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MuSiCal logo

MuSiCal (Mutational Signature Calculator) is a comprehensive toolkit for mutational signature analysis. It leverages novel algorithmic developments to enable accurate signature assignment as well as robust and sensitive signature discovery.

Installation

MuSiCal requires Python 3.7 or above. We recommend conda for managing packages and environments. If you do not have conda on your system yet, you can install conda through Anaconda or Miniconda.

You will also need Jupyter Notebook to try out the example scripts. If you have installed Anaconda, Jupyter Notebook will be installed already. Otherwise, follow this guide to install Jupyter Notebook separately. Note that it is better to install Jupyter Notebook in the base environment.

Installing from source

First, download the latest repository (e.g., via git clone, by downloading the zip file directly, etc.).

Then, create a conda environment:

conda create -n python37_musical python=3.7

Activate the environment with conda activate python37_musical or source activate python37_musical, depending on the version of conda you have on your system.

Install some dependencies:

conda install numpy scipy scikit-learn matplotlib pandas seaborn

Install MuSiCal:

cd  /Path/To/MuSiCal
pip install ./MuSiCal

If you want to install MuSiCal in the development mode, use:

pip install -e ./MuSiCal

If pip install fails, try adding sudo -H.

Setting up Jupyter Notebook

After installing MuSiCal (either from third-party distributions or from source), you need to set up Jupyter Notebook to try out the example scripts.

Assuming that the python37_musical environment is activated, do:

conda install ipykernel
python -m ipykernel install --user --name python37_musical --display-name "python37_musical"

Since Jupyter Notebook is installed in the base environment, you need to deactivate the python37_musical environment with conda deactivate or source deactivate (depending on your conda version) to access Jupyter Notebook. You can launch Jupyter Notebook with

jupyter notebook

If you have installed Anaconda, you can also launch Jupyter Notebook from the graphical interface of Anaconda-Navigator.

Now you are ready to try out the example scripts. Remember to set the kernel of the notebook to python37_musical.

Usage

MuSiCal can be used after import musical within python.

The overall goal of mutational signature analysis is to decompose a mutation count matrix X into a signature matrix W and an exposure matrix H. Note that X is mutation type by sample (i.e., each column is a sample), W is mutation type by signature, and H is signature by sample.

To achieve this goal, a complete pipeline involves several steps (see the figure below and our paper for more details).

  • First, de novo signature discovery is performed to derive de novo signatures. MuSiCal utilizes a novel method called minimum-volume NMF (mvNMF) for de novo signature discovery.
  • Then, de novo signatures are matched to a catalog of known signatures (matching), since each de novo signature could be a mixture of multiple underlying signatures, due to lack of power in the de novo discovery step.
  • Subsequently, refined exposures are recalculated through the refitting step. MuSiCal utilizes a novel algorithm called likelihood-based sparse nonnegative least squares (NNLS) for both matching and refitting.
  • Finally, MuSiCal enables validating the obtained results through the in silico validation module to identify potential issues. The in silico validation module can also be used for systematic parameter optimization for matching and refitting.
  • In addition, MuSiCal provides preprocessing functionalities for automatic cohort stratification and outlier removal, to further improve the sensitivity of de novo signature discovery. See example scripts

Example scripts are provided to illustrate the full pipeline described above using a synthetic dataset.

Refitting can also be performed as a standalone task without de novo signature discovery. See example scripts.

MuSiCal workflow