Bypassing Reproductive Barriers in Hybrid Seeds Using Chemically Induced Epimutagenesis

Overview

Journal Plant Cell

Publisher Oxford University Press

Specialties Biology
Cell Biology

Date 2021 Nov 18

PMID 34792584

Citations 13

Authors

Jonathan Huc

Katarzyna Dziasek

Kannan Pachamuthu

Tristan Woh

Claudia Kohler

Filipe Borges

Affiliations

Soon will be listed here.

Abstract

The triploid block, which prevents interploidy hybridizations in flowering plants, is characterized by a failure in endosperm development, arrest in embryogenesis, and seed collapse. Many genetic components of triploid seed lethality have been successfully identified in the model plant Arabidopsis thaliana, most notably the paternally expressed genes (PEGs), which are upregulated in tetraploid endosperm with paternal excess. Previous studies have shown that the paternal epigenome is a key determinant of the triploid block response, as the loss of DNA methylation in diploid pollen suppresses the triploid block almost completely. Here, we demonstrate that triploid seed collapse is bypassed in Arabidopsis plants treated with the DNA methyltransferase inhibitor 5-Azacytidine during seed germination and early growth. We identified strong suppressor lines showing stable transgenerational inheritance of hypomethylation in the CG context, as well as normalized expression of PEGs in triploid seeds. Importantly, differentially methylated loci segregate in the progeny of "epimutagenized" plants, which may allow epialleles involved in the triploid block response to be identified in future studies. Finally, we demonstrate that chemically induced epimutagenesis facilitates hybridization between different Capsella species, thus potentially emerging as a strategy for producing triploids and interspecific hybrids with high agronomic interest.

Citing Articles

Epigenetic gene regulation in plants and its potential applications in crop improvement.

Zhang H, Zhu J Nat Rev Mol Cell Biol. 2024; 26(1):51-67.

PMID: 39192154 DOI: 10.1038/s41580-024-00769-1.

Epigenetic and transcriptional consequences in the endosperm of chemically induced transposon mobilization in Arabidopsis.

Del Toro-De Leon G, van Boven J, Santos-Gonzalez J, Jiao W, Peng H, Schneeberger K Nucleic Acids Res. 2024; 52(15):8833-8848.

PMID: 38967011 PMC: 11347142. DOI: 10.1093/nar/gkae572.

Parental dialectic: Epigenetic conversations in endosperm.

Khouider S, Gehring M Curr Opin Plant Biol. 2024; 81:102591.

PMID: 38944896 PMC: 11392645. DOI: 10.1016/j.pbi.2024.102591.

Targeted suppression of siRNA biogenesis in Arabidopsis pollen promotes triploid seed viability.

Pachamuthu K, Simon M, Borges F Nat Commun. 2024; 15(1):4612.

PMID: 38816386 PMC: 11139921. DOI: 10.1038/s41467-024-48950-6.

Molecular basis and evolutionary drivers of endosperm-based hybridization barriers.

Bente H, Kohler C Plant Physiol. 2024; 195(1):155-169.

PMID: 38298124 PMC: 11060687. DOI: 10.1093/plphys/kiae050.

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