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- Title
Natural variations of heterosis-related allele-specific expression genes in promoter regions lead to allele-specific expression in maize.
- Authors
Zhan, Weimin; Cui, Lianhua; Yang, Shuling; Zhang, Kangni; Zhang, Yanpei; Yang, Jianping
- Abstract
Background: Heterosis has successfully enhanced maize productivity and quality. Although significant progress has been made in delineating the genetic basis of heterosis, the molecular mechanisms underlying its genetic components remain less explored. Allele-specific expression (ASE), the imbalanced expression between two parental alleles in hybrids, is increasingly being recognized as a factor contributing to heterosis. ASE is a complex process regulated by both epigenetic and genetic variations in response to developmental and environmental conditions. Results: In this study, we explored the differential characteristics of ASE by analyzing the transcriptome data of two maize hybrids and their parents under four light conditions. On the basis of allele expression patterns in different hybrids under various conditions, ASE genes were divided into three categories: bias-consistent genes involved in basal metabolic processes in a functionally complementary manner, bias-reversal genes adapting to the light environment, and bias-specific genes maintaining cell homeostasis. We observed that 758 ASE genes (ASEGs) were significantly overlapped with heterosis quantitative trait loci (QTLs), and high-frequency variations in the promoter regions of heterosis-related ASEGs were identified between parents. In addition, 10 heterosis-related ASEGs participating in yield heterosis were selected during domestication. Conclusions: The comprehensive analysis of ASEGs offers a distinctive perspective on how light quality influences gene expression patterns and gene-environment interactions, with implications for the identification of heterosis-related ASEGs to enhance maize yield.
- Subjects
GENE expression; PROMOTERS (Genetics); LOCUS (Genetics); GENOTYPE-environment interaction; GENETIC variation; CORN
- Publication
BMC Genomics, 2024, Vol 25, Issue 1, p1
- ISSN
1471-2164
- Publication type
Article
- DOI
10.1186/s12864-024-10395-y