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The relative significance of viral lysis and microzooplankton grazing as pathways of dimethylsulfoniopropionate (DMSP) cleavage: an Emiliania huxleyi culture study

The relative significance of viral lysis and microzooplankton grazing as pathways of dimethylsulfoniopropionate (DMSP) cleavage: an Emiliania huxleyi culture study
The relative significance of viral lysis and microzooplankton grazing as pathways of dimethylsulfoniopropionate (DMSP) cleavage: an Emiliania huxleyi culture study
Dimethylsulfoniopropionate (DMSP) cleavage was investigated during culture studies of grazing by the microzooplankter Oxyrrhis marina and viral lysis by Emiliania huxleyi virus 86 (EhV-86) on two axenic strains of E. huxleyi. The cleavage products of DMSP, dimethyl sulfide (DMS) and acrylic acid (AA), accumulated during viral infection of both strains, confirming that viral lysis of algae can lead directly to DMSP cleavage. AA and DMS accumulated in parallel with compromised E. huxleyi cells, indicating that DMSP cleavage occurred during the physical disruption of the infected cells. This is in agreement with the hypothesis that DMSP and DMSP lyase ([DL] the enzyme responsible for cleaving DMSP) are segregated in healthy or undamaged cells. During grazing, the concentrations of DMS and AA produced per eaten cell were an order of magnitude higher than the concentrations resulting from cell death caused by viral infection, suggesting that grazing is the quantitatively more significant pathway of DMS production in E. huxleyi. Levels of DL activity decreased in infected cultures to a minimum of 0.00065 fmol cell−1 min−1 as compared with an average of 0.09 fmol cell−1 min−1 in the control cultures, indicating that reduced DL activity in virally infected cells was responsible for the lower levels of DMSP cleavage observed during viral lysis.
0024-3590
1036-1045
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
Kadner, Susanne V.
c56dd95f-8173-4e16-b9bb-cffbbfce75fb
Darroch, Louise J.
de3d6e3e-b6df-4a9d-bb61-3497bed9c541
Wilson, William H.
6bdcec19-b16b-4699-af76-4115b15f6c81
Liss, Peter S.
5c4e6427-2ac0-4c92-afc4-2603b9aae0d0
Malin, Gillian
0fb678c8-34d1-4ebc-8327-d5478d84fb6e
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
Kadner, Susanne V.
c56dd95f-8173-4e16-b9bb-cffbbfce75fb
Darroch, Louise J.
de3d6e3e-b6df-4a9d-bb61-3497bed9c541
Wilson, William H.
6bdcec19-b16b-4699-af76-4115b15f6c81
Liss, Peter S.
5c4e6427-2ac0-4c92-afc4-2603b9aae0d0
Malin, Gillian
0fb678c8-34d1-4ebc-8327-d5478d84fb6e

Evans, Claire, Kadner, Susanne V., Darroch, Louise J., Wilson, William H., Liss, Peter S. and Malin, Gillian (2007) The relative significance of viral lysis and microzooplankton grazing as pathways of dimethylsulfoniopropionate (DMSP) cleavage: an Emiliania huxleyi culture study. Limnology and Oceanography, 52 (3), 1036-1045. (doi:10.4319/lo.2007.52.3.1036).

Record type: Article

Abstract

Dimethylsulfoniopropionate (DMSP) cleavage was investigated during culture studies of grazing by the microzooplankter Oxyrrhis marina and viral lysis by Emiliania huxleyi virus 86 (EhV-86) on two axenic strains of E. huxleyi. The cleavage products of DMSP, dimethyl sulfide (DMS) and acrylic acid (AA), accumulated during viral infection of both strains, confirming that viral lysis of algae can lead directly to DMSP cleavage. AA and DMS accumulated in parallel with compromised E. huxleyi cells, indicating that DMSP cleavage occurred during the physical disruption of the infected cells. This is in agreement with the hypothesis that DMSP and DMSP lyase ([DL] the enzyme responsible for cleaving DMSP) are segregated in healthy or undamaged cells. During grazing, the concentrations of DMS and AA produced per eaten cell were an order of magnitude higher than the concentrations resulting from cell death caused by viral infection, suggesting that grazing is the quantitatively more significant pathway of DMS production in E. huxleyi. Levels of DL activity decreased in infected cultures to a minimum of 0.00065 fmol cell−1 min−1 as compared with an average of 0.09 fmol cell−1 min−1 in the control cultures, indicating that reduced DL activity in virally infected cells was responsible for the lower levels of DMSP cleavage observed during viral lysis.

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More information

Published date: 1 May 2007
Related URLs:
Organisations: Ocean Biochemistry & Ecosystems, National Oceanography Centre

Identifiers

Local EPrints ID: 406857
URI: http://eprints.soton.ac.uk/id/eprint/406857
DOI: doi:10.4319/lo.2007.52.3.1036
ISSN: 0024-3590
PURE UUID: 9df8f8a4-a186-4a29-9ad3-ebb6c6f7c1d4

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Date deposited: 25 Mar 2017 02:01
Last modified: 15 Mar 2024 12:56

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Contributors

Author: Claire Evans
Author: Susanne V. Kadner
Author: Louise J. Darroch
Author: William H. Wilson
Author: Peter S. Liss
Author: Gillian Malin

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