Harnessing clonal gametes in hybrid crops to engineer polyploid genomes

Yazhong Wang; Roven Rommel Fuentes; Willem M.J. van Rengs; Sieglinde Effgen; Mohd Waznul Adly Mohd Zaidan; Rainer Franzen; Tamara Susanto; Joiselle Blanche Fernandes; Raphael Mercier; Charles J. Underwood

Journal ArticleOPEN ACCESS

Harnessing clonal gametes in hybrid crops to engineer polyploid genomes

Nature Genetics (2024) 56(6) 1075-1079

DOI: 10.1038/s41588-024-01750-6

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Abstract

Heterosis boosts crop yield; however, harnessing additional progressive heterosis in polyploids is challenging for breeders. We bioengineered a ‘mitosis instead of meiosis’ (MiMe) system that generates unreduced, clonal gametes in three hybrid tomato genotypes and used it to establish polyploid genome design. Through the hybridization of MiMe hybrids, we generated ‘4-haplotype’ plants that encompassed the complete genetics of their four inbred grandparents, providing a blueprint for exploiting polyploidy in crops.

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Wang, Y., Fuentes, R. R., van Rengs, W. M. J., Effgen, S., Zaidan, M. W. A. M., Franzen, R., … Underwood, C. J. (2024). Harnessing clonal gametes in hybrid crops to engineer polyploid genomes. Nature Genetics, 56(6), 1075–1079. https://doi.org/10.1038/s41588-024-01750-6

Harnessing clonal gametes in hybrid crops to engineer polyploid genomes

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