Genome-based establishment of a high-yielding heterotic pattern for hybrid wheat breeding

Hybrid breeding promises to boost yield and stability. The single most important element in implementing hybrid breeding is the recognition of a high-yielding heterotic pattern.We have developed a three-step strategy for identifying heterotic patterns for hybrid breeding comprising the following ele...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2015-12, Vol.112 (51), p.15624-15629
Hauptverfasser: Zhao, Yusheng, Li, Zuo, Liu, Guozheng, Jiang, Yong, Maurer, Hans Peter, Würschum, Tobias, Mock, Hans-Peter, Matros, Andrea, Ebmeyer, Erhard, Schachschneider, Ralf, Kazman, Ebrahim, Schacht, Johannes, Gowda, Manje, Longin, C. Friedrich H., Reif, Jochen C.
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Sprache:eng
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Zusammenfassung:Hybrid breeding promises to boost yield and stability. The single most important element in implementing hybrid breeding is the recognition of a high-yielding heterotic pattern.We have developed a three-step strategy for identifying heterotic patterns for hybrid breeding comprising the following elements. First, the full hybrid performance matrix is compiled using genomic prediction. Second, a high-yielding heterotic pattern is searched based on a developed simulated annealing algorithm. Third, the long-term success of the identified heterotic pattern is assessed by estimating the usefulness, selection limit, and representativeness of the heterotic pattern with respect to a defined base population. This three-step approach was successfully implemented and evaluated using a phenotypic and genomic wheat dataset comprising 1,604 hybrids and their 135 parents. Integration of metabolomic-based prediction was not as powerful as genomic prediction. We show that hybrid wheat breeding based on the identified heterotic pattern can boost grain yield through the exploitation of heterosis and enhance recurrent selection gain. Our strategy represents a key step forward in hybrid breeding and is relevant for self-pollinating crops, which are currently shifting from pure-line to high-yielding and resilient hybrid varieties.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1514547112