A set of python modules for accessing BioTuring Ecosystem on BioColab private server
Project description
Usage biocolabsdk:
1. Usage bbrowserx in biocolabsdk:
The package only allows data submission via BioColab private server. Please configure your tokens in the User Settings page.
1.1. Test the connection to BBrowserX private server:
# example.py
from biocolabsdk.connector import EConnector
connector = EConnector(
private_host="https://yourcompany/t2d_index_tool/,
private_token="<input your token here>"
)
connector.get_bbrowserx().test_connection()
Example output:
Connecting to host at https://yourcompany/t2d_index_tool/api/v1/test_connection
Connection successful
1.2. Get user groups available for your token in BBrowserX private server:
# example.py
from biocolabsdk.connector import EConnector
connector = EConnector(
private_host="https://yourcompany/t2d_index_tool/,
private_token="<input your token here>"
)
user_groups = connector.get_bbrowserx().get_user_groups()
print(user_groups)
Example output:
[{'id': 'all_members', 'name': 'All members'}, {'id': 'personal', 'name': 'Personal workspace'}]
1.3. Submit your data to BBrowserX private server:
# example.py
from biocolabsdk.connector import EConnector
from bioturing_connector.typing import InputMatrixType
from bioturing_connector.typing import Species
from bioturing_connector.typing import StudyType
connector = EConnector(
private_host="https://yourcompany/t2d_index_tool/,
private_token="<input your token here>"
)
# Call this function first to get available groups and their id.
user_groups = connector.get_bbrowserx().get_user_groups()
# Example: user_groups is now [{'id': 'all_members', 'name': 'All members'}, {'id': 'personal', 'name': 'Personal workspace'}]
# Submitting the scanpy object from s3:
batch_info = [{
'matrix': 's3_path/GSE128223_1.h5ad',
}, {
'matrix': 's3_path/GSE128223_2.h5ad',
}]
connector.get_bbrowserx().submit_study_from_s3(
group_id='personal',
batch_info=batch_info,
study_id='GSE128223',
name='This is my first study',
authors=['Huy Nguyen'],
species=Species.HUMAN.value,
input_matrix_type=InputMatrixType.RAW.value,
study_type=StudyType.H5AD.value
)
# Submitting the scanpy object from local machine:
batch_info = [{
'matrix': 'local_path/GSE128223_1.h5ad',
}, {
'matrix': 'local_path/GSE128223_2.h5ad',
}]
connector.get_bbrowserx().submit_study_from_local(
group_id='personal',
batch_info=batch_info,
study_id='GSE128223',
name='This is my first study',
authors=['Huy Nguyen'],
species=Species.HUMAN.value,
input_matrix_type=InputMatrixType.RAW.value,
study_type=StudyType.H5AD.value
)
## 2. Usage talk2data in biocolabsdk:
example.py
from biocolabsdk.connector import EConnector
connector = EConnector( public_token="" )
connector.get_talk2data().test_connection()
Example output:
Connecting to host at https://talk2data.bioturing.com/t2d_index_tool/api/v1/test_connection Connection successful
You can utilize all the features in a similar way to accessing a BBroserX private server.
## 3. Usage bioflex in biocolabsdk:
You can get a Bioflex token at:
<a href="https://colab.bioturing.com/request/bioflex/token">https://colab.bioturing.com/request/bioflex/token</a>
### Create a connection using access token:
```python
from biocolabsdk.connector import EConnector
connector = EConnector(
bioflex_token="<input your token here>"
)
List available databases:
databases = connector.get_bioflex().databases()
[DataBase(id="5010c7d573ae4ff2b9691422b99aa2cd", name="BioTuring database",species="human",version=1), DataBase(id="5010c7d573ae4ff2b9691422b99aa2cd", name="BioTuring database",species="human",version=2), DataBase(id="5010c7d573ae4ff2b9691422b99aa2cd", name="BioTuring database",species="human",version=3)]
Get database cell types gene expression summary
database = databases[2]
database.get_celltypes_expression_summary(['CD3D', 'CD3E'])
{'CD3D': [Summary(name="B cell",sum=707108874.0,mean=4192.7096,rate=0.035,count=168652.0,total=4812967), Summary(name="CD4-positive, alpha-beta T cell",sum=9489987442.0,mean=4657.5619,rate=0.5283,count=2037544.0,total=3856590), ... Summary(name="corneal progenitor",sum=0.0,mean=0.0,rate=0.0,count=0.0,total=3973), Summary(name="nucleus pulposus progenitor cell",sum=0.0,mean=0.0,rate=0.0,count=0.0,total=2310)]}
Create study instance, using study hash ID from BioTuring studies:
study = database.get_study('GSE96583_batch2')
study
Study(id="GSE96583_batch2", title="Multiplexed droplet single-cell RNA-sequencing using natural genetic variation (Batch 2)", reference="https://www.nature.com/articles/nbt.4042")
Take a peek at study metadata:
study.metalist
[Metadata(id=0,name="Number of mRNA transcripts",type="Numeric"), Metadata(id=1,name="Number of genes",type="Numeric"), Metadata(id=2,name="Batch id",type="Category"), Metadata(id=3,name="Stimulation",type="Category"), Metadata(id=4,name="Author's cell type",type="Category")]
Fetch a study metadata:
metadata = study.metalist[4]
metadata
Metadata(id=4,name="Author's cell type",type="Category")
metadata.fetch()
metadata.values
array(['CD8 T cells', 'Dendritic cells', 'CD4 T cells', ..., 'CD8 T cells', 'B cells', 'CD4 T cells'], dtype='<U17')
Query genes:
exp_mtx = study.query_genes(['CD3D', 'CD3E'], bioflex.UNIT_LOGNORM)
exp_mtx
<29065x2 sparse matrix of type '<class 'numpy.float32'>' with 15492 stored elements in Compressed Sparse Column format>
Get study barcodes:
study.barcodes()
['GSM2560249_AAACATACCAAGCT-1', 'GSM2560249_AAACATACCCCTAC-1', ... 'GSM2560249_AATTGTGATTCACT-1', 'GSM2560249_AATTGTGATTTCGT-1', ...]
Get study features:
study.features()
['5S_RRNA', '5_8S_RRNA', ... 'AC006273', 'AC006277', ...]
Get study full matrix:
study.matrix(bioflex.UNIT_LOGNORM)
<29065x64642 sparse matrix of type '<class 'numpy.float32'>' with 17570739 stored elements in Compressed Sparse Column format>
Export Study:
study.export_study(bioflex.EXPORT_H5AD)
{'download_link': 'https://talk2data.bioturing.com/api/export/a1003bad3dd146b28c7bda913a2fc3f0', 'study_hash_id': 'GSE96583_batch2'}
For further information please check the documentation.
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