RiboFlow is a Nextflow based pipeline for processing ribosome profiling data.

• Nextflow
• Docker (Optional)
• Conda (Optional)

First, follow the instructions in Nextflow website and install Nextflow.

The easiest way of using RiboFLow is using Docker. If using Docker is not an option, you can install the dependencies using Conda and run RiboFlow without Docker.

Install Docker. Here is a tutorial for Ubuntu.

All remaining dependencies come in the Docker image ceniklab/riboflow. This image is automatically pulled by RiboFlow when run with Docker (see test runs below).

This option has been tested on Linux systems only.

Install Conda.

All other dependencies can be installed using the environment file, environment.yaml, in this repository.

git clone https://github.com/ribosomeprofiling/riboflow.git
conda env create -f riboflow/environment.yaml

The above command will create a conda environment called ribo and install dependencies in it. To start using RiboFlow, you need to activate the ribo environment.

conda activate ribo

For fresh installations, before running RiboFlow on actual data, it is recommended to do a test run.

Clone this repository in a new folder and change your working directory to the RiboFlow folder.

mkdir rf_test_run && cd rf_test_run
git clone https://github.com/ribosomeprofiling/riboflow.git
cd riboflow

Obtain a copy of the sample data in the working directory.

git clone https://github.com/ribosomeprofiling/rf_sample_data.git

Provide the argument -profile docker_local to Nextflow to indicate Docker use.

nextflow RiboFlow.groovy -params-file project.yaml -profile docker_local

Make sure that you have created the conda environment, called ribo, using the instructions above. Then activate the conda environment.

conda activate ribo

If the above command fails to activate the ribo environment, try source activate ribo

Now RiboFlow is ready to run.

nextflow RiboFlow.groovy -params-file project.yaml

Pipeline run may take several minutes. When finished, the resulting files are in the ./output folder.

Mapping statistics are compiled in a csv file called stats.csv

ls output/stats/stats.csv

Ribosome occupancy data is in a single ribo file called all.ribo.

ls output/ribo/all.ribo

You can use RiboR or RiboPy to work with ribo files.

For running RiboFlow on actual data, files must be organized and a parameters file must be prepared. You can examine the sample run above to see an example.

1. Organize your data. The following files are required for RiboFlow

• Ribosome profiling sequencing data: in gzipped fastq files
• Transcriptome Reference: Bowtie2 index files
• Filter Reference: Bowtie2 index files (typically for rRNA sequences)
• Annotation: A bed file defining CDS, UTR5 and UTR3 regions.
• Transcript Lengths: A two column tsv file containing transcript lengths

2. Prepare a custom project.yaml file. You can use the sample file project.yaml, provided in this repository, as template.

3. In project.yaml, provide RiboFlow parameters such as clip_arguments, alignment arguments etc. You can simply modify the arguments in the sample file project.yaml in this repository.

4. You can adjust the hardware and computing environment settings in Nextflow configuration file(s). For Docker option, see configs/docker_local.config. If you are not using Docker, see configs/local.config.

5. RNA-Seq data is optional for RiboFlow. So, if you do NOT have RNA-Seq data, in the project file, set

do_rnaseq: false

If you have RNA-Seq data to be paired with ribosome profiling data, see the Advanced Features below.

6. Metadata is optional for RiboFlow.. If you do NOT have metadata, in the project file, set

do_metadata: false

If you have metadata, see Advanced Features below.

7. Run RiboFlow using the new parameters file project.yaml.

Using Docker:

nextflow RiboFlow.groovy -params-file project.yaml -profile docker_local

Without Docker:

nextflow RiboFlow.groovy -params-file project.yaml

RiboFlow is designed to work with transcriptomic references. RiboFlow does NOT work with genomic references. The users neede to provide a transcriptome reference and annotation to run this software. There is a curated set of RiboFlow references, that users can download and use, in this GitHub repository

If you have RNA-Seq data that you want to pair with ribosome profiling experiments, provide the paths of the RNA-Seq (gzipped) fastq files in the configuration file in input -> metadata. See the file project.yaml in this repository for an example. Note that the names in defining RNA-Seq files must match the names in definig ribosome profiling data. Also turn set the do_rnaseq flag to true, in the project file:

do_rnaseq: true

Transcript abundance data will be stored in the output ribo file.

If you have metadata files for the ribosome profiling experiments, provide the paths of the metadata files (in yaml format) in the configuration file in input -> metadata. See the file project.yaml in this repository for an example. Note that the names in defining metadata files must match the names in definig ribosome profiling data. Also turn set the metadata flag to true, in the project file:

do_metadata: true

Metadata will be stored in the output ribo file.