GhGRF4/GhARF2‐GhGASA24 module regulates fiber cell wall thickness by modulating cellulose biosynthesis in upland cotton (Gossypium hirsutum)

延伸率 赤霉素 细胞生物学 生长素 转录因子 赤霉素 拟南芥 纤维 细胞壁 次生细胞壁 形态发生 化学 生物 基因 生物化学 植物 突变体 材料科学 发芽 极限抗拉强度 有机化学 冶金
作者
Zailong Tian,Baojun Chen,Yaru Sun,Gaofei Sun,Xu Gao,Zhaoe Pan,Guoli Song,Xiongming Du,Shoupu He
出处
期刊:Plant Journal [Wiley]
卷期号:120 (5): 1842-1856 被引量:4
标识
DOI:10.1111/tpj.17083
摘要

SUMMARY Fiber elongation rate is an essential characteristic of cotton fiber in the textile industry, yet it has been largely overlooked in genetic studies. Gibberellins (GAs) and auxin (IAA) are recognized for their role in directing numerous developmental processes in plants by influencing cell differentiation and elongation. However, the degree to which GA–IAA interaction governs cellular elongation in cotton fiber cells remains to be fully understood. In this study, we identified a causal gene, Gibberellic Acid‐Stimulated in Arabidopsis 24 ( GhGASA24 ), that appears to be responsible for fiber elongation rate via regulating fiber cell wall thickness. Subsequent experiments revealed that GhGASA24 influences cell wall formation by promoting the expression of GhCesA8 and GhCesA10 . Our findings suggest that Auxin Response Factor 2 (GhARF2) regulates fiber elongation rate by directly binding to the AuxRE elements in GhGASA24 promoter. In addition, we identified Growth Regulation Factor 4 (GhGRF4) as a transcription factor that interacts with GhARF2 to form a heterodimer complex, which also transcriptionally activates GhGASA24 . Intriguingly, GhGRF4 regulates GhARF2 expression by directly binding to its promoter, thereby acting as a cascade regulator to enhance the transcriptional levels of GhGASA24 . We propose that the GhGRF4/GhARF2‐GhGASA24‐GhCesAs module may contribute to fiber cell wall thickness by modulating cellulose biosynthesis, and provide a theoretical basis for improvement of fiber quality.
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