Project description:According to Dobzhansky-Muller model, hybrid sterility is a consequence of independent evolution of related taxa resulting in incompatible interaction during gametogenesis of their hybrids. We proposed that asynapsis of heterospecific chromosomes in meiotic prophase provides a general and recurrently evolving trigger for the meiotic arrest of interspecific F1 hybrids. We used genome-wide expression profiling to quantify misexpression of Chr X and Chr Y genes.

Project description:According to Dobzhansky-Muller model, hybrid sterility is a consequence of independent evolution of related taxa resulting in incompatible interaction during gametogenesis of their hybrids. We proposed that asynapsis of heterospecific chromosomes in meiotic prophase provides a general and recurrently evolving trigger for the meiotic arrest of interspecific F1 hybrids. We used genome-wide expression profiling to quantify misexpression of Chr X and Chr Y genes. The total RNA (20M-bM-^@M-^S30 ng) samples were extracted from 14.5 days juvenile testes (pool of 4 samples), converted to cDNA using the Affymetrix 3 IVT Express Kit and hybridized to Affymetrix Mouse Gene 1.0ST GeneChips (core facility of the Institute of Molecular Genetics AS CR, Prague, Czech Rep.) We visually checked intensity histograms, boxplots and PCA graph and excluded one PWDxPWK sample that was a clear outlyer on all QC graphs (not shown).

Project description:Hybrid sterility is a major form of postzygotic reproductive isolation, which is a widespread phenomenon in plants. Hybrids between two subspecies of the Asian cultivated rice (Oryza sativa L.), indica and japonica, are usually highly sterile. A killer-protector system composed of three closely linked genes, ORF3, ORF4 and ORF5 at the S5 locus, has been unveiled to regulate hybrid female fertility. We performed transcriptomic analysis of wild type Balilla, sterile BalillaORF5+ (Balilla with a transformed ORF5+) and fertility-restored BalillaORF3+ORF5+ (Balilla with a transformed ORF3+ and a transformed ORF5+) at S1 (before meiosis), S2 (during meiosis) and S3 (after meiosis) respectively. By comparing the differentially expressed genes in different comparisons, we proposed a model for the mechanisms of the S5 mediated hybrid sterility.

Project description:Whilst the hybrids of F1 generations usually experience heterosis for fitness-related traits (including the resistance to parasites), post-F1 generations, due to Dobzhansky–Muller genetic incompatibilities, express numerous disadvantageous traits (including susceptibility to parasites). Genetic disruption in hybrids may also result from the broken system of cyto-nuclear coadaptation. Maternal backcrosses (each parent having with the same mtDNA of parents) and paternal backcrosses (each parent having with different mtDNA of parents) have the same nuclear genetic compositions, but differ in cytoplasmic genetic elements, affecting their viability and survival. Spring viraemia of the carp virus (SVCV), a disease with a serious economic impact in aquacultures, affects almost exclusively cyprinids, primarily common carp, and causes high mortality, whilst gibel carp is a less susceptible species. Our study was focused on the transcriptome profile analysis of head kidney to reveal differential gene expression in highly susceptible common carp, weakly susceptible gibel carp, and hybrid lines, hypothetizing that the patterns of differential gene expression will reflect hybrid heterosis in F1 generations and hybrid breakdown in backcrosses and F2 generations. We expected the differences in differential gene expression between maternal and paternal backcrosses to be in line with the hypothesis of broken cyto-nuclear coadaptation.

Project description:Sex chromosomes and more particularely the X chromosomes are known to have a major effect on hybrid male sterility. In this experiment by making use of the reciprocal hybrids between D. simulans and D. sechellia, we are showing the effect of these chromosomes on gene expression in male hybrids Keywords: X chromosome, hybrid Testes from for days old individuals (D. simulans, D. sechellia, hybrid D. simulans female x D. sechellia male, hybrid D. sechellia female x D. simulans male) were dissected and RNA was extracted and hybridized along with a reference RNA from the whole body of 4 days old D. melanogaster male. Gene expression in hybrids were compared to parental gene expression in order to isolate misexpressed genes in each hybrids. In order to reveal the cross effect misexpressed genes in hybrids were compared to identify genes commonly misexpressed and genes genes misexpressed in only one hybrid.

