Fertile interspecific diploid hybrids between the Asian and African rice species facilitated by tetraploidization and its reduction
Daichi Kuniyoshi, Yuji Kishima

TL;DR
Researchers created fertile rice hybrids by balancing the genomes of Asian and African rice species through a new breeding method involving tetraploidization and diploid induction.
Contribution
A novel breeding strategy using tetraploidization and anther culture to produce fertile, genetically balanced interspecific rice hybrids.
Findings
Twenty-two double haploid plants were developed with fixed hybrid sterility loci and high pollen fertility.
Nine of the double haploid plants showed over 60% pollen fertility and varied phenotypically.
The method preserved a higher proportion of the African rice genome compared to traditional backcrossing.
Abstract
We developed fertile diploid interspecific hybrids that were genetically balanced between the Asian rice, Oryza sativa, and the African rice, Oryza glaberrima, through tetraploidization and subsequent diploid induction. Interspecific hybrids between the Asian rice, Oryza sativa, and the African rice, O. glaberrima, show severe pollen grain sterility owing to the sterility effect of multiple hybrid sterility (HS) genes/loci. These HS loci only cause pollen grain sterility in heterozygotic situations; therefore, interspecific hybrids can be made fertile by fixing all HS loci as homozygous if the hybrids inherit the genomes from both species equally. Such genetically balanced hybrids can combine the superior traits of both species. However, a method for developing balanced hybrids with fixed HS loci is lacking. Previously, a diploid interspecific hybrid population was obtained through…
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Taxonomy
TopicsGenetic Mapping and Diversity in Plants and Animals · Chromosomal and Genetic Variations · Plant Virus Research Studies
