runNMF: Perform NMF on cell-level data
In davismcc/scater: Single-Cell Analysis Toolkit for Gene Expression Data in R
calculateNMF R Documentation
Perform NMF on cell-level data
Description
Perform non-negative matrix factorization (NMF) for the cells, based on the data in a SingleCellExperiment object.
Usage
calculateNMF(x, ...)
## S4 method for signature 'ANY'
calculateNMF(
x,
ncomponents = 2,
ntop = 500,
subset_row = NULL,
scale = FALSE,
transposed = FALSE,
seed = 1,
...
)
## S4 method for signature 'SummarizedExperiment'
calculateNMF(x, ..., exprs_values = "logcounts", assay.type = exprs_values)
## S4 method for signature 'SingleCellExperiment'
calculateNMF(
x,
...,
exprs_values = "logcounts",
dimred = NULL,
n_dimred = NULL,
assay.type = exprs_values
)
runNMF(x, ..., altexp = NULL, name = "NMF")
Arguments
x
For calculateNMF, a numeric matrix of log-expression values where rows are features and columns are cells.
Alternatively, a SummarizedExperiment or SingleCellExperiment containing such a matrix.
For runNMF, a SingleCellExperiment object.
...
For the calculateNMF generic, additional arguments to pass to specific methods.
For the ANY method, additional arguments to pass to Rtsne.
For the SummarizedExperiment and SingleCellExperiment methods, additional arguments to pass to the ANY method.
For runNMF, additional arguments to pass to calculateNMF.
ncomponents
Numeric scalar indicating the number of NMF dimensions to obtain.
ntop
Numeric scalar specifying the number of features with the highest variances to use for dimensionality reduction.
subset_row
Vector specifying the subset of features to use for dimensionality reduction.
This can be a character vector of row names, an integer vector of row indices or a logical vector.
scale
Logical scalar, should the expression values be standardized?
transposed
Logical scalar, is x transposed with cells in rows?
seed
Random number generation seed to be passed to nmf.
exprs_values
Alias to assay.type.
assay.type
Integer scalar or string indicating which assay of x contains the expression values.
dimred
String or integer scalar specifying the existing dimensionality reduction results to use.
n_dimred
Integer scalar or vector specifying the dimensions to use if dimred is specified.
altexp
String or integer scalar specifying an alternative experiment containing the input data.
name
String specifying the name to be used to store the result in the reducedDims of the output.
Details
The function nmf is used internally to compute the NMF.
Note that the algorithm is not deterministic, so different runs of the function will produce differing results.
Users are advised to test multiple random seeds, and then use set.seed to set a random seed for replicable results.
Value
For calculateNMF, a numeric matrix is returned containing the NMF coordinates for each cell (row) and dimension (column).
For runNMF, a modified x is returned that contains the NMF coordinates in reducedDim(x, name).
In both cases, the matrix will have the attribute "basis" containing the gene-by-factor basis matrix.
Feature selection
This section is relevant if x is a numeric matrix of (log-)expression values with features in rows and cells in columns;
or if x is a SingleCellExperiment and dimred=NULL.
In the latter, the expression values are obtained from the assay specified by assay.type.
The subset_row argument specifies the features to use for dimensionality reduction.
The aim is to allow users to specify highly variable features to improve the signal/noise ratio,
or to specify genes in a pathway of interest to focus on particular aspects of heterogeneity.
If subset_row=NULL, the ntop features with the largest variances are used instead.
We literally compute the variances from the expression values without considering any mean-variance trend,
so often a more considered choice of genes is possible, e.g., with scran functions.
Note that the value of ntop is ignored if subset_row is specified.
If scale=TRUE, the expression values for each feature are standardized so that their variance is unity.
This will also remove features with standard deviations below 1e-8.
Using reduced dimensions
If x is a SingleCellExperiment, the method can be applied on existing dimensionality reduction results in x by setting the dimred argument.
This is typically used to run slower non-linear algorithms (t-SNE, UMAP) on the results of fast linear decompositions (PCA).
We might also use this with existing reduced dimensions computed from a priori knowledge (e.g., gene set scores), where further dimensionality reduction could be applied to compress the data.
The matrix of existing reduced dimensions is taken from reducedDim(x, dimred).
By default, all dimensions are used to compute the second set of reduced dimensions.
If n_dimred is also specified, only the first n_dimred columns are used.
Alternatively, n_dimred can be an integer vector specifying the column indices of the dimensions to use.
When dimred is specified, no additional feature selection or standardization is performed.
This means that any settings of ntop, subset_row and scale are ignored.
If x is a numeric matrix, setting transposed=TRUE will treat the rows as cells and the columns as the variables/diemnsions.
This allows users to manually pass in dimensionality reduction results without needing to wrap them in a SingleCellExperiment.
As such, no feature selection or standardization is performed, i.e., ntop, subset_row and scale are ignored.
Using alternative Experiments
This section is relevant if x is a SingleCellExperiment and altexp is not NULL.
In such cases, the method is run on data from an alternative SummarizedExperiment nested within x.
This is useful for performing dimensionality reduction on other features stored in altExp(x, altexp), e.g., antibody tags.
Setting altexp with assay.type will use the specified assay from the alternative SummarizedExperiment.
If the alternative is a SingleCellExperiment, setting dimred will use the specified dimensionality reduction results from the alternative.
This option will also interact as expected with n_dimred.
Note that the output is still stored in the reducedDims of the output SingleCellExperiment.
It is advisable to use a different name to distinguish this output from the results generated from the main experiment's assay values.
