生物
双受精
配子体
配子
卵细胞
遗传学
胚胎
孢子体
细胞生物学
倍性
胚乳
细胞命运测定
有丝分裂
胚珠
拟南芥
有性生殖
苔藓纲
基因
植物
转录因子
人类受精
花粉管
突变体
授粉
花粉
作者
Mengxia Zhang,Shanshan Zhu,Yong‐Chao Xu,Ya‐Long Guo,Wei‐Cai Yang,Hong‐Ju Li
标识
DOI:10.1073/pnas.1909465117
摘要
Double fertilization is a key innovation for the evolutionary success of angiosperms by which the two fertilized female gametes, the egg cell and central cell, generate the embryo and endosperm, respectively. The female gametophyte (embryo sac) enclosed in the sporophyte is derived from a one-celled haploid cell lineage. It undergoes successive events of mitotic divisions, cellularization, and cell specification to give rise to the mature embryo sac, which contains the two female gametes accompanied by two types of accessory cells, namely synergids and antipodals. How the cell fate of the central cell is specified has long been equivocal and is further complicated by the structural diversity of female gametophyte across plant taxa. Here, MADS-box protein AGL80 was verified as a transcriptional repressor that directly suppresses the expression of accessory cell-specific genes to specify the central cell. Further genetic rescue and phylogenetic assay of the AGL80 orthologs revealed a possible conserved mechanism in the Brassicaceae family. Results from this study provide insight into the molecular determination of the second female gamete cell in Brassicaceae.
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