Experiment (Count)

../_images/MPRAsnakeflow_experiment_overview.png

Input files

Experiment File

Comma separated file (CSV) that assigns all fastq files present in a directory to a condidtion and replicate. Each line represents an experiment, which will all be processed in parallel

Condition,Replicate,DNA_BC_F,DNA_UMI,DNA_BC_R,RNA_BC_F,RNA_UMI,RNA_BC_R
Condidtion1,1,C1R1_DNA_barcode_F.fastq.gz,C1R1_DNA_barcode_UMI.fastq.gz,C1R1_DNA_barcode_R.fastq.gz,C1R1_RNA_barcode_F.fastq.gz,C1R1_RNA_barcode_UMI.fastq.gz,C1R1_RNA_barcode_R.fastq.gz
Condidtion1,2,C1R2_DNA_barcode_F.fastq.gz,C1R2_DNA_barcode_UMI.fastq.gz,C1R2_DNA_barcode_R.fastq.gz,C1R2_RNA_barcode_F.fastq.gz,C1R2_RNA_barcode_UMI.fastq.gz,C1R2_RNA_barcode_R.fastq.gz
Condidtion1,3,C1R3_DNA_barcode_F.fastq.gz,C1R3_DNA_barcode_UMI.fastq.gz,C1R3_DNA_barcode_R.fastq.gz,C1R3_RNA_barcode_F.fastq.gz,C1R3_RNA_barcode_UMI.fastq.gz,C1R3_RNA_barcode_R.fastq.gz
Condidtion2,1,C2R1_DNA_barcode_F.fastq.gz,C2R1_DNA_barcode_UMI.fastq.gz,C2R1_DNA_barcode_R.fastq.gz,C2R1_RNA_barcode_F.fastq.gz,C2R1_RNA_barcode_UMI.fastq.gz,C2R1_RNA_barcode_R.fastq.gz
Condidtion2,2,C2R2_DNA_barcode_F.fastq.gz,C2R2_DNA_barcode_UMI.fastq.gz,C2R2_DNA_barcode_R.fastq.gz,C2R2_RNA_barcode_F.fastq.gz,C2R2_RNA_barcode_UMI.fastq.gz,C2R2_RNA_barcode_R.fastq.gz
Condidtion2,3,C2R3_DNA_barcode_F.fastq.gz,C2R3_DNA_barcode_UMI.fastq.gz,C2R3_DNA_barcode_R.fastq.gz,C2R3_RNA_barcode_F.fastq.gz,C2R3_RNA_barcode_UMI.fastq.gz,C2R3_RNA_barcode_R.fastq.gz
We allow different flavours of experiment files because sometimes no UMI exists or only a FW read is used. Different options are:

  • Condition,Replicate,DNA_BC_F,DNA_UMI,DNA_BC_R,RNA_BC_F,RNA_UMI,RNA_BC_R

  • Condition,Replicate,DNA_BC_F,DNA_BC_R,RNA_BC_F,RNA_BC_R

  • Condition,Replicate,DNA_BC_F,RNA_BC_F

It is possible to use only one count experiment per condition across replicates (DNA or RNA, but usually only DNA can make sense). E.g. if you expect the same number of inserts/transfections across replicates. If you use the same files for DNA or RNA MPRAsnakeflow will only run the first replicate and use the counts for all replicates later.

Assignment File or configuration

Tab separated gzipped file with barcode mapped to sequence. Can be generated using the Assignment workflow. Config file must be configured similar to this:

example_assignment:
    type: file
    value: /path/to/your/file.tsv.gz

Example assignment file:

ATGCGT  CRS1
GTCGA   CRS2
CCGTT   CRS3
CCCCT   CRS4

Another option would be referring to an assignment defined in a config file.

example_assignment:
    type: config
    value: example_config

Label File (Optional)

Tab separated file (TSV) of desired labels for each tested sequence

Example file:

CRS1  Positive_Control
CRS2  Negative_Control
CRS3  Test
CRS4  Positive_Control

Note

If you provide a label file, the first column of the label file must exactly match the FASTA file or the files will not merge properly in the pipeline.

snakemake

Options

With --help or -h you can see the help message.

Mandatory arguments:
--cores:

Use at most N CPU cores/jobs in parallel. If N is omitted or ‘all’, the limit is set to the number of available CPU cores. In case of cluster/cloud execution, this argument sets the number of total cores used over all jobs (made available to rules via workflow.cores).(default: None)

--configfile:

Specify or overwrite the config file of the workflow (see the docs). Values specified in JSON or YAML format are available in the global config dictionary inside the workflow. Multiple files overwrite each other in the given order. Thereby missing keys in previous config files are extended by following configfiles. Note that this order also includes a config file defined in the workflow definition itself (which will come first). (default: None)

--sdm:

Required to run MPRAsnakeflow. : --sdm conda or --sdm apptainer conda Uses the defined conda environment per rule. We highly recommend to use apptainer where we build a predefined docker container with all software installewd within it. --sdm conda the conda envs will be installed by the first excecution of the workflow. If this flag is not set, the conda/apptainer directive is ignored. (default: False)

