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Collection of public single-cell RNA-seq datasets

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scrnaseq

The scrnaseq package provides convenient access to several publicly available single-cell datasets in the form of SingleCellExperiment objects. Users can obtain a SingleCellExperiment and transform it into analysis-ready representations for immediate use.

To enable discovery, each dataset is decorated with metadata such as the study title/abstract, the species, the number of cells, etc. Users can also contribute their own published datasets to enable re-use by the wider Bioconductor/BiocPy community.

Also check out the R version of this library here@scRNAseq published to Bioconductor.

Installation

Package is published to PyPI,

pip install scrnaseq

Find Datasets

The list_datasets() function will display all available datasets along with their metadata. This can be used to discover interesting datasets for further analysis.

import scrnaseq
datasets = scrnaseq.list_datasets()
print(datasets[["name", "version"]].head(3))

## output
# |    | name                  | version    |
# |---:|:----------------------|:-----------|
# |  0 | romanov-brain-2017    | 2023-12-19 |
# |  1 | campbell-brain-2017   | 2023-12-14 |
# |  2 | zhong-prefrontal-2018 | 2023-12-22 |

This returns a pandas DataFrame to easily filter and download datasets of interest.

Users can also search on the metadata text using the search_datasets() function. This accepts both simple text queries as well as more complicated expressions involving boolean operations.

# Find all datasets involving pancreas.
res = scrnaseq.search_datasets("pancreas")

# Find all mm10 datasets involving pancreas or neurons.
from gypsum_client import define_text_query

res = scrnaseq.search_datasets(
     define_text_query("GRCm38", field="genome")
     & (
          define_text_query("neuro%", partial=True)
          | define_text_query("pancrea%", partial=True)
     )
)
print(res[["name", "version"]].head(3))

## output
# |    | name                    | version    |
# |---:|:------------------------|:-----------|
# |  0 | romanov-brain-2017      | 2023-12-19 |
# |  1 | campbell-brain-2017     | 2023-12-14 |
# |  2 | fletcher-olfactory-2019 | 2023-12-21 |

Search results are not guaranteed to be reproducible - more datasets may be added over time, and existing datasets may be updated with new versions. Once a dataset of interest is identified, users should explicitly list the name and version of the dataset in their scripts to ensure reproducibility.

Fetch Datasets

The fetch_dataset() function will download a particular dataset, as SingleCellExperiment:

sce = scrnaseq.fetch_dataset("zeisel-brain-2015", "2023-12-14")
print(sce)

## output
# class: SingleCellExperiment
# dimensions: (20006, 3005)
# assays(1): ['counts']
# row_data columns(1): ['featureType']
# row_names(20006): ['Tspan12', 'Tshz1', 'Fnbp1l', ..., 'mt-Rnr2', 'mt-Rnr1', 'mt-Nd4l']
# column_data columns(9): ['tissue', 'group #', 'total mRNA mol', 'well', 'sex', 'age', 'diameter', 'level1class', 'level2class']
# column_names(3005): ['1772071015_C02', '1772071017_G12', '1772071017_A05', ..., '1772063068_D01', '1772066098_A12', '1772058148_F03']
# main_experiment_name: gene
# reduced_dims(0): []
# alternative_experiments(2): ['repeat', 'ERCC']
# row_pairs(0): []
# column_pairs(0): []
# metadata(0):

For studies that generate multiple datasets, the dataset of interest must be explicitly requested via the path argument:

sce = scrnaseq.fetch_dataset("baron-pancreas-2016", "2023-12-14", path="human")
print(sce)

## output
# class: SingleCellExperiment
# dimensions: (20125, 8569)
# assays(1): ['counts']
# row_data columns(0): []
# row_names(20125): ['A1BG', 'A1CF', 'A2M', ..., 'ZZEF1', 'ZZZ3', 'pk']
# column_data columns(2): ['donor', 'label']
# column_names(8569): ['human1_lib1.final_cell_0001', 'human1_lib1.final_cell_0002', 'human1_lib1.final_cell_0003', ..., 'human4_lib3.final_cell_0699', 'human4_lib3.final_cell_0700', 'human4_lib3.final_cell_0701']
# main_experiment_name:
# reduced_dims(0): []
# alternative_experiments(0): []
# row_pairs(0): []
# column_pairs(0): []
# metadata(0):

By default, array data is loaded as a file-backed DelayedArray from the HDF5Array package. Setting realize_assays=True and/or realize_reduced_dims=True will coerce file-backed arrays to numpy or scipy sparse (csr/csc) objects.

sce = scrnaseq.fetch_dataset("baron-pancreas-2016", "2023-12-14", path="human", realize_assays=True)
print(sce)

