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      Depuration of tetrodotoxin and changes in bacterial communities in Pleurobranchea maculata adults and egg masses maintained in captivity

      Wood, Susanna A.; Casas, Margaux; Taylor, David I.; McNabb, Paul; Salvitti, Lauren R.; Ogilvie, Shaun; Cary, S. Craig
      DOI
       10.1007/s10886-012-0212-9
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      Wood, S. A., Casas, M., Taylor, D. I., McNabb, P., Salvitti, L., Ogilvie, S., & Cary, S. C. (2012). Depuration of tetrodotoxin and changes in bacterial communities in Pleurobranchea maculata adults and egg masses maintained in captivity. Journal of Chemical Ecology, 38(11), 1342-1350.
      Permanent Research Commons link: https://hdl.handle.net/10289/7065
      Abstract
      Depuration of tetrodotoxin (TTX) was investigated in adult grey side-gilled sea slugs, Pleurobranchaea maculata, maintained in captivity on a TTX-free diet. Three adults were harvested every 21 days for 126 days, and TTX concentrations were measured in organs/tissues and egg masses. Automated rRNA intergenic spacer analysis (ARISA) was used to investigate bacterial community structure in selected samples. Linear modeling of adult data demonstrated a decline (P < 0.001) in average total TTX concentrations over time. Temporal data obtained from a wild population showed similar depuration rates, indicating that once adults reach a certain size, or sexual maturity, TTX is no longer produced or acquired substantially. Depuration rates differed among organs, with concentrations in the heart declining the fastest. The gonads had the slowest and least significant depuration rate indicating, at most, weak depuration of this tissue. There was a strong correlation (R (2) = 0.66) between TTX concentrations in the first-laid egg masses and total TTX in the corresponding adult. These data suggest that adult P. maculata transfer TTX to their offspring, and presumably that functions as a chemical defense. ARISA data showed a shift in bacterial community structure within 3 weeks of introduction to captivity. Based on the combined data, the exact origin of TTX in P. maculata is unclear, with evidence both in favor and against a dietary source, and endogenous or bacterial production.
      Date
      2012
      Type
      Journal Article
      Publisher
      Springer-Verlag
      Collections
      • Science and Engineering Papers [3122]
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