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Altering This Gene in Wheat Could Boost Yields

Two heads of wheat, one with sections labelled in pink.
Two images of a wheat spike. The top image is a spike from an alog1 mutant, with additional spikelets highlighted in pink. The bottom image is a normal spike from a plant without the edited gene. Credit: The University of Adelaide
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The gene is called Photoperiod-1 (Ppd-1) and it is used regularly by breeders to ensure wheat crops flower and set grain earlier in the season, avoiding the harsh conditions of summer. However, there are known drawbacks.


“While this variation benefits wheat productivity by aligning pollination and grain development with more favourable environmental conditions, it also penalises yield by reducing the number of grain-bearing florets and spikelets that form on the wheat inflorescence,” says Dr Scott Boden, a Future Fellow at the University of Adelaide’s School of Agriculture, Food and Wine.


By examining genes whose expression is influenced by Ppd-1, Dr Boden’s research team discovered two transcription factors that can be edited to influence the number and arrangement of grain-bearing spikelets that form on a wheat ear, as well as the timing of ear emergence.


“The deletion of one transcription factor, called ALOG1, increases branching in both wheat and barley, which normally form unbranched inflorescences, and suggests that this gene could be a major regulator of unbranched spikes in the Triticeae family of crops,” Dr Boden says.


“The knowledge gained will inform breeders about gene targets of Ppd-1, for which we can use genetic diversity to design genotypes that might yield better.”


Dr Boden’s research team is now furthering its work with field trials at the University’s Research Enclosure to test for performance of the gene-edited lines under field conditions.


Serendipitously, German researchers discovered a similar effect for the ALOG1 transcription factors in barley, which provides exciting clues to the evolution of unbranched inflorescences of wheat and barley inflorescence, relative to those of rice and corn which display more elaborate branching patters.

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Australia is the world’s largest exporter of wheat and produced 36,237,477 tonnes of the crop in 2022 – the country’s largest annual harvest on record.


“Wheat contributes 20 per cent of calories and protein to the human diet, and scientists and breeders need to find ways to increase grain yields of wheat by between 60-70 per cent by 2050 to maintain food security for the growing global population,” says Dr Boden.


“Studies like ours are particularly important because they provide a list of gene targets that can be used with new technologies, such as transformation and gene editing, to generate new diversity that may help improve crop productivity.


“We anticipate our research will lead to further discoveries of genes that control spikelet and floret development in wheat, and in doing so, benefit the development of strategies for improving the yield potential of wheat.”


Reference: Gauley A, Pasquariello M, Yoshikawa GV, et al. Photoperiod-1 regulates the wheat inflorescence transcriptome to influence spikelet architecture and flowering time. Curr Biol. 2024. doi: 10.1016/j.cub.2024.04.029


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