A_noia-package: Implementation of the Natural and Orthogonal InterAction...
In noia: Implementation of the Natural and Orthogonal InterAction (NOIA) Model
NOIA package R Documentation
Implementation of the Natural and Orthogonal InterAction (NOIA) model
Description
The NOIA model, as described extensively in Alvarez-Castro &
Carlborg (2007), is a framework facilitating the
estimation of geneticEffects and genotype-to-phenotype maps. This package
provides the basic tools to perform linear and multilinear regressions from
real populations, analyse pure genotype-to-phenotype (GP) maps in ideal populations, estimating the genetic effects from different reference
points, the genotypic values, and the decomposition of genetic variances in
a multi-locus, 2 alleles system. This package is extensively described in
Le Rouzic & Alvarez-Castro (2008).
Details
Package: noia
Type: Package
Version: 0.94.1
Date: 2010-04-20
License: GPL-2
Regression data set: The user must provide (i) The vector of phenotypes
of all individuals measured in
the population, and (ii) The matrix of the genotypes. There are two input
formats for the genotype, see linearRegression.
Regression functions: linearRegression and
multilinearRegression.
GP map data set: The user must provide (i) The 3^L (where L is the number of loci) vector of genotypic values
(G in Alvarez-Castro & Carlborg (2007))
(ii) Allele or genotype frequencies in the reference population.
GP map analysis function: linearGPmapanalysis.
Change of reference: geneticEffects.
Genotype-to-phenotype map: GPmap.
Decomposition of genetic variance: varianceDecomposition.
Author(s)
Arnaud Le Rouzic, Arne B. Gjuvsland
Maintainer: Arnaud Le Rouzic
References
Alvarez-Castro JM, Carlborg O. (2007). A unified model for functional
and statistical epistasis and its application in quantitative trait
loci analysis. Genetics 176(2):1151-1167.
Alvarez-Castro JM, Le Rouzic A, Carlborg O. (2008). How to perform meaningful
estimates of genetic effects. PLoS Genetics 4(5):e1000062.
Le Rouzic A, Alvarez-Castro JM. (2008). Estimation of genetic effects and
genotype-phenotype maps. Evolutionary Bioinformatics 4.
Examples
set.seed(123456789)
map <- c(0.25, -0.75, -0.75, -0.75, 2.25, 2.25, -0.75, 2.25, 2.25)
names(map) <- genNames(2)
pop <- simulatePop(map, N=500, sigmaE=0.2, type="F2")
# Regressions
linear <- linearRegression(phen=pop$phen, gen=pop[2:3])
multilinear <- multilinearRegression(phen=pop$phen, gen=cbind(pop$Loc1,
pop$Loc2))
# Linear effects, associated variances and stderr
linear
# Multilinear effects
multilinear
# Genotype-to-phenotype map analysis
linearGP <- linearGPmapanalysis(map, reference="F2")
# Linear effects in ideal F2 population
linearGP
# Change of reference: geneticEffects in the "11" genotype (parental 1)
geneticEffects(linear, ref.genotype="P1")
# Variance decomposition
varianceDecomposition(linear)
varianceDecomposition(linearGP)
# GP maps
maps <- cbind(map, GPmap(linear)[,1], GPmap(multilinear)[,1])
colnames(maps) <- c("Actual", "Linear", "Multilinear")
maps
noia documentation built on March 31, 2023, 6:45 p.m.
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| NOIA package | R Documentation |
Implementation of the Natural and Orthogonal InterAction (NOIA) model
Description
The NOIA model, as described extensively in Alvarez-Castro & Carlborg (2007), is a framework facilitating the estimation of geneticEffects and genotype-to-phenotype maps. This package provides the basic tools to perform linear and multilinear regressions from real populations, analyse pure genotype-to-phenotype (GP) maps in ideal populations, estimating the genetic effects from different reference points, the genotypic values, and the decomposition of genetic variances in a multi-locus, 2 alleles system. This package is extensively described in Le Rouzic & Alvarez-Castro (2008).
Details
| Package: | noia |
| Type: | Package |
| Version: | 0.94.1 |
| Date: | 2010-04-20 |
| License: | GPL-2 |
Regression data set: The user must provide (i) The vector of phenotypes
of all individuals measured in
the population, and (ii) The matrix of the genotypes. There are two input
formats for the genotype, see linearRegression.
Regression functions: linearRegression and
multilinearRegression.
GP map data set: The user must provide (i) The 3^L (where L is the number of loci) vector of genotypic values
(G in Alvarez-Castro & Carlborg (2007))
(ii) Allele or genotype frequencies in the reference population.
GP map analysis function: linearGPmapanalysis.
Change of reference: geneticEffects.
Genotype-to-phenotype map: GPmap.
Decomposition of genetic variance: varianceDecomposition.
Author(s)
Arnaud Le Rouzic, Arne B. Gjuvsland
Maintainer: Arnaud Le Rouzic
References
Alvarez-Castro JM, Carlborg O. (2007). A unified model for functional and statistical epistasis and its application in quantitative trait loci analysis. Genetics 176(2):1151-1167.
Alvarez-Castro JM, Le Rouzic A, Carlborg O. (2008). How to perform meaningful estimates of genetic effects. PLoS Genetics 4(5):e1000062.
Le Rouzic A, Alvarez-Castro JM. (2008). Estimation of genetic effects and genotype-phenotype maps. Evolutionary Bioinformatics 4.
Examples
set.seed(123456789)
map <- c(0.25, -0.75, -0.75, -0.75, 2.25, 2.25, -0.75, 2.25, 2.25)
names(map) <- genNames(2)
pop <- simulatePop(map, N=500, sigmaE=0.2, type="F2")
# Regressions
linear <- linearRegression(phen=pop$phen, gen=pop[2:3])
multilinear <- multilinearRegression(phen=pop$phen, gen=cbind(pop$Loc1,
pop$Loc2))
# Linear effects, associated variances and stderr
linear
# Multilinear effects
multilinear
# Genotype-to-phenotype map analysis
linearGP <- linearGPmapanalysis(map, reference="F2")
# Linear effects in ideal F2 population
linearGP
# Change of reference: geneticEffects in the "11" genotype (parental 1)
geneticEffects(linear, ref.genotype="P1")
# Variance decomposition
varianceDecomposition(linear)
varianceDecomposition(linearGP)
# GP maps
maps <- cbind(map, GPmap(linear)[,1], GPmap(multilinear)[,1])
colnames(maps) <- c("Actual", "Linear", "Multilinear")
maps
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