Cell-growth gene expression reveals a direct fitness cost of grazer-induced toxin production in red tide dinoflagellate prey

Park, Gihong; Dam, Hans G.

doi:10.1098/rspb.2020.2480

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i

Cell-growth gene expression reveals a direct fitness cost of grazer-induced toxin production in red tide dinoflagellate prey

2021
By Park, Gihong ; Dam, Hans G.
Source: Proceedings of the Royal Society B: Biological Sciences, 288(1944), 20202480

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Journal Title:

Proceedings of the Royal Society B: Biological Sciences
Personal Author:

Park, Gihong ; Dam, Hans G.

Park, Gihong ; Dam, Hans G. Less -
NOAA Program & Office:

NOS (National Ocean Service)
Description:

Induced prey defences against consumers are conspicuous in microbes, plants and animals. In toxigenic prey, a defence fitness cost should result in a trade-off between defence expression and individual growth. Yet, previous experimental work has failed to detect such induced defence cost in toxigenic phytoplankton. We measured a potential direct fitness cost of grazer-induced toxin production in a red tide dinoflagellate prey using relative gene expression (RGE) of a mitotic cyclin gene (cyc), a marker that correlates to cell growth. This approach disentangles the reduction in cell growth from the defence cost from the mortality by consumers. Treatments where the dinoflagellateAlexandrium catenellawere exposed to copepod grazers significantly increased toxin production while decreasing RGE ofcyc, indicating a defence-growth trade-off. The defence fitness cost represents a mean decrease of the cell growth rate of 32%. Simultaneously, we estimate that the traditional method to measure mortality loss by consumers is overestimated by 29%. The defence appears adaptive as the prey population persists in quasi steady state after the defence is induced. Our approach provides a novel framework to incorporate the fitness cost of defence in toxigenic prey–consumer interaction models.
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General Agricultural And Biological Sciences General Biochemistry, Genetics And Molecular Biology General Environmental Science General Immunology And Microbiology General Medicine
Source:

Proceedings of the Royal Society B: Biological Sciences, 288(1944), 20202480
DOI:

https://doi.org/10.1098/rspb.2020.2480
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0962-8452;1471-2954;
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PDF
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The Royal Society
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Journal Article
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Grant no. NA18NOS4780173
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urn:sha256:bafebe0fa48cea905d4be7d4caa7be48d150637b4c207f9fa8a3fbf7d98aa4d0
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Cell-growth gene expression reveals a direct fitness cost of grazer-induced toxin production in red tide dinoflagellate prey

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