Abstract
BackgroundMaternal effects contribute to adaptive significance for shaping various phenotypes of many traits. Potential implications of maternal effects are the cause of expression diversity, but these effects on mRNA expression and alternative splicing (AS) have not been fully elucidated in hybrid animals.ResultsTwo reciprocal cross hybrids following hybridization of Megalobrama amblycephala (blunt snout bream, BSB) and Culter alburnus (topmouth culter, TC) were used as a model to investigate maternal effects. By comparing the expression of BSB- and TC- homoeologous genes between the two reciprocal cross hybrids, we identified 49–348 differentially expressed BSB-homoeologous genes and 54–354 differentially expressed TC-homoeologous genes. 2402, 2959, and 3418 AS events between the two reciprocal cross hybrids were detected in Illumina data of muscle, liver, and gonad, respectively. Moreover, 21,577 (TC-homoeologs) and 30,007 (BSB-homoeologs) AS events were found in the 20,131 homoeologous gene pairs of TBF3 based on PacBio data, while 30,561 (TC-homoeologs) and 30,305 (BSB-homoeologs) AS events were found in BTF3. These results further improve AS prediction at the homoeolog level. The various AS patterns in bmpr2a belonging to the bone morphogenetic protein family were selected as AS models to investigate the expression diversity and its potential effects to body shape traits.ConclusionsThe distribution of differentially expressed genes and AS in BSB- and TC-subgenomes exhibited various changes between the two reciprocal cross hybrids, suggesting that maternal effects were the cause of expression diversity. These findings provide a novel insight into mRNA expression changes and AS under maternal effects in lower vertebrates.
Highlights
Maternal effects contribute to adaptive significance for shaping various phenotypes of many traits
Origin of reciprocal cross hybrids We first characterized the divergence of alternative splicing (AS) between two reciprocal cross hybrids (BTF3 and TBF3), which were obtained from the self-crossing of respective reciprocal cross hybrids of M. amblycephala (2n = 48) × C. alburnus (2n = 48) [20, 21]
In this work, we focused on the changes of mRNA expression and AS related to maternal effects in the two reciprocal cross hybrids
Summary
Maternal effects contribute to adaptive significance for shaping various phenotypes of many traits. The maternal influence is generally in the form of maternal messenger RNAs that are partly made by maternal mitochondrial genes and shape the traits of hybrids including growth and starvation resistance, similar to that of maternal parents [2, 3]. Some studies reported that the maternal effects associated with methyltransferase led to maternal genomic imprinting [4, 5], which referred to the phenomenon where individuals expressed only one copy of the maternal or paternal allele. It refers to parent-of-origin-dependent gene expression or effects [6, 7]. Biologists have known about the importance of these effects for decades, their influences on expression diversity in offspring have not been fully elucidated
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