Diel rhythmicity in amino acid uptake by Prochlorococcus

Mary, I; Garczarek, LG; Tarran, GA; Kolowrat, CK; Terry, MJ; Scanlan, DJ; Burkill, PH; Zubkov, MV. 2008 Diel rhythmicity in amino acid uptake by Prochlorococcus. Environmental Microbiology, 10 (8). 2124-2131. 10.1111/j.1462-2920.2008.01633.x

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Official URL: http://dx.doi.org/10.1111/j.1462-2920.2008.01633.x

Abstract/Summary

The marine cyanobacterium Prochlorococcus, the most abundant phototrophic organism on Earth, numerically dominates the phytoplankton in nitrogen (N)-depleted oceanic gyres. Alongside inorganic N sources such as nitrite and ammonium, natural populations of this genus also acquire organic N, specifically amino acids. Here, we investigated using isotopic tracer and flow cytometric cell sorting techniques whether amino acid uptake by Prochlorococcus is subject to a diel rhythmicity, and if so, whether this was linked to a specific cell cycle stage. We observed, in contrast to diurnally similar methionine uptake rates by Synechococcus cells, obvious diurnal rhythms in methionine uptake by Prochlorococcus cells in the tropical Atlantic. These rhythms were confirmed using reproducible cyclostat experiments with a light-synchronized axenic Prochlorococcus (PCC9511 strain) culture and S-35-methionine and H-3-leucine tracers. Cells acquired the tracers at lower rates around dawn and higher rates around dusk despite > 10(4) times higher concentration of ammonium in the medium, presumably because amino acids can be directly incorporated into protein. Leucine uptake rates by cells in the S+G(2) cell cycle stage were consistently 2.2 times higher than those of cells at the G(1) stage. Furthermore, S+G(2) cells upregulated amino acid uptake 3.5 times from dawn to dusk to boost protein synthesis prior to cell division. Because Prochlorococcus populations can account from 13% at midday to 42% at dusk of total microbial uptake of methionine and probably of other amino acids in N-depleted oceanic waters, this genus exerts diurnally variable, strong competitive pressure on other bacterioplankton populations.

Item Type: Publication - Article
Additional Information. Not used in RCUK Gateway to Research.: non-CPR
Divisions: Plymouth Marine Laboratory > Other (PML)
Sir Alister Hardy Foundation for Ocean Science > Other (SAHFOS)
Depositing User: Miss Gemma Brice
Date made live: 26 Mar 2014 14:09
Last Modified: 06 Jun 2017 16:11
URI: http://plymsea.ac.uk/id/eprint/5841

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