Transcriptomic response of the Crassostrea virginica gonad after exposure to a water-accommodation fraction of hydrocarbons and the potential implications in reproduction

The Crassostrea virginica oyster has biological and economic importance in the Gulf of Mexico, an area with a high extraction and production of hydrocarbons. Exposure to hydrocarbons affects the reproductive processes in bivalves. In C. virginica, the effect of hydrocarbons on the gonad of the undif...

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Bibliographic Details
Published in:Marine genomics 2019-02, Vol.43, p.9-18
Main Authors: Tapia-Morales, S., López-Landavery, E.A., Giffard-Mena, I., Ramírez-Álvarez, N., Gómez-Reyes, R.J.E., Díaz, F., Galindo-Sánchez, C.E.
Format: Article
Language:English
Subjects:
Animals
Crassostrea - drug effects
Crassostrea - genetics
Crassostrea virginica
Eastern oyster
Environmental Exposure - adverse effects
Gene Expression Profiling
gonadal maturation
Gonads - drug effects
Gonads - metabolism
Gulf of Mexico
hydrocarbons
Laguna Madre
Mexico
Polycyclic Aromatic Hydrocarbons - adverse effects
Reproduction - drug effects
RNA-Seq
Transcriptome - drug effects
Water Pollutants, Chemical - adverse effects
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Summary:The Crassostrea virginica oyster has biological and economic importance in the Gulf of Mexico, an area with a high extraction and production of hydrocarbons. Exposure to hydrocarbons affects the reproductive processes in bivalves. In C. virginica, the effect of hydrocarbons on the gonad of the undifferentiated organism has not been evaluated to determine the possible damage during the maturation process. To evaluate this effect, RNA-seq data was generated from C. virginica gonads exposed to a 200 μg/L of hydrocarbons at different exposure times (7, 14 and 21 days) and a control treatment (without hydrocarbons). The analysis of the gonad transcriptome showed the negative effect of hydrocarbons on maturation, with a sub-expression of 22 genes involved in different stages of this process. Additionally, genes in the immune system were down-regulated, which may indicate that exposure to hydrocarbons causes immunosuppression in bivalves. A group of oxidative stress genes was also reduced. These data contribute to a better understanding of the effect of hydrocarbons on the reproductive process in bivalves and, at the same time, allow us to identify possible biomarkers associated with hydrocarbon contamination in the gonad of C. virginica.
ISSN:1874-7787
1876-7478
DOI:10.1016/j.margen.2018.10.004