Validate & register multi-modal data#
scRNA data has moved beyond just RNA and can also include the measurements of other modalities such as chromatin accessibility, surface proteins or adaptive immune receptors. ECCITE-seq is designed to enable interrogation of single-cell transcriptomes together with surface protein markers in the context of CRISPR screens.
Here, weβll showcase how to curate and register ECCITE-seq data from Papalexi21 in the form of MuData objects.
Setup#
Show code cell content
!lamin init --storage ./test-multimodal --schema bionty
π‘ creating schemas: core==0.47.3 bionty==0.30.3
β
saved: User(id='DzTjkKse', handle='testuser1', email='testuser1@lamin.ai', name='Test User1', updated_at=2023-09-04 09:36:07)
β
saved: Storage(id='KQh4E4AL', root='/home/runner/work/lamin-usecases/lamin-usecases/docs/test-multimodal', type='local', updated_at=2023-09-04 09:36:07, created_by_id='DzTjkKse')
β
loaded instance: testuser1/test-multimodal
π‘ did not register local instance on hub (if you want, call `lamin register`)
import lamindb as ln
import lnschema_bionty as lb
lb.settings.species = "human"
ln.settings.verbosity = 3
β
loaded instance: testuser1/test-multimodal (lamindb 0.52.1)
ln.track()
π‘ notebook imports: lamindb==0.52.1 lnschema_bionty==0.30.3
β
saved: Transform(id='yMWSFirS6qv2z8', name='Validate & register multi-modal data', short_name='multimodal', version='0', type=notebook, updated_at=2023-09-04 09:36:09, created_by_id='DzTjkKse')
β
saved: Run(id='IEwp3qxaCiMBtngHZsJE', run_at=2023-09-04 09:36:09, transform_id='yMWSFirS6qv2z8', created_by_id='DzTjkKse')
Papalexi21#
Letβs use a MuData object:
Transform #
Show code cell content
mdata = ln.dev.datasets.mudata_papalexi21_subset()
mdata
MuData object with n_obs Γ n_vars = 200 Γ 300 var: 'name' 4 modalities rna: 200 x 173 obs: 'orig.ident', 'nCount_RNA', 'nFeature_RNA', 'nCount_HTO', 'nFeature_HTO', 'nCount_GDO', 'nCount_ADT', 'nFeature_ADT', 'percent.mito', 'MULTI_ID', 'HTO_classification', 'guide_ID', 'gene_target', 'NT', 'perturbation', 'replicate', 'S.Score', 'G2M.Score', 'Phase' var: 'name' adt: 200 x 4 obs: 'orig.ident', 'nCount_RNA', 'nFeature_RNA', 'nCount_HTO', 'nFeature_HTO', 'nCount_GDO', 'nCount_ADT', 'nFeature_ADT', 'percent.mito', 'MULTI_ID', 'HTO_classification', 'guide_ID', 'gene_target', 'NT', 'perturbation', 'replicate', 'S.Score', 'G2M.Score', 'Phase' var: 'name' hto: 200 x 12 obs: 'orig.ident', 'nCount_RNA', 'nFeature_RNA', 'nCount_HTO', 'nFeature_HTO', 'nCount_GDO', 'nCount_ADT', 'nFeature_ADT', 'percent.mito', 'MULTI_ID', 'HTO_classification', 'guide_ID', 'gene_target', 'NT', 'perturbation', 'replicate', 'S.Score', 'G2M.Score', 'Phase' var: 'name' gdo: 200 x 111 obs: 'orig.ident', 'nCount_RNA', 'nFeature_RNA', 'nCount_HTO', 'nFeature_HTO', 'nCount_GDO', 'nCount_ADT', 'nFeature_ADT', 'percent.mito', 'MULTI_ID', 'HTO_classification', 'guide_ID', 'gene_target', 'NT', 'perturbation', 'replicate', 'S.Score', 'G2M.Score', 'Phase' var: 'name'
MuData objects build on top of AnnData objects to store and serialize multimodal data. More information can be found on the MuData documentation.
