs. It is “rds_rbam” by default and is located in dirfilter.

The dirrqc parameter is the location where RaMWAS saves QC files in R format after scanning BAMs. It is “rds_qc” by default and is located in dirfilter.

The dirqc parameter is the location where RaMWAS saves QC plots and text files (BAM QC info) after scanning BAMs. It is “qc” by default and is located in dirfilter.

The dircoveragenorm parameter is the sub-directory where RaMWAS saves coverage matrix at Step 3 of the pipeline. It is “coverage_norm_123” by default (123 is the number of samples) and is located in dirfilter.

The dirtemp parameter is the directory where RaMWAS stores temporary files during construction of coverage matrix at Step 3 of the pipeline. It is “temp” by default and is located in dircoveragenorm. For better performance it can be set to a location on a different hard drive than dircoveragenorm.

The dirpca parameter is the sub-directory where RaMWAS saves results of PCA analysis at Step 4 of the pipeline. It is “PCA_12_cvrts_0b0a0c” by default (12 is the number of covariates regressed out and 0b0a0c is a unique code to differentiate different sets of 12 covariates) and is located in dircoveragenorm.

The dirmwas parameter is the sub-directory where RaMWAS saves results of MWAS analysis at Step 5. It is “Testing_age_7_PCs” by default (age is the phenotype being tested and 7 is number of top PCs included in the model) and is located in dirpca.

The dircv parameter is the sub-directory where RaMWAS saves results of Methylation Risk Score analysis at Step 7. It is “CV_10_folds” by default (10 is number of folds in N-fold cross validation) and is located in dirmwas.

2.2 Parameters pointing to files

2.2.1 BAM names

Parameter filebamlist, if defined, must point to a text file with one BAM file name per line. BAM file names can include path, relative to dirbam or absolute.

Such file may looks like this.

batch1/b1sample1.bam
batch1/b1sample2.bam
batch2/b2sample1.bam
batch2/b2sample2.bam
batch2/b2sample3.bam
batch4/sample4.bam

This file is then loaded into bamnames parameter, with “.bam” extension stripped.

Note: BAM file names must be different. For example, the list of BAMS below is NOT allowed, as it contains “sample1.bam” twice:

batch1/sample1.bam
batch1/sample2.bam
batch2/sample1.bam

2.2.2 BAM to sample matching

The filebam2sample parameter lets RaMWAS know the BAM to sample correspondence. It provides information on how BAMs from the same sample are to be combined. Each line in filebam2sample must have information for one sample. If sample1 contains reads from bam1, bam2 and bam3, the line should be

sample1=bam1,bam2,bam3

If the sample name matches the bam name, the line can simply contain that name

sample2

The filebam2sample file is scanned into bam2sample list. The elements of the list are bam names, and their names are sample names. For example:

bam2sample = list(
    sample1 = c("bam1","bam2","bam3"),
    sample2 = "sample2"
)

2.2.3 CpG locations

RaMWAS calculates CpG scores and performs further analyses at a set of CpGs (or locations in general) defined by the user via filecpgset parameter. The filecpgset parameter must point to an .rds file (a file saved using saveRDS function), with the set of locations stored as a list with one sorted vector of CpG locations per chromosome.

cpgset = list( chr1 = c(12L, 57L, 123L),
               chr2 = c(45L, 95L, 99L, 111L),
               chr3 = c(22L, 40L, 199L, 211L) )

In practice, the set should depend on the reference genome and can include CpGs created by common SNPs.

Optionally, parameter filenoncpgset, can point to a file storing vetted locations away from any CpGs.

For more on CpG sets see the CpG set vignette

2.2.4 File with covariates

The parameter filecovariates, if defined, must point to a file containing phenotype information and covariates for the available samples. If the file has extension “.csv”, it is assumed to be comma separated, otherwise - tab separated. It must have a header and the first column must have sample names as defined by bam2sample parameter (see above).

The data in filecovariates is read into the covariates parameter.

2.3 Multithreading

Many parts of RaMWAS are parallelized. The cputhreads parameter determines the maximum number of CPU intensive tasks running in parallel. By default cputhreads is set to the number of CPU cores.

Some tasks are disk intensive. The maximum number of such tasks running in parallel is set by the diskthreads parameter. By default diskthreads value is 2. Higher values can be beneficial on machine with lots of RAM.

