Jupyter Notebook Binder

Project flow#

LaminDB allows tracking data lineage on the entire project level.

Here, we walk through exemplified app uploads, pipelines & notebooks following Schmidt et al., 2022.

A CRISPR screen reading out a phenotypic endpoint on T cells is paired with scRNA-seq to generate insights into IFN-γ production.

These insights get linked back to the original data through the steps taken in the project to provide context for interpretation & future decision making.

More specifically: Why should I care about data flow?

Data flow tracks data sources & transformations to trace biological insights, verify experimental outcomes, meet regulatory standards, increase the robustness of research and optimize the feedback loop of team-wide learning iterations.

While tracking data flow is easier when it’s governed by deterministic pipelines, it becomes hard when it’s governed by interactive human-driven analyses.

LaminDB interfaces workflow mangers for the former and embraces the latter.

Setup#

Init a test instance:

!lamin init --storage ./mydata
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💡 connected lamindb: testuser1/mydata

Import lamindb:

import lamindb as ln
from IPython.display import Image, display
💡 connected lamindb: testuser1/mydata

Steps#

In the following, we walk through exemplified steps covering different types of transforms (Transform).

Note

The full notebooks are in this repository.

App upload of phenotypic data #

Register data through app upload from wetlab by testuser1:

# This function mimics the upload of artifacts via the UI
# In reality, you simply drag and drop files into the UI
def run_upload_crispra_result_app():
    ln.setup.login("testuser1")
    transform = ln.Transform(name="Upload GWS CRISPRa result", type="app")
    ln.track(transform=transform)
    output_path = ln.core.datasets.schmidt22_crispra_gws_IFNG(ln.settings.storage)
    output_file = ln.Artifact(
        output_path, description="Raw data of schmidt22 crispra GWS"
    )
    output_file.save()


run_upload_crispra_result_app()
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💡 saved: Transform(uid='g5katrMxZa2pDt3M', name='Upload GWS CRISPRa result', type='app', updated_at=2024-03-28 10:26:08 UTC, created_by_id=1)
💡 saved: Run(uid='Fsv1Qcbc38Y4EseuGdAP', transform_id=1, created_by_id=1)

Hit identification in notebook #

Access, transform & register data in drylab by testuser2:

def run_hit_identification_notebook():
    # log in as another user
    ln.setup.login("testuser2")

    # create a new transform to mimic a new notebook (in reality you just run ln.track() in a notebook)
    transform = ln.Transform(name="GWS CRIPSRa analysis", type="notebook")
    ln.track(transform=transform)

    # access the upload artifact
    input_file = ln.Artifact.filter(key="schmidt22-crispra-gws-IFNG.csv").one()

    # identify hits
    input_df = input_file.load().set_index("id")
    output_df = input_df[input_df["pos|fdr"] < 0.01].copy()

    # register hits in output artifact
    ln.Artifact(output_df, description="hits from schmidt22 crispra GWS").save()


run_hit_identification_notebook()
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💡 saved: Transform(uid='L0Iq7lBAVo0IagDw', name='GWS CRIPSRa analysis', type='notebook', updated_at=2024-03-28 10:26:09 UTC, created_by_id=1)
💡 saved: Run(uid='BfIia8fowS402UOvpasv', transform_id=2, created_by_id=1)
❗ data is a DataFrame, please use .from_df()

Inspect data flow:

artifact = ln.Artifact.filter(description="hits from schmidt22 crispra GWS").one()
artifact.view_lineage()
_images/c18322e6ea81ab4a4680db6b9c489065b467c9a792c6d4707d385d190a0be40f.svg

Sequencer upload #

Upload files from sequencer:

def run_upload_from_sequencer_pipeline():
    ln.setup.login("testuser1")

