Challenges and prospects for a potential allohexaploid Brassica crop

The production of a new allohexaploid Brassica crop (2n = AABBCC) is increasingly attracting international interest: a new allohexaploid crop could benefit from several major advantages over the existing Brassica diploid and allotetraploid species, combining genetic diversity and traits from all six crop species with additional allelic heterosis from the extra genome. Although early attempts to produce allohexaploids showed mixed results, recent technological and conceptual advances have provided promising leads to follow. However, there are still major challenges which exist before this new crop type can be realized: (1) incorporation of sufficient genetic diversity to form a basis for breeding and improvement of this potential crop species; (2) restoration of regular meiosis, as most allohexaploids are genetically unstable after formation; and (3) improvement of agronomic traits to the level of elite breeding material in the diploid and allotetraploid crop species. In this review, we outline these major prospects and challenges and propose possible plans to produce a stable, diverse and agronomically viable allohexaploid Brassica crop.

Automated summary

The production of a new allohexaploid Brassica crop has the potential to combine genetic diversity and allelic heterosis from multiple species, but major challenges remain in terms of genetic stability, regular meiosis, and improvement of agronomic traits. Technological and conceptual advances have provided promising leads, but further research and planning are needed to realize a stable, diverse, and agronomically viable crop.