4.8 Article

A conservative pathway for coordination of cell wall biosynthesis and cell cycle progression in plants

期刊

PLANT JOURNAL
卷 106, 期 3, 页码 630-648

出版社

WILEY
DOI: 10.1111/tpj.15187

关键词

Arabidopsis thaliana; cell cycle progression; cell wall biosynthesis; Nicotiana tabacum; MYB transcription factors; Rosa rugosa; wounded; yeast

资金

  1. National Key Research and Development Program of China [2019YFD1000400]
  2. National Natural Science Foundation of China [31772343]
  3. Hubei Province Postdoctoral Innovation Research Position [590320112]

向作者/读者索取更多资源

Research indicates that injury induces the expression of genes related to cell wall biosynthesis and cell cycle, with AtMYB46 and RrMYB18 playing important roles in promoting cell wall biosynthesis and cell cycle progression, resulting in abnormal leaf development.
The mechanism that coordinates cell growth and cell cycle progression remains poorly understood; in particular, whether the cell cycle and cell wall biosynthesis are coordinated remains unclear. Recently, cell wall biosynthesis and cell cycle progression were reported to respond to wounding. Nonetheless, no genes are reported to synchronize the biosynthesis of the cell wall and the cell cycle. Here, we report that wounding induces the expression of genes associated with cell wall biosynthesis and the cell cycle, and that two genes, AtMYB46 in Arabidopsis thaliana and RrMYB18 in Rosa rugosa, are induced by wounding. We found that AtMYB46 and RrMYB18 promote the biosynthesis of the cell wall by upregulating the expression of cell wall-associated genes, and that both of them also upregulate the expression of a battery of genes associated with cell cycle progression. Ultimately, this response leads to the development of curled leaves of reduced size. We also found that the coordination of cell wall biosynthesis and cell cycle progression by AtMYB46 and RrMYB18 is evolutionarily conservative in multiple species. In accordance with wounding promoting cell regeneration by regulating the cell cycle, these findings also provide novel insight into the coordination between cell growth and cell cycle progression and a method for producing miniature plants.

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