Author(s)
Aaron Lun
See Also
nmf, for the underlying calculations.
plotNMF, to quickly visualize the results.
Examples
example_sce <- mockSCE()
example_sce <- logNormCounts(example_sce)
example_sce <- runNMF(example_sce)
reducedDimNames(example_sce)
head(reducedDim(example_sce))
davismcc/scater documentation built on July 19, 2024, 2:01 a.m.
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| calculateNMF | R Documentation |
Perform NMF on cell-level data
Description
Perform non-negative matrix factorization (NMF) for the cells, based on the data in a SingleCellExperiment object.
Usage
calculateNMF(x, ...)
## S4 method for signature 'ANY'
calculateNMF(
x,
ncomponents = 2,
ntop = 500,
subset_row = NULL,
scale = FALSE,
transposed = FALSE,
seed = 1,
...
)
## S4 method for signature 'SummarizedExperiment'
calculateNMF(x, ..., exprs_values = "logcounts", assay.type = exprs_values)
## S4 method for signature 'SingleCellExperiment'
calculateNMF(
x,
...,
exprs_values = "logcounts",
dimred = NULL,
n_dimred = NULL,
assay.type = exprs_values
)
runNMF(x, ..., altexp = NULL, name = "NMF")
Arguments
x |
For For |
... |
For the For |
ncomponents |
Numeric scalar indicating the number of NMF dimensions to obtain. |
ntop |
Numeric scalar specifying the number of features with the highest variances to use for dimensionality reduction. |
subset_row |
Vector specifying the subset of features to use for dimensionality reduction. This can be a character vector of row names, an integer vector of row indices or a logical vector. |
scale |
Logical scalar, should the expression values be standardized? |
transposed |
Logical scalar, is |
seed |
Random number generation seed to be passed to |
exprs_values |
Alias to |
assay.type |
Integer scalar or string indicating which assay of |
dimred |
String or integer scalar specifying the existing dimensionality reduction results to use. |
n_dimred |
Integer scalar or vector specifying the dimensions to use if |
altexp |
String or integer scalar specifying an alternative experiment containing the input data. |
name |
String specifying the name to be used to store the result in the |
Details
The function nmf is used internally to compute the NMF.
Note that the algorithm is not deterministic, so different runs of the function will produce differing results.
Users are advised to test multiple random seeds, and then use set.seed to set a random seed for replicable results.
Value
For calculateNMF, a numeric matrix is returned containing the NMF coordinates for each cell (row) and dimension (column).
For runNMF, a modified x is returned that contains the NMF coordinates in reducedDim(x, name).
In both cases, the matrix will have the attribute "basis" containing the gene-by-factor basis matrix.
Feature selection
This section is relevant if x is a numeric matrix of (log-)expression values with features in rows and cells in columns;
or if x is a SingleCellExperiment and dimred=NULL.
In the latter, the expression values are obtained from the assay specified by assay.type.
The subset_row argument specifies the features to use for dimensionality reduction.
The aim is to allow users to specify highly variable features to improve the signal/noise ratio,
or to specify genes in a pathway of interest to focus on particular aspects of heterogeneity.
If subset_row=NULL, the ntop features with the largest variances are used instead.
We literally compute the variances from the expression values without considering any mean-variance trend,
so often a more considered choice of genes is possible, e.g., with scran functions.
Note that the value of ntop is ignored if subset_row is specified.
If scale=TRUE, the expression values for each feature are standardized so that their variance is unity.
This will also remove features with standard deviations below 1e-8.
Using reduced dimensions
If x is a SingleCellExperiment, the method can be applied on existing dimensionality reduction results in x by setting the dimred argument.
This is typically used to run slower non-linear algorithms (t-SNE, UMAP) on the results of fast linear decompositions (PCA).
We might also use this with existing reduced dimensions computed from a priori knowledge (e.g., gene set scores), where further dimensionality reduction could be applied to compress the data.
The matrix of existing reduced dimensions is taken from reducedDim(x, dimred).
By default, all dimensions are used to compute the second set of reduced dimensions.
If n_dimred is also specified, only the first n_dimred columns are used.
Alternatively, n_dimred can be an integer vector specifying the column indices of the dimensions to use.
When dimred is specified, no additional feature selection or standardization is performed.
This means that any settings of ntop, subset_row and scale are ignored.
If x is a numeric matrix, setting transposed=TRUE will treat the rows as cells and the columns as the variables/diemnsions.
This allows users to manually pass in dimensionality reduction results without needing to wrap them in a SingleCellExperiment.
As such, no feature selection or standardization is performed, i.e., ntop, subset_row and scale are ignored.
Using alternative Experiments
This section is relevant if x is a SingleCellExperiment and altexp is not NULL.
In such cases, the method is run on data from an alternative SummarizedExperiment nested within x.
This is useful for performing dimensionality reduction on other features stored in altExp(x, altexp), e.g., antibody tags.
Setting altexp with assay.type will use the specified assay from the alternative SummarizedExperiment.
If the alternative is a SingleCellExperiment, setting dimred will use the specified dimensionality reduction results from the alternative.
This option will also interact as expected with n_dimred.
Note that the output is still stored in the reducedDims of the output SingleCellExperiment.
It is advisable to use a different name to distinguish this output from the results generated from the main experiment's assay values.
Author(s)
Aaron Lun
See Also
nmf, for the underlying calculations.
plotNMF, to quickly visualize the results.
Examples
example_sce <- mockSCE()
example_sce <- logNormCounts(example_sce)
example_sce <- runNMF(example_sce)
reducedDimNames(example_sce)
head(reducedDim(example_sce))
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