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Research Publications: UM-SG-RS-2003-01
Title:
Cell-surface proteolytic activity of photosynthetic dinoflagellates.Year:
2003Authors:
Stoecker, DK; Gustafson, DESource:
Aquatic Microbial Ecology 30 ( 2 ) : 175 - 183DOI:
10.3354/ame030175Abstract:
We used the artificial substrate L-leucine 7-amido-4-methyl-coumarin (Leu-AMC) to measure leucine aminopeptidase (LAP) of dinoflagellates. Axenic cultures of Alexandrium tamarense, Heterocapsa triquetra and Prorocentrum minimum had considerable LAP. associated with the cell surface. In non-axenic cultures of Akashiwo, sanguinea, Gonyaulax grindleyi, Gyrodinium uncatenum, Karlodinium micrum and P. minimum, 60 to 99% of the total LAP activity was found in the > 5 mum fraction, indicating association with the dinoflagellates rather than with bacteria. At 20°C, estimated activity ranged from 0.04 pmol cell-1 h-1 in the smallest species, K. micrum, to 2.56 pmol cell-1 h-1 in the largest species, G. grindleyi. Activity per cell could be predicted from cell size. During a mixed species dinoflagellate bloom in the Choptank River, a tributary of the Chesapeake Bay, total LAP activity was positively correlated with dinoflagellate concentration. In 'red-water' samples, up to 76% of LAP activity was in the > 2 mum fraction. We calculate that in red-water events, dinoflagellates may account for 50% or more of the in situ LAP activity. Cell-surf ace proteases may play a role in nutrition of mixotrophic dinoflagellates by providing amino acids for assimilation. Alternatively, released amino acids may be degraded by cell-surface amino acid oxidases to provide ammonium which can be taken up as a source of nitrogen.Open Access:
This article is freely available online. You can use the DOI number to find it through the journal's website or through a search engine.Maryland Sea Grant Topic(s):
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Leone Yisrael is a cephalopod-loving scuba diver, cook, and loves to try new activities. She conducts genetic analysis and fieldwork at the Smithsonian Environmental Research Center through the Coastal Disease Ecology Lab.
Featured Research Project
Developing a habitat model for mysids, an important link in Chesapeake Bay food webs
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