AI Article Synopsis
- Floral terpenoid volatiles in snapdragon are influenced by blue light, which enhances the emission of compounds like ocimene and myrcene.
- Two transcription factors, AmMYB24 and AmMYB63, show increased expression in response to blue light, with AmMYB24 playing a crucial role in the activation of ocimene biosynthesis.
- The study reveals that AmCRY1, a blue light receptor, activates AmMYB24, leading to the transcriptional activation of ocimene synthesis, demonstrating a pathway for light-mediated regulation of floral volatiles.
Article Abstract
Floral terpenoid volatiles are impacted by light quality. In snapdragon, blue light can significantly enhance the emissions of ocimene and myrcene and the expression of ocimene synthase () and myrcene synthase (). However, the mechanisms underlying the response to blue light are largely unknown. In this study, two transcription factors (TFs), AmMYB24 and AmMYB63 were screened which showed high expression level under blue light. AmMYB24 exhibited synchronous expression with . Moreover, transcript expression was up-regulated in response to AmMYB24 overexpression. This activation is direct and occurs through binding of AmMYB24 to MYBCORECYCATB1 sites in the promoter. In addition, AmMYB24 interacts with the blue light signal key receptor and the transcriptional activation activity of was decreased in AmCRY1 silencing flowers. Taken together, our results revealed the regulatory pathway of biosynthesis of ocimene induced by blue light mediated by AmMYB24 and AmCRY1. When snapdragon flowers were exposed to blue light, AmCRY1 was first activated, the light signal is transduced to AmMYB24 through interaction with AmCRY1, and finally AmMYB24 activates by binding to its MYBCOREATCYCB1 motif, resulting in abundant ocimene emission.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9284265 | PMC |
| http://dx.doi.org/10.3389/fpls.2022.885168 | DOI Listing |
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