The coordinated expression of highly related homoeologous genes in polyploid species underlies the phenotypes of many of the world's major crops. Here we combine extensive gene expression datasets to produce a comprehensive, genome-wide analysis of homoeolog expression patterns in hexaploid bread wheat. Bias in homoeolog expression varies between tissues, with ~30% of wheat homoeologs showing nonbalanced expression. We found expression asymmetries along wheat chromosomes, with homoeologs showing the largest inter-tissue, inter-cultivar, and coding sequence variation, most often located in high-recombination distal ends of chromosomes. These transcriptionally dynamic genes potentially represent the first steps toward neo- or subfunctionalization of wheat homoeologs. Coexpression networks reveal extensive coordination of homoeologs throughout development and, alongside a detailed expression atlas, provide a framework to target candidate genes underpinning agronomic traits in wheat.
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Article Synopsis
- Plant respiratory burst oxidase homologs (Rbohs) are important enzymes that produce reactive oxygen species (ROS), which help regulate plant growth and respond to stress.
- In this study, researchers identified 39 Rboh genes in wheat, which are unevenly distributed across its chromosomes and belong to ten different clades based on their structures and motifs.
- The analysis revealed that these genes are under purifying selection, with certain genes showing strong conservation and different expression patterns under heat and drought stress.
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