Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection
Background - For the XIV QTLMAS workshop, a dataset for traits with complex genetic architecture has been simulated and released for analyses by participants. One of the tasks was to estimate direct genomic values for individuals without phenotypes. The aim of this paper was to compare results of different approaches used by the participants to calculate direct genomic values for quantitative trait (QT) and binary trait (BT). Results - Participants applied 26 approaches for QT and 15 approaches for BT. Accuracy for QT was between 0.26 and 0.89 for males and between 0.31 and 0.89 for females, and for BT ranged from 0.27 to 0.85. For QT, percentage of lost response to selection varied from 8% to 83%, whereas for BT the loss was between 15% and 71%. Conclusions - Bayesian model averaging methods predicted breeding values slightly better than GBLUP in a simulated data set. The methods utilizing genomic information performed better than traditional pedigree based BLUP analyses. Bivariate analyses was slightly advantageous over single trait for the same method. None of the methods estimated the non-additivity of QTL affecting the QT, which may be one of the constrains in accuracy observed in real data. --------------------------------------------------------------------------------
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dig-wur-nl-wurpubs-4079672024-09-30 Pszczola, M.J. Strabel, T. Wolc, A. Mucha, S. Szydlowski, M. Article/Letter to editor BMC Proceedings 5 (2011) Suppl. 3 ISSN: 1753-6561 Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection 2011 Background - For the XIV QTLMAS workshop, a dataset for traits with complex genetic architecture has been simulated and released for analyses by participants. One of the tasks was to estimate direct genomic values for individuals without phenotypes. The aim of this paper was to compare results of different approaches used by the participants to calculate direct genomic values for quantitative trait (QT) and binary trait (BT). Results - Participants applied 26 approaches for QT and 15 approaches for BT. Accuracy for QT was between 0.26 and 0.89 for males and between 0.31 and 0.89 for females, and for BT ranged from 0.27 to 0.85. For QT, percentage of lost response to selection varied from 8% to 83%, whereas for BT the loss was between 15% and 71%. Conclusions - Bayesian model averaging methods predicted breeding values slightly better than GBLUP in a simulated data set. The methods utilizing genomic information performed better than traditional pedigree based BLUP analyses. Bivariate analyses was slightly advantageous over single trait for the same method. None of the methods estimated the non-additivity of QTL affecting the QT, which may be one of the constrains in accuracy observed in real data. -------------------------------------------------------------------------------- en application/pdf https://research.wur.nl/en/publications/comparison-of-analyses-of-the-qtlmas-xiv-common-dataset-i-genomic 10.1186/1753-6561-5-S3-S1 https://edepot.wur.nl/175237 Life Science Wageningen University & Research |
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Life Science Life Science Pszczola, M.J. Strabel, T. Wolc, A. Mucha, S. Szydlowski, M. Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection |
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Background - For the XIV QTLMAS workshop, a dataset for traits with complex genetic architecture has been simulated and released for analyses by participants. One of the tasks was to estimate direct genomic values for individuals without phenotypes. The aim of this paper was to compare results of different approaches used by the participants to calculate direct genomic values for quantitative trait (QT) and binary trait (BT). Results - Participants applied 26 approaches for QT and 15 approaches for BT. Accuracy for QT was between 0.26 and 0.89 for males and between 0.31 and 0.89 for females, and for BT ranged from 0.27 to 0.85. For QT, percentage of lost response to selection varied from 8% to 83%, whereas for BT the loss was between 15% and 71%. Conclusions - Bayesian model averaging methods predicted breeding values slightly better than GBLUP in a simulated data set. The methods utilizing genomic information performed better than traditional pedigree based BLUP analyses. Bivariate analyses was slightly advantageous over single trait for the same method. None of the methods estimated the non-additivity of QTL affecting the QT, which may be one of the constrains in accuracy observed in real data. -------------------------------------------------------------------------------- |
| format |
Article/Letter to editor |
| topic_facet |
Life Science |
| author |
Pszczola, M.J. Strabel, T. Wolc, A. Mucha, S. Szydlowski, M. |
| author_facet |
Pszczola, M.J. Strabel, T. Wolc, A. Mucha, S. Szydlowski, M. |
| author_sort |
Pszczola, M.J. |
| title |
Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection |
| title_short |
Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection |
| title_full |
Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection |
| title_fullStr |
Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection |
| title_full_unstemmed |
Comparison of analyses of the QTLMAS XIV common dataset. I: genomic selection |
| title_sort |
comparison of analyses of the qtlmas xiv common dataset. i: genomic selection |
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https://research.wur.nl/en/publications/comparison-of-analyses-of-the-qtlmas-xiv-common-dataset-i-genomic |
| work_keys_str_mv |
AT pszczolamj comparisonofanalysesoftheqtlmasxivcommondatasetigenomicselection AT strabelt comparisonofanalysesoftheqtlmasxivcommondatasetigenomicselection AT wolca comparisonofanalysesoftheqtlmasxivcommondatasetigenomicselection AT muchas comparisonofanalysesoftheqtlmasxivcommondatasetigenomicselection AT szydlowskim comparisonofanalysesoftheqtlmasxivcommondatasetigenomicselection |
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1816160728052137984 |