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The trial was an important step in its commercial viability, as the team planted the wheat in outdoor experimental fields, producing a crop that confirms the new gene-edited (GE) strain’s ability to deliver for farmers.
“The study showed that gene editing to reduce asparagine concentration in the wheat grain works just as well in the field as under glass,” said Professor Nigel Halford, research leader and crop scientist at Rothamsted Research.
“This is important because the availability of low acrylamide wheat could enable food businesses to comply with evolving regulations on the presence of acrylamide in food without costly changes to production lines or reductions in product quality. It could also have a significant impact on dietary acrylamide intake for consumers.”
“However, GE plants will only be developed for commercial use if the right regulatory framework is in place and breeders are confident that they will get a return on their investment in GE varieties,” he added.
Researchers from the UK’s Rothamsted Research used the CRISPR gene-editing technology to “knock out” a gene in the wheat which plays a role in the formation of asparagine.
When cooked, this amino acid is converted to acrylamide – a potential carcinogen that food processors are keen to control.
Findings from the trial coincide with the likely introduction of the UK’s Genetic Technology (Precision Breeding) Bill, which will provide legislation on the release and marketing of GE crops. Currently in the final stages of its passage through Parliament, the Bill’s passing spells good news for those scientists convinced that CRISPR represents an exciting development for the food industry.
The argument is that the genetic editing technique will be crucial in keep up with the changing environment, wher current regulation has limited its use in agriculture.
“That these important decisions will be debated in parliament is to be welcomed,“ said Dr Adrian Ely, reader in technology and sustainability at the Science Policy Research Unit at the University of Sussex.
“The issues go beyond technical risks and benefits, and any decisions will help to shape the future of the UK’s agri-food system.
“Numerous studies show that most of the British public want GE food and ingredients to be labelled. How to deliver on these demands remains a key challenge for the Bill.”
Prof Andrew Thompson, head of Cranfield University’s Soil and Agri Food Institute, said, “More precise gene editing technologies, alongside a simpler regulatory regime proposed in the Genetic Technology Bill, will certainly help such advances to be fully exploited for the benefit of farmers, consumers, and the environment.
“At Cranfield we are also helping commercial breeders to take up gene editing technology so they can more rapidly breed soft fruit varieties that have tastier, more nutritious and longer lasting fruit.”
In last week’s National Farmers unio (NFU) Conference, the implications of GE on homegrown beet crop was the subject of a breakout session in which Stefan Meldau, R&D Lead in Biotic Stress at KWS took part.
Outlining the commercial realities of GE for seed breeders in the UK and EU, Dr Meldau said KWS, a European company that focuses on plant breeding, had “immediate capacity” to implement GE methods once a legislative framework was in place.
However, his optimism was mixed with pragmatism and EU legislation was a factor.
“The necessary food and feed derogation to allow exports of goods using UK sugar produced using GE as an ingredient could take six years and cost €10-15 million, he said, which had implications for the business case.
Also at the conference was British Sugar’s Daniel Green, who joined a panel discussion that offered reassurances on the safety of GE and urged delegates to become advocates for the technology to help foster a positive public outlook.
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