Key Laboratory of Application and Safety Control of Genetically Modified Crops, Southwest University, Rice Research Institute, Chongqing, 400715, People's Republic of China.
School of Life Science and Engineering, Southwest University of Science and Technology, Sichuan, 621010, People's Republic of China.
Plant J. 2023 Jul;115(1):37-51. doi: 10.1111/tpj.16207. Epub 2023 Apr 6.
Pollen development is critical to plant reproduction, but the underlying regulatory molecular mechanisms have not been fully elucidated. The Arabidopsis (Arabidopsis thaliana) EFR3 OF PLANT 3 (EFOP3) and EFR3 OF PLANT 4 (EFOP4) genes encode members of the Armadillo (ARM) repeat superfamily that play key roles in pollen development. Herein, we demonstrate that EFOP3 and EFOP4 are co-expressed in pollen at anther stages 10-12, but loss-of-function of both EFOP3 and EFOP4 leads to male gametophyte sterility, irregular intine, and shriveled pollen grains at anther stage 12. We further established that full-length EFOP3 and EFOP4 specifically localize to the plasma membrane, and the integrity of these proteins is essential for pollen development. We observed uneven intine, less organized cellulose and reduced pectin content in mutant pollen compared with the wild-type. These, together with the misexpression of several genes related to cell wall metabolism in efop3-/- efop4+/- mutants, suggest that EFOP3 and EFOP4 may indirectly regulate the expression of these genes to affect intine formation, thus controlling Arabidopsis pollen fertility in a functionally redundant manner. Moreover, transcriptome analysis showed that the absence of EFOP3 and EFOP4 function affects multiple pollen development pathways. These results enhance our understanding of EFOPs proteins and their role in pollen development.
花粉发育对植物繁殖至关重要,但调控的分子机制尚未完全阐明。拟南芥(Arabidopsis thaliana)EFOP3 和 EFOP4 基因编码 Armadillo(ARM)重复超家族成员,在花粉发育中起关键作用。本文证明 EFOP3 和 EFOP4 在花粉的花药 10-12 期共同表达,但 efop3-/- efop4-/-双突变体导致雄性配子体不育、花粉壁内层不均匀、花粉粒在花药 12 期皱缩。进一步证实全长 EFOP3 和 EFOP4 特异性定位于质膜,这些蛋白的完整性对花粉发育至关重要。与野生型相比,突变体花粉的内层不均匀、纤维素排列紊乱、果胶含量减少。这些与 efop3-/- efop4+/- 突变体中几个与细胞壁代谢相关基因的异位表达一起表明,EFOP3 和 EFOP4 可能间接调控这些基因的表达,从而以功能冗余的方式影响内层的形成,进而控制拟南芥花粉的育性。此外,转录组分析表明 EFOP3 和 EFOP4 功能缺失影响多个花粉发育途径。这些结果增强了我们对 EFOPs 蛋白及其在花粉发育中作用的理解。