Recommended arguments:
--snakefile:

You should not need to specify this. By default, Snakemake will search for ‘Snakefile’, ‘snakefile’, ‘workflow/Snakefile’,’workflow/snakefile’ beneath the current working directory, in this order. Only if you definitely want a different layout, you need to use this parameter. This is very usefull when you want to have the results in a different folder than MPRAsnakeflow is in. (default: None)

Usefull arguments:
-n:

Do not execute anything, and display what would be done. If you have a very large workflow, use –dry-run –quiet to just print a summary of the DAG of jobs. (default: False)

--touch, -t:

Touch output files (mark them up to date without really changing them) instead of running their commands. This is used to pretend that the rules were executed, in order to fool future invocations of snakemake. Fails if a file does not yet exist. Note that this will only touch files that would otherwise be recreated by Snakemake (e.g. because their input files are newer). For enforcing a touch, combine this with –force, –forceall, or –forcerun. Note however that you loose the provenance information when the files have been created in realitiy. Hence, this should be used only as a last resort. (default: False)

Rules

Rules run by snakemake in the experiment workflow. Some rules will be run only if certain options

experiment_assigned_counts_assignBarcodes

Assign RNA and DNA barcodes seperately to make the statistic for assigned

experiment_assigned_counts_combine_replicates

Combine replicates of master table by summing counts up and using also the average.

experiment_assigned_counts_combine_replicates_barcode_output

Combine replictes of assigned barcode counts into one file.”””

experiment_counts_umi_create_BAM

Create a BAM file from FASTQ input, merge FW and REV read and save UMI in XI flag.

experiment_assigned_counts_copy_final_all_files

Will copy final files to the main folder so that it is creal which files to use.

experiment_assigned_counts_copy_final_thresh_files

Will copy final files to the main folder so that it is creal which files to use.

experiment_assigned_counts_dna_rna_merge

Assign merged RNA/DNA barcodes. Filter BC depending on the min_counts option.

experiment_assigned_counts_filterAssignment

Use only unique assignments and do sampling if needed.

experiment_assigned_counts_make_master_tables

Final master table with all replicates combined. With and without threshold.

experiment_counts_demultiplex_BAM_umi

Demultiplexing the data and create demultiplexed bam files per condition.

experiment_counts_demultiplex_aggregate

Aggregate the demultiplexed bam files per condition.

experiment_counts_demultiplex_create_index

Create the demultiplexing index file for the experiment.

experiment_counts_demultiplex_mergeTrimReads_BAM_umi

Merge and trim reads in demultiplexed bam files.

experiment_counts_dna_rna_merge_counts

Merge DNA and RNA counts together. Is done in two ways. First no not allow zeros in DNA or RNA BCs (RNA and DNA min_counts not zero). Second with zeros, so a BC can be defined only in the DNA or RNA (RNA or DNA min_counts zero)

experiment_counts_filter_counts

Filter the counts to BCs only of the correct length (defined in the config file)

experiment_counts_final_counts

Counting BCs. Discarding PCR duplicates (taking BCxUMI only one time)

experiment_counts_final_counts_sampler

Creates full + new distribution DNA files

experiment_counts_noUMI_create_BAM

Create a BAM file from FASTQ input, merge FW and REV read and save UMI in XI flag.

experiment_counts_noUMI_raw_counts

Counting BCsxUMIs from the BAM files.

experiment_counts_onlyFWUMI_raw_counts

Getting the BCs and UMIs from the reads using fixed length.

experiment_counts_onlyFW_raw_counts_by_cutadapt

Getting the BCs from the reads using cutadapt.

experiment_counts_onlyFW_raw_counts_by_length

Getting the BCs from the reads using fixed length.

experiment_counts_umi_raw_counts

Counting BCsxUMIs from the BAM files.

experiment_statistic_assigned_counts_combine_BC_assignment_stats

Combined assinged counts statistic per condition (DNA and aRNA not merged)

experiment_statistic_assigned_counts_combine_BC_assignment_stats_helper

Combine assigned counts statistic per replicate and modality (DNA and RNA not merged)

experiment_statistic_assigned_counts_combine_stats_dna_rna_merge

Combine assigned counts statistic per replicate (DNA and RNA merged)

experiment_statistic_assigned_counts_combine_stats_dna_rna_merge_all

Combine assigned counts statistic per condition (DNA and RNA merged)

experiment_statistic_bc_overlap_combine_assigned_counts

Combine overlap BC and count statistic into one file (assigned counts).

experiment_statistic_bc_overlap_combine_counts

Combine overlap BC and count statistic into one file (raw counts).

experiment_statistic_bc_overlap_run

Get overlap of counts and barcodes between replicates.

experiment_statistic_correlation_bc_counts

Calculate the correlation of the raw counts for each condition across replicates.

experiment_statistic_correlation_bc_counts_hist

Generate histogram and boxplots of the raw counts for each condition across replicates.