First we register the file:
file = ln.File(
"papalexi21_subset.h5mu", description="Sub-sampled MuData from Papalexi21"
)
file.save()
β
storing file 'y7j5sMmmKdRVYxpQhQMT' at '.lamindb/y7j5sMmmKdRVYxpQhQMT.h5mu'
Now letβs validate and register the 3 feature sets this data contains:
RNA (gene expression)
ADT (antibody derived tags reflecting surface proteins)
obs (metadata)
For the two modalities rna and adt, we use bionty tables as the reference:
Validate #
mdata["rna"].var_names[:5]
Index(['RP5-827C21.6', 'XX-CR54.1', 'SH2D6', 'RP11-379B18.5', 'RP11-778D9.12'], dtype='object', name='index')
lb.Gene.validate(mdata["rna"].var_names, lb.Gene.symbol);
β 173 terms (100.00%) are not validated for symbol: RP5-827C21.6, XX-CR54.1, SH2D6, RP11-379B18.5, RP11-778D9.12, RP11-703G6.1, AC005150.1, RP11-717H13.1, CTC-498J12.1, CTC-467M3.1, ARHGAP26-AS1, GABRA1, HIST1H4K, HLA-DQB1-AS1, RP11-524H19.2, SPACA1, VNN1, AC006042.7, AC002066.1, AC073934.6, ...
genes = lb.Gene.from_values(mdata["rna"].var_names, lb.Gene.symbol)
ln.save(genes)
β
created 77 Gene records from Bionty matching symbol: 'SH2D6', 'ARHGAP26-AS1', 'GABRA1', 'HLA-DQB1-AS1', 'SPACA1', 'VNN1', 'CTAGE15', 'PFKFB1', 'TRPC5', 'RBPMS-AS1', 'CA8', 'CSMD3', 'ZNF483', 'AK8', 'TMEM72-AS1', 'ARAP1-AS2', 'CRYAB', 'HOXC-AS2', 'LRRIQ1', 'TUBA3C', ...
β
created 12 Gene records from Bionty matching synonyms: 'CTC-467M3.1', 'HIST1H4K', 'CASC1', 'LARGE', 'NBPF16', 'C1orf65', 'IBA57-AS1', 'KIAA1239', 'TMEM75', 'AP003419.16', 'FAM65C', 'C14orf177'
β ambiguous validation in Bionty for 6 records: 'HLA-DQB1-AS1', 'CTAGE15', 'CTRB2', 'LGALS9C', 'PCDHB11', 'TBC1D3G'
β did not create Gene records for 84 non-validated symbols: 'AC002066.1', 'AC004019.13', 'AC005150.1', 'AC006042.7', 'AC011558.5', 'AC026471.6', 'AC073934.6', 'AC091132.1', 'AC092295.4', 'AC092687.5', 'AE000662.93', 'AL132989.1', 'AP000442.4', 'CTA-373H7.7', 'CTB-134F13.1', 'CTB-31O20.9', 'CTC-498J12.1', 'CTD-2562J17.2', 'CTD-3012A18.1', 'CTD-3065B20.2', ...
mdata["rna"].var_names = lb.Gene.standardize(mdata["rna"].var_names, lb.Gene.symbol)
π‘ standardized 89/173 terms
validated = lb.Gene.validate(mdata["rna"].var_names, lb.Gene.symbol)
β
89 terms (51.40%) are validated for symbol
β 84 terms (48.60%) are not validated for symbol: RP5-827C21.6, XX-CR54.1, RP11-379B18.5, RP11-778D9.12, RP11-703G6.1, AC005150.1, RP11-717H13.1, CTC-498J12.1, RP11-524H19.2, AC006042.7, AC002066.1, AC073934.6, RP11-268G12.1, U52111.14, RP11-235C23.5, RP11-12J10.3, RP11-324E6.9, RP11-187A9.3, RP11-365N19.2, RP11-346D14.1, ...
