Genetically Engineered Antioxidant-rich Purple Rice





Science, 10 Jul - 2017 ,

Genetically Engineered Antioxidant-rich Purple Rice
Credit: Qinlong Zhu of the South China Agricultural University

Researchers genetically engineered rice to produce anthocyanins, which are pigments found in purplish foods and can help protect against a wide array of diseases.

Researchers genetically engineered rice to produce anthocyanins, which are pigments found in purplish foods and can help protect against a wide array of diseases.

Researchers in China have developed a genetic engineering approach capable of delivering many genes at once and used it to make rice endosperm seed tissue that provides nutrients to the developing plant embryo produce high levels of antioxidant-boosting pigments called anthocyanins. The resulting purple endosperm rice holds potential for decreasing the risk of certain cancers, cardiovascular disease, diabetes, and other chronic disorders.

To date, genetic engineering approaches have been used to develop rice enriched in beta-carotene and folate, but not anthocyanins. Although these health-promoting compounds are naturally abundant in some black and red rice varieties, they are absent in polished rice grains because the husk, bran, and germ have been removed, leaving only the endosperm.

Previous attempts to engineer anthocyanin production in rice have failed because the underlying biosynthesis pathway is highly complex, and it has been difficult to efficiently transfer many genes into plants.

Researchers first set out to identify the genes required to engineer anthocyanin production in the rice endosperm. To do so, they analyzed sequences of anthocyanin pathway genes in different rice varieties and pinpointed the defective genes in japonica and indica subspecies that do not produce anthocyanins.

Based on this analysis, they developed a transgene stacking strategy for expressing eight anthocyanin pathway genes specifically in the endosperm of the japonica and indica rice varieties. The resulting purple endosperm rice had high anthocyanin levels and antioxidant activity in the endosperm. This is the first demonstration of engineering such a complex metabolic pathway in plants

Source: Molecular Plant, 2017; DOI: 10.1016/j.molp.2017.05.008


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