experiment_statistic_correlation_calculate

Calculate the correlation of oligos for each condition across replicates.

experiment_statistic_correlation_combine_bc_assigned

Combine the correlation of the assigned counts for each condition across replicates into one table.

experiment_statistic_correlation_combine_bc_raw

Combine the correlation of the raw counts for each condition across replicates into one table.

experiment_statistic_correlation_combine_oligo

Combine the correlation of oligos for each condition across replicates into one table.

experiment_statistic_correlation_hist_box_plots

Generate histogram and boxplots of the oligos for each condition across replicates.

experiment_statistic_counts_BC_in_RNA_DNA

Count the number of barcodes shared between RNA and DNA per condition and replicate.

experiment_statistic_counts_BC_in_RNA_DNA_merge

Merge the shared barcodes statistic of all replicates and conditions into one table.

experiment_statistic_counts_barcode_base_composition

Count the nucleotide composition of the barcodes per condition, replicate and DNA/RNA.

experiment_statistic_counts_final

Combine the final count statistic of all replicates and conditions into one table.

experiment_statistic_counts_frequent_umis

Count the 10 most frequent UMIs per condition, replicate and DNA/RNA.

experiment_statistic_counts_stats_merge

Merge the count statistic of all replicates and conditions into one table.

experiment_statistic_counts_table

Count statistic of barcodes and UMIs per condition, replicate and DNA/RNA.

experiment_statistic_quality_metric

Quality metrics of the assignment run

Output

The output can be found in the folder defined by the option results/experiments/. It is structured in folders of the condition as

Files

Once the pipline is finished running then all the output files can be seen in the results folder. This pipline also generates a qc report. For more details, refer to the HTML QC report.

File tree

experimet_name
  |-Condition
    |-allreps.tsv
    |-average_allreps.tsv
    |-HepG2_1_2_correlation.txt
    |-HepG2_1_2_DNA_pairwise.png
    |-HepG2_1_2_Ratio_pairwise.png
    |-HepG2_1_2_RNA_pairwise.png
    |-HepG2_barcodesPerInsert.png
        |-Reps
            |-HepG2_1_counts.tsv
            |-HepG2_1_counts.tsv.gz
            |-HepG2_1_DNA_counts_full.tsv
            |-HepG2_1_DNA_counts_full_samplingN.tsv
            |-HepG2_1_DNA_raw_counts.tsv.gz
            |-HepG2_1_RNA_filtered_counts.tsv.gz
            |-HepG2_1_DNA_filtered_counts.tsv.gz
            |-HepG2_1_RNA_counts.tsv
            |-HepG2_1_RNA_raw_counts.tsv.gz

Todo

This is not the correct file tree for the experiment workflow

Files for each Condition

allreps.tsv

TSV of normalized DNA and RNA count, ratio, log2ratio, and number of observed barcodes for each condition, replicate, of every CRS

average_allreps.tsv

mean ratio, log2 ratio, and observed barcodes per condidition normalized for all replicates

HepG2_1_2_correlation.txt

correlation values for a condition and 2 replicates (ie: HepG2 replicate 1 vs replicate 2)

HepG2_1_2_DNA_pairwise.png

Correlation plot of DNA counts condition vs two reps (ie: HepG2 replicate 1 vs replicate 2)

HepG2_1_2_Ratio_pairwise.png

Correlation plot of normalized log2(RNA/DNA) condition vs two reps (ie: HepG2 replicate 1 vs replicate 2)

HepG2_1_2_RNA_pairwise.png

Correlation plot of RNA counts condition vs two reps (ie: HepG2 replicate 1 vs replicate 2)

HepG2_barcodesPerInsert.png

Histogram of number of barcodes detected per CRS

HepG2_group_barcodesPerInsert_box.png

Boxplot of CRS normalized per insert, grouped by labels

Todo

These are not the correct files for each condition in the experiment workflow

Files for each replicate in each condition

HepG2_1_counts.tsv

mean ratio, log2 ratio, and observed barcodes per condidition for each replicate

HepG2_1_counts.tsv.gz

table of barcodes with DNA counts and RNA counts

HepG2_1_DNA_counts_full.tsv

table of barcodes with DNA counts

HepG2_1_DNA_counts_full_samplingN.tsv

table of barcodes with DNA counts with adjusted sampling.

HepG2_1_DNA_raw_counts.tsv.gz

table of barcodes, UMI, and DNA counts raw

HepG2_1_DNA_filtered_counts.tsv.gz

table of barcodes, UMI, and DNA counts raw, filtered for barcodes of correct length

HepG2_1_RNA_counts.tsv

table of barcodes with RNA counts

HepG2_1_RNA_raw_counts.tsv.gz

table of barcodes, UMI, and RNA counts raw

HepG2_1_RNA_filtered_counts.tsv.gz

table of barcodes, UMI, and DNA counts raw, filtered for barcodes of correct length

Todo

These are not the correct files for the experiment workflow