Good news! This could be a breakthrough!
"Hybrid rice, produced by crossing two genetically distinct parent varieties, typically produces much higher yields through a phenomenon called heterosis, or “hybrid vigor.” However, the benefit doesn’t extend to the next generation of seeds, which lose their yield advantage when replanted, forcing farmers to buy new seed every season. Scientists at the China National Rice Research Institute now claim they’ve solved that problem by creating hybrid rice that produces seeds that are genetically identical to itself, a long-sought breakthrough in rice breeding."
From the abstract:
"Apomixis, a form of clonal seed reproduction, offers a transformative approach to agriculture by enabling the stable fixation of hybrid vigor and elite heterozygosity across generations.
However, the practical implementation of synthetic apomixis has been hindered by highly variable clonal efficiency or significant yield penalties.
In this study, through integrated transcriptomic analyses, we identified a sperm-specific transcription factor in rice that likely functions as a key initiator of embryogenesis.
Ectopic expression of this factor in egg cells effectively induces parthenogenesis and produces haploid progeny. When combined with clonal gametogenesis, this system achieved nearly complete synthetic apomixis, with clonal seed production rates exceeding 99% across all derived hybrid rice lines. Moreover, we generated apomictic hybrid lines that not only consistently produced over 99% clonal seeds but also exhibited seed yields comparable to conventional F1 hybrids. These findings establish a scalable and agriculturally viable platform for synthetic apomixis, achieving stable fixation of heterosis through clonal seeds and paving the way for the commercial deployment of self-perpetuating hybrid crops."
Fig. 1 Ectopic expression of HUAXU in egg cells efficiently induces parthenogenesis and haploid progeny formation.
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