Slide-seq_Cerebellum
[1]:
import warnings
warnings.filterwarnings("ignore")
import MENDER
import scanpy as sc
import pandas as pd
import numpy as np
from sklearn.metrics import *
import time
[2]:
## load the data using pysodb, please install pysodb in advance [https://pysodb.readthedocs.io/en/latest/]
import pysodb
sodb = pysodb.SODB()
adata_raw = sodb.load_experiment('stickels2020highly','stickels2021highly_Slide-seqV2_Mouse_Cerebellum_SCP948')
load experiment[stickels2021highly_Slide-seqV2_Mouse_Cerebellum_SCP948] in dataset[stickels2020highly]
[3]:
sc.pp.filter_cells(adata_raw, min_counts=10)
sc.pp.filter_genes(adata_raw, min_cells=10)
[4]:
adata_raw.layers["counts"] = adata_raw.X.copy()
sc.pp.highly_variable_genes(adata_raw, flavor="seurat_v3", n_top_genes=4000)
sc.pp.normalize_total(adata_raw, inplace=True)
sc.pp.log1p(adata_raw)
sc.pp.pca(adata_raw)
sc.pp.neighbors(adata_raw)
sc.tl.umap(adata_raw)
sc.tl.leiden(adata_raw,resolution=2)
WARNING: adata.X seems to be already log-transformed.
[5]:
adata = adata_raw.copy()
[6]:
# input parameters of MENDER
scale = 4
# main body of MENDER
msm = MENDER.MENDER_single(
adata,
# determine which cell state to use
# we use the cell state got by Leiden
ct_obs='leiden'
)
estimated radius: 15.05332427373264
[7]:
# set the MENDER parameters
msm.set_MENDER_para(
# default of n_scales is 6
n_scales=scale,
# for single cell data, nn_mode is set to 'radius'
nn_mode='radius',
# default of n_scales is 15 um (see the manuscript for why).
# MENDER also provide a function 'estimate_radius' for estimating the radius
nn_para=15,
)
# construct the context representation
msm.run_representation(
# the number of processings
)
# set the spatial clustering parameter
# positive values for the expected number of domains
# negative values for the clustering resolution
msm.run_clustering_normal(-0.5)
scale 0, median #cells per radius (r=15): 1.0
scale 1, median #cells per radius (r=15): 5.0
scale 2, median #cells per radius (r=15): 8.0
scale 3, median #cells per radius (r=15): 11.0
[8]:
msm.output_cluster('MENDER')
[9]:
msm.adata_MENDER.write_h5ad('dump/Slide-seq_Cerebellum.h5ad')
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