Abstract
Genomic imprinting results in monoallelic gene expression in a parent-of-origin-dependent manner and is regulated by the differential epigenetic marking of the parental alleles. In plants, genomic imprinting has been primarily described for genes expressed in the endosperm, a tissue nourishing the developing embryo that does not contribute to the next generation. In Arabidopsis, the genes MEDEA (MEA) and PHERES1 (PHE1), which are imprinted in the endosperm, are also expressed in the embryo; whether their embryonic expression is regulated by imprinting or not, however, remains controversial. In contrast, the maternally expressed in embryo 1 (mee1) gene of maize is clearly imprinted in the embryo. We identified several imprinted candidate genes in an allele-specific transcriptome of hybrid Arabidopsis embryos and confirmed parent-of-origin-dependent, monoallelic expression for eleven maternally expressed genes (MEGs) and one paternally expressed gene (PEG) in the embryo, using allele-specific expression analyses and reporter gene assays. Genetic studies indicate that the Polycomb Repressive Complex 2 (PRC2) but not the DNA METHYLTRANSFERASE1 (MET1) is involved in regulating imprinted expression in the embryo. In the seedling, all embryonic MEGs and the PEG are expressed from both parents, suggesting that the imprint is erased during late embryogenesis or early vegetative development. Our finding that several genes are regulated by genomic imprinting in the Arabidopsis embryo clearly demonstrates that this epigenetic phenomenon is not a unique feature of the endosperm in both monocots and dicots.
Highlights
Genes regulated by genomic imprinting are expressed preferentially from one allele in a parent-of-origin-dependent manner
In Arabidopsis thaliana, the Polycomb group gene MEDEA (MEA) and its target, the MADSbox gene PHERES1 (PHE1), are both imprinted in the endosperm and show embryonic expression [9,10,11]; but it remains controversial whether embryonic expression is imprinted or not
We chose 18 maternally expressed genes (MEGs) candidates and six paternally expressed gene (PEG) candidates that are highly expressed in the embryo [33] but are absent from the gametes [35,36], suggesting de novo expression, and analyzed them in detail
Summary
Genes regulated by genomic imprinting are expressed preferentially from one allele in a parent-of-origin-dependent manner. The imprints are erased in the primordial germ cell lineage, which will develop into the gametes, and are reestablished according to the sex of the germ line during gametogenesis [2,3]. Genomic imprinting evolved both in placental mammals and in flowering plants. While genes can be imprinted in both the embryo and the placenta in mammals, and even in adult tissues [2,4], genomic imprinting in plants was primarily described for genes expressed in the endosperm, the triploid nourishing tissue that develops upon fertilization of the diploid central cell [5,6]. In Arabidopsis thaliana, the Polycomb group gene MEDEA (MEA) and its target, the MADSbox gene PHERES1 (PHE1), are both imprinted in the endosperm and show embryonic expression [9,10,11]; but it remains controversial whether embryonic expression is imprinted or not (reviewed in [10])
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