Yamei Zhuang scite author profile

Yamei Zhuang

2Publications

94Citation Statements Received

188Citation Statements Given

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175

Affiliations

Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, Qingdao Agricultural University

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Poplar PdMYB221 is involved in the direct and indirect regulation of secondary wall biosynthesis during wood formation

Tang

Zhuang

et al. 2015

Sci Rep

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Wood is formed by the successive addition of secondary xylem, which consists of cells with a conspicuously thickened secondary wall composed mainly of cellulose, xylan and lignin. Currently, few transcription factors involved in the direct regulation of secondary wall biosynthesis have been characterized in tree species. Here, we show that PdMYB221, a poplar ortholog of the Arabidopsis R2R3-MYB transcription factor AtMYB4, directly regulates secondary wall biosynthesis during wood formation. PdMYB221 is predominantly expressed in cells of developing wood, and the protein it encodes localizes to the nucleus and acts as a transcriptional repressor. Ectopic expression of PdMYB221 resulted in reduced cell wall thicknesses of fibers and vessels in Arabidopsis inflorescence stems. The amounts of cellulose, xylose, and lignin were decreased and the expression of key genes synthesizing the three components was suppressed in PdMYB221 overexpression plants. Transcriptional activation assays showed that PdMYB221 repressed the promoters of poplar PdCESA7/8, PdGT47C, PdCOMT2 and PdCCR1. Electrophoretic mobility shift assays revealed that PdMYB221 bound directly to the PdCESA8, PdGT47C, and PdCOMT2 promoters. Together, our results suggest that PdMYB221 may be involved in the negative regulation of secondary wall formation through the direct and indirect suppression of the gene expression of secondary wall biosynthesis.

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Dual regulation of xylem formation by an auxin‐mediated PaC3H17‐PaMYB199 module in Populus

et al. 2019

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Summary Wood (secondary xylem) formation in tree species is dependent on auxin‐mediated vascular cambium activity in stems. However, the complex regulatory networks underlying xylem formation remain elusive. Xylem development in Populus was characterized based on microscopic observations of stem sections in transgenic plants. Transcriptomic, quantitative real‐time PCR, chromatin immunoprecipitation PCR, and electrophoretic mobility shift assay analyses were conducted to identify target genes involved in xylem development. Yeast two‐hybrid, pull‐down, bimolecular fluorescence complementation, and co‐immunoprecipitation assays were used to validate protein–protein interactions. PaC3H17 and its target PaMYB199 were found to be predominantly expressed in the vascular cambium and developing secondary xylem in Populus stems and play opposite roles in controlling cambial cell proliferation and secondary cell wall thickening through an overlapping pathway. Further, PaC3H17 interacts with PaMYB199 to form a complex, attenuating PaMYB199‐driven suppression of its xylem targets. Exogenous auxin application enhances the dual control of the PaC3H17‐PaMYB199 module during cambium division, thereby promoting secondary cell wall deposition. Dual regulation of xylem formation by an auxin‐mediated PaC3H17‐PaMYB199 module represents a novel regulatory mechanism in Populus, increasing our understanding of the regulatory networks involved in wood formation.

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Yamei Zhuang

Poplar PdMYB221 is involved in the direct and indirect regulation of secondary wall biosynthesis during wood formation

Dual regulation of xylem formation by an auxin‐mediated PaC3H17‐PaMYB199 module in Populus

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