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The contribution of cis- and trans-acting variants to gene regulation in wild and domesticated barley under cold stress and control conditions

Matthew Haas, Axel Himmelbach, Martin Mascher

2020Journal of Experimental Botany39 citationsDOIOpen Access PDF

Abstract

Barley, like other crops, has experienced a series of genetic changes that have impacted its architecture and growth habit to suit the needs of humans, termed the domestication syndrome. Domestication also resulted in a concomitant bottleneck that reduced sequence diversity in genes and regulatory regions. Little is known about regulatory changes resulting from domestication in barley. We used RNA sequencing to examine allele-specific expression in hybrids between wild and domesticated barley. Our results show that most genes have conserved regulation. In contrast to studies of allele-specific expression in interspecific hybrids, we find almost a complete absence of trans effects. We also find that cis regulation is largely stable in response to short-term cold stress. Our study has practical implications for crop improvement using wild relatives. Genes regulated in cis are more likely to be expressed in a new genetic background at the same level as in their native background.

Topics & Concepts

DomesticationBiologyAlleleGeneGeneticsInterspecific competitionRegulator geneAdaptation (eye)Genetic diversityRegulation of gene expressionBotanyPopulationSociologyDemographyNeuroscienceWheat and Barley Genetics and PathologyGenetically Modified Organisms ResearchGenetic Mapping and Diversity in Plants and Animals
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