Synergistic induction of fertilization-independent embryogenesis in rice egg cells by paternal-genome-expressed transcription factors

IF 15.8 1区生物学 Q1 PLANT SCIENCES

Nature Plants Pub Date : 2024-11-12 DOI:10.1038/s41477-024-01848-z

Hui Ren, Kyle Shankle, Myeong-Je Cho, Michelle Tjahjadi, Imtiyaz Khanday, Venkatesan Sundaresan

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Abstract

In flowering plants, rapid activation of the zygotic genome occurs after fertilization1–3, but there is limited knowledge of the molecular pathways underlying embryo initiation4. In rice, a key role is played by the transcription factor BABY BOOM 1 (OsBBM1), initially expressed from the paternal genome1. Ectopic OsBBM1 expression in the egg cell can override the fertilization requirement, giving rise to parthenogenetic progeny5. Here we show that the WOX-family transcription factor DWARF TILLER1 (OsDWT1)/WUSCHEL-LIKE HOMEODOMAIN 9 (OsWOX9A)6, another gene paternally expressed in zygotes, is a strong enhancer of embryo initiation by OsBBM1. Co-expression of OsWOX9A and OsBBM1 in egg cells results in 86–91% parthenogenesis, representing 4- to 15-fold increases over OsBBM1 alone. These results suggest that embryo initiation is promoted by the synergistic action of paternal-genome-expressed transcription factors in the fertilized egg cell. These findings can be utilized for the efficient production of haploids, as well as clonal hybrid seeds in crop plants7,8. The efficient induction of embryos without fertilization, which is important for crop breeding and hybrid seed production, can be achieved by combined expression in the egg of BBM1 and WOX9A, two rice transcription factors normally expressed from the male genome.

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父系基因组表达的转录因子协同诱导水稻卵细胞中不依赖受精的胚胎发生

在开花植物中，受精后子代基因组会迅速激活1,2,3，但人们对胚胎萌发的分子途径了解有限4。在水稻中，最初由父系基因组表达的转录因子 BABY BOOM 1（OsBBM1）起着关键作用1。OsBBM1 在卵细胞中的异位表达可超越受精要求，产生孤雌生殖的后代5。在这里，我们发现 WOX 家族转录因子 DWARF TILLER1（OsDWT1）/WUSCHEL-LIKE HOMEODOMAIN 9（OsWOX9A）6 是另一个在子代中父系表达的基因，它是 OsBBM1 胚胎启动的强增强因子。在卵细胞中共同表达 OsWOX9A 和 OsBBM1 可使孤雌生殖率达到 86-91%，比单独表达 OsBBM1 提高了 4-15 倍。这些结果表明，受精卵细胞中父系基因组表达转录因子的协同作用促进了胚胎的形成。这些发现可用于高效生产单倍体以及作物克隆杂交种子7,8。

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来源期刊

Nature Plants PLANT SCIENCES-

CiteScore

25.30

自引率

2.20%

发文量

196

期刊介绍： Nature Plants is an online-only, monthly journal publishing the best research on plants — from their evolution, development, metabolism and environmental interactions to their societal significance.