addint: Add pairwise interaction to a multiple-QTL model
In qtl: Tools for Analyzing QTL Experiments

addint

R Documentation

Add pairwise interaction to a multiple-QTL model

Description

Try adding all possible pairwise interactions, one at a time, to a multiple QTL model.

Usage

addint(cross, pheno.col=1, qtl, covar=NULL, formula, method=c("imp","hk"),
       model=c("normal", "binary"), qtl.only=FALSE, verbose=TRUE,
       pvalues=TRUE, simple=FALSE, tol=1e-4, maxit=1000, require.fullrank=FALSE)

Arguments

`cross`	An object of class `cross`. See `read.cross` for details.
`pheno.col`	Column number in the phenotype matrix to be used as the phenotype. One may also give a character string matching a phenotype name. Finally, one may give a numeric vector of phenotypes, in which case it must have the length equal to the number of individuals in the cross, and there must be either non-integers or values < 1 or > no. phenotypes; this last case may be useful for studying transformations.
`qtl`	An object of class `qtl`, as output from `makeqtl`.
`covar`	A matrix or data.frame of covariates. These must be strictly numeric.
`formula`	An object of class `formula` indicating the model to be fitted. (It can also be the character string representation of a formula.) QTLs are referred to as `Q1`, `Q2`, etc. Covariates are referred to by their names in the data frame `covar`. If the new QTL is not included in the formula, its main effect is added.
`method`	Indicates whether to use multiple imputation or Haley-Knott regression.
`model`	The phenotype model: the usual model or a model for binary traits
`qtl.only`	If TRUE, only test QTL:QTL interactions (and not interactions with covariates).
`verbose`	If TRUE, will print a message if there are no interactions to test.
`pvalues`	If FALSE, p-values will not be included in the results.
`simple`	If TRUE, don't include p-values or sums of squares in the summary.
`tol`	Tolerance for convergence for the binary trait model.
`maxit`	Maximum number of iterations for fitting the binary trait model.
`require.fullrank`	If TRUE, give LOD=0 when covariate matrix in the linear regression is not of full rank.

Details

The formula is used to specified the model to be fit. In the formula, use Q1, Q2, etc., or q1, q2, etc., to represent the QTLs, and the column names in the covariate data frame to represent the covariates.

We enforce a hierarchical structure on the model formula: if a QTL or covariate is in involved in an interaction, its main effect must also be included.

Value

An object of class addint, with results as in the drop-one-term analysis from fitqtl. This is a data frame (given class "addint", with the following columns: degrees of freedom (df), Type III sum of squares (Type III SS), LOD score(LOD), percentage of variance explained (%var), F statistics (F value), and P values for chi square (Pvalue(chi2)) and F distribution (Pvalue(F)).

Note that the degree of freedom, Type III sum of squares, the LOD score and the percentage of variance explained are the values comparing the full to the sub-model with the term dropped. Also note that for imputation method, the percentage of variance explained, the the F values and the P values are approximations calculated from the LOD score.

Pairwise interactions already included in the input formula are not tested.

Author(s)

Karl W Broman, broman@wisc.edu

References

Haley, C. S. and Knott, S. A. (1992) A simple regression method for mapping quantitative trait loci in line crosses using flanking markers. Heredity 69, 315–324.

Sen, Ś. and Churchill, G. A. (2001) A statistical framework for quantitative trait mapping. Genetics 159, 371–387.

Examples

data(fake.f2)

# take out several QTLs and make QTL object
qc <- c(1, 8, 13)
qp <- c(26, 56, 28)
fake.f2 <- subset(fake.f2, chr=qc)

fake.f2 <- calc.genoprob(fake.f2, step=2, err=0.001)
qtl <- makeqtl(fake.f2, qc, qp, what="prob")

# try all possible pairwise interactions, one at a time
addint(fake.f2, pheno.col=1, qtl, formula=y~Q1+Q2+Q3, method="hk")

qtl documentation built on Sept. 11, 2024, 5:43 p.m.