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An accurate and efficient deep learning method for single-cell RNA-seq data imputation

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DeepImpute: an accurate and efficient deep learning method for single-cell RNA-seq data imputation

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Arisdakessian, Cedric, Olivier Poirion, Breck Yunits, Xun Zhu, and Lana Garmire.
"DeepImpute: an accurate, fast and scalable deep neural network method to impute single-cell RNA-Seq data.", Genome biology 20.1 (2019): 211" https://genomebiology.biomedcentral.com/articles/10.1186/s13059-019-1837-6?fbclid=IwAR2wkwBbp_rQBv0muKEYlt-MDZGlJF6sej1sbKJOP58jvXX1XdD98aGuauo

DeepImpute has been implemented in Python2 and Python3. The recommended version is Python3.

Getting Started

These instructions will get you a copy of the project up and running on your local machine.

Installing

You can install DeepImpute's latest release using pip with the following command:

pip install deepimpute

To install the latest GitHub version, you can also clone this directory and install it:

git clone https://github.com/lanagarmire/deepimpute
cd deepimpute
pip install --user .

Usage

DeepImpute can be used either on the command line or as a Python package.

Command line:

usage: deepImpute [-h] [-o OUTPUT] [--cores CORES]
                  [--cell-axis {rows,columns}] [--limit LIMIT]
                  [--minVMR MINVMR] [--subset SUBSET]
                  [--learning-rate LEARNING_RATE] [--batch-size BATCH_SIZE]
                  [--max-epochs MAX_EPOCHS] [--hidden-neurons HIDDEN_NEURONS]
                  [--dropout-rate DROPOUT_RATE]
                  [--output-neurons OUTPUT_NEURONS] [--n_pred N_PRED]
                  [--policy POLICY]
                  inputFile

scRNA-seq data imputation using DeepImpute.

positional arguments:
  inputFile             Path to input data.

optional arguments:
  -h, --help            show this help message and exit
  -o OUTPUT, --output OUTPUT
                        Path to output data counts. Default: ./imputed.csv
  --cores CORES         Number of cores. Default: all available cores
  --cell-axis {rows,columns}
                        Cell dimension in the matrix. Default: rows
  --limit LIMIT         Genes to impute (e.g. first 2000 genes). Default: auto
  --minVMR MINVMR       Min Variance over mean ratio for gene exclusion. Gene
                        with a VMR below ${minVMR} are discarded. Used if
                        --limit is set to 'auto'. Default: 0.5
  --subset SUBSET       Cell subset to speed up training. Either a ratio
                        (0<x<1) or a cell number (int). Default: 1 (all)
  --learning-rate LEARNING_RATE
                        Learning rate. Default: 0.0001
  --batch-size BATCH_SIZE
                        Batch size. Default: 64
  --max-epochs MAX_EPOCHS
                        Maximum number of epochs. Default: 500
  --hidden-neurons HIDDEN_NEURONS
                        Number of neurons in the hidden dense layer. Default:
                        256
  --dropout-rate DROPOUT_RATE
                        Dropout rate for the hidden dropout layer (0<rate<1).
                        Default: 0.2
  --output-neurons OUTPUT_NEURONS
                        Number of output neurons per sub-network. Default: 512
  --n_pred N_PRED       Number of predictors to consider. Consider using this
                        parameter if your RAM is limited or if you have a high
                        number of features. Default: All genes with nonzero
                        VMR
  --policy POLICY       Whether to restore positive values from the raw
                        dataset or keep the max between the imputed values and
                        the raw values. Choices are ['restore', 'max'].
                        Default: restore

Python package:

from deepimpute.multinet import MultiNet

data = pd.read_csv('examples/test.csv', index_col=0) # dimension = (cells x genes)
model = MultiNet()
model.fit(data)
imputed = model.predict(data)

A more detailed usage of deepImpute's functionality is available in the iPython Notebook notebook_example.ipynb

Running the tests

Each file has been validated using a unittest script. They are all available in the test folder. To run all the tests at once, you can also use the makefile by running make test.

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