On Methods for Detecting Linkage from Analysis of Genetic Covariance
Date
1989-01
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ORCID
Type
Degree Level
Doctoral
Abstract
One of the critical issues in designing crop improvement programs is
whether or not linkage is important m quantitative traits. This thesis is
concerned with evaluating methods for detecting and estimating linkage
among genes controlling a quantitative trait. Gates' test for linkage was
evaluated by theoretical analysis and computer simulation. A general
express10n for variances and covariances between relatives in selfed
generations derived from a cross of two inbred lines was developed for a
two-locus model with both linkage and epistasis. From analysis of this
general expression, epistasis was found to mimic the effects of repulsion
linkage. Furthermore, the use of an approximate expectation for variances
and covariances m Gates' test caused an upward bias in both additive and
dominance effects involving linkage.
Twenty genetic models were simulated with eight values of both
coupling and repulsion linkages to determine under which genetic situations
Gates' test is a valid test for linkage. Coefficients of determination ( R2),
calculated as the proportion of total variability among 30 variances and
covariances in Gates' test explained by additive and dominance effects only,
were close to unity for most combinations of models and linkage values. R2
values in repulsion linkages showed greater departure from unity than those
in coupling linkages in both the presence and absence of epistasis. Although
Gates' test generally fails to detect linkage because of high R2 values, it is
more sensitive to repulsion linkages than coupling linkages.
Numbers of families in hierarchical mating designs were the single most
important factor in determining precision of the estimated variances and
covariances used m Gates' test for linkage. This number must be at least
several hundred to give suitably precise estimates of variances and
covariances for traits with low heritability. Numbers of sub-families and
numbers of replications can be of minimum size (about two).
Weighted least squares and maximum likelihood methods were used to
fit linkage, epistasis or genotype-environmental interaction models to data
from a two-year field evaluation of hierarchical progenies in two spring wheat
crosses, Potam x Ingal and RL4137 x Ingal. The genotype-environmental
interaction model, which allows for heterogeneous error variances, was most
satisfactory. The environmental variation between the two years may be due
to the different climatological patterns. Among components of genetic
variance, additive variance was of principal importance for all eight traits
measured in both Potam x Ingal and RL4137 x Ingal.
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Degree
Doctor of Philosophy (Ph.D.)
Department
Plant Sciences
Program
Department of Crop Science and Plant Ecology