A Co-Expression Network in Hexaploid Wheat Reveals Mostly Balanced Expression and Lack of Significant Gene Loss of Homeologous Meiotic Genes Upon Polyploidization
A - Papers appearing in refereed journals
Alabdullah AK., Borrill, P., Martin, AC., Ramirez-Gonzalez, RH., Hassani-Pak, K., Uauy, C., Shaw, P. and Moore, G. 2019. A Co-Expression Network in Hexaploid Wheat Reveals Mostly Balanced Expression and Lack of Significant Gene Loss of Homeologous Meiotic Genes Upon Polyploidization. Frontiers in Plant Science. 10 (1325), p. 24pp. https://doi.org/10.3389/fpls.2019.01325
| Authors | Alabdullah AK., Borrill, P., Martin, AC., Ramirez-Gonzalez, RH., Hassani-Pak, K., Uauy, C., Shaw, P. and Moore, G. |
|---|---|
| Abstract | Polyploidization has played an important role in plant evolution. However, upon polyploidization, the process of meiosis must adapt to ensure the proper segregation of increased numbers of chromosomes to produce balanced gametes. It has been suggested that meiotic gene (MG) duplicates return to a single copy following whole genome duplication to stabilize the polyploid genome. Therefore, upon the polyploidization of wheat, a hexaploid species with three related (homeologous) genomes, the stabilization process may have involved rapid changes in content and expression of MGs on homeologous chromosomes (homeologs). To examine this hypothesis, sets of candidate MGs were identified in wheat using co-expression network analysis and orthology informed approaches. In total, 130 RNA-Seq samples from a range of tissues including wheat meiotic anthers were used to define co-expressed modules of genes. Three modules were significantly correlated with meiotic tissue samples but not with other tissue types. These modules were enriched for GO terms related to cell cycle, DNA replication, and chromatin modification and contained orthologs of known MGs. Overall, 74.4% of genes within these meiosis-related modules had three homeologous copies which was similar to other tissue-related modules. Amongst wheat MGs identified by orthology, rather than co-expression, the majority (93.7%) were either retained in hexaploid wheat at the same number of copies (78.4%) or increased in copy number (15.3%) compared to ancestral wheat species. Furthermore, genes within meiosis-related modules showed more balanced expression levels between homeologs than genes in non-meiosis-related modules. Taken together, our results do not support extensive gene loss nor changes in homeolog expression of MGs upon wheat polyploidization. The construction of the MG co-expression network allowed identification of hub genes and provided key targets for future studies. |
| Keywords | Co-expression; Gene network; Gene expression; Meiosis |
| Year of Publication | 2019 |
| Journal | Frontiers in Plant Science |
| Journal citation | 10 (1325), p. 24pp |
| Digital Object Identifier (DOI) | https://doi.org/10.3389/fpls.2019.01325 |
| PubMed ID | 31681395 |
| Web address (URL) | https://www.frontiersin.org/articles/10.3389/fpls.2019.01325/full |
| Open access | Published as bronze (free) open access |
| Funder | Biotechnology and Biological Sciences Research Council |
| Funder project or code | Designing Future Wheat (DFW) [ISPG] |
| Publisher's version | Copyright license CC BY |
| Accepted author manuscript | Copyright license CC BY |
| Output status | Published |
| Publication dates | |
| Online | 18 Oct 2019 |
| Publication process dates | |
| Accepted | 24 Sep 2019 |
| Publisher | Frontiers Media SA |
| ISSN | 1664-462X |
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