CStreet is a python script (python 3.6 or higher) for cell states trajectory construction by using k-nearest neighbors graph algorithm for time-series single-cell RNA-seq data.
Project description
CStreet Overview
CStreet is a python script (python 3.6 or higher) for cell states trajectory construction by using k-nearest neighbors graph algorithm for time-series single-cell RNA-seq data. It is a developmental version.
Installation
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Install CStreet by
pip3
CStreet can be installed directly by using
pip3
commands :$ pip3 install cstreet
Quick Start
Input file: Only expression matrix containing the time-series expression level as reads counts or normalized values for this developmental version.
Output file: An inferenced cell states trajectory.
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Add new time-series single cell RNA-seq data.
from cstreet import * import pandas as pd # Read single cell data as DataFrame data_t1=pd.read_table('data_t1.txt',header=0, sep="\t",index_col=0) data_t2=pd.read_table('data_t2.txt',header=0, sep="\t",index_col=0) data_t3=pd.read_table('data_t3.txt',header=0, sep="\t",index_col=0) # Create a new CStreet object cdata=CStreetData() # add data into CStreet object cdata.add_new_timepoint_scdata(data_t1) cdata.add_new_timepoint_scdata(data_t2) cdata.add_new_timepoint_scdata(data_t3)
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Customize parameters.
#Step0:basic parameters cdata.params.output_dir="./" cdata.params.output_name="cstreet_project" #Step1:cell cluster cdata.params.cell_cluster_pca_n=10 cdata.params.cell_cluster_knn_n=15 cdata.params.cell_cluster_resolution=0.1 #Step2:gene and cell filter cdata.params.filter_dead_cell=True cdata.params.percent_mito_cutoff=0.2 cdata.params.filter_lowcell_gene=True cdata.params.min_cells=3 cdata.params.filter_lowgene_cells=True cdata.params.min_genes=200 #Step3:normalize cdata.params.normalize=True cdata.params.normalize_base=10000 cdata.params.log_transform=True #Step4:get HVG cdata.params.highly_variable_genes=False #Step5:get graph cdata.params.inner_graph_pca_n=10 cdata.params.inner_graph_knn_n=15 cdata.params.link_graph_pca_n=10 cdata.params.link_graph_knn_n=15 cdata.params.max_outgoing=10 cdata.params.min_score=0.1 cdata.params.min_cell_number=50
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Run CStreet
cdata.run_cstreet()
Result
An example of inferenced cell trajectory:
Project details
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