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Assessing amino acid uptake by phototrophic nanoflagellates in nonaxenic cultures using flow cytometric sorting

Assessing amino acid uptake by phototrophic nanoflagellates in nonaxenic cultures using flow cytometric sorting
Assessing amino acid uptake by phototrophic nanoflagellates in nonaxenic cultures using flow cytometric sorting
Biologically available concentrations of individual dissolved amino acids in the open ocean are generally <1 nM. Despite this, the microbial turnover of amino acids is usually measured in hours indicating high demand. It is thought that the majority of uptake is due to bacterioplankton, although protists, particularly phototrophic protists, are also expected to take up amino acids. In order to assess the ability of protists to compete with prokaryotes for amino acids at subnanomolar concentrations, we examined the direct uptake of 3H-leucine by phototrophic nanoflagellates (prasinophytes, pelagophytes and trebouxiophytes) and by associated bacteria using flow cytometric cell sorting. In contrast to 3H-leucine-assimilating bacterial copopulations, none of the six studied nanoflagellates showed measurable direct uptake of 3H-leucine, suggesting that the studied phototrophic protists were unable to utilize dissolved 3H-leucine at natural oceanic concentrations. More practically, the flow-sorting technique allowed rapid and unequivocal differentiation of organic nitrogen uptake between prokaryotic cells and eukaryotic cells in mixed microbial populations, reducing the need to establish and maintain axenic algal cultures.
plastidic protists, isotopic tracer, organic nitrogen, algal osmotrophy
0378-1097
166-173
Hartmann, Manuela
5b175765-fde7-40dc-bcd6-83248285ef86
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Martin, Adrian P.
9d0d480d-9b3c-44c2-aafe-bb980ed98a6d
Scanlan, David J.
748c7970-2e58-4a46-82ad-0138f41bd713
Burkill, Peter H.
511b68df-1664-418f-baa1-b1075f1e1fed
Hartmann, Manuela
5b175765-fde7-40dc-bcd6-83248285ef86
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Martin, Adrian P.
9d0d480d-9b3c-44c2-aafe-bb980ed98a6d
Scanlan, David J.
748c7970-2e58-4a46-82ad-0138f41bd713
Burkill, Peter H.
511b68df-1664-418f-baa1-b1075f1e1fed

Hartmann, Manuela, Zubkov, Mikhail V., Martin, Adrian P., Scanlan, David J. and Burkill, Peter H. (2009) Assessing amino acid uptake by phototrophic nanoflagellates in nonaxenic cultures using flow cytometric sorting. FEMS Microbiology Letters, 298 (2), 166-173. (doi:10.1111/j.1574-6968.2009.01715.x).

Record type: Article

Abstract

Biologically available concentrations of individual dissolved amino acids in the open ocean are generally <1 nM. Despite this, the microbial turnover of amino acids is usually measured in hours indicating high demand. It is thought that the majority of uptake is due to bacterioplankton, although protists, particularly phototrophic protists, are also expected to take up amino acids. In order to assess the ability of protists to compete with prokaryotes for amino acids at subnanomolar concentrations, we examined the direct uptake of 3H-leucine by phototrophic nanoflagellates (prasinophytes, pelagophytes and trebouxiophytes) and by associated bacteria using flow cytometric cell sorting. In contrast to 3H-leucine-assimilating bacterial copopulations, none of the six studied nanoflagellates showed measurable direct uptake of 3H-leucine, suggesting that the studied phototrophic protists were unable to utilize dissolved 3H-leucine at natural oceanic concentrations. More practically, the flow-sorting technique allowed rapid and unequivocal differentiation of organic nitrogen uptake between prokaryotic cells and eukaryotic cells in mixed microbial populations, reducing the need to establish and maintain axenic algal cultures.

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Published date: September 2009
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Keywords: plastidic protists, isotopic tracer, organic nitrogen, algal osmotrophy

Identifiers

Local EPrints ID: 68980
URI: http://eprints.soton.ac.uk/id/eprint/68980
DOI: doi:10.1111/j.1574-6968.2009.01715.x
ISSN: 0378-1097
PURE UUID: 3737d2b4-876a-46bc-900f-cfce1a1410ba

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Date deposited: 12 Oct 2009
Last modified: 13 Mar 2024 19:15

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Contributors

Author: Manuela Hartmann
Author: Mikhail V. Zubkov
Author: Adrian P. Martin
Author: David J. Scanlan
Author: Peter H. Burkill

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