README.md
In matthewwolak/gremlin: Mixed-Effects REML Incorporating Generalized Inverses
gremlin
R package for mixed-effects model REML incorporating Generalized Inverses (so, with some mental gymnastics: GREMLIN).
See the latest developments:
- gremlin NEWS page
Overview of main branches:
-
master branch is the most recent production version (often the same as what is available from the R CRAN mirrors)
-
devel branch is a preview of the next release which should be functional and error/bug free, but proceed with caution
To install gremlin:
-
From R:
- see the package page for the latest release of gremlin on CRAN where you can download the source.
- install the latest release of the package directly in R:
R
install.packages("gremlin")
then select your favorite CRAN mirror
-
From GitHub:
- install the latest versions directly in R using the
devtools package https://github.com/hadley/devtools:
```
library(devtools)
# Install master branch
install_github("matthewwolak/gremlin")
# Install devel branch
install_github("matthewwolak/gremlin", ref = "devel")
```
Examples
Estimating autosomal additive and dominance genetic variances
library(gremlin)
library(nadiv) #<-- needed for creating inverse relatedness matrices
# Add unique term for including individual effects of additive and dominance
warcolak$IDD <- warcolak$ID
# Create generalized inverse matrices
Ainv <- makeAinv(warcolak[, 1:3])$Ainv
Dinv <- makeD(warcolak[, 1:3])$Dinv
# Basic model structure is as follows:
## Fixed effects of sex
## ID = autosomal additive genetic variance term
## IDD = autosomal dominance genetic variance term
grAD <- gremlin(trait1 ~ sex-1,
random = ~ ID + IDD,
ginverse = list(ID = Ainv, IDD = Dinv),
data = warcolak)
Summarize model
# Summary
nrow(warcolak)
summary(grAD)
Calculating combinations of (co)variances and quantifying uncertainty
Delta method
# Calculate proportions of phenotypic variances (and Std. Error)
deltaSE(h2 ~ V1 / (V1 + V2 + V3), grAD)
deltaSE(d2 ~ V2 / (V1 + V2 + V3), grAD)
Likelihood Ratio Test
- Hypothesis test: domimance variance=0
## Do this 2 alternative ways - both use `update()`:
### Either fix dominance variance to *almost* zero
grA_Dfxd <- update(grAD, Gstart = list(0.1, 1e-8), Gcon = list("P", "F"))
### Or drop dominance variance from the model
grA <- update(grAD, random = ~ ID)
## Compare log-likelihoods
logLik(grA_Dfxd)
logLik(grA)
## Do the Hypothesis test:
anova(grA, grAD)
matthewwolak/gremlin documentation built on Feb. 1, 2022, 7:55 a.m.
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.
gremlin
R package for mixed-effects model REML incorporating Generalized Inverses (so, with some mental gymnastics: GREMLIN).
See the latest developments:
- gremlin NEWS page
Overview of main branches:
-
masterbranch is the most recent production version (often the same as what is available from the R CRAN mirrors) -
develbranch is a preview of the next release which should be functional and error/bug free, but proceed with caution
To install gremlin:
-
From R:
- see the package page for the latest release of gremlin on CRAN where you can download the source.
- install the latest release of the package directly in R:
R install.packages("gremlin")then select your favorite CRAN mirror
-
From GitHub:
- install the latest versions directly in R using the
devtoolspackage https://github.com/hadley/devtools:
- install the latest versions directly in R using the
```
library(devtools)
# Install master branch
install_github("matthewwolak/gremlin")
# Install devel branch
install_github("matthewwolak/gremlin", ref = "devel")
```
Examples
Estimating autosomal additive and dominance genetic variances
library(gremlin)
library(nadiv) #<-- needed for creating inverse relatedness matrices
# Add unique term for including individual effects of additive and dominance
warcolak$IDD <- warcolak$ID
# Create generalized inverse matrices
Ainv <- makeAinv(warcolak[, 1:3])$Ainv
Dinv <- makeD(warcolak[, 1:3])$Dinv
# Basic model structure is as follows:
## Fixed effects of sex
## ID = autosomal additive genetic variance term
## IDD = autosomal dominance genetic variance term
grAD <- gremlin(trait1 ~ sex-1,
random = ~ ID + IDD,
ginverse = list(ID = Ainv, IDD = Dinv),
data = warcolak)
Summarize model
# Summary
nrow(warcolak)
summary(grAD)
Calculating combinations of (co)variances and quantifying uncertainty
Delta method
# Calculate proportions of phenotypic variances (and Std. Error)
deltaSE(h2 ~ V1 / (V1 + V2 + V3), grAD)
deltaSE(d2 ~ V2 / (V1 + V2 + V3), grAD)
Likelihood Ratio Test
- Hypothesis test: domimance variance=0
## Do this 2 alternative ways - both use `update()`:
### Either fix dominance variance to *almost* zero
grA_Dfxd <- update(grAD, Gstart = list(0.1, 1e-8), Gcon = list("P", "F"))
### Or drop dominance variance from the model
grA <- update(grAD, random = ~ ID)
## Compare log-likelihoods
logLik(grA_Dfxd)
logLik(grA)
## Do the Hypothesis test:
anova(grA, grAD)
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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