cluster_cells: Cluster cells using Louvain/Leiden community detection
In cole-trapnell-lab/monocle3: Clustering, Differential Expression, and Trajectory Analysis for Single-Cell RNA-Seq
View source: R/cluster_cells.R
cluster_cells R Documentation
Cluster cells using Louvain/Leiden community detection
Description
Unsupervised clustering of cells is a common step in many single-cell
expression workflows. In an experiment containing a mixture of cell types,
each cluster might correspond to a different cell type. This function takes
a cell_data_set as input, clusters the cells using Louvain/Leiden community
detection, and returns a cell_data_set with internally stored cluster
assignments. In addition to clusters this function calculates partitions,
which represent superclusters of the Louvain/Leiden communities that are found
using a kNN pruning method. Cluster assignments can be accessed using the
clusters function and partition assignments can be
accessed using the partitions function.
Usage
cluster_cells(
cds,
reduction_method = c("UMAP", "tSNE", "PCA", "LSI", "Aligned"),
k = 20,
cluster_method = c("leiden", "louvain"),
num_iter = 2,
partition_qval = 0.05,
weight = FALSE,
resolution = NULL,
random_seed = 42,
verbose = FALSE,
nn_control = list(),
...
)
Arguments
cds
The cell_data_set upon which to perform clustering.
reduction_method
The dimensionality reduction method upon which to
base clustering. Options are "UMAP", "tSNE", "PCA" and "LSI".
k
Integer number of nearest neighbors to use when creating the k
nearest neighbor graph for Louvain/Leiden clustering. k is related to the
resolution of the clustering result, a bigger k will result in lower
resolution and vice versa. Default is 20.
cluster_method
String indicating the clustering method to use.
Options are "louvain" or "leiden". Default is "leiden". Resolution
parameter is ignored if set to "louvain".
num_iter
Integer number of iterations used for Louvain/Leiden
clustering. The clustering result giving the largest modularity score will
be used as the final clustering result. Default is 1. Note that if
num_iter is greater than 1, the random_seed argument will be ignored
for the louvain method.
partition_qval
Numeric, the q-value cutoff to determine when to
partition. Default is 0.05.
weight
A logical argument to determine whether or not to use Jaccard
coefficients for two nearest neighbors (based on the overlapping of their
kNN) as the weight used for Louvain clustering. Default is FALSE.
resolution
Parameter that controls the resolution of clustering. If
NULL (Default), the parameter is determined automatically.
random_seed
The seed used by the random number generator in
louvain-igraph package. This argument will be ignored if num_iter is
larger than 1.
verbose
A logic flag to determine whether or not we should print the
run details.
nn_control
An optional list of parameters used to make the nearest
neighbor index. See the set_nn_control help for detailed information.
The default metric is cosine for reduction_methods PCA, LSI, and Aligned,
and is euclidean for reduction_methods tSNE and UMAP.
...
Additional arguments passed to the leidenbase package.
Value
an updated cell_data_set object, with cluster and partition
information stored internally and accessible using
clusters and partitions
References
Rodriguez, A., & Laio, A. (2014). Clustering by fast search and
find of density peaks. Science, 344(6191), 1492-1496.
doi:10.1126/science.1242072
Vincent D. Blondel, Jean-Loup Guillaume, Renaud Lambiotte,
Etienne Lefebvre: Fast unfolding of communities in large networks.
J. Stat. Mech. (2008) P10008
V. A. Traag and L. Waltman and N. J. van Eck: From Louvain
to Leiden: guaranteeing well-connected communities. Scientific Reports,
9(1) (2019). doi: 10.1038/s41598-019-41695-z.
Jacob H. Levine and et. al. Data-Driven Phenotypic Dissection of
AML Reveals Progenitor-like Cells that Correlate with Prognosis.
Cell, 2015.
Examples
cell_metadata <- readRDS(system.file('extdata',
'worm_embryo/worm_embryo_coldata.rds',
package='monocle3'))
gene_metadata <- readRDS(system.file('extdata',
'worm_embryo/worm_embryo_rowdata.rds',
package='monocle3'))
expression_matrix <- readRDS(system.file('extdata',
'worm_embryo/worm_embryo_expression_matrix.rds',
package='monocle3'))
cds <- new_cell_data_set(expression_data=expression_matrix,
cell_metadata=cell_metadata,
gene_metadata=gene_metadata)
cds <- preprocess_cds(cds)
cds <- reduce_dimension(cds)
cds <- cluster_cells(cds)
cole-trapnell-lab/monocle3 documentation built on April 7, 2024, 9:24 p.m.
