Chunmei Liao scite author profile

Background The leaf is a determinate organ essential for photosynthesis, whose size and shape determine plant architecture and strongly affect agronomic traits. In soybean, the molecular mechanism of leaf development is not well understood. The flowering repressor gene E1, which encodes a legume-specific B3-like protein, is known to be the gene with the largest influence on soybean flowering and maturity. However, knowledge of its potential other functions remains poor. Results Here, we identified a novel function of E1 protein in leaf development. Unifoliolate leaves of E1-overexpression (E1-OE) lines were smaller and curlier than those of wild type DongNong 50 (DN50) and Williams 82 (W82). Transverse histological sections showed disorganized cells and significantly elevated palisade tissue number, spongy tissue number, and bulliform cell number in E1-OE lines. Our results indicate that E1 binds to the promoters of the leaf- development-related CINCINNATA (CIN)-like TEOSINTE BRANCHED1/CYCLOIDEA/PROLIFERATING CELL FACTOR (TCP) transcription factor genes to negatively regulate their expression. Conclusions Our findings identify E1 as an important new factor in soybean leaf development.

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Natural variation of the Dt2 promoter controls plant height and node number in semi-determinant soybean

Kou

Wang³

et al. 2021

Mol Breeding

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Enhancing lipid productivity with novel SiO2-modified polytetrafluoroethylene (PTFE) membranes in a membrane photobioreactor

et al. 2020

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Stability analysis of parametric variational systems

Li¹,

Liao²,

Li³

2011

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Chunmei Liao

Response of lipid biosynthesis in Chlorella pyrenoidosa to intracellular reactive oxygen species level under stress conditions

The legume-specific transcription factor E1 controls leaf morphology in soybean

Natural variation of the Dt2 promoter controls plant height and node number in semi-determinant soybean

Enhancing lipid productivity with novel SiO2-modified polytetrafluoroethylene (PTFE) membranes in a membrane photobioreactor

Stability analysis of parametric variational systems

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