Project description:Postmating reproductive isolation is often manifested as hybrid male sterility, for which X-linked genes are over-represented. In contrast, X-linked gene are significantly under-represented among testis-expressing gene.This seeming contradiction may be germane to the X:autosome imbalance hypothesis on hybrid sterility ,in which the X-linked effect is mediated mainly through the misexpression of autosomal genes. We compared gene expression in fertile and sterile males in the hybrids between two Drosophila species. These hybrid males differ only in a small region of the X chromosome containing the OdsH locus of hybrid sterility. Of genes expressed in the testis, autosomal genes were indeed more likely to be misexpressed than X-linked genes under the steriizing action of OdsH.

Project description:Sex chromosomes and more particularely the X chromosomes are known to have a major effect on hybrid male sterility. In this experiment by making use of the reciprocal hybrids between D. simulans and D. sechellia, we are showing the effect of these chromosomes on gene expression in male hybrids Keywords: X chromosome, hybrid

Project description:Asian cultivated rice (Oryza sativa L.) consists of two major subspecies, indica and japonica. Inter-subspecific hybrids between indica and japonica, usually accompanying hybrid sterility, exhibit much more vigorous heterosis than intra-subspecific hybrids. f5 locus, also called S24 or Sb, confers significant effects on hybrid male sterility and segregation distortion. BC14F2 plants with f5-i/i, f5-j/j and f5-i/j genotype respectively, were used to dissect the underlying pathway of f5-caused hybrid male sterility via comparative transcriptome analysis. 350, 421, and 480 differentially expressed genes (DEGs) were identified from f5-i/j vs. f5-j/j, f5-j/j vs. f5-i/i, and f5-i/j vs. f5-i/i respectively. 145 DEGs demonstrated simultaneously differential expression in both f5-i/j vs. f5-j/j and f5-i/j vs. f5-i/i. Enrichment analysis with MapMan and AgriGO indicated that protein and DNA metabolism, and cell control related processes were enriched in the 145 DEGs. Stress and cell control related processes were enriched in the DEGs of f5-i/j vs. f5-j/j and f5-i/j vs. f5-i/i, whereas, these two processes were not enriched in the DEGs of f5-j/j vs. f5-i/i. Biotic and abiotic stress resistance genes were suppressed, which may result in pollen cell more sensitive to various stresses. The down regulation of ascorbate peroxidase (APX) may break the dynamic homeostasis of ROS (reactive oxygen species) and cause oxidative stress, which can damage cellular components. The expression of most of the heat shock protein (HSP) genes, which can protect proteins and cells from been destroyed, were also decreased. Based on these results, a model was proposed to summarize the underlying process for f5-caused rice hybrid male sterility. These results provide significant clues to further dissecting the molecular mechanism of f5-caused intersubspecific reproductive barrier.

Project description:Meiotic recombination is required for the segregation of homologous chromosomes and is essential for fertility. The DNA double strand breaks (DSBs) that initiate meiotic recombination are directed by sequence-specific DNA binding of the PRDM9 protein. Gradual elimination of PRDM9 binding sites by gene conversion is thought to result in the hotspot erosion while mutations affecting DNA binding specificity of PRDM9 will create the new sets of hotspots. To better understand evolutionary turnover of recombination hotspots we mapped DSB hotspots in six inbred mouse strains representing all four major subspecies of Mus musculus and in their F1 hybrids. We found that hotspot erosion governs the preferential usage of some Prdm9 alleles over others in hybrid mice and increases sequence diversity specifically at hotspots that become active in the hybrids. As crossovers are disfavored at such hotspots, we propose that sequence divergence generated by hotspot turnover creates impediments for recombination in hybrids, potentially leading to reduction in fertility and eventually, speciation.

Project description:We collected whole genome testis expression data from hybrid zone mice. We integrated GWAS mapping of testis expression traits and low testis weight to gain insight into the genetic basis of hybrid male sterility. Gene expression was measured in whole testis from males aged 62-86 days. Samples include 190 first generation lab-bred male offspring of wild-caught mice from the Mus musculus musculus - M. m. domesticus hybrid zone.