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fit.li.wong

Fit Li and Wong Model to a Probe Set


Description

Fits the model described in Li and Wong (2001) to a probe set with I chips and J probes.

Usage

fit.li.wong(data.matrix, remove.outliers=TRUE, normal.array.quantile=0.5,
            normal.resid.quantile=0.9, large.threshold=3, large.variation=0.8,
            outlier.fraction=0.14, delta=1e-06, maxit=50,
            outer.maxit=50,verbose=FALSE, ...)

li.wong(data.matrix,remove.outliers=TRUE, normal.array.quantile=0.5,
            normal.resid.quantile=0.9, large.threshold=3, large.variation=0.8,
            outlier.fraction=0.14, delta=1e-06, maxit=50,
            outer.maxit=50,verbose=FALSE)

Arguments

data.matrix

an I x J matrix containing the probe set data. Typically the i,j entry will contain the PM-MM value for probe pair j in chip i. Another possible use, is to use PM instead of PM-MM.

remove.outliers

logical value indicating if the algorithm will remove outliers according to the procedure described in Li and Wong (2001).

large.threshold

used to define outliers.

normal.array.quantile

quantile to be used when determining what a normal SD is. probes or chips having estimates with SDs bigger than the quantile normal.array.quantile of all SDs x large.threshold.

normal.resid.quantile

any residual bigger than the normal.resid.quantile quantile of all residuals x large.threshold is considered an outlier.

large.variation

any probe or chip describing more than this much total variation is considered an outlier.

outlier.fraction

this is the maximum fraction of single outliers that can be in the same probe or chip.

delta

numerical value used to define the stopping criterion.

maxit

maximum number of iterations when fitting the model.

outer.maxit

maximum number of iterations of defined outliers.

verbose

logical value. If TRUE information is given of the status of the algorithm.

...

additional arguments.

Details

This is Bioconductor's implementation of the Li and Wong algorithm. The Li and Wong PNAS 2001 paper was followed. However, you will not get the same results as you would get with dChip. dChip is not open source so it is not easy to reproduce.

Notice that this iterative algorithm will not always converge. If you run the algorithm on thousands of probes expect some non-convergence warnings. These are more likely when few arrays are used. We recommend using this method only if you have 10 or more arrays.

Please refer to references for more details.

Value

li.wong returns a vector of expression measures (or column effects) followed by their respective standard error estimates. It was designed to work with express which is no longer part of the package.

fit.li.wong returns much more. Namely, a list containing the fitted parameters and relevant information.

theta

fitted thetas.

phi

fitted phis.

sigma.eps

estimated standard deviation of the error term.

sigma.theta

estimated standard error of theta.

sigma.phi

estimated standard error of phis.

theta.outliers

logical vector describing which chips (thetas) are considered outliers (TRUE).

phi.outliers

logical vector describing which probe sets (phis) are considered outliers (TRUE)

convergence1

logical value. If FALSE the algorithm did not converge when fitting the phis and thetas.

convergence2

logical value. If FALSE the algorithm did not converge in deciding what are outliers.

iter

number of iterations needed to achieve convergence.

delta

difference between thetas when iteration stopped.

Author(s)

Rafael A. Irizarry, Cheng Li, Fred A. Wright, Ben Bolstad

References

Li, C. and Wong, W.H. (2001) Genome Biology 2, 1–11.

Li, C. and Wong, W.H. (2001) Proc. Natl. Acad. Sci USA 98, 31–36.

See Also

Examples

x <- sweep(matrix(2^rnorm(600),30,20),1,seq(1,2,len=30),FUN="+")
    fit1 <- fit.li.wong(x)
    plot(x[1,])
    lines(fit1$theta)

affy

Methods for Affymetrix Oligonucleotide Arrays

v1.68.0
LGPL (>= 2.0)
Authors
Rafael A. Irizarry <rafa@ds.harvard.edu>, Laurent Gautier <lgautier@gmail.com>, Benjamin Milo Bolstad <bmb@bmbolstad.com>, and Crispin Miller <cmiller@picr.man.ac.uk> with contributions from Magnus Astrand <Magnus.Astrand@astrazeneca.com>, Leslie M. Cope <cope@mts.jhu.edu>, Robert Gentleman, Jeff Gentry, Conrad Halling <challing@agilixcorp.com>, Wolfgang Huber, James MacDonald <jmacdon@u.washington.edu>, Benjamin I. P. Rubinstein, Christopher Workman <workman@cbs.dtu.dk>, John Zhang
Initial release

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