MA-Plot of Expression Data
Creates an MA-plot with color coding for control spots.
## Default S3 method: plotMA(object, array = 1, xlab = "Average log-expression", ylab = "Expression log-ratio (this sample vs others)", main = colnames(object)[array], status=NULL, ...) ## S3 method for class 'EList' plotMA(object, array = 1, xlab = "Average log-expression", ylab = "Expression log-ratio (this sample vs others)", main = colnames(object)[array], status=object$genes$Status, zero.weights = FALSE, ...) ## S3 method for class 'RGList' plotMA(object, array = 1, xlab = "A", ylab = "M", main = colnames(object)[array], status=object$genes$Status, zero.weights = FALSE, ...) ## S3 method for class 'MAList' plotMA(object, array = 1, xlab = "A", ylab = "M", main = colnames(object)[array], status=object$genes$Status, zero.weights = FALSE, ...) ## S3 method for class 'MArrayLM' plotMA(object, coef = ncol(object), xlab = "Average log-expression", ylab = "log-fold-change", main = colnames(object)[coef], status=object$genes$Status, zero.weights = FALSE, ...)
object |
an |
array |
integer giving the array to be plotted. |
coef |
integer giving the linear model coefficient to be plotted. |
xlab |
character string, label for x-axis |
ylab |
character string, label for y-axis |
main |
character string, title for plot |
status |
vector giving the control status of each spot on the array, of same length as the number of rows of |
zero.weights |
logical, should spots with zero or negative weights be plotted? |
... |
other arguments are passed to |
An MA-plot is a plot of log-intensity ratios (M-values) versus log-intensity averages (A-values). See Ritchie et al (2015) for a brief historical review.
For two color data objects, a within-array MA-plot is produced with the M and A values computed from the two channels for the specified array.
This is the same as a mean-difference plot (mdplot
) with the red and green log2-intensities of the array providing the two columns.
For single channel data objects, a between-array MA-plot is produced. An artificial array is produced by averaging all the arrays other than the array specified. A mean-difference plot is then producing from the specified array and the artificial array. Note that this procedure reduces to an ordinary mean-difference plot when there are just two arrays total.
If object
is an MArrayLM
object, then the plot is an fitted model MA-plot in which the estimated coefficient is on the y-axis and the average A-value is on the x-axis.
The status
vector can correspond to any grouping of the probes that is of interest.
If object
is a fitted model object, then status
vector is often used to indicate statistically significance, so that differentially expressed points are highlighted.
If object
is a microarray data object, then status
might distinguish control probes from regular probes so that different types of controls are highlighted.
The status
can be included as the component object$genes$Status
instead of being passed as an argument to plotMA
.
See plotWithHighlights
for how to set colors and graphics parameters for the highlighted and non-highlighted points.
A plot is created on the current graphics device.
The plotMD
function provides the same functionality as plotMA
with slightly different arguments.
Gordon Smyth
Ritchie, ME, Phipson, B, Wu, D, Hu, Y, Law, CW, Shi, W, and Smyth, GK (2015). limma powers differential expression analyses for RNA-sequencing and microarray studies. Nucleic Acids Research Volume 43, e47. http://nar.oxfordjournals.org/content/43/7/e47
The driver function for plotMA
is plotWithHighlights
.
An overview of plot functions available in LIMMA is given in 09.Diagnostics.
A <- runif(1000,4,16) y <- A + matrix(rnorm(1000*3,sd=0.2),1000,3) status <- rep(c(0,-1,1),c(950,40,10)) y[,1] <- y[,1] + status plotMA(y, array=1, status=status, values=c(-1,1), hl.col=c("blue","red")) MA <- new("MAList") MA$A <- runif(300,4,16) MA$M <- rt(300,df=3) # Spike-in values MA$M[1:3] <- 0 MA$M[4:6] <- 3 MA$M[7:9] <- -3 status <- rep("Gene",300) status[1:3] <- "M=0" status[4:6] <- "M=3" status[7:9] <- "M=-3" values <- c("M=0","M=3","M=-3") col <- c("blue","red","green") plotMA(MA,main="MA-Plot with 12 spiked-in points", status=status, values=values, hl.col=col) # Same as above but setting graphical parameters as attributes attr(status,"values") <- values attr(status,"col") <- col plotMA(MA, main="MA-Plot with 12 spiked-in points", status=status) # Same as above but passing status as part of object MA$genes$Status <- status plotMA(MA, main="MA-Plot with 12 spiked-in points") # Change settings for background points MA$genes$Status <- status plotMA(MA, bg.pch=1, bg.cex=0.5)
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