new_genes = [
lb.Gene(symbol=symbol, species=lb.settings.species)
for symbol in mdata["rna"].var_names[~validated]
]
ln.save(new_genes)
lb.Gene.validate(mdata["rna"].var_names, lb.Gene.symbol);
β
173 terms (100.00%) are validated for symbol
feature_set_rna = ln.FeatureSet.from_values(
mdata["rna"].var_names, field=lb.Gene.symbol
)
β
173 terms (100.00%) are validated for symbol
mdata["adt"].var_names
Index(['CD86', 'PDL1', 'PDL2', 'CD366'], dtype='object', name='index')
lb.CellMarker.validate(mdata["adt"].var_names, field=lb.CellMarker.name);
β 4 terms (100.00%) are not validated for name: CD86, PDL1, PDL2, CD366
markers = lb.CellMarker.from_values(mdata["adt"].var_names, field=lb.CellMarker.name)
ln.save(markers)
β
created 4 CellMarker records from Bionty matching name: 'CD86', 'PDL1', 'PDL2', 'CD366'
lb.CellMarker.validate(mdata["adt"].var_names, field=lb.CellMarker.name);
β
4 terms (100.00%) are validated for name
Register #
feature_set_adt = ln.FeatureSet.from_values(
mdata["adt"].var_names, field=lb.CellMarker.name
)
β
4 terms (100.00%) are validated for name
Link them to file:
file.features.add_feature_set(feature_set_rna, slot="rna")
file.features.add_feature_set(feature_set_adt, slot="adt")
The 3rd feature set is the obs:
obs = mdata["rna"].obs
Weβre only interested in a single metadata column:
ln.Feature(name="gene_target", type="category").save()
features = ln.Feature.from_df(obs)
ln.save(features)
feature_set_obs = ln.FeatureSet.from_df(obs)
β
19 terms (100.00%) are validated for name
file.features.add_feature_set(feature_set_obs, slot="obs")
gene_targets = lb.Gene.from_values(obs["gene_target"], lb.Gene.symbol)
ln.save(gene_targets)
features = ln.Feature.lookup()
file.add_labels(gene_targets, feature=features.gene_target)
β
created 23 Gene records from Bionty matching symbol: 'IFNGR1', 'CAV1', 'IRF7', 'ATF2', 'NFKBIA', 'STAT1', 'SPI1', 'JAK2', 'STAT2', 'IFNGR2', 'CD86', 'STAT5A', 'SMAD4', 'ETV7', 'IRF1', 'UBE2L6', 'PDCD1LG2', 'BRD4', 'POU2F2', 'STAT3', ...
β
created 1 Gene record from Bionty matching synonyms: 'MARCH8'
β ambiguous validation in Bionty for 4 records: 'MARCHF8', 'IRF7', 'IFNGR2', 'TNFRSF14'
β did not create Gene record for 1 non-validated symbol: 'NT'
β
linked feature 'gene_target' to registry 'bionty.Gene'
nt = ln.Label(name="NT", description="Non-targeting control of perturbations")
nt.save()
file.add_labels(nt, feature=features.gene_target)
β
linked feature 'gene_target' to registry 'core.Label'
for col in ["orig.ident", "perturbation", "replicate", "Phase", "guide_ID"]:
labels = [ln.Label(name=name) for name in obs[col].unique()]
ln.save(labels)
β
loaded Label record with exact same name: 'NT'
Because none of these labels seem like something weβd want to track in the registry or validate, we donβt link them to the file.
file.features
Features:
rna: FeatureSet(id='nYzwcdWJSnKiKknjhJJf', n=184, type='number', registry='bionty.Gene', hash='Y8lsRtXCZKyPPberKAF0', updated_at=2023-09-04 09:36:15, created_by_id='DzTjkKse')
CRYBA1 (number)
CTB-31O20.9 (number)
NWD2 (number)
UTS2B (number)
TULP2 (number)
RP11-75C10.9 (number)
AC026471.6 (number)
RP11-110I1.14 (number)
HPN (number)
RP11-186N15.3 (number)
...
adt: FeatureSet(id='fWxwHbsTeMP6AI7U3wJJ', n=4, type='number', registry='bionty.CellMarker', hash='b-CtyjgPRO0WN27lTOqC', updated_at=2023-09-04 09:36:15, created_by_id='DzTjkKse')
CD86 (number)
PDL1 (number)
PDL2 (number)
CD366 (number)
obs: FeatureSet(id='ulTJvdAiWwAcDDxAa7gM', n=19, registry='core.Feature', hash='4pU-Rdt86xgCPcwrJW04', updated_at=2023-09-04 09:36:15, created_by_id='DzTjkKse')
nFeature_RNA (number)
guide_ID (category)
nCount_RNA (number)
Phase (category)
replicate (category)
HTO_classification (category)
nFeature_HTO (number)
G2M.Score (number)
π gene_target (bionty.Gene|core.Label)
π gene_target (28, bionty.Gene): 'STAT5A', 'JAK2', 'IRF7', 'IFNGR2', 'CAV1', 'SMAD4', 'IRF7', 'IRF1', 'CD86', 'STAT3', ...
