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The effect of an imprecise map on interval mapping QTLs

Published online by Cambridge University Press:  12 October 2004

K. G. DODDS
Affiliation:
AgResearch, Invermay Agricultural Centre, Private Bag 50034, Mosgiel, New Zealand
R. BALL
Affiliation:
Forest Research, Sala Street, Private Bag 3020, Rotorua, New Zealand
N. DJOROVIC
Affiliation:
Forest Research, Sala Street, Private Bag 3020, Rotorua, New Zealand
S. D. CARSON
Affiliation:
Forest Research, Sala Street, Private Bag 3020, Rotorua, New Zealand Present address: Carson Associates, 82 Tihi Rd, Rotorua, New Zealand.
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Abstract

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The statistical analysis of quantitative trait locus (QTL) experiments relies on the use of a linkage map of the markers genotyped. Such a map is, at best, a good estimate of the true map. Resources might be diverted into developing better marker maps or improved maps become available after the analysis, raising concerns over the original analysis. It is therefore important to understand the sensitivity of QTL analysis to map inaccuracy. We have used simulation methods to investigate the consequences of an incorrect map on the results of a QTL analysis using interval mapping. Backcross data sets were generated with a particular map and then analysed with both the correct map and incorrect maps. If the incorrect maps maintained the true linkage groups (i.e. no markers were incorrectly assigned to another linkage group), the accuracy of the map had little or no impact on the ability to detect QTLs, the true significance levels of the tests or the relative placement of QTLs. When a marker was incorrectly placed on another linkage group, there was a small increase in the level of the test. After adjusting for this increase, there was a decrease in power to detect a QTL near the misplaced marker. This decrease was of a similar magnitude to that found when using a single-marker analysis compared with interval mapping. These results mean that QTL analyses can proceed without the need for very accurate marker maps, and that estimated QTL positions can be translated onto updated maps without the need for reanalysis.

Type
Research Article
Copyright
2004 Cambridge University Press