    # create a pipeline transform
    ln.track(transform=ln.Transform(name="Chromium 10x upload", type="pipeline"))
    # register output files of the sequencer
    upload_dir = ln.core.datasets.dir_scrnaseq_cellranger(
        "perturbseq", basedir=ln.settings.storage, output_only=False
    )
    ln.Artifact(upload_dir.parent / "fastq/perturbseq_R1_001.fastq.gz").save()
    ln.Artifact(upload_dir.parent / "fastq/perturbseq_R2_001.fastq.gz").save()


run_upload_from_sequencer_pipeline()
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💡 saved: Transform(uid='zA6ksI0eRf4RXxK8', name='Chromium 10x upload', type='pipeline', updated_at=2024-03-28 10:26:11 UTC, created_by_id=1)
💡 saved: Run(uid='Cpshj70WQWNWJ8pYfSww', transform_id=3, created_by_id=1)

scRNA-seq bioinformatics pipeline #

Process uploaded files using a script or workflow manager: Pipelines and obtain 3 output files in a directory filtered_feature_bc_matrix/:

def run_scrna_analysis_pipeline():
    ln.setup.login("testuser2")
    transform = ln.Transform(name="Cell Ranger", version="7.2.0", type="pipeline")
    ln.track(transform=transform)
    # access uploaded files as inputs for the pipeline
    input_artifacts = ln.Artifact.filter(key__startswith="fastq/perturbseq").all()
    input_paths = [artifact.stage() for artifact in input_artifacts]
    # register output files
    output_artifacts = ln.Artifact.from_dir(
        "./mydata/perturbseq/filtered_feature_bc_matrix/"
    )
    ln.save(output_artifacts)

    # Post-process these 3 files
    transform = ln.Transform(
        name="Postprocess Cell Ranger", version="2.0", type="pipeline"
    )
    ln.track(transform=transform)
    input_artifacts = [f.stage() for f in output_artifacts]
    output_path = ln.core.datasets.schmidt22_perturbseq(basedir=ln.settings.storage)
    output_file = ln.Artifact(output_path, description="perturbseq counts")
    output_file.save()


run_scrna_analysis_pipeline()
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💡 saved: Transform(uid='LfGFJY9qoKLV4foK', name='Cell Ranger', version='7.2.0', type='pipeline', updated_at=2024-03-28 10:26:12 UTC, created_by_id=1)
💡 saved: Run(uid='dQ21nE49s3aT5a62PLin', transform_id=4, created_by_id=1)
❗ this creates one artifact per file in the directory - you might simply call ln.Artifact(dir) to get one artifact for the entire directory
💡 saved: Transform(uid='y7f14tIU5DXLF7jV', name='Postprocess Cell Ranger', version='2.0', type='pipeline', updated_at=2024-03-28 10:26:12 UTC, created_by_id=1)
💡 saved: Run(uid='z8doKo7HYoAafkBIXDu5', transform_id=5, created_by_id=1)

Inspect data flow:

output_file = ln.Artifact.filter(description="perturbseq counts").one()
output_file.view_lineage()
_images/bd9fae3a05c77d0fd6b0c0e7db850b5e8d031f6d20b82cd6fcd3d5f1faae1b07.svg

Integrate scRNA-seq & phenotypic data #

Integrate data in a notebook:

def run_integrated_analysis_notebook():
    import scanpy as sc

    # create a new transform to mimic a new notebook (in reality you just run ln.track() in a notebook)
    transform = ln.Transform(
        name="Perform single cell analysis, integrate with CRISPRa screen",
        type="notebook",
    )
    ln.track(transform=transform)

    # access the output files of bfx pipeline and previous analysis
    file_ps = ln.Artifact.filter(description__icontains="perturbseq").one()
    adata = file_ps.load()
    file_hits = ln.Artifact.filter(description="hits from schmidt22 crispra GWS").one()
    screen_hits = file_hits.load()

