Current Plant Biology (Jun 2024)

A nuclear WD40 repeat protein PRL1 regulates stability of MYB4 transcription factor in Arabidopsis

  • Mehali Mitra,
  • Samrat Banerjee,
  • Bhagath Kumar Palaka,
  • Swarup Roy Choudhury,
  • Sujit Roy

Journal volume & issue
Vol. 38
p. 100341

Abstract

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MYB4, a member of the R2R3-type subfamily of MYB transcription factor plays a crucial role in regulating the accumulation of UV-B absorbing phenylpropanoids in plants. UV-B exposure for a longer duration down-regulates the expression of MYB4 gene in Arabidopsis. MYB4 protein represses its own expression by binding to its own promoter. However, at present practically nothing is known about the post-translational regulation of MYB4 protein in vivo. Here, we provide evidence that in Arabidopsis MYB4 protein is phosphorylated in vivo and is targeted by the ubiquitin-26S proteasome-dependent pathway. Immunoprecipitation, immunoblotting, and phosphoprotein staining experiments have revealed that both the accumulation pattern and phosphorylation of MYB4 increase in the light condition during the 24 hours time span under long-day conditions. Yeast two-hybrid and bimolecular fluorescence complementation assays have shown that MYB4 directly interacts with a nuclear WD40 repeat protein, PRL1 in vivo. Cell-free protein degradation assay in the absence and presence of proteasome inhibitor indicates that MYB4 is degraded in a ubiquitin proteasome-dependent manner. Furthermore, analyses of MYB4 protein accumulation levels in transgenic atmyb4–1 mutant line expressing 35 S:AtMYB4 (35 S:AtMYB4-atmyb4–1) and atprl1–1 mutant line indicate that PRL1 regulate stability of MYB4 in Arabidopsis. Overall, our results provide important information on the possible mechanism of post-translational modification and regulation of stability of MYB4 protein in Arabidopsis in vivo.

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