Curate DataFrames and AnnDatas¶
Curating datasets typically means three things:
Validate: ensure a dataset meets predefined validation criteria
Standardize: transform a dataset so that it meets validation criteria, e.g., by fixing typos or using standardized identifiers
Annotate: link a dataset against metadata records
In LaminDB, valid metadata is metadata that’s stored in a metadata registry and validation criteria merely defines a mapping onto a field of a registry.
Example
"Experiment 1"
is a valid value for ULabel.name
if a record with this name exists in the ULabel
registry.
# !pip install 'lamindb[bionty]'
!lamin init --storage ./test-curate --schema bionty
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→ connected lamindb: testuser1/test-curate
Validate a DataFrame¶
Let’s start with a DataFrame that we’d like to validate.
import lamindb as ln
import bionty as bt
import pandas as pd
df = pd.DataFrame(
{
"temperature": [37.2, 36.3, 38.2],
"cell_type": ["cerebral pyramidal neuron", "astrocyte", "oligodendrocyte"],
"assay_ontology_id": ["EFO:0008913", "EFO:0008913", "EFO:0008913"],
"donor": ["D0001", "D0002", "D0003"]
},
index = ["obs1", "obs2", "obs3"]
)
df
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→ connected lamindb: testuser1/test-curate
/opt/hostedtoolcache/Python/3.12.7/x64/lib/python3.12/site-packages/anndata/_io/__init__.py:12: FutureWarning: Importing read_zarr from `anndata._io` is deprecated. Please use anndata.io instead.
warnings.warn(
temperature | cell_type | assay_ontology_id | donor | |
---|---|---|---|---|
obs1 | 37.2 | cerebral pyramidal neuron | EFO:0008913 | D0001 |
obs2 | 36.3 | astrocyte | EFO:0008913 | D0002 |
obs3 | 38.2 | oligodendrocyte | EFO:0008913 | D0003 |
Define validation criteria and create a Curator
object.
# in the dictionary, each key is a column name of the dataframe, and each value
# is a registry field onto which values are mapped
categoricals = {
"cell_type": bt.CellType.name,
"assay_ontology_id": bt.ExperimentalFactor.ontology_id,
"donor": ln.ULabel.name,
}
# pass validation criteria
curate = ln.Curator.from_df(df, categoricals=categoricals)
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✓ added 3 records with Feature.name for columns: 'cell_type', 'assay_ontology_id', 'donor'
The validate()
method checks our data against the defined criteria. It identifies which values are already validated (exist in our registries) and which are potentially problematic (do not yet exist in our registries).
curate.validate()
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• saving validated records of 'cell_type'
✓ added 2 records from public with CellType.name for cell_type: 'oligodendrocyte', 'astrocyte'
• saving validated records of 'assay_ontology_id'
• mapping cell_type on CellType.name
! 1 term is not validated: 'cerebral pyramidal neuron'
→ fix typo, remove non-existent value, or save term via .add_new_from('cell_type')
✓ 'assay_ontology_id' is validated against ExperimentalFactor.ontology_id
• mapping donor on ULabel.name
! 3 terms are not validated: 'D0001', 'D0002', 'D0003'
→ fix typos, remove non-existent values, or save terms via .add_new_from('donor')
False
Register new metadata values¶
If you see “non-validated” values, you’ll need to decide whether to add them to your registries or “fix” them in your dataset.
For cell_type
, we saw that ‘cerebral pyramidal neuron’ is not validated, let’s understand which cell type in the public ontology might be the actual match.
# to check the correct spelling of categories, pass `public=True` to get a lookup object from public ontologies
# use `lookup = curate.lookup()` to get a lookup object of existing records in your instance
lookup = curate.lookup(public=True)
lookup
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Lookup objects from the public:
.cell_type
.assay_ontology_id
.donor
.columns
Example:
→ categories = validator.lookup()['cell_type']
→ categories.alveolar_type_1_fibroblast_cell
To look up public ontologies, use .lookup(public=True)
# here is an example for the "cell_type" column
cell_types = lookup["cell_type"]
cell_types.cerebral_cortex_pyramidal_neuron
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CellType(ontology_id='CL:4023111', name='cerebral cortex pyramidal neuron', definition='A Pyramidal Neuron With Soma Located In The Cerebral Cortex.', synonyms=None, parents=array(['CL:0000598', 'CL:0010012'], dtype=object))
# fix the cell type
df.cell_type = df.cell_type.replace({"cerebral pyramidal neuron": cell_types.cerebral_cortex_pyramidal_neuron.name})
For donor, we want to add the new donors: “D0001”, “D0002”, “D0003”
# this adds donors that were _not_ validated
curate.add_new_from("donor")
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✓ added 3 records with ULabel.name for donor: 'D0002', 'D0001', 'D0003'
# validate again
validated = curate.validate()
validated
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• saving validated records of 'cell_type'
✓ 'cell_type' is validated against CellType.name
✓ 'assay_ontology_id' is validated against ExperimentalFactor.ontology_id
✓ 'donor' is validated against ULabel.name
True
Validate an AnnData¶
Here we additionally specify which var_index
to validate against.
