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Persistency of Prediction Accuracy and Genetic Gain in Synthetic Populations Under Recurrent Genomic Selection

机译：反复基因组选择下合成种群预测准确性和遗传增益的持久性

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Recurrent selection (RS) has been used in plant breeding to successively improve synthetic and other multiparental populations. Synthetics are generated from a limited number of parents (Np), but little is known about how Np affects genomic selection (GS) in RS, especially the persistency of prediction accuracy (

r_{g, \hat{g}}

) and genetic gain. Synthetics were simulated by intermating Np= 2–32 parent lines from an ancestral population with short- or long-range linkage disequilibrium (LDA) and subjected to multiple cycles of GS. We determined

r_{g, \hat{g}}

and genetic gain across 30 cycles for different training set (TS) sizes, marker densities, and generations of recombination before model training. Contributions to

r_{g, \hat{g}}

and genetic gain from pedigree relationships, as well as from cosegregation and LDA between QTL and markers, were analyzed via four scenarios differing in (i) the relatedness between TS and selection candidates and (ii) whether selection was based on markers or pedigree records. Persistency of

r_{g, \hat{g}}

was high for small Np, where predominantly cosegregation contributed to

r_{g, \hat{g}}

, but also for large Np, where LDA replaced cosegregation as the dominant information source. Together with increasing genetic variance, this compensation resulted in relatively constant long- and short-term genetic gain for increasing Np > 4, given long-range LDA in the ancestral population. Although our scenarios suggest that information from pedigree relationships contributed to

r_{g, \hat{g}}

for only very few generations in GS, we expect a longer contribution than in pedigree BLUP, because capturing Mendelian sampling by markers reduces selective pressure on pedigree relationships. Larger TS size (NTS) and higher marker density improved persistency of

r_{g, \hat{g}}

and hence genetic gain, but additional recombinations could not increase genetic gain.

机译：轮回选择（RS）已用于植物育种，以逐步改善人工和其他多亲种群。合成物是由有限数量的亲本（Np）生成的，但关于Np如何影响RS中的基因组选择（GS）知之甚少，尤其是预测准确性的持久性（

rg，< / mo>g^）和遗传获得。通过从具有短链或长链连锁不平衡（LDA）的祖先群体中确定Np = 2-32个亲本系并进行多次GS循环来模拟合成。我们确定了rg，g^以及在模型训练之前针对不同训练集（TS）大小，标记物密度和重组世代的30个周期的遗传增益。对rg，g^，通过以下四种情况分析了来自血统关系以及QTL与标记之间共分离和LDA的遗传增益：（i）TS与选择候选者之间的相关性以及（ii）选择是基于标记还是系谱记录。rg，g^对于小Np较高，其中主要是共偏析导致rg，\overset{^，但对于大型N p ，其中}{< mi> g}

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期刊名称 G3: GenesGenomesGenetics

作者
Dominik Müller; Pascal Schopp; Albrecht E. Melchinger;
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作者单位

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年(卷),期 2017(7),3

年度 2017

页码 801–811

总页数 11

原文格式 PDF

正文语种

中图分类遗传学;

关键词
genomic prediction recurrent selection synthetic populations prediction accuracy genetic gain GenPred Shared Data Resources Genomic Selection;

机译：基因组预测;经常性选择;合成种群;预测准确性;遗传增益;GenPred;共享数据资源;基因组选择;

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1. Persistency of Prediction Accuracy and Genetic Gain in Synthetic Populations Under Recurrent Genomic Selection [J] . Dominik Müller, Pascal Schopp, Albrecht E. Melchinger G3: Genes, Genomes, Genetics . 2017,第3期

机译：反复基因组选择下合成种群预测准确性和遗传增益的持久性

2. Prediction of genetic gains by selection indexes and REML/BLUP methodology in a population of sour passion fruit under recurrent selection [J] . Antonio Teixeira do Amaral Júnior, Eileen Azevedo Santos, J?sie Cloviane de Oliveira Freitas, Acta Scientiarum. Agronomy . 2017,第2期

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3. Resource Allocation for Maximizing Prediction Accuracy and Genetic Gain of Genomic Selection in Plant Breeding: A Simulation Experiment [J] . Aaron J. Lorenz G3: Genes, Genomes, Genetics . 2013,第3期

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4. Population Genetic Diversity Following Selection in a Reciprocal Recurrent Selection Program [C] . Kendall R. Lamkey, Lori L. Hinze, Stephen Kresovich, 第九届亚洲玉米大会（the Ninth Asian Regional Maize Workshop） . 2005

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6. Accuracy of Genomic Selection in a Rice Synthetic Population Developed for Recurrent Selection Breeding [O] . Cécile Grenier, Tuong-Vi Cao, Yolima Ospina, -1

机译：为轮回选择育种开发的水稻合成群体中基因组选择的准确性。

7. Persistency of Prediction Accuracy and Genetic Gain in Synthetic Populations Under Recurrent Genomic Selection [O] . Dominik Müller, Pascal Schopp, Albrecht E. Melchinger 2017

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Persistency of Prediction Accuracy and Genetic Gain in Synthetic Populations Under Recurrent Genomic Selection

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