Summary
Differences in the relative level of expression of homoeologs, known as homoeolog expression bias (HEB), are widely observed in allopolyploids. While the evolution of homoeolog expression bias through hybridisation has been characterised, on shorter timescales the extent to which homoeolog expression bias is preserved or altered between generations remains elusive.
Here we use biparental mapping populations of hexaploid wheat (Triticum aestivum) with a common Paragon parent to explore the inheritance of homoeolog expression bias in the F5 generation.
We found that homoeolog expression bias is inherited for 26-27% of triads in both populations. Most triads (∼70%) conserved a similar homoeolog expression bias pattern as one or both parents. Inherited patterns were largely driven by changes in the expression of one homoeolog, allowing homoeolog expression bias in subsequent generations to match parental expression. Novel patterns of homoeolog expression bias occurred more frequently in the biparental population from a landrace x elite cross, than in the population with two elite parents.
These results demonstrate that there is significant reprogramming and stabilisation of homoeolog expression bias within a small number of generations that differs significantly based on the parental lines used in the crossing.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Data availability
The data that supports the findings of this study are available in public repositories. Raw RNA-seq data can be obtained through BioProject ID PRJNA1128551 on the NCBI Sequence Read Archive. Scripts and intermediate data tables necessary to run them and create plots for figures are available on GitHub (https://github.com/Borrill-Lab/Inheritance-of-HEB-in-wheat) or figshare (https://figshare.com/projects/Reprogramming_and_stabilisation_of_homoeolog_expression_bias_in_hexaploid_wheat_biparental_populations/214495) depending on their size.