Abstract
Artemisia annua is a Chinese traditional herbal plant that produces artemisinin, the potent anti-malarial drug. It is a common goal for the artemisinin industry to develop plants of A. annua with high yields of artemisinin. In this study, a bHLH transcription factor of A. annua (AaPIF3) was characterized and used to promote the production of artemisinin. AaPIF3 was highly expressed in flower buds and glandular secretory trichomes and its coding protein was localized to the nucleus. Dual-luciferase assays indicated that AaPIF3 was able to significantly enhance the promoter activities of artemisinin biosynthesis genes, including ADS, CYP71AV1, DBR2, and ALDH1, suggesting that AaPIF3 positively regulated artemisinin biosynthesis. Overexpression of AaPIF3 markedly upregulated artemisinin biosynthesis genes at the transcriptional level, and consequently the production of artemisinin was significantly promoted in transgenic A. annua plants. On the contrary, suppression of AaPIF3 led to significantly decreased transcript levels of artemisinin biosynthesis genes, with overall production of artemisinin significantly reduced. In summary, AaPIF3 plays a positive role in regulating artemisinin biosynthesis and transgenic plants of A. annua with high yields of artemisinin have been successfully developed through overexpression of AaPIF3.
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