dev/N52_workflow.R
In stemangiola/ttBulk: Brings transcriptomics to the tidyverse
library(tidyverse)
library(tidybulk)
my_theme =
theme_bw() +
theme(
panel.border = element_blank(),
axis.line = element_line(),
panel.grid.major = element_line(size = 0.2),
panel.grid.minor = element_line(size = 0.1),
text = element_text(size=12),
legend.position="bottom",
aspect.ratio=1,
strip.background = element_blank(),
axis.title.x = element_text(margin = margin(t = 10, r = 10, b = 10, l = 10)),
axis.title.y = element_text(margin = margin(t = 10, r = 10, b = 10, l = 10))
)
counts =
readRDS("dev/N52.rds") %>%
filter(symbol %>% is.na %>% `!`) %>%
group_by(cell_type_formatted) %>%
do( keep_abundant((.), sample, symbol, count, minimum_proportion = 1/2) ) %>%
ungroup() %>%
group_by(symbol) %>%
mutate(n = n()) %>%
ungroup() %>%
filter(n == 52) %>%
select(-n)
# Create tidybulk object
tt = counts %>% tidybulk(sample, symbol, count)
# Normalise
tt_scaled = tt %>% scale_abundance()
# Plot densities
tt_scaled %>%
pivot_longer(values_to = "count", names_to = "Normalisation", cols = c(count, `count_scaled`)) %>%
ggplot(aes(count + 1, group=sample, color=cell_type_formatted)) +
facet_grid(~Normalisation) +
geom_density() + scale_x_log10() +
my_theme
# Visualise MDS for cell types
tt_scaled %>%
reduce_dimensions(method="MDS", .dims = 3) %>%
select(contains("Dim"), sample, CAPRA_TOTAL, cell_type_formatted) %>%
distinct() %>%
GGally::ggpairs(columns = 1:3, ggplot2::aes(colour=cell_type_formatted))
# Vidualise MDS CAPRA
tt_scaled %>%
group_by(cell_type_formatted) %>%
do(reduce_dimensions((.), method="MDS")) %>%
select(contains("Dim"), sample, CAPRA_TOTAL, cell_type_formatted) %>%
distinct() %>%
ggplot(aes(x=Dim1, y = Dim2, color=CAPRA_TOTAL)) +
geom_point() +
facet_wrap(~cell_type_formatted)
stemangiola/ttBulk documentation built on April 10, 2024, 3:36 p.m.
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
library(tidyverse)
library(tidybulk)
my_theme =
theme_bw() +
theme(
panel.border = element_blank(),
axis.line = element_line(),
panel.grid.major = element_line(size = 0.2),
panel.grid.minor = element_line(size = 0.1),
text = element_text(size=12),
legend.position="bottom",
aspect.ratio=1,
strip.background = element_blank(),
axis.title.x = element_text(margin = margin(t = 10, r = 10, b = 10, l = 10)),
axis.title.y = element_text(margin = margin(t = 10, r = 10, b = 10, l = 10))
)
counts =
readRDS("dev/N52.rds") %>%
filter(symbol %>% is.na %>% `!`) %>%
group_by(cell_type_formatted) %>%
do( keep_abundant((.), sample, symbol, count, minimum_proportion = 1/2) ) %>%
ungroup() %>%
group_by(symbol) %>%
mutate(n = n()) %>%
ungroup() %>%
filter(n == 52) %>%
select(-n)
# Create tidybulk object
tt = counts %>% tidybulk(sample, symbol, count)
# Normalise
tt_scaled = tt %>% scale_abundance()
# Plot densities
tt_scaled %>%
pivot_longer(values_to = "count", names_to = "Normalisation", cols = c(count, `count_scaled`)) %>%
ggplot(aes(count + 1, group=sample, color=cell_type_formatted)) +
facet_grid(~Normalisation) +
geom_density() + scale_x_log10() +
my_theme
# Visualise MDS for cell types
tt_scaled %>%
reduce_dimensions(method="MDS", .dims = 3) %>%
select(contains("Dim"), sample, CAPRA_TOTAL, cell_type_formatted) %>%
distinct() %>%
GGally::ggpairs(columns = 1:3, ggplot2::aes(colour=cell_type_formatted))
# Vidualise MDS CAPRA
tt_scaled %>%
group_by(cell_type_formatted) %>%
do(reduce_dimensions((.), method="MDS")) %>%
select(contains("Dim"), sample, CAPRA_TOTAL, cell_type_formatted) %>%
distinct() %>%
ggplot(aes(x=Dim1, y = Dim2, color=CAPRA_TOTAL)) +
geom_point() +
facet_wrap(~cell_type_formatted)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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