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Hormesis effects of phosphorus on the viability of Chlorella regularis cells under nitrogen limitation.


ABSTRACT: Background:Phosphorus (P) is an essential element of microalgae, which is either required for anabolism or for energy metabolism. When employing a nitrogen limitation strategy to trigger microalgal intracellular lipid accumulation, P supplementation was always simultaneously applied to compensate for the accompanied growth inhibition. Results:This study identified that P exerts hormesis effects on microalgae. Slight excess of P (??45 mg L-1) under nitrogen limitation condition stimulated the cell growth of Chlorella regularis and achieved a 10.2% biomass production increase. This also improved mitochondrial activity by 25.0% compared to control (P?=?5.4 mg L-1). The lipid productivity reached 354.38 mg (L d)-1, which increased by 39.3% compared to control. Such an improvement was caused by the intracellularly stored polyphosphate energy pool. However, large excess of P (250 mg L-1) inhibited the cell growth by 38.8% and mitochondrial activity decreased by 71.3%. C. regularis cells showed obvious poisoning status, such as enlarged size, plasmolysis, deformation of cell walls, and disorganization of organelles. This is probably because the over-accumulated P protonated the amide-N and disrupted membrane permeability. Conclusions:These results provide new insight into the roles of P in microalgae lipid production: P does not always play a positive role under nitrogen limitation conditions.

SUBMITTER: Fu L 

PROVIDER: S-EPMC6513516 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Hormesis effects of phosphorus on the viability of <i>Chlorella regularis</i> cells under nitrogen limitation.

Fu Liang L   Li Qingcheng Q   Yan Ge G   Zhou Dandan D   Crittenden John C JC  

Biotechnology for biofuels 20190513


<h4>Background</h4>Phosphorus (P) is an essential element of microalgae, which is either required for anabolism or for energy metabolism. When employing a nitrogen limitation strategy to trigger microalgal intracellular lipid accumulation, P supplementation was always simultaneously applied to compensate for the accompanied growth inhibition.<h4>Results</h4>This study identified that P exerts hormesis effects on microalgae. Slight excess of P (≤ 45 mg L<sup>-1</sup>) under nitrogen limitation co  ...[more]

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