Table S113. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8, 0.25 of explained ratio by QTL Ă genetic background interactions to the total genetic variance with 25 replications. (TXT 2088 kb
Figure S1. Percentage of difference between estimated and true (simulated) QTL effects for joint com...
Table S2. Comparisions of the power of QTL detection 1- β ∗ among the joint inclusive composite inte...
These files contain the supporting data for manuscript: Jinquan LI, Anja Bus, Viola Spamer, Benjamin...
Table S12. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8, 0.15 ...
Table S9. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 1 which interacted ...
Table S10. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 25, h 2=0.8, 0.75 ...
Table S15. Phenotypes for the 50 RIL-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8 with ...
Table S18. Phenotypes for the 29 BC-NAM subpopulations in a scenario where QTLs = 50, h 2=0.5 with 2...
Table S19. Phenotypes for the 29 BC-NAM subpopulations in a scenario where QTLs = 100, h 2=0.5 with ...
Table S17. Phenotypes for the 29 BC-NAM subpopulations in a scenario where QTLs = 25, h 2=0.8 with 2...
Table S14. Phenotypes for the 50 DH-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8 with 2...
Table S5. Genotypes for the 50 BC-NAM subpopulations, where 0 and 2 denote the homozygous gentoype o...
Table S6. Genotypes for the 50 DH-NAM subpopulations, where 0 and 2 denote the homozygous gentoypes ...
Table S3. Genotypes for the simulated 51 parental inbreds at the simulated 10 K SNPs. (XLSX 31 kb
Table S4. Marker name and its position at chromosome for the simulated 10 K SNPs. (XLSX 3133 kb
Figure S1. Percentage of difference between estimated and true (simulated) QTL effects for joint com...
Table S2. Comparisions of the power of QTL detection 1- β ∗ among the joint inclusive composite inte...
These files contain the supporting data for manuscript: Jinquan LI, Anja Bus, Viola Spamer, Benjamin...
Table S12. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8, 0.15 ...
Table S9. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 1 which interacted ...
Table S10. Phenotypes for the 50 BC-NAM subpopulations in a scenario where QTLs = 25, h 2=0.8, 0.75 ...
Table S15. Phenotypes for the 50 RIL-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8 with ...
Table S18. Phenotypes for the 29 BC-NAM subpopulations in a scenario where QTLs = 50, h 2=0.5 with 2...
Table S19. Phenotypes for the 29 BC-NAM subpopulations in a scenario where QTLs = 100, h 2=0.5 with ...
Table S17. Phenotypes for the 29 BC-NAM subpopulations in a scenario where QTLs = 25, h 2=0.8 with 2...
Table S14. Phenotypes for the 50 DH-NAM subpopulations in a scenario where QTLs = 50, h 2=0.8 with 2...
Table S5. Genotypes for the 50 BC-NAM subpopulations, where 0 and 2 denote the homozygous gentoype o...
Table S6. Genotypes for the 50 DH-NAM subpopulations, where 0 and 2 denote the homozygous gentoypes ...
Table S3. Genotypes for the simulated 51 parental inbreds at the simulated 10 K SNPs. (XLSX 31 kb
Table S4. Marker name and its position at chromosome for the simulated 10 K SNPs. (XLSX 3133 kb
Figure S1. Percentage of difference between estimated and true (simulated) QTL effects for joint com...
Table S2. Comparisions of the power of QTL detection 1- β ∗ among the joint inclusive composite inte...
These files contain the supporting data for manuscript: Jinquan LI, Anja Bus, Viola Spamer, Benjamin...
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