Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/32593
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: Endosperm-based incompatibilities in hybrid monkeyflowers
Author(s): Kinser, Taliesin J
Smith, Ronald D
Lawrence, Amelia H
Cooley, Arielle M
Vallejo-Marín, Mario
Conradi Smith, Gregory D
Puzey, Joshua R
Contact Email: mario.vallejo@stir.ac.uk
Issue Date: Jul-2021
Date Deposited: 7-May-2021
Citation: Kinser TJ, Smith RD, Lawrence AH, Cooley AM, Vallejo-Marín M, Conradi Smith GD & Puzey JR (2021) Endosperm-based incompatibilities in hybrid monkeyflowers. Plant Cell, 33 (7), pp. 2235-2257. https://doi.org/10.1093/plcell/koab117
Abstract: Endosperm is an angiosperm innovation central to their reproduction whose development, and thus seed viability, is controlled by genomic imprinting, where expression from certain genes is parent-specific. Unsuccessful imprinting has been linked to failed inter-specific and inter-ploidy hybridization. Despite their importance in plant speciation, the underlying mechanisms behind these endosperm-based barriers remain poorly understood. Here, we describe one such barrier between diploid Mimulus guttatus and tetraploid M. luteus. The two parents differ in endosperm DNA methylation, expression dynamics, and imprinted genes. Hybrid seeds suffer from underdeveloped endosperm, reducing viability, or arrested endosperm and seed abortion when M. guttatus or M. luteus is seed parent, respectively, and transgressive methylation and expression patterns emerge. The two inherited M. luteus subgenomes, genetically distinct but epigenetically similar, are expressionally dominant over the M. guttatus genome in hybrid embryos and especially their endosperm, where paternal imprints are perturbed. In aborted seeds, de novo methylation is inhibited, potentially owing to incompatible paternal instructions of imbalanced dosage from M. guttatus imprints. We suggest that diverged epigenetic/regulatory landscapes between parental genomes induce epigenetic repatterning and global shifts in expression, which, in endosperm, may uniquely facilitate incompatible interactions between divergent imprinting schemes, potentially driving rapid barriers.
DOI Link: 10.1093/plcell/koab117
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