import anndata as ad
X = pd.DataFrame(
{
"ENSG00000081059": [1, 2, 3],
"ENSG00000276977": [4, 5, 6],
"ENSG00000198851": [7, 8, 9],
"ENSG00000010610": [10, 11, 12],
"ENSG00000153563": [13, 14, 15],
"ENSGcorrupted": [16, 17, 18]
},
index=df.index
)
adata = ad.AnnData(X=X, obs=df)
adata
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AnnData object with n_obs × n_vars = 3 × 6
obs: 'temperature', 'cell_type', 'assay_ontology_id', 'donor'
curate = ln.Curator.from_anndata(
adata,
var_index=bt.Gene.ensembl_gene_id, # validate var.index against Gene.ensembl_gene_id
categoricals=categoricals,
organism="human",
)
curate.validate()
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• saving validated records of 'var_index'
✓ added 5 records from public with Gene.ensembl_gene_id for var_index: 'ENSG00000081059', 'ENSG00000276977', 'ENSG00000198851', 'ENSG00000010610', 'ENSG00000153563'
• mapping var_index on Gene.ensembl_gene_id
! 1 term is not validated: 'ENSGcorrupted'
→ fix typo, remove non-existent value, or save term via .add_new_from_var_index()
✓ 'cell_type' is validated against CellType.name
✓ 'assay_ontology_id' is validated against ExperimentalFactor.ontology_id
✓ 'donor' is validated against ULabel.name
False
Non-validated terms can be accessed via:
curate.non_validated
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{'var_index': ['ENSGcorrupted']}
Subset the AnnData
to validated genes only:
adata_validated = adata[:, ~adata.var.index.isin(curate.non_validated["var_index"])].copy()
Now let’s validate the subsetted object:
curate = ln.Curator.from_anndata(
adata_validated,
var_index=bt.Gene.ensembl_gene_id, # validate var.index against Gene.ensembl_gene_id
categoricals=categoricals,
organism="human",
)
curate.validate()
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✓ 'var_index' is validated against Gene.ensembl_gene_id
✓ 'cell_type' is validated against CellType.name
✓ 'assay_ontology_id' is validated against ExperimentalFactor.ontology_id
✓ 'donor' is validated against ULabel.name
True
Save a curated artifact¶
The validated object can be subsequently saved as an Artifact
:
artifact = curate.save_artifact(description="test AnnData")
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! no run & transform got linked, call `ln.track()` & re-run
! run input wasn't tracked, call `ln.track()` and re-run
! 1 unique term (25.00%) is not validated for name: temperature
Saved artifact has been annotated with validated features and labels:
artifact.describe()
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Artifact(uid='4Yd88OHFzzKsq6HN0000', is_latest=True, description='test AnnData', suffix='.h5ad', type='dataset', size=20336, hash='8z6kAdTVBaDIDuA6aivzNg', n_observations=3, _hash_type='md5', _accessor='AnnData', visibility=1, _key_is_virtual=True, created_at=2024-11-11 10:27:39 UTC)
Provenance
.storage = '/home/runner/work/lamindb/lamindb/docs/test-curate'
.created_by = 'testuser1'
Labels
.cell_types = 'oligodendrocyte', 'astrocyte', 'cerebral cortex pyramidal neuron'
.experimental_factors = 'single-cell RNA sequencing'
.ulabels = 'D0002', 'D0001', 'D0003'
Features
'assay_ontology_id' = 'single-cell RNA sequencing'
'cell_type' = 'astrocyte', 'cerebral cortex pyramidal neuron', 'oligodendrocyte'
'donor' = 'D0001', 'D0002', 'D0003'
Feature sets
'var' = 'TCF7', 'PDCD1', 'CD3E', 'CD4', 'CD8A'
'obs' = 'cell_type', 'assay_ontology_id', 'donor'
We’ve walked through the process of validating, standardizing, and annotating datasets going through these key steps:
Defining validation criteria
Validating data against existing registries
Adding new validated entries to registries
Annotating artifacts with validated metadata
By following these steps, you can ensure your data is standardized and well-curated.
If you have datasets that aren’t DataFrame-like or AnnData-like, read: Curate datasets of any format.