scan_multi_onechr: Perform multivariate, one-QTL model fitting for markers on...
In fboehm/qtl2pleio: Testing Pleiotropy in Multiparental Populations
Description
Usage
Arguments
Value
References
Examples
View source: R/scan_multi_onechr.R
Description
'scan_multi_onechr' calculates log likelihood for d-variate phenotype model fits. Inputted parameter 'start_snp' indicates where in the 'probs' object to start the scan.
Usage
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scan_multi_onechr(
probs,
pheno,
kinship = NULL,
addcovar = NULL,
start_snp = 1,
n_snp = dim(probs)[3],
max_iter = 10000,
max_prec = 1/1e+08,
cores = 1
)
Arguments
probs
an array of founder allele probabilities for a single chromosome
pheno
a matrix of phenotypes
kinship
a kinship matrix for one chromosome
addcovar
a matrix, n subjects by c additive covariates
start_snp
index of where to start the scan within probs
n_snp
the number of (consecutive) markers to include in the scan
max_iter
maximum number of iterations for EM algorithm
max_prec
stepwise precision for EM algorithm. EM stops once incremental difference in log likelihood is less than max_prec
cores
number of cores for parallelization
Value
a tibble with d + 1 columns. First d columns indicate the genetic data (by listing the marker ids) used in the design matrix; last is log10 likelihood
References
Knott SA, Haley CS (2000) Multitrait
least squares for quantitative trait loci detection.
Genetics 156: 899–911.
Jiang C, Zeng ZB (1995) Multiple trait analysis
of genetic mapping for quantitative trait loci.
Genetics 140: 1111-1127.
Zhou X, Stephens M (2014) Efficient multivariate linear
mixed model algorithms for genome-wide association studies.
Nature methods 11:407-409.
Broman KW, Gatti DM, Simecek P, Furlotte NA, Prins P, Sen S, Yandell BS, Churchill GA (2019)
R/qtl2: software for mapping quantitative trait loci with high-dimensional data and
multi-parent populations. GENETICS https://www.genetics.org/content/211/2/495.
Examples
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# read data
n <- 50
pheno <- matrix(rnorm(2 * n), ncol = 2)
rownames(pheno) <- paste0("s", 1:n)
colnames(pheno) <- paste0("tr", 1:2)
probs <- array(dim = c(n, 2, 5))
probs[ , 1, ] <- rbinom(n * 5, size = 1, prob = 0.2)
probs[ , 2, ] <- 1 - probs[ , 1, ]
rownames(probs) <- paste0("s", 1:n)
colnames(probs) <- LETTERS[1:2]
dimnames(probs)[[3]] <- paste0("m", 1:5)
scan_multi_onechr(probs = probs, pheno = pheno, kinship = NULL, cores = 1)
fboehm/qtl2pleio documentation built on July 17, 2021, 11:34 p.m.
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Description Usage Arguments Value References Examples
View source: R/scan_multi_onechr.R
Description
'scan_multi_onechr' calculates log likelihood for d-variate phenotype model fits. Inputted parameter 'start_snp' indicates where in the 'probs' object to start the scan.
Usage
1 2 3 4 5 6 7 8 9 10 11 | scan_multi_onechr(
probs,
pheno,
kinship = NULL,
addcovar = NULL,
start_snp = 1,
n_snp = dim(probs)[3],
max_iter = 10000,
max_prec = 1/1e+08,
cores = 1
)
|
Arguments
probs |
an array of founder allele probabilities for a single chromosome |
pheno |
a matrix of phenotypes |
kinship |
a kinship matrix for one chromosome |
addcovar |
a matrix, n subjects by c additive covariates |
start_snp |
index of where to start the scan within probs |
n_snp |
the number of (consecutive) markers to include in the scan |
max_iter |
maximum number of iterations for EM algorithm |
max_prec |
stepwise precision for EM algorithm. EM stops once incremental difference in log likelihood is less than max_prec |
cores |
number of cores for parallelization |
Value
a tibble with d + 1 columns. First d columns indicate the genetic data (by listing the marker ids) used in the design matrix; last is log10 likelihood
References
Knott SA, Haley CS (2000) Multitrait least squares for quantitative trait loci detection. Genetics 156: 899–911.
Jiang C, Zeng ZB (1995) Multiple trait analysis of genetic mapping for quantitative trait loci. Genetics 140: 1111-1127.
Zhou X, Stephens M (2014) Efficient multivariate linear mixed model algorithms for genome-wide association studies. Nature methods 11:407-409.
Broman KW, Gatti DM, Simecek P, Furlotte NA, Prins P, Sen S, Yandell BS, Churchill GA (2019) R/qtl2: software for mapping quantitative trait loci with high-dimensional data and multi-parent populations. GENETICS https://www.genetics.org/content/211/2/495.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 | # read data
n <- 50
pheno <- matrix(rnorm(2 * n), ncol = 2)
rownames(pheno) <- paste0("s", 1:n)
colnames(pheno) <- paste0("tr", 1:2)
probs <- array(dim = c(n, 2, 5))
probs[ , 1, ] <- rbinom(n * 5, size = 1, prob = 0.2)
probs[ , 2, ] <- 1 - probs[ , 1, ]
rownames(probs) <- paste0("s", 1:n)
colnames(probs) <- LETTERS[1:2]
dimnames(probs)[[3]] <- paste0("m", 1:5)
scan_multi_onechr(probs = probs, pheno = pheno, kinship = NULL, cores = 1)
|
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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