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I have some very large files that contain a genomic position (position) and a corresponding population genetic statistic (value). I have successfully plotted these values and would like to color code the top 5% (blue) and 1% (red) of values. I am wondering if there is an easy way to do this in R.

Fst Values

I have explored writing a function that defines the quantiles, however, many of them end up being not unique and thus cause the function to fail. I've also looked into stat_quantile but only had success in using this to plot a line marking the 95% and 99% (and some of the lines were diagonals which did not make any sense to me.) (Sorry, I am new to R.)

Any help would be much appreciated.

Here is my code: (The files are very large)

########Combine data from multiple files
fst <- rbind(data.frame(key="a1-a3", position=a1.3$V2, value=a1.3$V3), data.frame(key="a1-a2", position=a1.2$V2, value=a1.2$V3), data.frame(key="a2-a3", position=a2.3$V2, value=a2.3$V3), data.frame(key="b1-b2", position=b1.2$V2, value=b1.2$V3), data.frame(key="c1-c2", position=c1.2$V2, value=c1.2$V3))

########the plot
theme_set(theme_bw(base_size = 16))

p1 <- ggplot(fst, aes(x=position, y=value)) + 
  geom_point() + 
  facet_wrap(~key) +
  ylab("Fst") + 
  xlab("Genomic Position (Mb)") +
  scale_x_continuous(breaks=c(1e+06, 2e+06, 3e+06, 4e+06), labels=c("1", "2", "3", "4")) +
  scale_y_continuous(limits=c(0,1)) +
  theme(plot.background = element_blank(),
    panel.background = element_blank(),
    panel.border = element_blank(),
    legend.title = element_blank()
share|improve this question
You'll find you get quicker, better responses if you provide data to work with. Showing how you got fst doesn't help, because we don't have any of your starting data. You can post some of your own data with dput(), or make a minimal dummy set. –  alexwhan Aug 28 '13 at 1:26
It's not OK to accept an answer to your question, then decide to change the question a month later, unaccept the answer and modify your question - this totally defeats the purpose of the archived Q&A format. If you have a new question, post a new question! Best thing to do is reverse your edit, re-accept the answer, and post your new question. –  alexwhan Oct 11 '13 at 4:17
Sorry alexwhan! I am new to this Q&A format and didn't think the edit would be seen if it had an accepted answer. I hadn't thought to post it as a new question. –  ONeillMB1 Oct 12 '13 at 4:29
the new question is now here:… –  ONeillMB1 Oct 12 '13 at 4:30

3 Answers 3

up vote 1 down vote accepted

This is how I would approach it - basically creating a factor defining which group each observation is in, then mapping colour to that factor.

First, some data to work with!

dat <- data.frame(key = c("a1-a3", "a1-a2"), position = 1:100, value = rlnorm(200, 0, 1))
#Get quantiles
quants <- quantile(dat$value, c(0.95, 0.99))

There are plenty of ways of getting a factor to determine which group each observation falls into, here is one:

dat$quant  <- with(dat, factor(ifelse(value < quants[1], 0, 
                                  ifelse(value < quants[2], 1, 2))))

So quant now indicates whether an observation is in the 95-99 or 99+ group. The colour of the points in a plot can then easily be mapped to quant.

ggplot(dat, aes(position, value)) + geom_point(aes(colour = quant)) + facet_wrap(~key) +
  scale_colour_manual(values = c("black", "blue", "red"), 
                      labels = c("0-95", "95-99", "99-100")) + theme_bw()

enter image description here

share|improve this answer
+1. I think this could be a bit more efficient using cut: transform(dat, quant=cut(value, quantile(value, c(0,.95,.99,1)), c("0-95", "95-99", "99-100"), TRUE)) –  Señor O Oct 9 '13 at 17:12
Thanks alexwhan! This worked well. Now, I'd like to add a new level of complexity to the color-coding (see edited post above) and cannot seem to get the right values. Any ideas? Thank you! –  ONeillMB1 Oct 9 '13 at 17:22

You can achieve this slightly more elegantly by incorporating quantile and cut into the aes colour expression. For example col=cut(d,quantile(d)) in this example:

d = as.vector(round(abs(10 * sapply(1:4, function(n)rnorm(20, mean=n, sd=.6)))))

ggplot(data=NULL, aes(x=1:length(d), y=d, col=cut(d,quantile(d)))) + 
  geom_point(size=5) + scale_colour_manual(values=rainbow(5))

enter image description here

I've also made a useful workflow for pretty legend labels which someone might find handy.

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I´m not sure if this is what you are searching for, but maybe it helps:

# a little function which returns factors with three levels, normal, 95% and 99%
qfun <- function(x, qant_1=0.95, qant_2=0.99){
  q <- sort(c(quantile(x, qant_1), quantile(x, qant_2)))
  factor(cut(x, breaks = c(min(x), q[1], q[2], max(x))))

df <- data.frame(samp=rnorm(1000))

ggplot(df, aes(x=1:1000, y=df$samp)) + geom_point(colour=qfun(df$samp))+
  theme(plot.background = element_blank(),
        panel.background = element_blank(),
        panel.border = element_blank(),
        legend.title = element_blank())  

as a result I gotenter image description here

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