Abstract
BackgroundR2R3-MYB transcription factors (TFs) play important roles in plant growth and development, and response to biotic and abiotic stresses. However, their regulatory mechanisms in wound-induced anthocyanin biosynthesis in woody plants are largely unknown.ResultsIn this work, we report that expression of anthocyanin biosynthesis genes (ABGs) were activated by PdMYB118, a MYB TF encoding gene from Populus deltoids, and the activation of PdMYB118 was significantly enhanced by PdTT8, a bHLH protein, through its direct interaction with PdMYB118. PdMYB118 and some ABGs were evidently induced by wound induction and methyl jasmonate (MeJA) treatment. Overexpression of PdMYB118 promoted anthocyanin accumulation in transgenic poplar upon wound induction. Furthermore, a poplar JASMONATE ZIM-domain (JAZ) protein, PtrJAZ1, repressed the transcriptional function of PdMYB118/PdTT8 complex by binding to PdTT8, and wound stimulated the biosynthesis of jasmonic acid (JA) and the degradation of PtrJAZ1.ConclusionsBased on these observations, we proposed that PtrJAZ1 degradation triggered the expression of ABGs, leading to increased biosynthesis of anthocyanins in the wounded leaves of transgenic poplar. Therefore, our findings not only illustrate the crucial role of PdMYB118 in wound-induced anthocyanin biosynthesis in poplar, but also provide a molecular basis for the genetic engineering of colorful tree species.
Highlights
R2R3-MYB transcription factors (TFs) play important roles in plant growth and development, and response to biotic and abiotic stresses
We report that PdMYB118 functioned in anthocyanin biosynthesis by interacting with PdTT8 to activate the expression of Anthocyanin biosynthesis gene (ABG) in poplar
PdMYB118 is involved in wound induced anthocyanin biosynthesis in poplar To explore the possible functions of PdMYB118 in anthocyanin biosynthesis in poplar, we previously generated transgenic Shanxin Yang plants [34]
Summary
R2R3-MYB transcription factors (TFs) play important roles in plant growth and development, and response to biotic and abiotic stresses. Their regulatory mechanisms in wound-induced anthocyanin biosynthesis in woody plants are largely unknown. The rapid activation of JA biosynthesis is stimulated by wound, a common response in plant development amid biotic and abiotic stresses such as insect attack, pathogen infection mechanical damage [23, 24]. In Arabidopsis, anthocyanin biosynthesis is induced by wound [28], and anthocyanin accumulation was regulated by JA signaling via the degradation of JAZ proteins to release bHLH and MYB TFs in the MBW complex [29]. MdWRKY40 functions as a key modulator in the wounding-induced anthocyanin biosynthesis [31]
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