## output
# class: SingleCellExperiment
# dimensions: (20125, 8569)
# assays(1): ['counts']
# row_data columns(0): []
# row_names(20125): ['A1BG', 'A1CF', 'A2M', ..., 'ZZEF1', 'ZZZ3', 'pk']
# column_data columns(2): ['donor', 'label']
# column_names(8569): ['human1_lib1.final_cell_0001', 'human1_lib1.final_cell_0002', 'human1_lib1.final_cell_0003', ..., 'human4_lib3.final_cell_0699', 'human4_lib3.final_cell_0700', 'human4_lib3.final_cell_0701']
# main_experiment_name:
# reduced_dims(0): []
# alternative_experiments(0): []
# row_pairs(0): []
# column_pairs(0): []
# metadata(0):

Users can also fetch the metadata associated with each dataset:

meta = scrnaseq.fetch_metadata("zeisel-brain-2015", "2023-12-14")
print(meta.keys())

## output
# dict_keys(['title', 'description', 'taxonomy_id', 'genome', 'sources', 'maintainer_name', 'maintainer_email', 'bioconductor_version', 'applications'])

Adding New Datasets

Want to contribute your own dataset to this package? It's easy! Just follow these simple steps:

  1. Format your dataset as a SummarizedExperiment or SingleCellExperiment. Let's mock a dataset:

    import numpy as np
    from singlecellexperiment import SingleCellExperiment
    from biocframe import BiocFrame
    
    mat = np.random.poisson(1, (100, 10))
    row_names = [f"GENE_{i}" for i in range(mat.shape[0])]
    col_names = list("ABCDEFGHIJ")
    sce = SingleCellExperiment(
         assays={"counts": mat},
         row_data=BiocFrame(row_names=row_names),
         column_data=BiocFrame(row_names=col_names),
    )

    Or if you want to save an AnnData object, easily convert that into a SingleCellExperiment object:

    from singlecellexperiment import SingleCellExperiment
    
    sce = SingleCellExperiment.from_anndata(YOUR_ANNDATA_OBJ)
  2. Assemble the metadata for your dataset. This should be a dictionary as specified in the Bioconductor metadata schema. Check out some examples from fetch_metadata() Note that the application.takane property will be automatically added later, and so can be omitted from the list that you create.

    meta = {
         "title": "My dataset forked from ziesel brain",
         "description": "This is a copy of the ziesel",
         "taxonomy_id": ["10090"],  # NCBI ID
         "genome": ["GRCh38"],  # genome build
         "sources": [{"provider": "GEO", "id": "GSE12345"}],
         "maintainer_name": "Shizuka Mogami",
         "maintainer_email": "[email protected]",
    }
  3. Save your SummarizedExperiment or SingleCellExperiment object to disk with save_dataset(). This saves the dataset into a "staging directory" using language-agnostic file formats - check out the ArtifactDB framework for more details. In more complex cases involving multiple datasets, users may save each dataset into a subdirectory of the staging directory.

    import tempfile
    from scrnaseq import save_dataset
    
    # replace tmp with a staging directory
    staging_dir = tempfile.mkdtemp()
    save_dataset(sce, staging_dir, meta)

    You can check that everything was correctly saved by reloading the on-disk data for inspection:

    import dolomite_base as dl
    
    dl.read_object(staging_dir)
  4. Open a pull request (PR) for the addition of a new dataset. You will need to provide a few things here:

    • The name of your dataset. This typically follows the format of {NAME}-{SYSTEM}-{YEAR}, where NAME is the last name of the first author of the study, SYSTEM is the biological system (e.g., tissue, cell types) being studied, and YEAR is the year of publication for the dataset.
    • The version of your dataset. This is usually just the current date or whenever you started putting together the dataset for upload. The exact date doesn't really matter as long as we can establish a timeline for later versions.
    • An Python file containing the code used to assemble the dataset. This should be added to the scripts/ directory of this package, in order to provide some record of how the dataset was created.
  5. Wait for us to grant temporary upload permissions to your GitHub account.

  6. Upload your staging directory to gypsum backend with upload_dataset(). On the first call to this function, it will automatically prompt you to log into GitHub so that the backend can authenticate you. If you are on a system without browser access (e.g., most computing clusters), a token can be manually supplied via set_access_token().

    from scrnaseq import upload_dataset
    
    upload_dataset(staging_dir, "my_dataset_name", "my_version")

    You can check that everything was successfully uploaded by calling fetch_dataset() with the same name and version:

    from scrnaseq import upload_dataset
    
    fetch_dataset("my_dataset_name", "my_version")

    If you realized you made a mistake, no worries. Use the following call to clear the erroneous dataset, and try again:

    from gypsum_client import reject_probation
    
    reject_probation("scRNAseq", "my_dataset_name", "my_version")
  7. Comment on the PR to notify us that the dataset has finished uploading and you're happy with it. We'll review it and make sure everything's in order. If some fixes are required, we'll just clear the dataset so that you can upload a new version with the necessary changes. Otherwise, we'll approve the dataset. Note that once a version of a dataset is approved, no further changes can be made to that version; you'll have to upload a new version if you want to modify something.

Note

The tests for upload are skipped. To run them, include a GitHub token as an environment variable gh_token.

This project has been set up using PyScaffold 4.5. For details and usage information on PyScaffold see https://pyscaffold.org/.

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Collection of public single-cell RNA-seq datasets

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