    # perform analysis and register output plot files
    sc.tl.score_genes(adata, adata.var_names.intersection(screen_hits.index).tolist())
    filesuffix = "_fig1_score-wgs-hits.png"
    sc.pl.umap(adata, color="score", show=False, save=filesuffix)
    filepath = f"figures/umap{filesuffix}"
    artifact = ln.Artifact(filepath, key=filepath)
    artifact.save()
    filesuffix = "fig2_score-wgs-hits-per-cluster.png"
    sc.pl.matrixplot(
        adata, groupby="cluster_name", var_names=["score"], show=False, save=filesuffix
    )
    filepath = f"figures/matrixplot_{filesuffix}"
    artifact = ln.Artifact(filepath, key=filepath)
    artifact.save()


run_integrated_analysis_notebook()
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💡 saved: Transform(uid='3ET2KuCQuKAC662n', name='Perform single cell analysis, integrate with CRISPRa screen', type='notebook', updated_at=2024-03-28 10:26:14 UTC, created_by_id=1)
💡 saved: Run(uid='Rzg11ooZZajG9IKo2DNe', transform_id=6, created_by_id=1)
WARNING: saving figure to file figures/umap_fig1_score-wgs-hits.png
WARNING: saving figure to file figures/matrixplot_fig2_score-wgs-hits-per-cluster.png

Review results#

Let’s load one of the plots:

# track the current notebook as transform
ln.transform.stem_uid = "1LCd8kco9lZU"
ln.transform.version = "0"
ln.track()
💡 notebook imports: ipython==8.22.2 lamindb==0.69.2 scanpy==1.10.0
💡 saved: Transform(uid='1LCd8kco9lZU6K79', name='Project flow', key='project-flow', version='0', type=notebook, updated_at=2024-03-28 10:26:15 UTC, created_by_id=1)
💡 saved: Run(uid='Le8KjscYbWnryTwnWERk', transform_id=7, created_by_id=1)
artifact = ln.Artifact.filter(key__contains="figures/matrixplot").one()
artifact.stage()
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PosixUPath('/home/runner/work/lamin-usecases/lamin-usecases/docs/mydata/.lamindb/vE0XGNXTOL16Fc0xXXV3.png')
display(Image(filename=artifact.path))
_images/75b3346852a5508db92b2320e765ce7213171431c66acd8bf2a96f99089d669f.png

We see that the image artifact is tracked as an input of the current notebook. The input is highlighted, the notebook follows at the bottom:

artifact.view_lineage()
_images/6fe041c2b8aae0cb69fb7467ecf36b8e4d8bf8f32094c73bbc37d9ee9b3e2579.svg

Alternatively, we can also look at the sequence of transforms:

transform = ln.Transform.search("Bird's eye view", return_queryset=True).first()
transform.parents.df()
uid name key version description type latest_report_id source_code_id reference reference_type created_at updated_at created_by_id
id
4 LfGFJY9qoKLV4foK Cell Ranger None 7.2.0 None pipeline None None None None 2024-03-28 10:26:12.080705+00:00 2024-03-28 10:26:12.080723+00:00 1
transform.view_parents()
_images/94d9a02b96d0c62be273956a70af07d953bb00244c821587c1da5b68fa068dd7.svg

Understand runs#

We tracked pipeline and notebook runs through run_context, which stores a Transform and a Run record as a global context.

Artifact objects are the inputs and outputs of runs.

What if I don’t want a global context?

Sometimes, we don’t want to create a global run context but manually pass a run when creating an artifact:

run = ln.Run(transform=transform)
ln.Artifact(filepath, run=run)
When does an artifact appear as a run input?

When accessing an artifact via stage(), load() or backed(), two things happen:

  1. The current run gets added to artifact.input_of

  2. The transform of that artifact gets added as a parent of the current transform

You can then switch off auto-tracking of run inputs if you set ln.settings.track_run_inputs = False: Can I disable tracking run inputs?

