Description Usage Arguments Details Value Note References
This is the function that calculates profileLikelihood for a single SNP. The main function evian
calls this function repeatedly to obtain results for multiple SNPs.
1 2 | calculateEvianMLE(snp, formula_tofit, model, data, bim, lolim, hilim,
m, bse, k, robust, family, plinkCC)
|
snp |
a string specifying the SNP of interests to be calculated. |
formula_tofit |
a formula object of the genetic model. The model should be formatted as |
model |
a string specifying the mode of inheritance parameterization: |
data |
data frame; read from the argument |
bim |
data frame; read from from the argument |
lolim |
numeric; the lower limit for the grid or the minimum value of the regression parameter β used to calculate the likelihood function. |
hilim |
numeric; the upper limit for the grid or the maximum value of the regression parameter β used to calculate the likelihood funciton. |
m |
numeric; the density of the grid at which to compute the standardized likelihood function. A beta grid is defined as the grid of values for the SNP parameter used to evaluate the likelihood function. |
bse |
numeric; the number of beta standard errors to utilize in constraining the beta grid limits. Beta grid is evaluated at β +/- |
k |
numeric or numeric vector; The strength of evidence criterion k. Reads from the input of |
robust |
logical; if |
family |
the link function for |
plinkCC |
A boolean type that specifies how case/control are coded. case/control were coded 1/0 if it is FALSE, and were coded 2/1 if TRUE. |
calculateEvianMLE
calculates the profile likelihood for a single SNP. A proper grid range is first established for β then the standardized profile likelihood is evaluated at each of the m
cuts uniformly spread across the grid. Based on the standardized profile likelihood, the MLE for β is computed as well as the likelihood intervals for each value of k
provided.
For different genetic models, their coding schemes are shown as below:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 | Additive
AA 0
AB 1
BB 2
Dominant
AA 0
AB 1
BB 1
Recessive
AA 0
AB 0
BB 1
Overdominance model
A D
AA 0 0
AB 1 1
BB 2 0
|
Specifically for the overdominance model, the column of interest is the D column.
This function outputs a list containg 4 elements that can be directly accessed using '$
' operator.
theta |
numeric vector; It stores all |
profile.lik.norm |
numeric vector; the corresponding |
k_cutoff |
numeric vector; It specifies which k-cutoff had been used in the calculation, ordered from the smallest k to the largest k. |
SummaryStats |
data frame; contains the summary statistics of the profile likelihood calculation. It contains the following columns:
|
When lolim
or hilim
are NOT defined, then the boundaries of the beta grid will be determined by the default bse=5
, or a bse
defined by the user. Otherwise, the user can define the exact beta grid boundaries using lolim
and hilim
.
In some cases the beta grid (using bse
or lolim
,hilim
) may need to be increased substantially (bse
as large as 15) if covariates are present in the formula. This is automatically dealt by the current function, but contributes to longer computation time to find the appropriate ranges. Estimation may become inaccurate with large number of correlated covariates, which is a known limitation of profile likelihoods.
Strug, L. J., Hodge, S. E., Chiang, T., Pal, D. K., Corey, P. N., & Rohde, C. (2010). A pure likelihood approach to the analysis of genetic association data: an alternative to Bayesian and frequentist analysis. Eur J Hum Genet, 18(8), 933-941. doi:10.1038/ejhg.2010.47
Strug, L. J., & Hodge, S. E. (2006). An alternative foundation for the planning and evaluation of linkage analysis. I. Decoupling "error probabilities" from "measures of evidence". Hum Hered, 61(3), 166-188. doi:10.1159/000094709
Royall, R. (1997). Statistical Evidence: A Likelihood Paradigm. London, Chapman and Hall.
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