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数量遗传课题组 Quantitative Genetics Group |
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中国农业科学院 作物科学研究所 |
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数量遗传课题组 Quantitative Genetics Group |
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中国农业科学院 作物科学研究所 |
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Marker density issues in QTL mapping using the barley genome
1. Introduction
There is no argument that the large amount of markers is becoming available. QTL mapping in biparental populations depends on the crossover between linked markers, and linked marker and QTL. Most application studies on QTL mapping are still using populations with sizes of hundreds, and the number of markers ranges from 100 to 300. In such populations, it's hard to say that 1 cM –distributed markers can more precisely detect QTL compared with 10 cM -distributed markers. Say, if there are 10 closely linked markers in a chromosomal region with a marker interval of 1 cM or less, these markers are very likely identical in a limited-size mapping population. So nine of them won't give us any added values in QTL mapping.
To better answer this question, we simulated two marker densities ( 2 cM vs 10 cM ) and two population sizes. The gain of using 2 cM distributed marker is marginal comparing with 10 cM distributed markers. On the other side, the increase in population size can greatly increase the detection power and reduce the false discovery rate (FDR). When the population size is high, all QTL may be detected with high powers, once again leaving little space for using more densely distributed markers. However, we are not denying the usefulness of dense markers in QTL fine mapping in some secondary populations.
2. Barley chromosomes and length (cM)
-Ch1H 159.9
-Ch2H 212.9
-Ch3H 154.3
-Ch4H 164.2
-Ch5H 235.7
-Ch6H 160.9
-Ch7H 186.2
Total 1274.1
3. Input files for Windows QTL IciMapping for generating simulated DH populations, and simulated populations for Windows QTL Cartographer, Empirical Bayesian Model, and Windows QTL IciMapping
3.1 Marker interval length = 2 cM , 145 DH lines (Interval02PS145.qtl)
3.1.1 100 simulated DH populations for Windows QTL Cartographer ( Interval02PS145 -CIM)
3.1.2 100 simulated DH populations for Empirical Bayesian Model ( Interval02PS145 -BAYES)
3.1.3 100 simulated DH populations for Windows QTL IciMapping ( Interval02PS145 -ICIM)
3.2 Marker interval length = 2 cM , 500 DH lines (Interval02PS500.qtl)
3.2.1 100 simulated DH populations for Windows QTL Cartographer ( Interval02PS500 -CIM)
3.2.2 100 simulated DH populations for Empirical Bayesian Model ( Interval02PS500 -BAYES)
3.2.3 100 simulated DH populations for Windows QTL IciMapping ( Interval02PS500 -ICIM)
3.3 Marker interval length = 10 cM , 145 DH lines (Interval10PS145.qtl)
3.3.1 100 simulated DH populations for Windows QTL Cartographer ( Interval10PS145 -CIM)
3.3.2 100 simulated DH populations for Empirical Bayesian Model ( Interval10PS145 -BAYES)
3.3.3 100 simulated DH populations for Windows QTL IciMapping ( Interval10PS145 -ICIM)
3.4 Marker interval length = 10 cM , 500 DH lines (Interval10PS500.qtl)
3.4.1 100 simulated DH populations for Windows QTL Cartographer ( Interval10PS500 -CIM)
3.4.2 100 simulated DH populations for Empirical Bayesian Model ( Interval10PS500 -BAYES)
3.4.3 100 simulated DH populations for Windows QTL IciMapping ( Interval10PS500 -ICIM)