Transposable elements and gene expression variation in the intraspecific hybrids of Capsella rubella

Transposable elements (TEs) are prevalent components of diverse genomes, and play an important role on the genomic stability and expression regulation of their adjacent genes. It is interesting to know the variation of TE expression and the effects of the presence/absence of TEs on gene expression a...

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Bibliographic Details
Published in:Journal of systematics and evolution : JSE 2024-05, Vol.62 (3), p.358-367
Main Authors: Chen, Jia‐Fu, Xu, Yong‐Chao, Jiang, Juan, Niu, Xiao‐Min, Hou, Xing‐Hui, Zhang, Zhi‐Qin, Guo, Ya‐Long
Format: Article
Language:English
Subjects:
allele‐specific expression
Capsella rubella
Gene expression
gene expression level
Gene regulation
Genes
Hybridization
Hybrids
Intraspecific hybridization
Long terminal repeat
Maternal effects
TE family expression level
transposable elements
Transposons
Variation
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Summary:Transposable elements (TEs) are prevalent components of diverse genomes, and play an important role on the genomic stability and expression regulation of their adjacent genes. It is interesting to know the variation of TE expression and the effects of the presence/absence of TEs on gene expression after hybridization. Here we assessed the expression variation of TEs and the impacts of TEs on expression of nearby genes after hybridization based on comparisons of three pairs of reciprocal F1 hybrids and four parents in Capsella rubella. Of the 480 TE families expressed in all the four parents and six F1 hybrids, 7–23 (1.5%–4.2%) TE families were significantly differentially expressed between in silico and real F1 hybrids, indicating the expression levels of these TE families were affected during hybridization. In particular, there was a Copia TE superfamily and a non‐long terminal repeat (non‐LTR) TE differentially expressed between the reciprocal F1 hybrids of 879 and 86IT1, indicating maternal effects may have impacts on expression of TEs in these F1 hybrids. Besides the impacts on the expression of TE families of the hybridization, genes adjacent to polymorphic TEs tended to show a higher proportion (24.83%) of allele‐specific expression (ASE) in F1 hybrids. Overall, our results highlight the impacts of hybridization on the expression level variation of TEs, and the effects of TEs on ASE after hybridization. We assessed the expression variation of transposable elements (TEs) and the impact of TEs on expression of nearby genes after hybridization in reciprocal F1 hybrids and their parents in Capsella rubella. 7–23 TE families (1.5%–4.2%) were significantly differentially expressed between in silico F1 hybrids and real F1 hybrids. A Copia TE superfamily and a non‐long terminal repeat (non‐LTR) TE were differentially expressed between a pair of reciprocal F1 hybrids, indicating maternal effects may have impact on expression of these TEs. On average, 24.83% genes adjacent to polymorphic TEs showed allele‐specific expression (ASE) in F1 hybrids. Overall, our results highlight the impact of hybridization on the expression level variation of TEs, and the impact of TEs on ASE after hybridization.
ISSN:1674-4918
1759-6831
DOI:10.1111/jse.13002