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. gutt...
Genomic imprinting results in monoallelic gene expression in a parent-of-origin-dependent manner and...
AbstractThe common assumption that the seed failure in interploidy crosses of flowering plants is du...
Balanced maternal and paternal genome contributions are a requirement for successful seed developmen...
Endosperm is an angiosperm innovation central to their reproduction whose development, and thus seed...
Genomic imprinting is the preferential expression of one allele over the other. It is an epigenetic ...
Genomic imprinting, the parent-of-origin-specific expression of genes, plays an important role in th...
Reproductive isolation is considered to play a key part in evolution, and plants and animals have de...
Some genes in mammals and flowering plants are subject to parental imprinting, a process by which di...
Differential expression of maternally and paternally inherited alleles of a gene is referred to as g...
Imprinting describes the differential expression of alleles based on their parent of origin. Deep se...
Author Summary Crosses between plants of different ploidy often fail because seed development does n...
Differential expression of maternally and paternally inherited alleles of a gene is referred to as g...
During seed development, coordinated developmental programs lead to the formation of the embryo, end...
In developing progeny of mammals the two parental genomes are differentially expressed according to ...
Genomic imprinting is an epigenetic phenomenon leading to parent-of-origin specific differential exp...
Genomic imprinting results in monoallelic gene expression in a parent-of-origin-dependent manner and...
AbstractThe common assumption that the seed failure in interploidy crosses of flowering plants is du...
Balanced maternal and paternal genome contributions are a requirement for successful seed developmen...
Endosperm is an angiosperm innovation central to their reproduction whose development, and thus seed...
Genomic imprinting is the preferential expression of one allele over the other. It is an epigenetic ...
Genomic imprinting, the parent-of-origin-specific expression of genes, plays an important role in th...
Reproductive isolation is considered to play a key part in evolution, and plants and animals have de...
Some genes in mammals and flowering plants are subject to parental imprinting, a process by which di...
Differential expression of maternally and paternally inherited alleles of a gene is referred to as g...
Imprinting describes the differential expression of alleles based on their parent of origin. Deep se...
Author Summary Crosses between plants of different ploidy often fail because seed development does n...
Differential expression of maternally and paternally inherited alleles of a gene is referred to as g...
During seed development, coordinated developmental programs lead to the formation of the embryo, end...
In developing progeny of mammals the two parental genomes are differentially expressed according to ...
Genomic imprinting is an epigenetic phenomenon leading to parent-of-origin specific differential exp...
Genomic imprinting results in monoallelic gene expression in a parent-of-origin-dependent manner and...
AbstractThe common assumption that the seed failure in interploidy crosses of flowering plants is du...
Balanced maternal and paternal genome contributions are a requirement for successful seed developmen...