Transposable elements, mRNA expression level and strand-specificity of small RNAs are associated with non-additive inheritance of gene expression in hybrid plants
Qing Li, Ying Li, Stephen P. Moose, Matthew E. Hudson

TL;DR
This study explores how gene expression in hybrid Arabidopsis plants is influenced by transposable elements and small RNA patterns.
Contribution
The study identifies associations between transposable elements, small RNA profiles, and non-additive gene expression in hybrids.
Findings
Transposable elements and small RNA presence correlate with non-additive mRNA inheritance in hybrids.
Low-parent expression in hybrids is linked to TEs and small RNA from both strands.
High-parent dominance is associated with high parental mRNA levels and sense-strand small RNA.
Abstract
Gene expression inheritance patterns in Arabidopsis hybrid plants were investigated for correlation with the presence of transposable elements (TEs) and small RNA profile. The presence of TEs in a gene and the expression of small RNA matching a gene were both found to be associated with non-additive mRNA inheritance patterns in hybrids. Expression levels below mid-parent values in the hybrids were associated with low mRNA expression in parents, with the presence of small RNA from both strands, and with the presence of TEs. High-parent dominance of mRNA levels was found to be associated with high parental mRNA expression levels, the absence of TEs, and for some genes, with small RNA fragments that are predominantly from the sense strand. These small RNAs exhibit a broader size distribution than siRNA and reduced nucleotide end bias, which are consistent with an origin from degraded…
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Taxonomy
TopicsRNA Research and Splicing · MicroRNA in disease regulation · RNA Interference and Gene Delivery
