Inhibition of zygotic DNA repair in trout: transcriptome analysis of the offspring
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ABSTRACT: Zygotic repair of paternal genome is a key event after fertilization. Spermatozoa accumulate DNA single and double strand breaks during spermatogenesis and can suffer additional damage before fertilization by different factors, including cryopreservation. Fertilization with DNA damaged spermatozoa (DDS) is considered to promote implantation failures and abortions, but also long term effects in the progeny that could be related to a defective repair. Base excision repair (BER) pathway is considered the most active in zygotic DNA repair, but healthy oocytes contain enzymes for all repairing pathways. In this study the effects of the inhibition of the BER pathway in the zygote, were analyzed on the progeny obtained after fertilization with differentially DDS. Massive gene expression (37.394 transcripts) was analyzed after hatching using microarrays. Trout oocytes are easily fertilized with DDS and the high prolificacy allows obtaining live progeny even with a high rate of abortions. Results showed that DDS, even if increased the number of abortions, provided normal progeny. Nevertheless, the zygotic inhibition of PARP, upstream the BER pathway, result 810 differentially expressed genes (DEGs) after hatching. DEGs are related to DNA repair, apoptosis, telomere maintenance or growth and development, revealing a scenario of impaired DNA damage signalization and repair. Down-regulation of the apoptotic cascade was noticed, suggesting a selection of embryos tolerant to residual DNA damage during embryo development. Our results suggest a high zygotic capacity to repair paternal DNA damage and reveals changes in the progeny from defective repairing zygotes whose long term consequences should be deeply analyzed
ORGANISM(S): Oncorhynchus mykiss
PROVIDER: GSE52217 | GEO | 2014/10/29
SECONDARY ACCESSION(S): PRJNA227177
REPOSITORIES: GEO
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