You can also track run inputs on a case by case basis via is_run_input=True, e.g., here:

artifact.load(is_run_input=True)

Query by provenance#

We can query or search for the notebook that created the artifact:

transform = ln.Transform.search("GWS CRIPSRa analysis", return_queryset=True).first()

And then find all the artifacts created by that notebook:

ln.Artifact.filter(transform=transform).df()
uid storage_id key suffix accessor description version size hash hash_type n_objects n_observations transform_id run_id visibility key_is_virtual created_at updated_at created_by_id
id
2 exLRnsdqS37ekJnz4O5j 1 None .parquet DataFrame hits from schmidt22 crispra GWS None 18368 R18ae1iumXFrQmlf6ZRRGg md5 None None 2 2 1 True 2024-03-28 10:26:10.467975+00:00 2024-03-28 10:26:10.467999+00:00 1

Which transform ingested a given artifact?

artifact = ln.Artifact.filter().first()
artifact.transform
Transform(uid='g5katrMxZa2pDt3M', name='Upload GWS CRISPRa result', type='app', updated_at=2024-03-28 10:26:08 UTC, created_by_id=1)

And which user?

artifact.created_by
User(uid='DzTjkKse', handle='testuser1', name='Test User1', updated_at=2024-03-28 10:26:11 UTC)

Which transforms were created by a given user?

users = ln.User.lookup()
ln.Transform.filter(created_by=users.testuser2).df()
uid name key version description type reference reference_type created_at updated_at latest_report_id source_code_id created_by_id
id

Which notebooks were created by a given user?

ln.Transform.filter(created_by=users.testuser2, type="notebook").df()
uid name key version description type reference reference_type created_at updated_at latest_report_id source_code_id created_by_id
id

We can also view all recent additions to the entire database:

