2009
DOI: 10.1371/journal.pgen.1000663
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Imprinting of the Polycomb Group Gene MEDEA Serves as a Ploidy Sensor in Arabidopsis

Abstract: Balanced maternal and paternal genome contributions are a requirement for successful seed development. Unbalanced contributions often cause seed abortion, a phenomenon that has been termed “triploid block.” Misregulation of imprinted regulatory genes has been proposed to be the underlying cause for abnormalities in growth and structure of the endosperm in seeds with deviating parental contributions. We identified a mutant forming unreduced pollen that enabled us to investigate direct effects of unbalanced pare… Show more

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Cited by 154 publications
(197 citation statements)
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“…Increased paternal genome dosage has been shown to cause preferential deregulation of target genes of FIS-PRC2 (Erilova et al, 2009;Tiwari et al, 2010). Consistent with these data, we found strong enrichment of H3K27m3 on genes showing increased expression levels in triploid seeds compared with diploid seeds ( Figure 7A).…”
Section: Suppression Of the Triploid Block By Met1-induced Paternal Gsupporting
confidence: 87%
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“…Increased paternal genome dosage has been shown to cause preferential deregulation of target genes of FIS-PRC2 (Erilova et al, 2009;Tiwari et al, 2010). Consistent with these data, we found strong enrichment of H3K27m3 on genes showing increased expression levels in triploid seeds compared with diploid seeds ( Figure 7A).…”
Section: Suppression Of the Triploid Block By Met1-induced Paternal Gsupporting
confidence: 87%
“…Triploid paternal excess seeds have phenotypic defects and gene expression profiles similar to seeds lacking FIS-PRC2 function (Erilova et al, 2009;Tiwari et al, 2010), suggesting that FIS-PRC2 function is affected in triploid seeds. However, our data reveal that met1-mediated triploid seed rescue is not caused by restoring FIS-PRC2 function, but acts via a different mechanism.…”
Section: Discussionmentioning
confidence: 99%
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“…Developmental defects are associated with increased expression of PHE1 and many other genes in the endosperm (Kang et al, 2008;Kö hler et al, 2003b;Erilova et al, 2009), suggesting that the main function of the FIS PcG complex is to suppress dosage sensitive genes in the endosperm. Support for this idea stems from experiments showing that fis mutants can form viable seeds if a sexually derived fis embryo is supported by an autonomously developing diploid endosperm (Nowack et al, 2007).…”
Section: Regulation Of Dosage Sensitive Gene Expression In the Endospermmentioning
confidence: 99%