# ![nf-core/hic](docs/images/nfcore-hic_logo.png)

**Analysis of Chromosome Conformation Capture data (Hi-C)**.

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## Introduction

This pipeline is based on the
[HiC-Pro workflow](https://github.com/nservant/HiC-Pro).
It was designed to process Hi-C data from raw FastQ files (paired-end Illumina
data) to normalized contact maps.
The current version supports most protocols, including digestion protocols as
well as protocols that do not require restriction enzymes such as DNase Hi-C.
In practice, this workflow was successfully applied to many data-sets including
dilution Hi-C, in situ Hi-C, DNase Hi-C, Micro-C, capture-C, capture Hi-C or
HiChip data.

The pipeline is built using [Nextflow](https://www.nextflow.io), a workflow tool
to run tasks across multiple compute infrastructures in a very portable manner.
It comes with docker / singularity containers making installation trivial and
results highly reproducible.

## Pipeline summary

1. Mapping using a two steps strategy to rescue reads spanning the ligation
sites (bowtie2)
2. Detection of valid interaction products
3. Duplicates removal
4. Create genome-wide contact maps at various resolution
5. Contact maps normalization using the ICE algorithm (iced)
6. Quality controls and report (MultiQC)
7. Addition export for visualisation and downstream analysis (cooler)

## Quick Start

1. Install [`nextflow`](https://nf-co.re/usage/installation)

2. Install any of [`Docker`](https://docs.docker.com/engine/installation/), [`Singularity`](https://www.sylabs.io/guides/3.0/user-guide/) or [`Podman`](https://podman.io/) for full pipeline reproducibility _(please only use [`Conda`](https://conda.io/miniconda.html) as a last resort; see [docs](https://nf-co.re/usage/configuration#basic-configuration-profiles))_

3. Download the pipeline and test it on a minimal dataset with a single command

    ```bash
    nextflow run nf-core/hic -profile test,<docker/singularity/podman/conda/institute>
    ```

    > Please check [nf-core/configs](https://github.com/nf-core/configs#documentation)
    to see if a custom config file to run nf-core pipelines already exists for your Institute.
    If so, you can simply use `-profile <institute>` in your command.
    This will enable either `docker` or `singularity` and set the appropriate execution
    settings for your local compute environment.

4. Start running your own analysis!

    ```bash
    nextflow run nf-core/hic -profile <docker/singularity/podman/conda/institute> --input '*_R{1,2}.fastq.gz' --genome GRCh37
    ```

See [usage docs](https://nf-co.re/hic/usage) for all of the available options when running the pipeline.

## Documentation

The nf-core/hic pipeline comes with documentation about the pipeline: [usage](https://nf-co.re/hic/usage) and [output](https://nf-co.re/hic/output).

For further information or help, don't hesitate to get in touch on [Slack](https://nfcore.slack.com/channels/hic).
You can join with [this invite](https://nf-co.re/join/slack).

## Credits

nf-core/hic was originally written by Nicolas Servant.

## Contributions and Support

If you would like to contribute to this pipeline, please see the [contributing guidelines](.github/CONTRIBUTING.md).

For further information or help, don't hesitate to get in touch on the
[Slack `#hic` channel](https://nfcore.slack.com/channels/hic)
(you can join with [this invite](https://nf-co.re/join/slack)).

## Citation

If you use nf-core/hic for your analysis, please cite it using the following
doi: [10.5281/zenodo.2669513](https://doi.org/10.5281/zenodo.2669513)

You can cite the `nf-core` publication as follows:

> **The nf-core framework for community-curated bioinformatics pipelines.**
>
> Philip Ewels, Alexander Peltzer, Sven Fillinger, Harshil Patel, Johannes Alneberg,
Andreas Wilm, Maxime Ulysse Garcia, Paolo Di Tommaso & Sven Nahnsen.
>
> _Nat Biotechnol._ 2020 Feb 13. doi: [10.1038/s41587-020-0439-x](https://dx.doi.org/10.1038/s41587-020-0439-x).
> ReadCube: [Full Access Link](https://rdcu.be/b1GjZ)