ln.view()
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Artifact
uid storage_id key suffix accessor description version size hash hash_type n_objects n_observations transform_id run_id visibility key_is_virtual created_at updated_at created_by_id
id
10 vE0XGNXTOL16Fc0xXXV3 1 figures/matrixplot_fig2_score-wgs-hits-per-clu... .png None None None 28814 3ZZrahUWOjhpfAhm5V-BJw md5 None None 6 6 1 True 2024-03-28 10:26:15.536665+00:00 2024-03-28 10:26:15.536687+00:00 1
9 7gjAIr4ANVh81r5Qneyc 1 figures/umap_fig1_score-wgs-hits.png .png None None None 118999 CdbDJlptwDoCY-yCqmXPJw md5 None None 6 6 1 True 2024-03-28 10:26:15.220790+00:00 2024-03-28 10:26:15.220814+00:00 1
8 MmMxiVZvGd3bz9n8wFwp 1 schmidt22_perturbseq.h5ad .h5ad None perturbseq counts None 20659936 la7EvqEUMDlug9-rpw-udA md5 None None 5 5 1 False 2024-03-28 10:26:13.713938+00:00 2024-03-28 10:26:13.713970+00:00 1
7 OTsKGNqZmfQSIIkLCyqC 1 perturbseq/filtered_feature_bc_matrix/matrix.m... .mtx.gz None None None 6 3-tFyF_wFZKas8splCn4JQ md5 None None 4 4 1 False 2024-03-28 10:26:12.535538+00:00 2024-03-28 10:26:12.535555+00:00 1
6 VRr2n3hrafvuj3FeJzui 1 perturbseq/filtered_feature_bc_matrix/barcodes... .tsv.gz None None None 6 ziTzotG7TUnHaOHny9gzJA md5 None None 4 4 1 False 2024-03-28 10:26:12.534937+00:00 2024-03-28 10:26:12.534955+00:00 1
5 CQX4ErQDRI8Vq08nUO21 1 perturbseq/filtered_feature_bc_matrix/features... .tsv.gz None None None 6 0fAvllK4kqxMWYrJkYHQGA md5 None None 4 4 1 False 2024-03-28 10:26:12.534216+00:00 2024-03-28 10:26:12.534234+00:00 1
4 ULibBP1So0XK60Njqp1z 1 fastq/perturbseq_R2_001.fastq.gz .fastq.gz None None None 6 uElHtAurANTPo4f02Zhdxg md5 None None 3 3 1 False 2024-03-28 10:26:11.568972+00:00 2024-03-28 10:26:11.568994+00:00 1
Run
uid transform_id started_at finished_at created_by_id json report_id environment_id is_consecutive reference reference_type created_at
id
1 Fsv1Qcbc38Y4EseuGdAP 1 2024-03-28 10:26:08.598962+00:00 None 1 None None None True None None 2024-03-28 10:26:08.599066+00:00
2 BfIia8fowS402UOvpasv 2 2024-03-28 10:26:09.999456+00:00 None 1 None None None True None None 2024-03-28 10:26:09.999559+00:00
3 Cpshj70WQWNWJ8pYfSww 3 2024-03-28 10:26:11.128362+00:00 None 1 None None None True None None 2024-03-28 10:26:11.128458+00:00
4 dQ21nE49s3aT5a62PLin 4 2024-03-28 10:26:12.083979+00:00 None 1 None None None True None None 2024-03-28 10:26:12.084071+00:00
5 z8doKo7HYoAafkBIXDu5 5 2024-03-28 10:26:12.548023+00:00 None 1 None None None True None None 2024-03-28 10:26:12.548133+00:00
6 Rzg11ooZZajG9IKo2DNe 6 2024-03-28 10:26:14.543352+00:00 None 1 None None None True None None 2024-03-28 10:26:14.543513+00:00
7 Le8KjscYbWnryTwnWERk 7 2024-03-28 10:26:15.832622+00:00 None 1 None None None True None None 2024-03-28 10:26:15.832718+00:00
Storage
uid root description type region created_at updated_at created_by_id
id
1 dHXkVkH7 /home/runner/work/lamin-usecases/lamin-usecase... None local None 2024-03-28 10:26:06.830037+00:00 2024-03-28 10:26:06.830057+00:00 1
Transform
uid name key version description type latest_report_id source_code_id reference reference_type created_at updated_at created_by_id
id
7 1LCd8kco9lZU6K79 Project flow project-flow 0 None notebook None None None None 2024-03-28 10:26:15.828796+00:00 2024-03-28 10:26:15.828822+00:00 1
6 3ET2KuCQuKAC662n Perform single cell analysis, integrate with C... None None None notebook None None None None 2024-03-28 10:26:14.538299+00:00 2024-03-28 10:26:14.538327+00:00 1
5 y7f14tIU5DXLF7jV Postprocess Cell Ranger None 2.0 None pipeline None None None None 2024-03-28 10:26:12.544679+00:00 2024-03-28 10:26:12.544698+00:00 1
4 LfGFJY9qoKLV4foK Cell Ranger None 7.2.0 None pipeline None None None None 2024-03-28 10:26:12.080705+00:00 2024-03-28 10:26:12.080723+00:00 1
3 zA6ksI0eRf4RXxK8 Chromium 10x upload None None None pipeline None None None None 2024-03-28 10:26:11.124897+00:00 2024-03-28 10:26:11.124916+00:00 1
2 L0Iq7lBAVo0IagDw GWS CRIPSRa analysis None None None notebook None None None None 2024-03-28 10:26:09.994348+00:00 2024-03-28 10:26:09.994367+00:00 1
1 g5katrMxZa2pDt3M Upload GWS CRISPRa result None None None app None None None None 2024-03-28 10:26:08.595490+00:00 2024-03-28 10:26:08.595509+00:00 1
User
uid handle name created_at updated_at
id
2 bKeW4T6E testuser2 Test User2 2024-03-28 10:26:09.986950+00:00 2024-03-28 10:26:12.072989+00:00
1 DzTjkKse testuser1 Test User1 2024-03-28 10:26:06.827240+00:00 2024-03-28 10:26:11.116963+00:00
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!lamin login testuser1
!lamin delete --force mydata
!rm -r ./mydata
✅ logged in with email testuser1@lamin.ai (uid: DzTjkKse)
💡 deleting instance testuser1/mydata
❗ manually delete your stored data: /home/runner/work/lamin-usecases/lamin-usecases/docs/mydata