ROC: Creates an object of class "ROC" which can be plotted as a...
In cellHTS2: Analysis of cell-based screens - revised version of cellHTS
Description
Usage
Arguments
Details
Value
Author(s)
Examples
Description
The function ROC construct an object of S4 class ROC,
which represents a receiver-operator-characteristic curve,
from the data of the annotated positive and negative controls in a
scored cellHTS object.
Usage
1
2
3
4
5
6
Arguments
object
a cellHTS object which replicate data have already been scored and summarized (see details).
positives
a list or vector of regular expressions specifying the name of the positive control(s).
See the details for the argument posControls of writeReport function. The default is "^pos$".
negatives
a vector of regular expressions specifying the name of the negative control(s).
See the details for the argument negControls of writeReport function. The default is "^neg$".
x
a ROC object obtained using function ROC.
col
the graphical parameter for color; see par for details.
type
the graphical parameter giving the type of plot desired; see par for details.
main
the graphical parameter giving the desired title of plot; see par for details.
...
other graphical parameters as in par may be also passed as arguments.
Details
The cellHTS object object must be already scored (state(object)["scored"]=TRUE),
and selection proceeds from large to small values of this single per-probe score.
Furthermore, object is expected to contain positive and negative
controls annotated in the column controlStatus of the featureData slot - which can be accessed via wellAnno(object). The arguments positives and negatives should be given as regular expression patterns specifying the name of the positive(s) and negative(s) controls, respectivey.
By default, if positives is not given, pos will be taken as the name for the wells containing positive controls. Similarly, if negatives is missing, by default neg will be considered as the name used to annotate the negative controls.
The content of posControls and negControls are passed to regexpr for pattern matching within the well annotation (see examples for summarizeChannels).
If the assay is a two-way experiment, positives should be a list with components act
and inh, specifying the name of the activators, and inhibitors, respectively. In this case, the ROC curve is constructed based on the absolute values of Data(object).
Value
An S4 object of class ROC. There are methods show,
plot and lines.
Author(s)
Ligia P. Bras ligia@ebi.ac.uk
Examples
1
2
3
4
5
6
7
8
data(KcViabSmall)
x <- normalizePlates(KcViabSmall, scale="multiplicative", log=FALSE, method="median", varianceAdjust="byExperiment")
x <- scoreReplicates(x, sign="-", method="zscore")
x <- summarizeReplicates(x, summary="mean")
y <- ROC(x)
plot(y)
lines(y, col="green")
show(y)
cellHTS2 documentation built on Nov. 8, 2020, 6 p.m.
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Description Usage Arguments Details Value Author(s) Examples
Description
The function ROC construct an object of S4 class ROC,
which represents a receiver-operator-characteristic curve,
from the data of the annotated positive and negative controls in a
scored cellHTS object.
Usage
1 2 3 4 5 6 |
Arguments
object |
a |
positives |
a list or vector of regular expressions specifying the name of the positive control(s).
See the details for the argument |
negatives |
a vector of regular expressions specifying the name of the negative control(s).
See the details for the argument |
x |
a |
col |
the graphical parameter for color; see |
type |
the graphical parameter giving the type of plot desired; see |
main |
the graphical parameter giving the desired title of plot; see |
... |
other graphical parameters as in |
Details
The cellHTS object object must be already scored (state(object)["scored"]=TRUE),
and selection proceeds from large to small values of this single per-probe score.
Furthermore, object is expected to contain positive and negative
controls annotated in the column controlStatus of the featureData slot - which can be accessed via wellAnno(object). The arguments positives and negatives should be given as regular expression patterns specifying the name of the positive(s) and negative(s) controls, respectivey.
By default, if positives is not given, pos will be taken as the name for the wells containing positive controls. Similarly, if negatives is missing, by default neg will be considered as the name used to annotate the negative controls.
The content of posControls and negControls are passed to regexpr for pattern matching within the well annotation (see examples for summarizeChannels).
If the assay is a two-way experiment, positives should be a list with components act
and inh, specifying the name of the activators, and inhibitors, respectively. In this case, the ROC curve is constructed based on the absolute values of Data(object).
Value
An S4 object of class ROC. There are methods show,
plot and lines.
Author(s)
Ligia P. Bras ligia@ebi.ac.uk
Examples
1 2 3 4 5 6 7 8 | data(KcViabSmall)
x <- normalizePlates(KcViabSmall, scale="multiplicative", log=FALSE, method="median", varianceAdjust="byExperiment")
x <- scoreReplicates(x, sign="-", method="zscore")
x <- summarizeReplicates(x, summary="mean")
y <- ROC(x)
plot(y)
lines(y, col="green")
show(y)
|
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