pie graph

Assignment information: (delete this when you submit) In this assignment you will re-build the pie graphs shown in the paper “Genomics is failing on diversity” by Popejoy and Fullerton (https://www.nature.com/articles/538161a). Delete all instructions and replace with short explanatory text about all code chunks. Be sure to change the title in the YAML header.

If possible, save this file to your Teams folder.

Introduction

The analysis was conducted by Alice B. Popejoy and Stephanie M.Fullerton. Some populations are still left behind on the root to precesion medicine. The approach was used to gather data is querying the GWAS Catalog; sample description and ancestry categories. Their result show the proportion of individuals included in GWAS who are not of European descent has increased to nearly 20%. ## Create data

Create vectors to contain the data and labels to make the pie graphs at the top of figures.

Each vector has 3 elements: European ancestry, Asian ancestry, and other non-European ancestry.

DO NOT name your vector for the labels “labels”, since this is the name of an existing R function.

Include new line characters in the text as needed to improve spacing.

euro_non_euro<-c(96,3,1)

ancestry_2009<-c("European ancestry\n","Asian\n","Other non_European\n")

euro_non_euro2<-c(81,14,5)

ancestry_2016<-c("European ancestry\n","Asian\n", "other non_European\n")

Pro Tip: adding a new line character in front of the text or behind it in your labels and help you adjust spacing. E.g. “European” or “” (note - if you don’t delete this instruction the preceding text will have some weird features.)

Pie graphs

1. Create a 1 x 2 grid using the command par(mfrow = c(1,2))
2. Plot the 2009 data on the left and 2016 data on the right.
3. This will require setting up the pie command twomce
4. Use the argument main = … to add a title to above the plots
5. Set the argument init.angle = … to -82. Experiment with how this affects the plot.
6. Set the argument radius = … to 1. Experiment with how this affects the plot.
7. Set the argument col = … to c(1,2,3), then experiment with different numbers. Try to make it ugly.

# set up par()
par(mfrow = c(1,2), mar = c(2,3,1,5))

#pie graphs 1
# add main, init.angle, radius, and col
pie(euro_non_euro,
    main = "ancestry_2009", 
    init.angle = -82,
    radius = 1,
    col = c(1,2,3))

# pie graph 2
# add main, init.angle, radius, and col
pie(euro_non_euro2,
    main = "ancestry_2016",
    init.angle = -82,
    radius = 1,
    col = c(1,2,3))

Bar graphs

If you want, you can examine this code below to see how stracked bar graphs are made

# data
dat2016 <- c(14, 3,1,0.54,0.28,0.08,0.05)
dat2016_rev <- rev(dat2016)
barplotdata2016 <- matrix(c(dat2016_rev))

# labels
labels_x <- rev(c("Asian","African","Mixed", "Hispanic &\nLatin American",
                        "Pacific Islander","Arab & Middle East","Native peoples"))

par(mfrow = c(1,1))

barplot(barplotdata2016,
        width = 0.01, 
        xlim = c(0,0.1),
         axes = F,
        col = c(1,2,3,4,5,6,7),
        legend.text = labels_x)