On some systems the performance is better if different jobs are prevented from simultaneous access to files. To enforce this for filematrices set usefilelock=TRUE.

2.4 Read filtering

The reads are filtered by scoretag parameter, which is usually the “MAPQ” field or “AS” tag in the BAM file (BAM file format). The minscore parameter defines the minimum admissible score, reads with scores below that are excluded.

If there the are more than maxrepeats read with the same start position, this excess is assumed to be the result of template preparation or amplification artifacts and count is reset to maxrepeaets (it is set to 3 by default).

2.5 Coverage matrix

The CpGs in CpG set defined by filecpgset are filtered based on their coverage.

The file operations in this step can be performed faster if done in large blocks. To set the block size use buffersize parameter. Be default it is set to 1 GB (buffersize = 1e9).

Numerical values take 8 bytes is stored with full precision. The coverage matrix does not need such precision and can safely be stored with 4 bytes per value (single precision). The value size is set by doublesize parameter, which is 4 by default.

2.6 PCA and MWAS

Both PCA and MWAS correct for variation explained by selected covariates set by modelcovariates. The modelcovariates parameter must name variables in filecovariates/covariates.

By default, the tested linear model includes a constant. To exclude it, set modelhasconstant parameter to FALSE.

MWAS tests for association of normalized CpG coverage with modeloutcome, accounting for variation of top modelPCs principal components.

MWAS produces a QQ-plot in dirmwas. The title of the QQ-plot can be changed by the qqplottitle parameter. To exclude the title set qqplottitle="".

Top MWAS results are saved in a text file Top_tests.txt. Parameter toppvthreshold defines p-value threshold for selection of top results. Alternatively, it can define the number of top results, if it is set to a value larger than 1.

2.7 Annotation of top findings

The annotation is done using biomaRt. package.

The parameters include:

Here is an example on how to select a custom biomart annotation track:

library(biomaRt)
library(ramwas)

# First pick a host.
bihost = "grch37.ensembl.org"

# First we list databases
listOfMarts = listMarts(host = bihost)
pander(head(listOfMarts, 10))

# Pick a database
bimart = "ENSEMBL_MART_ENSEMBL"

# Connect to the database
mart = useMart(biomart = bimart, host = bihost)

# List the data sets in the database
listOfDatasets = listDatasets(mart = mart)
pander(head(listOfDatasets, 10))

# Pisk a data set
bidataset = "hsapiens_gene_ensembl"

# Connect to the data set
mart = useMart(biomart = bimart, dataset = bidataset, host = bihost)

# List the attributes
listOfAttributes = listAttributes(mart)
pander(head(listOfAttributes, 10))

# Pick attributes
biattributes = c("hgnc_symbol", "entrezgene", "strand")

listOfFilters = listFilters(mart)
pander(head(listOfFilters, 20))

# Pick a filter
bifilters = list(with_hgnc_trans_name=TRUE)

# Test a location
chr = "chr1"
pos =  15975530
param = ramwasParameters(
    bihost = bihost,
    bimart = bimart,
    bidataset = bidataset,
    biattributes = biattributes,
    bifilters = bifilters,
    biflank = 0);

anno = ramwasAnnotateLocations(param, chr, pos);
pander(anno)

2.8 Methylation risk score

RaMWAS predicts the outcome variable (modeloutcomes parameter) using top mmncpgs CpGs from the MWAS. This prediction is done for each fold in k-fold cross validation and the prediction performance is measured via correlations and (for binary outcomes) ROC curves.

To run the procedure for multiple number of top CpGs, The parameter mmncpgs can be set to a vector of multiple values.

The elastic net mixing parameter alpha can be set via mmalpha parameter. The number of folds cvnfolds in the K-fold cross validation is 10 by default.

The split into folds is random. The random seed can be set with the randseed parameter, which is set to 18090212 by default for consistency across runs.

2.9 Joint analysis with genotype data

The joint analysis of methylation and genotype data is described in the corresponding vignette.

The SNP data must be stored in a filematrix with dimensions matching the CpG score matrix. Its name must be defined by fileSNPs parameter, with absolute path or relative to dircoveragenorm.

The results of the joint analysis are stored in dirSNPs directory. By default, the directory is created within dircoveragenorm directory.