Science and Technology of Advanced Materials (Dec 2024)

Insights into the molecular response of Dioithona rigida to selenium nanoparticles: De novo transcriptome assembly and differential gene expression analysis

  • Vineeth Kumar Chirayil Meethalepurayil,
  • Karthick Velu,
  • Inbakandan Dhinakarasamy,
  • Lok Kumar Shrestha,
  • Katsuhiko Ariga,
  • Eldon Raj Rene,
  • Ganesh Kumar Vijayakumar,
  • Ravi Mani,
  • Aravind Radhakrishnapillai,
  • Stalin Dhas Tharmathass,
  • Sowmiya Prasad

DOI
https://doi.org/10.1080/14686996.2024.2379758

Abstract

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The impact of contaminants on Copepod sp. and its molecular response is least explored, despite their abundance and dominance among invertebrates in aquatic environments. In the present investigation, Dioithona rigida, a cyclopoid zooplankton, was treated with selenium nanoparticles (SeNPs) to highlight the associated biochemical changes, and the chronic exposure effects were recorded using transcriptomic analysis. It was found that, SeNPs were acutely toxic with a lethal dose 50% of 140.9 mg/L. The de novo assembled transcriptome of the copepod comprised of 81,814 transcripts, which underwent subsequent annotations to biological processes (23,378), cellular components (21,414), and molecular functions (31,015). Comparison of the expressed transcripts against the treated sample showed that a total of 186 transcript genes were differentially expressed among the D. rigida treatments (control and SeNPs). The significant downregulated genes are coding for DNA repair, DNA-templated DNA replication, DNA integration, oxidoreductase activity and transmembrane transport. Similarly, significant upregulations were observed in protein phosphatase binding and regulation of membrane repolarization. Understanding the impact of SeNPs on copepods is crucial not only for aquatic ecosystem health but also for human health, as these organisms play a key role in marine food webs, ultimately affecting the fish consumed by humans. By elucidating the molecular responses and potential toxicological effects of SeNPs, explored in this provides key insights on risk assessments and regulatory policies, ensuring the safety of seafood and protecting human health from the unintended consequences of nanoparticle pollution.

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