6 research outputs found
Epigenetics of the preferential silencing of Brachypodium stacei-originated 35S rDNA loci in the allotetraploid grass Brachypodium hybridum
Nucleolar dominance (ND), initially described as 'differential amphiplasty', is a phenomenon observed in some plant and animal allopolyploids and hybrids in which the selective suppression of the activity of 35S rRNA gene loci that have been inherited from one of the two or more ancestral genomes occurs. Although more than 80 years have passed since the discovery of ND, there is still a significant lack in our understanding of the mechanisms that determine this phenomenon. Here, we aimed to investigate the epigenetic status of 35S rRNA gene loci in the monocotyledonous Brachypodium hybridum, which is an allotetraploid that has resulted from a cross between B. distachyon and B. stacei. We revealed that the repressed B. stacei-inherited rDNA loci are characterised by a high level of DNA methylation. The global hypomethylation of B. hybridum nuclear DNA induced by 5-azacytidine, however, seems to be insufficient for the transcriptional reactivation of these loci, which indicates that factors other than DNA methylation are behind the suppression of B. stacei-originated loci. We also showed that the transcriptionally active and silenced fractions of rRNA genes that had been inherited from B. distachyon occupy different domains within the chromocentres adjacent to the nucleolus, depending on their epigenetic status
Cytomolecular analysis of ribosomal DNA evolution in a natural allotetraploid brachypodium hybridum and its putative ancestors - dissecting complex repetitive structure of intergenic spacers
Nucleolar dominance is an epigenetic phenomenon associated with nuclear 35S rRNA genes and consists in selective suppression of gene loci inherited from one of the progenitors in the allopolyploid. Our understanding of the exact mechanisms that determine this process is still fragmentary, especially in case of the grass species. This study aimed to shed some light on the molecular basis of this genome-specific inactivation of 35S rDNA loci in an allotetraploid Brachypodium hybridum (2n = 30), which arose from the interspecific hybridization between two diploid ancestors that were very similar to modern B. distachyon (2n = 10) and B. stacei (2n = 20). Using fluorescence in situ hybridization with 25S rDNA and chromosome-specific BAC clones as probes we revealed that the nucleolar dominance is present not only in meristematic root-tip cells but also in differentiated cell fraction of B. hybridum. Additionally, the intergenic spacers (IGSs) from both of the putative ancestors and the allotetraploid were sequenced and analyzed. The presumptive transcription initiation sites, spacer promoters and repeated elements were identified within the IGSs. Two different length variants, 2.3 and 3.5 kb, of IGSs were identified in B. distachyon and B. stacei, respectively, however only the IGS that had originated from B. distachyon-like ancestor was present in the allotetraploid. The amplification pattern of B. hybridum IGSs suggests that some genetic changes occurred in inactive B. stacei-like rDNA loci during the evolution of the allotetraploid. We hypothesize that their preferential silencing is an effect of structural changes in the sequence rather than just the result of the sole inactivation at the epigenetic leve
Ribosomal DNA loci derived from Brachypodium stacei are switched off for major parts of the life cycle of Brachypodium hybridum
Nucleolar dominance (ND) is an epigenetic phenomenon that occurs in some plant and animal allopolyploids and hybrids, whereby only one ancestral set of 35S rRNA genes retains the ability to form the nucleolus, whilst the rDNA loci derived from the other progenitor are transcriptionally silenced. Since there is substantial evidence that ND is regulated developmentally, this study focusses upon the establishment and/or maintenance of ND during different stages of development in the model grass allotetraploid, Brachypodium hybridum. Fluorescence in situ hybridisation with a 25S rDNA probe to 3-D cells shows that ND is present not only in root meristematic and differentiated cells of this species, but is also present in male meiocytes at prophase I, tetrads of microspores and different embryonic tissues. The inactive state of B. stacei-originated rDNA loci is confirmed by silver staining method. We show that only B. distachyon-derived 35S rDNA loci form a nucleolus/nucleoli in the aforementioned tissues, whereas B. stacei-like loci remain highly condensed and thus transcriptionally suppressed. The establishment of ND during earlier stages of B. hybridum embryo development cannot be ruled out. However, our proposal of gradual pseudogenisation of B. stacei-like loci in the evolution of the allotetraploid seems to be more likely
The Utility of Graph Clustering of 5S Ribosomal DNA Homoeologs in Plant Allopolyploids, Homoploid Hybrids, and Cryptic Introgressants
Introduction: Ribosomal DNA (rDNA) loci have been widely used for identification of
allopolyploids and hybrids, although few of these studies employed high-throughput
sequencing data. Here we use graph clustering implemented in the RepeatExplorer (RE)
pipeline to analyze homoeologous 5S rDNA arrays at the genomic level searching for
hybridogenic origin of species. Data were obtained from more than 80 plant species,
including several well-defined allopolyploids and homoploid hybrids of different
evolutionary ages and from widely dispersed taxonomic groups.
Results: (i) Diploids show simple circular-shaped graphs of their 5S rDNA clusters. In
contrast, most allopolyploids and other interspecific hybrids exhibit more complex graphs
composed of two or more interconnected loops representing intergenic spacers (IGS). (ii)
There was a relationship between graph complexity and locus numbers. (iii) The
sequences and lengths of the 5S rDNA units reconstituted in silico from k-mers were
congruent with those experimentally determined. (iv) Three-genomic comparative cluster
analysis of reads from allopolyploids and progenitor diploids allowed identification of
homoeologous 5S rRNA gene families even in relatively ancient (c. 1 Myr) Gossypium and
Brachypodium allopolyploids which already exhibit uniparental partial loss of rDNA
repeats. (v) Finally, species harboring introgressed genomes exhibit exceptionally
complex graph structures.
Conclusion: We found that the cluster graph shapes and graph parameters (k-mer
coverage scores and connected component index) well-reflect the organization and
intragenomic homogeneity of 5S rDNA repeats. We propose that the analysis of 5S rDNA
cluster graphs computed by the RE pipeline together with the cytogenetic analysis might
be a reliable approach for the determination of the hybrid or allopolyploid plant species
parentage and may also be useful for detecting historical introgression events
The fate of 35S rRNA genes in the allotetraploid grass Brachypodium hybridum
Nucleolar dominance (ND) consists of the reversible silencing of 35S/45S rDNA loci inherited from one of
the ancestors of an allopolyploid. The molecular mechanisms by which one ancestral rDNA set is selected
for silencing remain unclear. We applied a combination of molecular (Southern blot hybridization and
reverse-transcription cleaved amplified polymorphic sequence analysis), genomic (analysis of variants) and
cytogenetic (fluorescence in situ hybridization) approaches to study the structure, expression and epigenetic
landscape of 35S rDNA in an allotetraploid grass that exhibits ND, Brachypodium hybridum (genome composition
DDSS), and its putative progenitors, Brachypodium distachyon (DD) and Brachypodium stacei (SS).
In progenitor genomes, B. stacei showed a higher intragenomic heterogeneity of rDNA compared with
B. distachyon. In all studied accessions of B. hybridum, there was a reduction in the copy number of S
homoeologues, which was accompanied by their inactive transcriptional status. The involvement of DNA
methylation in CG and CHG contexts in the silencing of the S-genome rDNA loci was revealed. In the B. hybridum
allotetraploid, ND is stabilized towards the D-genome units, irrespective of the polyphyletic origin of
the species, and does not seem to be influenced by homoeologous 35S rDNA ratios and developmental
stage
Brachypodium distachyon - a model plant to study grass genome structure, dynamics and evolution
Plenary Session: Present status of cell, tissue and organ in vitro cultur