MYB3R-mediated and cell cycle-dependent transcriptional regulation of a tobacco ortholog of SCARECROW-LIKE28 in synchronized cultures of BY-2 cells
Keito Mineta, Junya Hirota, Kesuke Yamada, Takashi Itoh, Poyu Chen, Hidekazu Iwakawa, Hirotomo Takatsuka, Yuji Nomoto, Masaki Ito

TL;DR
This study shows that a cell cycle regulatory pathway found in Arabidopsis also exists in tobacco, suggesting it is evolutionarily conserved.
Contribution
The study identifies a tobacco ortholog of SCL28 and demonstrates its regulation by MYB3R in a conserved cell cycle pathway.
Findings
NtSCL28 is expressed specifically during G2/M and early G1 phases in tobacco BY-2 cells.
NtSCL28 contains MYB3R-binding promoter elements and is upregulated by a hyperactive form of NtmybA2.
The hierarchical pathway involving MYB3R, SCL28, and SMR is conserved in tobacco, indicating evolutionary conservation.
Abstract
Although it is well known that hierarchical transcriptional networks are essential for various aspects of plant development and environmental response, little has been investigated about whether and how they also regulate the plant cell cycle. Recent studies on cell cycle regulation in Arabidopsis thaliana identified SCARECROW-LIKE28 (SCL28), a GRAS-type transcription factor, that constitutes a hierarchical transcriptional pathway comprised of MYB3R, SCL28 and SIAMESE-RELATED (SMR). In this pathway, MYB3R family proteins regulate the G2/M-specific transcription of the SCL28 gene, of which products, in turn, positively regulate the transcription of SMR genes encoding a group of plant-specific inhibitor proteins of cyclin-dependent kinases. However, this pathway with a role in cell cycle inhibition is solely demonstrated in A. thaliana, thus leaving open the question of whether and to…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant Gene Expression Analysis · Plant Reproductive Biology
