library(CellaRepertorium)
library(SingleCellExperiment)
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library(dplyr)
library(ggplot2)
library(readr)
library(tidyr)
library(stringr)
library(purrr)
It is possible to combine ContigCellDB
objects with SingleCellExperiment
objects that measure overlapping barcodes. We choose to include the ContigCellDB
object as a member of the colData
. In this way, it is possible to include different cellular “views” of the repertoire, such as the alpha chain and beta chain properties, as well as the paired clonotypes.
First we’ll cook up some single cell expression data.
set.seed(1345)
data(ccdb_ex)
barcodes = ccdb_ex$cell_tbl[ccdb_ex$cell_pk]
# Take a subsample of almost all of the barcdes
barcodes = barcodes[sample(nrow(barcodes), nrow(barcodes) - 5),]
samples = unique(ccdb_ex$cell_tbl[setdiff(ccdb_ex$cell_pk, 'barcode')])
# For each sample, generate 0-100 "extra" barcodes for which only 5' expression is recovered
extra = samples %>% rowwise() %>% mutate(extrabc = {
extra_bc = floor(runif(1, 0, 100))
list(tibble(barcode = paste0('barcode', seq_len(extra_bc))))
})
extra = extra %>% unnest(cols = c(extrabc))
all_bc = bind_rows(extra, barcodes)
Simulate some “cells” and “genes” that nearly form a superset of the cells for which repertoire are available. This is generally true if no barcode filters have been applied to the expression data. In practice a few cells may have repertoire but not expression (or fail QC for expression). We will work with the intersection of these cells.
genes = 200
cells = nrow(all_bc)
array_size = genes*cells
expression = matrix(rnbinom(array_size, size = 5, mu = 3), nrow = genes, ncol = cells)
sce = SingleCellExperiment(assay = list(counts = expression), colData = all_bc)
ccdb2 = ccdb_join(sce, ccdb_ex)
ccdb2 = cdhit_ccdb(ccdb2, 'cdr3', type = 'AA', cluster_pk = 'aa80', identity = .8, min_length = 5)
ccdb2 = fine_clustering(ccdb2, sequence_key = 'cdr3', type = 'AA', keep_clustering_details = FALSE)
#> Calculating intradistances on 993 clusters.
#> Summarizing
The ccdb_join(template, ccdb)
function does a left join of the template
onto the cell_tbl
of the ccdb
. This will ensure that the cell_tbl
is expanded and ordered properly to mesh with sce
when we add it below.
colData(sce)$alpha = canonicalize_cell(ccdb2, chain == 'TRA', contig_fields = c('chain', 'v_gene','d_gene', 'j_gene', 'aa80'))
colData(sce)$beta = canonicalize_cell(ccdb2, chain == 'TRB', contig_fields = c('chain', 'v_gene','d_gene', 'j_gene', 'aa80'))
colData(sce)$pairing = enumerate_pairing(ccdb2, chain_recode_fun = 'guess')
We can add multiple views, represented as fields in the colData(sce)
of the repertoire.
We can leverage Scater’s ability to use “nested” data frames to visualize TCR features.
library(scater)
#> Loading required package: scuttle
sce = logNormCounts(sce)
sce = runPCA(sce)
plotReducedDim(sce, dimred = 'PCA', colour_by = I(sce$pairing$pairing), point_alpha = 1)
Here we calculate the first two principal components (which aren’t very interesting because these are simulated data without any special structure), and then visualize if the TCR was paired or not.
only_paired = sce[,which(sce$pairing$pairing == 'paired')]
plotReducedDim(only_paired, dimred = 'PCA', colour_by = I(only_paired$alpha$j_gene), point_alpha = 1)
#> Warning: Removed 328 rows containing missing values (geom_point).
plotReducedDim(only_paired, dimred = 'PCA', colour_by = I(only_paired$beta$j_gene), point_alpha = 1)
Since the ContigCellDB
is nested within the SingleCellExperiment
it automatically gets subsetted appropriately when the parent object is subsetted. Enough data.frame
-like semantics have been implemented so that fields from the cell_tbl
can be visualized.
sessionInfo()
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