DT_polyploid: Genotypic and Phenotypic data for a potato polyploid...
In sommer: Solving Mixed Model Equations in R
DT_polyploid R Documentation
Genotypic and Phenotypic data for a potato polyploid population
Description
This dataset contains phenotpic data for 18 traits measured in 187 individuals from a potato diversity panel. In addition contains genotypic data for 221 individuals genotyped with 3522 SNP markers. Please if using this data for your own research make sure you cite Rosyara's (2015) publication (see References).
Usage
data("DT_polyploid")
Format
The format is:
chr "DT_polyploid"
Source
This data was extracted from Rosyara (2016).
References
If using this data for your own research please cite:
Rosyara Umesh R., Walter S. De Jong, David S. Douches, Jeffrey B. Endelman. Software for genome-wide association studies in autopolyploids and its application to potato. The Plant Genome 2015.
Covarrubias-Pazaran G (2016) Genome assisted prediction of quantitative traits using the R package sommer. PLoS ONE 11(6): doi:10.1371/journal.pone.0156744
See Also
The core functions of the package mmer
Examples
####=========================================####
#### For CRAN time limitations most lines in the
#### examples are silenced with one '#' mark,
#### remove them and run the examples using
#### command + shift + C |OR| control + shift + C
####=========================================####
data(DT_polyploid)
# DT <- DT_polyploid
# GT <- GT_polyploid
# MP <- MP_polyploid
# ####=========================================####
# ####### convert markers to numeric format
# ####=========================================####
# numo <- atcg1234(data=GT, ploidy=4);
# numo$M[1:5,1:5];
# numo$ref.allele[,1:5]
#
# ###=========================================####
# ###### plants with both genotypes and phenotypes
# ###=========================================####
# common <- intersect(DT$Name,rownames(numo$M))
#
# ###=========================================####
# ### get the markers and phenotypes for such inds
# ###=========================================####
# marks <- numo$M[common,]; marks[1:5,1:5]
# DT2 <- DT[match(common,DT$Name),];
# DT2 <- as.data.frame(DT2)
# DT2[1:5,]
#
# ###=========================================####
# ###### Additive relationship matrix, specify ploidy
# ###=========================================####
# A <- A.mat(marks)
# D <- D.mat(marks)
# ###=========================================####
# ### run as mixed model
# ###=========================================####
# ans <- mmer(tuber_shape~1,
# random=~vsr(Name, Gu=A),
# data=DT2)
# summary(ans)$varcomp
#
# Ai <- as(solve(A + diag(1e-4,ncol(A),ncol(A))), Class="dgCMatrix")
# ansb <- mmec(tuber_shape~1,
# random=~vsc(isc(Name), Gu=Ai),
# data=DT2)
# summary(ansb)$varcomp
#
sommer documentation built on Sept. 11, 2024, 6:22 p.m.
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| DT_polyploid | R Documentation |
Genotypic and Phenotypic data for a potato polyploid population
Description
This dataset contains phenotpic data for 18 traits measured in 187 individuals from a potato diversity panel. In addition contains genotypic data for 221 individuals genotyped with 3522 SNP markers. Please if using this data for your own research make sure you cite Rosyara's (2015) publication (see References).
Usage
data("DT_polyploid")Format
The format is: chr "DT_polyploid"
Source
This data was extracted from Rosyara (2016).
References
If using this data for your own research please cite:
Rosyara Umesh R., Walter S. De Jong, David S. Douches, Jeffrey B. Endelman. Software for genome-wide association studies in autopolyploids and its application to potato. The Plant Genome 2015.
Covarrubias-Pazaran G (2016) Genome assisted prediction of quantitative traits using the R package sommer. PLoS ONE 11(6): doi:10.1371/journal.pone.0156744
See Also
The core functions of the package mmer
Examples
####=========================================####
#### For CRAN time limitations most lines in the
#### examples are silenced with one '#' mark,
#### remove them and run the examples using
#### command + shift + C |OR| control + shift + C
####=========================================####
data(DT_polyploid)
# DT <- DT_polyploid
# GT <- GT_polyploid
# MP <- MP_polyploid
# ####=========================================####
# ####### convert markers to numeric format
# ####=========================================####
# numo <- atcg1234(data=GT, ploidy=4);
# numo$M[1:5,1:5];
# numo$ref.allele[,1:5]
#
# ###=========================================####
# ###### plants with both genotypes and phenotypes
# ###=========================================####
# common <- intersect(DT$Name,rownames(numo$M))
#
# ###=========================================####
# ### get the markers and phenotypes for such inds
# ###=========================================####
# marks <- numo$M[common,]; marks[1:5,1:5]
# DT2 <- DT[match(common,DT$Name),];
# DT2 <- as.data.frame(DT2)
# DT2[1:5,]
#
# ###=========================================####
# ###### Additive relationship matrix, specify ploidy
# ###=========================================####
# A <- A.mat(marks)
# D <- D.mat(marks)
# ###=========================================####
# ### run as mixed model
# ###=========================================####
# ans <- mmer(tuber_shape~1,
# random=~vsr(Name, Gu=A),
# data=DT2)
# summary(ans)$varcomp
#
# Ai <- as(solve(A + diag(1e-4,ncol(A),ncol(A))), Class="dgCMatrix")
# ansb <- mmec(tuber_shape~1,
# random=~vsc(isc(Name), Gu=Ai),
# data=DT2)
# summary(ansb)$varcomp
#
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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