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View source: R/cluster_cells.R
| cluster_cells | R Documentation |
Cluster cells using Louvain/Leiden community detection
Description
Unsupervised clustering of cells is a common step in many single-cell
expression workflows. In an experiment containing a mixture of cell types,
each cluster might correspond to a different cell type. This function takes
a cell_data_set as input, clusters the cells using Louvain/Leiden community
detection, and returns a cell_data_set with internally stored cluster
assignments. In addition to clusters this function calculates partitions,
which represent superclusters of the Louvain/Leiden communities that are found
using a kNN pruning method. Cluster assignments can be accessed using the
clusters function and partition assignments can be
accessed using the partitions function.
Usage
cluster_cells(
cds,
reduction_method = c("UMAP", "tSNE", "PCA", "LSI", "Aligned"),
k = 20,
cluster_method = c("leiden", "louvain"),
num_iter = 2,
partition_qval = 0.05,
weight = FALSE,
resolution = NULL,
random_seed = 42,
verbose = FALSE,
nn_control = list(),
...
)
Arguments
cds |
The cell_data_set upon which to perform clustering. |
reduction_method |
The dimensionality reduction method upon which to base clustering. Options are "UMAP", "tSNE", "PCA" and "LSI". |
k |
Integer number of nearest neighbors to use when creating the k nearest neighbor graph for Louvain/Leiden clustering. k is related to the resolution of the clustering result, a bigger k will result in lower resolution and vice versa. Default is 20. |
cluster_method |
String indicating the clustering method to use. Options are "louvain" or "leiden". Default is "leiden". Resolution parameter is ignored if set to "louvain". |
num_iter |
Integer number of iterations used for Louvain/Leiden clustering. The clustering result giving the largest modularity score will be used as the final clustering result. Default is 1. Note that if num_iter is greater than 1, the random_seed argument will be ignored for the louvain method. |
partition_qval |
Numeric, the q-value cutoff to determine when to partition. Default is 0.05. |
weight |
A logical argument to determine whether or not to use Jaccard coefficients for two nearest neighbors (based on the overlapping of their kNN) as the weight used for Louvain clustering. Default is FALSE. |
resolution |
Parameter that controls the resolution of clustering. If NULL (Default), the parameter is determined automatically. |
random_seed |
The seed used by the random number generator in louvain-igraph package. This argument will be ignored if num_iter is larger than 1. |
verbose |
A logic flag to determine whether or not we should print the run details. |
nn_control |
An optional list of parameters used to make the nearest neighbor index. See the set_nn_control help for detailed information. The default metric is cosine for reduction_methods PCA, LSI, and Aligned, and is euclidean for reduction_methods tSNE and UMAP. |
... |
Additional arguments passed to the leidenbase package. |
Value
an updated cell_data_set object, with cluster and partition
information stored internally and accessible using
clusters and partitions
References
Rodriguez, A., & Laio, A. (2014). Clustering by fast search and find of density peaks. Science, 344(6191), 1492-1496. doi:10.1126/science.1242072
Vincent D. Blondel, Jean-Loup Guillaume, Renaud Lambiotte, Etienne Lefebvre: Fast unfolding of communities in large networks. J. Stat. Mech. (2008) P10008
V. A. Traag and L. Waltman and N. J. van Eck: From Louvain to Leiden: guaranteeing well-connected communities. Scientific Reports, 9(1) (2019). doi: 10.1038/s41598-019-41695-z.
Jacob H. Levine and et. al. Data-Driven Phenotypic Dissection of AML Reveals Progenitor-like Cells that Correlate with Prognosis. Cell, 2015.
Examples
cell_metadata <- readRDS(system.file('extdata',
'worm_embryo/worm_embryo_coldata.rds',
package='monocle3'))
gene_metadata <- readRDS(system.file('extdata',
'worm_embryo/worm_embryo_rowdata.rds',
package='monocle3'))
expression_matrix <- readRDS(system.file('extdata',
'worm_embryo/worm_embryo_expression_matrix.rds',
package='monocle3'))
cds <- new_cell_data_set(expression_data=expression_matrix,
cell_metadata=cell_metadata,
gene_metadata=gene_metadata)
cds <- preprocess_cds(cds)
cds <- reduce_dimension(cds)
cds <- cluster_cells(cds)
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