Introduction to dotplots in R
Nathan Brouwer
10/21/2021
Sequence dotplots in R
By: Avril Coghlan.
Adapted, edited and expanded: Nathan Brouwer under the Creative Commons 3.0 Attribution License (CC BY 3.0).
NOTE: I’ve added some new material that is rather terse and lacks explication.
Good sources of more info: https://omicstutorials.com/interpreting-dot-plot-bioinformatics-with-an-example/
As a first step in comparing two protein, RNA or DNA sequences, it is a good idea to make a dotplot. A dotplot is a graphical method that allows the comparison of two protein or DNA sequences and identify regions of close similarity between them. A dotplot is essentially a two-dimensional matrix (like a grid), which has the sequences of the proteins being compared along the vertical and horizontal axes.
In order to make a simple dotplot to represent of the similarity between two sequences, individual cells in the matrix can be shaded black if residues are identical, so that matching sequence segments appear as runs of diagonal lines across the matrix. Identical proteins will have a line exactly on the main diagonal of the dotplot, that spans across the whole matrix.
For proteins that are not identical, but share regions of similarity, the dotplot will have shorter lines that may be on the main diagonal, or off the main diagonal of the matrix. In essence, a dotplot will reveal if there are any regions that are clearly very similar in two protein (or DNA) sequences.
Preliminaries
library(compbio4all)
library(rentrez)Visualzing two identical sequences
To help build our intuition about dotplots we’ll first look at some artificial examples. First, we’ll see what happens when we make a dotplot comparing the alphabet versus itself. The build-in LETTERS object in R contains the alphabet from A to Z. This is a sequence with no repeats.
#LETTERS
seqinr::dotPlot(LETTERS ,LETTERS ) # add code
What we get is a perfect diagonal line.
Visualizing repeats
Here we create a double repeat for our dotPlot to show what the pattern looks like if two distinct repeats are present.
LETTERS.2.times <- c(LETTERS, LETTERS) # add code
seqinr::dotPlot(LETTERS.2.times,
LETTERS.2.times)
We create Letters repeated 3 times to show what 3 distint repeats on a dotplot looks like
LETTERS.3.times <- c(LETTERS, LETTERS, LETTERS)# add code
seqinr::dotPlot(LETTERS.3.times, LETTERS.3.times) # add code
The rep function takes a vector arg and the number of repeats to make, here we assign seq.repeat 3 times to seq1
seq.repeat <- c("A","C","D","E","F","G","H","I")
# add code
seq1 <- rep(seq.repeat, 3)Make the dotplot:
# add code
seqinr::dotPlot(seq1, seq1)
##Dotplot with Inversion Pattern
Here we reverse a LETTERS in our dotPlot to show what an inversion pattern would look like when plotting a sequence comparisson.
“invert” means “inversion”
LETTERS.3.times.with.invert <- c(LETTERS, rev(LETTERS), LETTERS) # add code
seqinr::dotPlot(LETTERS.3.times.with.invert, LETTERS.3.times.with.invert)# add code
here we create 3 vectors of different letters to modulate what a Translocate (Change in location for a sequence pattern) would look like.
seg1 <- LETTERS[1:8]
seg2 <- LETTERS[9:18] # add code
seg3 <- LETTERS[18:26] # add code
LETTERS.with.transloc <- c(seg1, seg3, seg2)# add code
seqinr::dotPlot(LETTERS.with.transloc, LETTERS.with.transloc) # add code
##Creating Random Samples sample() creates a random sample given the vector, num of items to choose, and if we should be sampling with replacement. Here we use the LETTERS vector with a size of 26 with replacement, below we do the same but without replacement.
sample(x = LETTERS, size = 26, replace = T)## [1] "F" "K" "H" "Z" "X" "H" "V" "W" "Q" "W" "H" "A" "Y" "Z" "U" "L" "M" "Z" "Z"
## [20] "R" "W" "K" "A" "R" "C" "N"letters.rand1 <- sample(x = LETTERS, size = 26, replace = F)# add code
letters.rand2 <- sample(x=LETTERS, size=26, replace=F)# add code
seqinr::dotPlot(letters.rand1, letters.rand2
)# add code
Download sequences
Now we’ll make a real dotplot of the chorismate lyase proteins from two closely related species, Mycobacterium leprae and Mycobacterium ulcerans.
Note - these are protein sequences so db = “protein”
TODO: briefly summarize these steps Here we download protein fasta for these two proteins then run the fasta cleaner on them to make them usable for practical analysis.
# sequence 1: Q9CD83
leprae_fasta <- rentrez::entrez_fetch(db = "protein",# add code
id = "Q9CD83",
rettype = "fasta")
# sequence 2: OIN17619.1
ulcerans_fasta <- rentrez::entrez_fetch(db ="protein", # add code
id = "OIN17619.1",
rettype = "fasta")
# add code
leprae_vector <- compbio4all::fasta_cleaner(leprae_fasta) # add code
ulcerans_vector <- compbio4all::fasta_cleaner(ulcerans_fasta) # add code##Plotting Two Sequences
We can create a dotplot for two sequences using the dotPlot() function in the seqinr package.
First, let’s look at a dotplot created using only a single sequence. This is frequently done to investigate a sequence for the presence of repeats.
(Note - and older version of this exercise stated this kind of anlysis wasn’t normally done; this was written last year before I knew of the use of dotplots for investigating sequence repeats.)
seqinr::dotPlot(leprae_vector, leprae_vector)
seqinr::dotPlot(ulcerans_vector, ulcerans_vector)
seqinr::dotPlot(leprae_vector, ulcerans_vector)# add code
Based on the dotplot, the indels contained in the central line are expected provided we are comparing two seperate sequences. Due to the size of these vectors it is hard to distinguish any definitive patter, they clearly have many similar amino acids based on the quantity of dots but actually creating a tangible pattern from this is impossible without further analysis.
In the dotplot above, the M. leprae sequence is plotted along the x-axis (horizontal axis), and the M. ulcerans sequence is plotted along the y-axis (vertical axis). The dotplot displays a dot at points where there is an identical amino acid in the two sequences.
For example, if amino acid 53 in the M. leprae sequence is the same amino acid (eg. “W”) as amino acid 70 in the M. ulcerans sequence, then the dotplot will show a dot the position in the plot where x =50 and y =53.
In this case you can see a lot of dots along a diagonal line, which indicates that the two protein sequences contain many identical amino acids at the same (or very similar) positions along their lengths. This is what you would expect, because we know that these two proteins are homologs (related proteins) because they share a close evolutionary history.