π gene_target (1, core.Label): 'NT'
NT (category)
nFeature_ADT (number)
perturbation (category)
nCount_HTO (number)
nCount_ADT (number)
orig.ident (category)
nCount_GDO (number)
percent.mito (number)
S.Score (number)
MULTI_ID (category)
file.describe()
π‘ File(id='y7j5sMmmKdRVYxpQhQMT', suffix='.h5mu', accessor='MuData', description='Sub-sampled MuData from Papalexi21', size=606320, hash='RaivS3NesDOP-6kNIuaC3g', hash_type='md5', updated_at=2023-09-04 09:36:09)
Provenance:
ποΈ storage: Storage(id='KQh4E4AL', root='/home/runner/work/lamin-usecases/lamin-usecases/docs/test-multimodal', type='local', updated_at=2023-09-04 09:36:07, created_by_id='DzTjkKse')
π« transform: Transform(id='yMWSFirS6qv2z8', name='Validate & register multi-modal data', short_name='multimodal', version='0', type=notebook, updated_at=2023-09-04 09:36:09, created_by_id='DzTjkKse')
π£ run: Run(id='IEwp3qxaCiMBtngHZsJE', run_at=2023-09-04 09:36:09, transform_id='yMWSFirS6qv2z8', created_by_id='DzTjkKse')
π€ created_by: User(id='DzTjkKse', handle='testuser1', email='testuser1@lamin.ai', name='Test User1', updated_at=2023-09-04 09:36:07)
Features:
rna: FeatureSet(id='nYzwcdWJSnKiKknjhJJf', n=184, type='number', registry='bionty.Gene', hash='Y8lsRtXCZKyPPberKAF0', updated_at=2023-09-04 09:36:15, created_by_id='DzTjkKse')
CRYBA1 (number)
CTB-31O20.9 (number)
NWD2 (number)
UTS2B (number)
TULP2 (number)
RP11-75C10.9 (number)
AC026471.6 (number)
RP11-110I1.14 (number)
HPN (number)
RP11-186N15.3 (number)
...
adt: FeatureSet(id='fWxwHbsTeMP6AI7U3wJJ', n=4, type='number', registry='bionty.CellMarker', hash='b-CtyjgPRO0WN27lTOqC', updated_at=2023-09-04 09:36:15, created_by_id='DzTjkKse')
CD86 (number)
PDL1 (number)
PDL2 (number)
CD366 (number)
obs: FeatureSet(id='ulTJvdAiWwAcDDxAa7gM', n=19, registry='core.Feature', hash='4pU-Rdt86xgCPcwrJW04', updated_at=2023-09-04 09:36:15, created_by_id='DzTjkKse')
nFeature_RNA (number)
guide_ID (category)
nCount_RNA (number)
Phase (category)
replicate (category)
HTO_classification (category)
nFeature_HTO (number)
G2M.Score (number)
π gene_target (bionty.Gene|core.Label)
π gene_target (28, bionty.Gene): 'STAT5A', 'JAK2', 'IRF7', 'IFNGR2', 'CAV1', 'SMAD4', 'IRF7', 'IRF1', 'CD86', 'STAT3', ...
π gene_target (1, core.Label): 'NT'
NT (category)
nFeature_ADT (number)
perturbation (category)
nCount_HTO (number)
nCount_ADT (number)
orig.ident (category)
nCount_GDO (number)
percent.mito (number)
S.Score (number)
MULTI_ID (category)
file.view_flow()
Show code cell content
!lamin delete --force test-multimodal
!rm -r test-multimodal
π‘ deleting instance testuser1/test-multimodal
β
deleted instance settings file: /home/runner/.lamin/instance--testuser1--test-multimodal.env
β
instance cache deleted
β
deleted '.lndb' sqlite file
β consider manually deleting your stored data: /home/runner/work/lamin-usecases/lamin-usecases/docs/test-multimodal