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| Format: | Artículo científico |
| Sprache: | en |
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Genes
2025
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| Online-Zugang: | https://pubmed.ncbi.nlm.nih.gov/40725459/ |
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- Transcriptome Profiling Reveals Differences Between Rainbow Trout Eggs with High and Low Potential for Gynogenesis. Ocalewicz, Konrad Gurgul, Artur Dobosz, Stefan Jasielczuk, Igor Szmatoła, Tomasz Semik-Gurgul, Ewelina Kucharski, Mirosław Rożyński, Rafał Animals Oncorhynchus mykiss Female Transcriptome Gene Expression Profiling Ovum Oogenesis Male Gene Expression Regulation, Developmental Haploidy Fish eggs activated with UV-irradiated spermatozoa and exposed to the High Hydrostatic Pressure (HHP) shock to inhibit first cell cleavage develop as gynogenetic Doubled Haploids (DHs) that are fully homozygous individuals. Due to the expression of the recessive genes and side effects of the gamete treatment, survival of fish DHs is rather low, and most of the mitotic gynogenotes die before hatching. Nevertheless, as maternal gene products provided during oogenesis control the initial steps of embryonic development in fish, a maternal effect on the survival of gynogenotes needs to be also considered to affect efficiency of gynogenesis. Thus, the objective of this research was to apply an RNA-seq approach to discriminate transcriptional differences between rainbow trout () eggs with varied abilities to develop after gynogenetic activation. Gynogenetic development of rainbow trout was induced in eggs originated from eight females. Maternal RNA was isolated and sequenced using RNA-Seq approach. Survival rates of gynogenotes and transcriptome profiles of eggs from different females were compared. RNA-seq analysis revealed substantial transcriptional differences between eggs originated from different females, and a significant correlation between the ability of the eggs for gynogenesis and their transcriptomic profiles was observed. Genes whose expression was altered in eggs with the increased survival of DHs were mostly associated (GO BP) with the following biological processes: development, cell differentiation, cell migration and protein transport. Some of the genes are involved in the oocyte maturation (), apoptosis (, ) and early embryogenesis, including maternal to zygotic transition (). Inter-individual variation of the transcription of maternal genes correlated with the competence of eggs for gynogenesis suggest that at least part of the mortality of the rainbow trout DHs appear before activation of zygotic genome and expression of the lethal recessive traits.