DNA methylation correlates with transcriptional noise in response to elevated pCO₂ in the eastern oyster (Crassostrea virginica)

Authors

Yaamini R. Venkataraman, Santa Clara UniversityFollow
Ariana S. Huffmyer
Samuel J. White
Alan Downey-Wall
Jill Ashey
Danielle M. Becker
Zachary Bengtsson
Hollie M. Putnam
Emma Strand
Javier A. Rodríguez-Casariego
Shelly A. Wanamaker
Katie E. Lotterhos
Steven B. Roberts

Document Type

Article

Publication Date

Fall 2025

Publisher

Oxford University Press

Abstract

Ocean acidification significantly affects marine calcifiers like oysters, warranting the study of molecular mechanisms like DNA methylation that contribute to adaptive plasticity in response to environmental change. However, a consensus has not been reached on the extent to which methylation modules gene expression, and in turn plasticity, in marine invertebrates. In this study, we investigated the impact of pCO₂ on gene expression and DNA methylation in the eastern oyster, Crassostrea virginica. After a 30-day exposure to control (572 ppm) or elevated pCO₂ (2827 ppm), whole-genome bisulfite sequencing (WGBS) and RNA-seq data were generated from adult female gonad tissue and male sperm samples. Although differentially methylated loci (DMLs) were identified in females (89) and males (2916), there were no differentially expressed genes and only one differentially expressed transcript in females. However, gene body methylation impacted other forms of gene activity in sperm, such as the maximum number of transcripts expressed per gene and changes in the predominant transcript expressed. Elevated pCO₂ exposure increased gene expression variability (transcriptional noise) in males but decreased noise in females, suggesting a sex-specific role of methylation in gene expression regulation. Functional annotation of genes with changes in transcript-level expression or containing DMLs revealed several enriched biological processes potentially involved in elevated pCO₂ response, including apoptotic pathways and signal transduction, as well as reproductive functions. Taken together, these results suggest that DNA methylation may regulate gene expression variability to maintain homeostasis in elevated pCO₂ conditions and could play a key role in environmental resilience in marine invertebrates.

Comments

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Recommended Citation

Venkataraman, Y. R., Huffmyer, A. S., White, S. J., Downey-Wall, A., Ashey, J., Becker, D. M., Bengtsson, Z., Putnam, H. M., Strand, E., Rodríguez-Casariego, J. A., Wanamaker, S. A., Lotterhos, K. E., & Roberts, S. B. (2024). DNA methylation correlates with transcriptional noise in response to elevated pCO2 in the eastern oyster (Crassostrea virginica). Environmental Epigenetics, 10(1), dvae018. https://doi.org/10.1093/eep/dvae018