calc_genoprob: Calculate conditional genotype probabilities
In rqtl/qtl2: Quantitative Trait Locus Mapping in Experimental Crosses
View source: R/calc_genoprob.R
calc_genoprob R Documentation
Calculate conditional genotype probabilities
Description
Uses a hidden Markov model to calculate the probabilities of the
true underlying genotypes given the observed multipoint marker
data, with possible allowance for genotyping errors.
Usage
calc_genoprob(
cross,
map = NULL,
error_prob = 0.0001,
map_function = c("haldane", "kosambi", "c-f", "morgan"),
lowmem = FALSE,
quiet = TRUE,
cores = 1
)
Arguments
cross
Object of class "cross2". For details, see the
R/qtl2 developer guide.
map
Genetic map of markers. May include pseudomarker
locations (that is, locations that are not within the marker
genotype data). If NULL, the genetic map in cross is used.
error_prob
Assumed genotyping error probability
map_function
Character string indicating the map function to
use to convert genetic distances to recombination fractions.
lowmem
If FALSE, split individuals into groups with
common sex and crossinfo and then precalculate the transition
matrices for a chromosome; potentially a lot faster but using more
memory.
quiet
If FALSE, print progress messages.
cores
Number of CPU cores to use, for parallel calculations.
(If 0, use parallel::detectCores().)
Alternatively, this can be links to a set of cluster sockets, as
produced by parallel::makeCluster().
Details
Let O_k denote the observed marker genotype at position
k, and g_k denote the corresponding true underlying
genotype.
We use the forward-backward equations to calculate
\alpha_{kv} = \log Pr(O_1, \ldots, O_k, g_k = v)
and
\beta_{kv} = \log Pr(O_{k+1}, \ldots, O_n | g_k = v)
We then obtain
Pr(g_k | O_1, \ldots, O_n) = \exp(\alpha_{kv} + \beta_{kv}) / s
where
s = \sum_v \exp(\alpha_{kv} + \beta_{kv})
Value
An object of class "calc_genoprob": a list of three-dimensional arrays of probabilities,
individuals x genotypes x positions. (Note that the arrangement is
different from R/qtl.) Also contains four attributes:
-
crosstype - The cross type of the input cross.
-
is_x_chr - Logical vector indicating whether chromosomes
are to be treated as the X chromosome or not, from input cross.
-
alleles - Vector of allele codes, from input
cross.
-
alleleprobs - Logical value (FALSE) that
indicates whether the probabilities are compressed to allele
probabilities, as from genoprob_to_alleleprob().
See Also
insert_pseudomarkers()
Examples
grav2 <- read_cross2(system.file("extdata", "grav2.zip", package="qtl2"))
gmap_w_pmar <- insert_pseudomarkers(grav2$gmap, step=1)
probs <- calc_genoprob(grav2, gmap_w_pmar, error_prob=0.002)
rqtl/qtl2 documentation built on March 20, 2024, 6:35 p.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.
View source: R/calc_genoprob.R
| calc_genoprob | R Documentation |
Calculate conditional genotype probabilities
Description
Uses a hidden Markov model to calculate the probabilities of the true underlying genotypes given the observed multipoint marker data, with possible allowance for genotyping errors.
Usage
calc_genoprob(
cross,
map = NULL,
error_prob = 0.0001,
map_function = c("haldane", "kosambi", "c-f", "morgan"),
lowmem = FALSE,
quiet = TRUE,
cores = 1
)
Arguments
cross |
Object of class |
map |
Genetic map of markers. May include pseudomarker
locations (that is, locations that are not within the marker
genotype data). If NULL, the genetic map in |
error_prob |
Assumed genotyping error probability |
map_function |
Character string indicating the map function to use to convert genetic distances to recombination fractions. |
lowmem |
If |
quiet |
If |
cores |
Number of CPU cores to use, for parallel calculations.
(If |
Details
Let O_k denote the observed marker genotype at position
k, and g_k denote the corresponding true underlying
genotype.
We use the forward-backward equations to calculate
\alpha_{kv} = \log Pr(O_1, \ldots, O_k, g_k = v)
and
\beta_{kv} = \log Pr(O_{k+1}, \ldots, O_n | g_k = v)
We then obtain
Pr(g_k | O_1, \ldots, O_n) = \exp(\alpha_{kv} + \beta_{kv}) / s
where
s = \sum_v \exp(\alpha_{kv} + \beta_{kv})
Value
An object of class "calc_genoprob": a list of three-dimensional arrays of probabilities,
individuals x genotypes x positions. (Note that the arrangement is
different from R/qtl.) Also contains four attributes:
-
crosstype- The cross type of the inputcross. -
is_x_chr- Logical vector indicating whether chromosomes are to be treated as the X chromosome or not, from inputcross. -
alleles- Vector of allele codes, from inputcross. -
alleleprobs- Logical value (FALSE) that indicates whether the probabilities are compressed to allele probabilities, as fromgenoprob_to_alleleprob().
See Also
insert_pseudomarkers()
Examples
grav2 <- read_cross2(system.file("extdata", "grav2.zip", package="qtl2"))
gmap_w_pmar <- insert_pseudomarkers(grav2$gmap, step=1)
probs <- calc_genoprob(grav2, gmap_w_pmar, error_prob=0.002)
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.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.