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H3K27 methylation regulates the fate of two cell lineages in male gametophytes

Xiaorong Huang, Meng‐Xiang Sun

2022The Plant Cell35 citationsDOIOpen Access PDF

Abstract

During angiosperm male gametogenesis, microspores divide to produce a vegetative cell (VC) and a male germline (MG), each with distinct cell fates. The mechanism underlying determination of the MG cell/VC fate remains an important area of research, with many unanswered questions. Here, we report that H3K27me3 is essential for VC fate commitment in male Arabidopsis thaliana gametophytes; H3K27me3 erasure contributes to MG cell fate initiation. VC-targeted H3K27me3 erasure disturbed VC development and shifted the VC fate toward a gamete destination, which suggests that MG cells require H3K27me3 erasure to trigger gamete cell fate. Multi-omics and cytological analyses confirmed the occurrence of extensive cell identity transition due to H3K27me3 erasure. Therefore, we experimentally confirmed that MG cell/VC fate is epigenetically regulated. H3K27 methylation plays a critical role in guiding MG cell/VC fate determination for pollen fertility in Arabidopsis. Our work also provides evidence for two previous hypotheses: the germline cell fate is specified by the differential distribution of unknown determinants and VC maintains the default microspore program (i.e. the H3K27me3 setting) while MG requires reprogramming.

Topics & Concepts

BiologyGametophyteMethylationCell fate determinationDNA methylationGeneticsEvolutionary biologyCell biologyBotanyGeneTranscription factorGene expressionPollenPlant Molecular Biology ResearchPlant Reproductive BiologyPlant tissue culture and regeneration
H3K27 methylation regulates the fate of two cell lineages in male gametophytes | Litcius